# STOCKHOLM 1.0 #=GF ID 3.30.470.20/FF/31257 #=GF DE ATP-citrate synthase subunit 2 #=GF AC 3.30.470.20/FF/31257 #=GF TP FunFam #=GF DR CATH: 4.2 #=GF DR DOPS: 91.654 #=GS 3mwdA01/1-30_111-242 AC P53396 #=GS 3mwdA01/1-30_111-242 OS Homo sapiens #=GS 3mwdA01/1-30_111-242 DE ATP-citrate synthase #=GS 3mwdA01/1-30_111-242 DR CATH; 3mwd; A:2-30; A:111-242; #=GS 3mwdA01/1-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS 3mwdA01/1-30_111-242 DR GO; GO:0003878; GO:0005515; GO:0005524; GO:0005576; GO:0005654; GO:0005829; GO:0005886; GO:0006085; GO:0006101; GO:0006107; GO:0006695; GO:0008610; GO:0016020; GO:0031325; GO:0035578; GO:0043312; GO:0046949; GO:0070062; GO:1904813; #=GS 3mwdA01/1-30_111-242 DR EC; 2.3.3.8; #=GS 3mweA01/1-30_111-242 AC P53396 #=GS 3mweA01/1-30_111-242 OS Homo sapiens #=GS 3mweA01/1-30_111-242 DE ATP-citrate synthase #=GS 3mweA01/1-30_111-242 DR CATH; 3mwe; A:2-30; A:111-242; #=GS 3mweA01/1-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS 3mweA01/1-30_111-242 DR GO; GO:0003878; GO:0005515; GO:0005524; GO:0005576; GO:0005654; GO:0005829; GO:0005886; GO:0006085; GO:0006101; GO:0006107; GO:0006695; GO:0008610; GO:0016020; GO:0031325; GO:0035578; GO:0043312; GO:0046949; GO:0070062; GO:1904813; #=GS 3mweA01/1-30_111-242 DR EC; 2.3.3.8; #=GS Q7KN85/5-30_111-243 AC Q7KN85 #=GS Q7KN85/5-30_111-243 OS Drosophila melanogaster #=GS Q7KN85/5-30_111-243 DE ATP-citrate synthase #=GS Q7KN85/5-30_111-243 DR GENE3D; 0f215e06cfbc76827f06dfe941d7b3ef/5-30_111-243; #=GS Q7KN85/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila melanogaster; #=GS Q7KN85/5-30_111-243 DR GO; GO:0003878; GO:0010906; #=GS Q7KN85/5-30_111-243 DR EC; 2.3.3.8; #=GS E2QCF1/5-30_111-243 AC E2QCF1 #=GS E2QCF1/5-30_111-243 OS Drosophila melanogaster #=GS E2QCF1/5-30_111-243 DE ATP-citrate synthase #=GS E2QCF1/5-30_111-243 DR GENE3D; 74e408829a110c1a082b4553d55b7230/5-30_111-243; #=GS E2QCF1/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila melanogaster; #=GS E2QCF1/5-30_111-243 DR GO; GO:0003878; GO:0010906; #=GS E2QCF1/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A0B4LFH8/5-30_111-243 AC A0A0B4LFH8 #=GS A0A0B4LFH8/5-30_111-243 OS Drosophila melanogaster #=GS A0A0B4LFH8/5-30_111-243 DE ATP-citrate synthase #=GS A0A0B4LFH8/5-30_111-243 DR GENE3D; b07b67823267ca42a509210b03c1143a/5-30_111-243; #=GS A0A0B4LFH8/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila melanogaster; #=GS A0A0B4LFH8/5-30_111-243 DR GO; GO:0003878; GO:0010906; #=GS A0A0B4LFH8/5-30_111-243 DR EC; 2.3.3.8; #=GS Q6AWP8/5-30_111-243 AC Q6AWP8 #=GS Q6AWP8/5-30_111-243 OS Drosophila melanogaster #=GS Q6AWP8/5-30_111-243 DE ATP-citrate synthase #=GS Q6AWP8/5-30_111-243 DR GENE3D; c0c5b68d3f6897f92d2b41f05b6ab201/5-30_111-243; #=GS Q6AWP8/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila melanogaster; #=GS Q6AWP8/5-30_111-243 DR EC; 2.3.3.8; #=GS Q3TED3/5-30_111-242 AC Q3TED3 #=GS Q3TED3/5-30_111-242 OS Mus musculus #=GS Q3TED3/5-30_111-242 DE ATP-citrate synthase #=GS Q3TED3/5-30_111-242 DR GENE3D; fe2a6f7a986d680ac8b463c958bb9c78/5-30_111-242; #=GS Q3TED3/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Mus; Mus; Mus musculus; #=GS Q3TED3/5-30_111-242 DR EC; 2.3.3.8; #=GS P90731/5-29_110-253 AC P90731 #=GS P90731/5-29_110-253 OS Caenorhabditis elegans #=GS P90731/5-29_110-253 DE ATP-citrate synthase #=GS P90731/5-29_110-253 DR GENE3D; e20f1e0b37b138611ca6f602f3fe8197/5-29_110-253; #=GS P90731/5-29_110-253 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis elegans; #=GS P90731/5-29_110-253 DR EC; 2.3.3.8; #=GS P53585/5-29_110-253 AC P53585 #=GS P53585/5-29_110-253 OS Caenorhabditis elegans #=GS P53585/5-29_110-253 DE Probable ATP-citrate synthase #=GS P53585/5-29_110-253 DR GENE3D; 02c41a6466765047c53299ddf95c6733/5-29_110-253; #=GS P53585/5-29_110-253 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis elegans; #=GS P53585/5-29_110-253 DR EC; 2.3.3.8; #=GS A0A088ARD2/5-29_110-242 AC A0A088ARD2 #=GS A0A088ARD2/5-29_110-242 OS Apis mellifera #=GS A0A088ARD2/5-29_110-242 DE ATP-citrate synthase #=GS A0A088ARD2/5-29_110-242 DR GENE3D; 062ec513925b53c038afe5dc4e0993cc/5-29_110-242; #=GS A0A088ARD2/5-29_110-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Apoidea; Apidae; Apinae; Apini; Apis; Apis mellifera; #=GS A0A088ARD2/5-29_110-242 DR EC; 2.3.3.8; #=GS Q7Q0U7/5-29_110-241 AC Q7Q0U7 #=GS Q7Q0U7/5-29_110-241 OS Anopheles gambiae #=GS Q7Q0U7/5-29_110-241 DE ATP-citrate synthase #=GS Q7Q0U7/5-29_110-241 DR GENE3D; 19d07d201517187e0c3e7bde4eec9699/5-29_110-241; #=GS Q7Q0U7/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles gambiae; #=GS Q7Q0U7/5-29_110-241 DR EC; 2.3.3.8; #=GS D2A5W6/5-29_110-241 AC D2A5W6 #=GS D2A5W6/5-29_110-241 OS Tribolium castaneum #=GS D2A5W6/5-29_110-241 DE ATP-citrate synthase #=GS D2A5W6/5-29_110-241 DR GENE3D; a2a989ca077bc47014eefcd83b8e10a4/5-29_110-241; #=GS D2A5W6/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Cucujiformia; Tenebrionoidea; Tenebrionidae; Tribolium; Tribolium castaneum; #=GS D2A5W6/5-29_110-241 DR EC; 2.3.3.8; #=GS A0A067QJK7/5-29_110-241 AC A0A067QJK7 #=GS A0A067QJK7/5-29_110-241 OS Zootermopsis nevadensis #=GS A0A067QJK7/5-29_110-241 DE ATP-citrate synthase #=GS A0A067QJK7/5-29_110-241 DR GENE3D; 7d71d4bbf6b0eb58b37a73a8923afbc5/5-29_110-241; #=GS A0A067QJK7/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Polyneoptera; Blattodea; Blattoidea; Termopsidae; Termopsinae; Termopsini; Zootermopsis; Zootermopsis nevadensis; #=GS A0A067QJK7/5-29_110-241 DR EC; 2.3.3.8; #=GS T1ELJ3/5-30_111-242 AC T1ELJ3 #=GS T1ELJ3/5-30_111-242 OS Helobdella robusta #=GS T1ELJ3/5-30_111-242 DE ATP-citrate synthase #=GS T1ELJ3/5-30_111-242 DR GENE3D; 86fb51794170132ec7b099c1d2cd761b/5-30_111-242; #=GS T1ELJ3/5-30_111-242 DR ORG; Eukaryota; Metazoa; Annelida; Clitellata; Hirudinea; Rhynchobdellida; Glossiphoniidae; Helobdella; Helobdella robusta; #=GS T1ELJ3/5-30_111-242 DR EC; 2.3.3.8; #=GS V3ZZR7/5-27_108-239 AC V3ZZR7 #=GS V3ZZR7/5-27_108-239 OS Lottia gigantea #=GS V3ZZR7/5-27_108-239 DE ATP-citrate synthase #=GS V3ZZR7/5-27_108-239 DR GENE3D; 6150248fab79ed81709f22b3f358b4e5/5-27_108-239; #=GS V3ZZR7/5-27_108-239 DR ORG; Eukaryota; Metazoa; Mollusca; Gastropoda; Lottioidea; Lottiidae; Lottia; Lottia gigantea; #=GS V3ZZR7/5-27_108-239 DR EC; 2.3.3.8; #=GS E0VNM4/5-28_109-239 AC E0VNM4 #=GS E0VNM4/5-28_109-239 OS Pediculus humanus corporis #=GS E0VNM4/5-28_109-239 DE ATP-citrate synthase #=GS E0VNM4/5-28_109-239 DR GENE3D; 4562b3bb634ceda42caf6ad3e0f9f1d7/5-28_109-239; #=GS E0VNM4/5-28_109-239 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Psocodea; Phthiraptera; Anoplura; Pediculidae; Pediculus; Pediculus humanus; Pediculus humanus corporis; #=GS E0VNM4/5-28_109-239 DR EC; 2.3.3.8; #=GS A7SFA3/5-28_109-240 AC A7SFA3 #=GS A7SFA3/5-28_109-240 OS Nematostella vectensis #=GS A7SFA3/5-28_109-240 DE ATP-citrate synthase #=GS A7SFA3/5-28_109-240 DR GENE3D; 42bc8540abffae817b0e3abc1c993e30/5-28_109-240; #=GS A7SFA3/5-28_109-240 DR ORG; Eukaryota; Metazoa; Cnidaria; Anthozoa; Hexacorallia; Actiniaria; Edwardsiidae; Nematostella; Nematostella vectensis; #=GS A7SFA3/5-28_109-240 DR EC; 2.3.3.8; #=GS I1FX37/4-28_118-248 AC I1FX37 #=GS I1FX37/4-28_118-248 OS Amphimedon queenslandica #=GS I1FX37/4-28_118-248 DE ATP-citrate synthase #=GS I1FX37/4-28_118-248 DR GENE3D; 44520a2540564ced4e15c4c669c2b96f/4-28_118-248; #=GS I1FX37/4-28_118-248 DR ORG; Eukaryota; Metazoa; Porifera; Demospongiae; Heteroscleromorpha; Haplosclerida; Niphatidae; Amphimedon; Amphimedon queenslandica; #=GS I1FX37/4-28_118-248 DR EC; 2.3.3.8; #=GS T1KBC0/5-27_108-238 AC T1KBC0 #=GS T1KBC0/5-27_108-238 OS Tetranychus urticae #=GS T1KBC0/5-27_108-238 DE Uncharacterized protein #=GS T1KBC0/5-27_108-238 DR GENE3D; 513d4c7bdb60077961f3dc082058698f/5-27_108-238; #=GS T1KBC0/5-27_108-238 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Acariformes; Prostigmata; Eleutherengona; Tetranychoidea; Tetranychidae; Tetranychus; Tetranychus urticae; #=GS E9H778/5-29_110-243 AC E9H778 #=GS E9H778/5-29_110-243 OS Daphnia pulex #=GS E9H778/5-29_110-243 DE Putative uncharacterized protein #=GS E9H778/5-29_110-243 DR GENE3D; 10a77336cbe3985f8200c74d91f752f0/5-29_110-243; #=GS E9H778/5-29_110-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia pulex; #=GS P16638/5-30_111-242 AC P16638 #=GS P16638/5-30_111-242 OS Rattus norvegicus #=GS P16638/5-30_111-242 DE ATP-citrate synthase #=GS P16638/5-30_111-242 DR GENE3D; ed4eb68b18f4939649f22f2f4778f343/5-30_111-242; #=GS P16638/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Rattus; Rattus norvegicus; #=GS P16638/5-30_111-242 DR GO; GO:0003878; GO:0006084; GO:0006085; GO:0006101; GO:0006629; GO:0006633; GO:0008610; #=GS P16638/5-30_111-242 DR EC; 2.3.3.8; #=GS Q32PF2/5-30_111-242 AC Q32PF2 #=GS Q32PF2/5-30_111-242 OS Bos taurus #=GS Q32PF2/5-30_111-242 DE ATP-citrate synthase #=GS Q32PF2/5-30_111-242 DR GENE3D; 036286a51f8c8cbef887acce7fde9048/5-30_111-242; #=GS Q32PF2/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS Q32PF2/5-30_111-242 DR GO; GO:0008610; #=GS Q32PF2/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A060W7T9/5-30_111-242 AC A0A060W7T9 #=GS A0A060W7T9/5-30_111-242 OS Oncorhynchus mykiss #=GS A0A060W7T9/5-30_111-242 DE ATP-citrate synthase #=GS A0A060W7T9/5-30_111-242 DR GENE3D; afd2ca7e86a3859840623ab3a1634844/5-30_111-242; #=GS A0A060W7T9/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Salmoniformes; Salmonidae; Salmoninae; Oncorhynchus; Oncorhynchus mykiss; #=GS A0A060W7T9/5-30_111-242 DR GO; GO:0016829; #=GS A0A060W7T9/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8A0Y5/5-30_111-242 AC A0A1A8A0Y5 #=GS A0A1A8A0Y5/5-30_111-242 OS Nothobranchius furzeri #=GS A0A1A8A0Y5/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8A0Y5/5-30_111-242 DR GENE3D; 0104bfaf57f6c1e31e7b2c7b522e6321/5-30_111-242; #=GS A0A1A8A0Y5/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius furzeri; #=GS A0A1A8A0Y5/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8BRN7/5-30_111-242 AC A0A1A8BRN7 #=GS A0A1A8BRN7/5-30_111-242 OS Nothobranchius kadleci #=GS A0A1A8BRN7/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8BRN7/5-30_111-242 DR GENE3D; 0104bfaf57f6c1e31e7b2c7b522e6321/5-30_111-242; #=GS A0A1A8BRN7/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius kadleci; #=GS A0A1A8BRN7/5-30_111-242 DR EC; 2.3.3.8; #=GS W5JYI4/5-30_111-242 AC W5JYI4 #=GS W5JYI4/5-30_111-242 OS Astyanax mexicanus #=GS W5JYI4/5-30_111-242 DE ATP-citrate synthase #=GS W5JYI4/5-30_111-242 DR GENE3D; 02141a33774242ab423e096c41ddba17/5-30_111-242; #=GS W5JYI4/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Characiphysae; Characiformes; Characoidei; Characidae; Astyanax; Astyanax mexicanus; #=GS W5JYI4/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0S7JLY3/5-29_110-241 AC A0A0S7JLY3 #=GS A0A0S7JLY3/5-29_110-241 OS Poeciliopsis prolifica #=GS A0A0S7JLY3/5-29_110-241 DE ATP-citrate synthase #=GS A0A0S7JLY3/5-29_110-241 DR GENE3D; 02f65db1c9f25f091bf7977f4a918d29/5-29_110-241; #=GS A0A0S7JLY3/5-29_110-241 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poeciliopsis; Poeciliopsis prolifica; #=GS A0A0S7JLY3/5-29_110-241 DR EC; 2.3.3.8; #=GS G1KTI3/48-73_154-287 AC G1KTI3 #=GS G1KTI3/48-73_154-287 OS Anolis carolinensis #=GS G1KTI3/48-73_154-287 DE ATP-citrate synthase #=GS G1KTI3/48-73_154-287 DR GENE3D; 051cf6fecb406e6f056bcc2273cd18d8/48-73_154-287; #=GS G1KTI3/48-73_154-287 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Lepidosauria; Squamata; Iguania; Iguanidae; Polychrotinae; Anolis; Anolis carolinensis; #=GS G1KTI3/48-73_154-287 DR EC; 2.3.3.8; #=GS T1E784/5-30_111-242 AC T1E784 #=GS T1E784/5-30_111-242 OS Crotalus horridus #=GS T1E784/5-30_111-242 DE ATP-citrate synthase #=GS T1E784/5-30_111-242 DR GENE3D; 0a9b6225b6e7f765bb9a88d1955ed2b1/5-30_111-242; #=GS T1E784/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Lepidosauria; Squamata; Serpentes; Colubroidea; Viperidae; Crotalinae; Crotalus; Crotalus horridus; #=GS T1E784/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0R1DT27/5-30_111-243 AC A0A0R1DT27 #=GS A0A0R1DT27/5-30_111-243 OS Drosophila yakuba #=GS A0A0R1DT27/5-30_111-243 DE ATP-citrate synthase #=GS A0A0R1DT27/5-30_111-243 DR GENE3D; 0b762e7124b8e35b7bc88206c13abb8d/5-30_111-243; #=GS A0A0R1DT27/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila yakuba; #=GS A0A0R1DT27/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A182JI57/5-29_110-241 AC A0A182JI57 #=GS A0A182JI57/5-29_110-241 OS Anopheles atroparvus #=GS A0A182JI57/5-29_110-241 DE ATP-citrate synthase #=GS A0A182JI57/5-29_110-241 DR GENE3D; 15d0ced45b35b536f0c7d6ce36a1b221/5-29_110-241; #=GS A0A182JI57/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Anopheles; maculipennis group; Anopheles atroparvus; #=GS A0A182JI57/5-29_110-241 DR EC; 2.3.3.8; #=GS W8B9U8/5-31_112-244 AC W8B9U8 #=GS W8B9U8/5-31_112-244 OS Ceratitis capitata #=GS W8B9U8/5-31_112-244 DE ATP-citrate synthase #=GS W8B9U8/5-31_112-244 DR GENE3D; 1758e760f990412d68e1e9101177b85c/5-31_112-244; #=GS W8B9U8/5-31_112-244 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Tephritoidea; Tephritidae; Dacinae; Ceratitidini; Ceratitis; Ceratitis; Ceratitis capitata; #=GS W8B9U8/5-31_112-244 DR EC; 2.3.3.8; #=GS A0A1A8JI93/5-30_111-242 AC A0A1A8JI93 #=GS A0A1A8JI93/5-30_111-242 OS Nothobranchius kuhntae #=GS A0A1A8JI93/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8JI93/5-30_111-242 DR GENE3D; 179f2968035b053a7a9af774cb0c0ad3/5-30_111-242; #=GS A0A1A8JI93/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius kuhntae; #=GS A0A1A8JI93/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8K533/5-30_111-242 AC A0A1A8K533 #=GS A0A1A8K533/5-30_111-242 OS Nothobranchius kuhntae #=GS A0A1A8K533/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8K533/5-30_111-242 DR GENE3D; 18bcdaf0c833012c90de29a01f8cac73/5-30_111-242; #=GS A0A1A8K533/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius kuhntae; #=GS A0A1A8K533/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0M4EUF0/5-30_111-243 AC A0A0M4EUF0 #=GS A0A0M4EUF0/5-30_111-243 OS Drosophila busckii #=GS A0A0M4EUF0/5-30_111-243 DE ATP-citrate synthase #=GS A0A0M4EUF0/5-30_111-243 DR GENE3D; 1b7395eebf31c4037bf9b9f814d520ca/5-30_111-243; #=GS A0A0M4EUF0/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Dorsilopha; Drosophila busckii; #=GS A0A0M4EUF0/5-30_111-243 DR EC; 2.3.3.8; #=GS B4MIX5/5-30_111-243 AC B4MIX5 #=GS B4MIX5/5-30_111-243 OS Drosophila willistoni #=GS B4MIX5/5-30_111-243 DE ATP-citrate synthase #=GS B4MIX5/5-30_111-243 DR GENE3D; 1cdf5468602475625ebe8baa7cf5583a/5-30_111-243; #=GS B4MIX5/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; willistoni group; willistoni subgroup; Drosophila willistoni; #=GS B4MIX5/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A0A1X6Q5/5-31_112-244 AC A0A0A1X6Q5 #=GS A0A0A1X6Q5/5-31_112-244 OS Bactrocera cucurbitae #=GS A0A0A1X6Q5/5-31_112-244 DE ATP-citrate synthase #=GS A0A0A1X6Q5/5-31_112-244 DR GENE3D; 1ce5b8a6ec561276f0f825b69ea01220/5-31_112-244; #=GS A0A0A1X6Q5/5-31_112-244 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Tephritoidea; Tephritidae; Dacinae; Dacini; Bactrocera; Zeugodacus; Bactrocera cucurbitae; #=GS A0A0A1X6Q5/5-31_112-244 DR EC; 2.3.3.8; #=GS A0A096MBJ0/5-30_111-242 AC A0A096MBJ0 #=GS A0A096MBJ0/5-30_111-242 OS Poecilia formosa #=GS A0A096MBJ0/5-30_111-242 DE ATP-citrate synthase #=GS A0A096MBJ0/5-30_111-242 DR GENE3D; 1d894e9ffbc4de1206bde484ad20a6b1/5-30_111-242; #=GS A0A096MBJ0/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia formosa; #=GS A0A096MBJ0/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0G2K5E7/5-30_111-242 AC A0A0G2K5E7 #=GS A0A0G2K5E7/5-30_111-242 OS Rattus norvegicus #=GS A0A0G2K5E7/5-30_111-242 DE ATP-citrate synthase #=GS A0A0G2K5E7/5-30_111-242 DR GENE3D; 1f00d4cb300c93769917305dd14b9a2c/5-30_111-242; #=GS A0A0G2K5E7/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Rattus; Rattus norvegicus; #=GS A0A0G2K5E7/5-30_111-242 DR EC; 2.3.3.8; #=GS G3NSD2/5-30_111-242 AC G3NSD2 #=GS G3NSD2/5-30_111-242 OS Gasterosteus aculeatus #=GS G3NSD2/5-30_111-242 DE ATP-citrate synthase #=GS G3NSD2/5-30_111-242 DR GENE3D; 1f6af31c71257020cbe71a5892c88e0f/5-30_111-242; #=GS G3NSD2/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Perciformes; Cottioidei; Gasterosteales; Gasterosteidae; Gasterosteus; Gasterosteus aculeatus; #=GS G3NSD2/5-30_111-242 DR EC; 2.3.3.8; #=GS H0VHR6/5-30_111-242 AC H0VHR6 #=GS H0VHR6/5-30_111-242 OS Cavia porcellus #=GS H0VHR6/5-30_111-242 DE ATP-citrate synthase #=GS H0VHR6/5-30_111-242 DR GENE3D; 1ff7ab519ce387e90d898b66e4cf618b/5-30_111-242; #=GS H0VHR6/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Hystricomorpha; Caviidae; Cavia; Cavia porcellus; #=GS H0VHR6/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0R3NVZ8/5-30_111-243 AC A0A0R3NVZ8 #=GS A0A0R3NVZ8/5-30_111-243 OS Drosophila pseudoobscura pseudoobscura #=GS A0A0R3NVZ8/5-30_111-243 DE ATP-citrate synthase #=GS A0A0R3NVZ8/5-30_111-243 DR GENE3D; 2025e86f290f2c2309842c1d74ab7d45/5-30_111-243; #=GS A0A0R3NVZ8/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; obscura group; pseudoobscura subgroup; Drosophila pseudoobscura; Drosophila pseudoobscura pseudoobscura; #=GS A0A0R3NVZ8/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A151PCN1/5-30_111-242 AC A0A151PCN1 #=GS A0A151PCN1/5-30_111-242 OS Alligator mississippiensis #=GS A0A151PCN1/5-30_111-242 DE ATP-citrate synthase #=GS A0A151PCN1/5-30_111-242 DR GENE3D; 217a3b4349484a93c105486827cb5482/5-30_111-242; #=GS A0A151PCN1/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Crocodylia; Alligatoridae; Alligatorinae; Alligator; Alligator mississippiensis; #=GS A0A151PCN1/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1D5PSE5/5-30_111-242 AC A0A1D5PSE5 #=GS A0A1D5PSE5/5-30_111-242 OS Gallus gallus #=GS A0A1D5PSE5/5-30_111-242 DE ATP-citrate synthase #=GS A0A1D5PSE5/5-30_111-242 DR GENE3D; 21a69732069ef8ab4478810fd6074de2/5-30_111-242; #=GS A0A1D5PSE5/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS A0A1D5PSE5/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A182Q238/5-29_110-241 AC A0A182Q238 #=GS A0A182Q238/5-29_110-241 OS Anopheles farauti #=GS A0A182Q238/5-29_110-241 DE ATP-citrate synthase #=GS A0A182Q238/5-29_110-241 DR GENE3D; 24b93b6a7de9bab4ccd9d512e6b8be60/5-29_110-241; #=GS A0A182Q238/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles farauti; #=GS A0A182Q238/5-29_110-241 DR EC; 2.3.3.8; #=GS Q5U5A8/5-30_111-242 AC Q5U5A8 #=GS Q5U5A8/5-30_111-242 OS Xenopus laevis #=GS Q5U5A8/5-30_111-242 DE ATP-citrate synthase #=GS Q5U5A8/5-30_111-242 DR GENE3D; 264961aa127c6ab24ce0896f00e11cb7/5-30_111-242; #=GS Q5U5A8/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Xenopus; Xenopus laevis; #=GS Q5U5A8/5-30_111-242 DR EC; 2.3.3.8; #=GS U3JCZ8/5-30_111-242 AC U3JCZ8 #=GS U3JCZ8/5-30_111-242 OS Ficedula albicollis #=GS U3JCZ8/5-30_111-242 DE ATP-citrate synthase #=GS U3JCZ8/5-30_111-242 DR GENE3D; 278c691eb583f6707b9fd61d79deca17/5-30_111-242; #=GS U3JCZ8/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Passeriformes; Muscicapidae; Ficedula; Ficedula albicollis; #=GS U3JCZ8/5-30_111-242 DR EC; 2.3.3.8; #=GS V9K932/5-30_111-242 AC V9K932 #=GS V9K932/5-30_111-242 OS Callorhinchus milii #=GS V9K932/5-30_111-242 DE ATP-citrate synthase #=GS V9K932/5-30_111-242 DR GENE3D; 2b239208216e68f0a89c5f5dbf8af8e4/5-30_111-242; #=GS V9K932/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Chondrichthyes; Holocephali; Chimaeriformes; Callorhinchidae; Callorhinchus; Callorhinchus milii; #=GS V9K932/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8DAX8/5-30_111-242 AC A0A1A8DAX8 #=GS A0A1A8DAX8/5-30_111-242 OS Nothobranchius kadleci #=GS A0A1A8DAX8/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8DAX8/5-30_111-242 DR GENE3D; 2b3274a6cba2d326772bf3c618b44622/5-30_111-242; #=GS A0A1A8DAX8/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius kadleci; #=GS A0A1A8DAX8/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0F7ZEL6/5-30_111-242 AC A0A0F7ZEL6 #=GS A0A0F7ZEL6/5-30_111-242 OS Crotalus adamanteus #=GS A0A0F7ZEL6/5-30_111-242 DE ATP-citrate synthase #=GS A0A0F7ZEL6/5-30_111-242 DR GENE3D; 2bb3e3b3492de8fd62541b4ce443626e/5-30_111-242; #=GS A0A0F7ZEL6/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Lepidosauria; Squamata; Serpentes; Colubroidea; Viperidae; Crotalinae; Crotalus; Crotalus adamanteus; #=GS A0A0F7ZEL6/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8MY24/5-30_111-242 AC A0A1A8MY24 #=GS A0A1A8MY24/5-30_111-242 OS Nothobranchius pienaari #=GS A0A1A8MY24/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8MY24/5-30_111-242 DR GENE3D; 2bb62dde2edc55e731b513ad7a96be48/5-30_111-242; #=GS A0A1A8MY24/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius pienaari; #=GS A0A1A8MY24/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0R3NQ61/5-30_111-243 AC A0A0R3NQ61 #=GS A0A0R3NQ61/5-30_111-243 OS Drosophila pseudoobscura pseudoobscura #=GS A0A0R3NQ61/5-30_111-243 DE ATP-citrate synthase #=GS A0A0R3NQ61/5-30_111-243 DR GENE3D; 2d62822c26761a4717614a1b5f9910fc/5-30_111-243; #=GS A0A0R3NQ61/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; obscura group; pseudoobscura subgroup; Drosophila pseudoobscura; Drosophila pseudoobscura pseudoobscura; #=GS A0A0R3NQ61/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A182R7Q4/5-29_110-241 AC A0A182R7Q4 #=GS A0A182R7Q4/5-29_110-241 OS Anopheles funestus #=GS A0A182R7Q4/5-29_110-241 DE ATP-citrate synthase #=GS A0A182R7Q4/5-29_110-241 DR GENE3D; 2d7d62de2489a3d8c923cba27b98a84f/5-29_110-241; #=GS A0A182R7Q4/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; funestus group; funestus subgroup; Anopheles funestus; #=GS A0A182R7Q4/5-29_110-241 DR EC; 2.3.3.8; #=GS K7FVG9/5-30_111-242 AC K7FVG9 #=GS K7FVG9/5-30_111-242 OS Pelodiscus sinensis #=GS K7FVG9/5-30_111-242 DE ATP-citrate synthase #=GS K7FVG9/5-30_111-242 DR GENE3D; 2ddf4e723d1ee79fe291a02ebf248195/5-30_111-242; #=GS K7FVG9/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Testudines; Cryptodira; Trionychidae; Pelodiscus; Pelodiscus sinensis; #=GS K7FVG9/5-30_111-242 DR EC; 2.3.3.8; #=GS V5I497/5-28_110-241 AC V5I497 #=GS V5I497/5-28_110-241 OS Ixodes ricinus #=GS V5I497/5-28_110-241 DE ATP-citrate synthase #=GS V5I497/5-28_110-241 DR GENE3D; 2fb377762e162e75105c3fcead5a359b/5-28_110-241; #=GS V5I497/5-28_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Parasitiformes; Ixodida; Ixodoidea; Ixodidae; Ixodinae; Ixodes; Ixodes ricinus; #=GS V5I497/5-28_110-241 DR EC; 2.3.3.8; #=GS A0A1A8HF58/5-30_111-242 AC A0A1A8HF58 #=GS A0A1A8HF58/5-30_111-242 OS Nothobranchius korthausae #=GS A0A1A8HF58/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8HF58/5-30_111-242 DR GENE3D; 302054ee9195264e4b28f165979daa56/5-30_111-242; #=GS A0A1A8HF58/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius korthausae; #=GS A0A1A8HF58/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0J9RDY6/5-30_111-243 AC A0A0J9RDY6 #=GS A0A0J9RDY6/5-30_111-243 OS Drosophila simulans #=GS A0A0J9RDY6/5-30_111-243 DE ATP-citrate synthase #=GS A0A0J9RDY6/5-30_111-243 DR GENE3D; 3083b0f86bcfd028e800a9a1abb6d853/5-30_111-243; #=GS A0A0J9RDY6/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila simulans; #=GS A0A0J9RDY6/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A098M0G7/5-30_111-242 AC A0A098M0G7 #=GS A0A098M0G7/5-30_111-242 OS Hypsiglena sp. JMG-2014 #=GS A0A098M0G7/5-30_111-242 DE ATP-citrate synthase #=GS A0A098M0G7/5-30_111-242 DR GENE3D; 30b689b4695e245daa2aefaf036bb4c5/5-30_111-242; #=GS A0A098M0G7/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Lepidosauria; Squamata; Serpentes; Colubroidea; Dipsadidae; Hypsiglena; Hypsiglena sp. JMG-2014; #=GS A0A098M0G7/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A182PCH9/5-29_110-241 AC A0A182PCH9 #=GS A0A182PCH9/5-29_110-241 OS Anopheles epiroticus #=GS A0A182PCH9/5-29_110-241 DE ATP-citrate synthase #=GS A0A182PCH9/5-29_110-241 DR GENE3D; 341dedeb1bc39720ebfc4a034eb4ade9/5-29_110-241; #=GS A0A182PCH9/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles epiroticus; #=GS A0A182PCH9/5-29_110-241 DR EC; 2.3.3.8; #=GS Q5XH22/5-30_111-242 AC Q5XH22 #=GS Q5XH22/5-30_111-242 OS Xenopus laevis #=GS Q5XH22/5-30_111-242 DE ATP-citrate synthase #=GS Q5XH22/5-30_111-242 DR GENE3D; 34334695195446a0b5f479cfdc7f6c2c/5-30_111-242; #=GS Q5XH22/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Xenopus; Xenopus laevis; #=GS Q5XH22/5-30_111-242 DR EC; 2.3.3.8; #=GS M3VXZ1/19-44_125-256 AC M3VXZ1 #=GS M3VXZ1/19-44_125-256 OS Felis catus #=GS M3VXZ1/19-44_125-256 DE ATP-citrate synthase #=GS M3VXZ1/19-44_125-256 DR GENE3D; 368a2bbf35c376ebf9196cd7e126a420/19-44_125-256; #=GS M3VXZ1/19-44_125-256 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Carnivora; Feliformia; Felidae; Felinae; Felis; Felis catus; #=GS M3VXZ1/19-44_125-256 DR EC; 2.3.3.8; #=GS Q28WR6/5-30_111-243 AC Q28WR6 #=GS Q28WR6/5-30_111-243 OS Drosophila pseudoobscura pseudoobscura #=GS Q28WR6/5-30_111-243 DE ATP-citrate synthase #=GS Q28WR6/5-30_111-243 DR GENE3D; 36a5cc92954e4ae3c1f6eecadbb87e1a/5-30_111-243; #=GS Q28WR6/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; obscura group; pseudoobscura subgroup; Drosophila pseudoobscura; Drosophila pseudoobscura pseudoobscura; #=GS Q28WR6/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A131XEL2/5-28_109-240 AC A0A131XEL2 #=GS A0A131XEL2/5-28_109-240 OS Hyalomma excavatum #=GS A0A131XEL2/5-28_109-240 DE ATP-citrate synthase #=GS A0A131XEL2/5-28_109-240 DR GENE3D; 3b4e50f23e8e20c19017854b8805f61a/5-28_109-240; #=GS A0A131XEL2/5-28_109-240 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Parasitiformes; Ixodida; Ixodoidea; Ixodidae; Hyalomminae; Hyalomma; Hyalomma excavatum; #=GS A0A131XEL2/5-28_109-240 DR EC; 2.3.3.8; #=GS K9J7M5/5-30_111-242 AC K9J7M5 #=GS K9J7M5/5-30_111-242 OS Xenopus tropicalis #=GS K9J7M5/5-30_111-242 DE ATP-citrate synthase #=GS K9J7M5/5-30_111-242 DR GENE3D; 3ccc62d383b923093d489dc4b8ea116e/5-30_111-242; #=GS K9J7M5/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Silurana; Xenopus tropicalis; #=GS K9J7M5/5-30_111-242 DR EC; 2.3.3.8; #=GS I3KHB0/13-38_119-250 AC I3KHB0 #=GS I3KHB0/13-38_119-250 OS Oreochromis niloticus #=GS I3KHB0/13-38_119-250 DE ATP-citrate synthase #=GS I3KHB0/13-38_119-250 DR GENE3D; 3d448101b890daa572e050d76a9960b0/13-38_119-250; #=GS I3KHB0/13-38_119-250 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Oreochromini; Oreochromis; Oreochromis niloticus; #=GS I3KHB0/13-38_119-250 DR EC; 2.3.3.8; #=GS A0A0Q5W116/5-30_111-243 AC A0A0Q5W116 #=GS A0A0Q5W116/5-30_111-243 OS Drosophila erecta #=GS A0A0Q5W116/5-30_111-243 DE ATP-citrate synthase #=GS A0A0Q5W116/5-30_111-243 DR GENE3D; 3ee621448af420ccacb4532690394763/5-30_111-243; #=GS A0A0Q5W116/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila erecta; #=GS A0A0Q5W116/5-30_111-243 DR EC; 2.3.3.8; #=GS V9K8V4/5-30_111-242 AC V9K8V4 #=GS V9K8V4/5-30_111-242 OS Callorhinchus milii #=GS V9K8V4/5-30_111-242 DE ATP-citrate synthase #=GS V9K8V4/5-30_111-242 DR GENE3D; 3fc31716425c36330028fe04636d5c44/5-30_111-242; #=GS V9K8V4/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Chondrichthyes; Holocephali; Chimaeriformes; Callorhinchidae; Callorhinchus; Callorhinchus milii; #=GS V9K8V4/5-30_111-242 DR EC; 2.3.3.8; #=GS B3NPZ2/5-30_111-243 AC B3NPZ2 #=GS B3NPZ2/5-30_111-243 OS Drosophila erecta #=GS B3NPZ2/5-30_111-243 DE ATP-citrate synthase #=GS B3NPZ2/5-30_111-243 DR GENE3D; 40161d1d860eff9c8c224769f79ece0e/5-30_111-243; #=GS B3NPZ2/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila erecta; #=GS B3NPZ2/5-30_111-243 DR EC; 2.3.3.8; #=GS G3SZ75/5-30_111-242 AC G3SZ75 #=GS G3SZ75/5-30_111-242 OS Loxodonta africana #=GS G3SZ75/5-30_111-242 DE ATP-citrate synthase #=GS G3SZ75/5-30_111-242 DR GENE3D; 40c7c4dc6f92260836c427a5895b7806/5-30_111-242; #=GS G3SZ75/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Afrotheria; Proboscidea; Elephantidae; Loxodonta; Loxodonta africana; #=GS G3SZ75/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0A1X3Z2/5-31_112-244 AC A0A0A1X3Z2 #=GS A0A0A1X3Z2/5-31_112-244 OS Bactrocera cucurbitae #=GS A0A0A1X3Z2/5-31_112-244 DE ATP-citrate synthase #=GS A0A0A1X3Z2/5-31_112-244 DR GENE3D; 41a35289a96c81c0d801eaac58b0f509/5-31_112-244; #=GS A0A0A1X3Z2/5-31_112-244 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Tephritoidea; Tephritidae; Dacinae; Dacini; Bactrocera; Zeugodacus; Bactrocera cucurbitae; #=GS A0A0A1X3Z2/5-31_112-244 DR EC; 2.3.3.8; #=GS A0A1A8HBJ8/5-30_111-242 AC A0A1A8HBJ8 #=GS A0A1A8HBJ8/5-30_111-242 OS Nothobranchius korthausae #=GS A0A1A8HBJ8/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8HBJ8/5-30_111-242 DR GENE3D; 42aa78a32f93329303642b8ad672fc63/5-30_111-242; #=GS A0A1A8HBJ8/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius korthausae; #=GS A0A1A8HBJ8/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A9XP97/5-30_111-242 AC A0A1A9XP97 #=GS A0A1A9XP97/5-30_111-242 OS Glossina fuscipes fuscipes #=GS A0A1A9XP97/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A9XP97/5-30_111-242 DR GENE3D; 42b55e24175f9dab7c2d5b73352c53a0/5-30_111-242; #=GS A0A1A9XP97/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Hippoboscoidea; Glossinidae; Glossina; Nemorhina; Glossina fuscipes; Glossina fuscipes fuscipes; #=GS A0A1A9XP97/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A9UZB8/5-30_111-242 AC A0A1A9UZB8 #=GS A0A1A9UZB8/5-30_111-242 OS Glossina austeni #=GS A0A1A9UZB8/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A9UZB8/5-30_111-242 DR GENE3D; 44a3fb1429e7ff0f87ee30bbd81cc0e6/5-30_111-242; #=GS A0A1A9UZB8/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Hippoboscoidea; Glossinidae; Glossina; Glossina; Glossina austeni; #=GS A0A1A9UZB8/5-30_111-242 DR EC; 2.3.3.8; #=GS H2LF96/7-32_113-244 AC H2LF96 #=GS H2LF96/7-32_113-244 OS Oryzias latipes #=GS H2LF96/7-32_113-244 DE ATP-citrate synthase #=GS H2LF96/7-32_113-244 DR GENE3D; 45ecfb294a49c82e4673b49411ee190f/7-32_113-244; #=GS H2LF96/7-32_113-244 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS H2LF96/7-32_113-244 DR EC; 2.3.3.8; #=GS M7C7H2/5-30_111-242 AC M7C7H2 #=GS M7C7H2/5-30_111-242 OS Chelonia mydas #=GS M7C7H2/5-30_111-242 DE ATP-citrate synthase #=GS M7C7H2/5-30_111-242 DR GENE3D; 46f17a5455fe6631278b78d0b6a721ba/5-30_111-242; #=GS M7C7H2/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Testudines; Cryptodira; Chelonioidea; Cheloniidae; Chelonia; Chelonia mydas; #=GS M7C7H2/5-30_111-242 DR EC; 2.3.3.8; #=GS S7NBB6/5-30_111-242 AC S7NBB6 #=GS S7NBB6/5-30_111-242 OS Myotis brandtii #=GS S7NBB6/5-30_111-242 DE ATP-citrate synthase #=GS S7NBB6/5-30_111-242 DR GENE3D; 4e047d6e1a6b35a67c33cfd8a5293ee6/5-30_111-242; #=GS S7NBB6/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Chiroptera; Microchiroptera; Vespertilionidae; Myotis; Myotis brandtii; #=GS S7NBB6/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A131Y0Z8/5-28_110-241 AC A0A131Y0Z8 #=GS A0A131Y0Z8/5-28_110-241 OS Ixodes ricinus #=GS A0A131Y0Z8/5-28_110-241 DE ATP-citrate synthase #=GS A0A131Y0Z8/5-28_110-241 DR GENE3D; 4e0e26b2f41fc0e15a6aa2da8a6ee792/5-28_110-241; #=GS A0A131Y0Z8/5-28_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Parasitiformes; Ixodida; Ixodoidea; Ixodidae; Ixodinae; Ixodes; Ixodes ricinus; #=GS A0A131Y0Z8/5-28_110-241 DR EC; 2.3.3.8; #=GS T1PC34/5-30_111-242 AC T1PC34 #=GS T1PC34/5-30_111-242 OS Musca domestica #=GS T1PC34/5-30_111-242 DE ATP-citrate synthase #=GS T1PC34/5-30_111-242 DR GENE3D; 5327173cf880f3d695c8ec4926fe7119/5-30_111-242; #=GS T1PC34/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Muscoidea; Muscidae; Muscinae; Muscini; Musca; Musca; Musca domestica; #=GS T1PC34/5-30_111-242 DR EC; 2.3.3.8; #=GS B0W198/5-31_112-243 AC B0W198 #=GS B0W198/5-31_112-243 OS Culex quinquefasciatus #=GS B0W198/5-31_112-243 DE ATP-citrate synthase #=GS B0W198/5-31_112-243 DR GENE3D; 58a91b2079c830b22c7a073c8ffa34b0/5-31_112-243; #=GS B0W198/5-31_112-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Culicinae; Culicini; Culex; Culex; Culex quinquefasciatus; #=GS B0W198/5-31_112-243 DR EC; 2.3.3.8; #=GS G3V888/5-30_111-242 AC G3V888 #=GS G3V888/5-30_111-242 OS Rattus norvegicus #=GS G3V888/5-30_111-242 DE ATP-citrate synthase #=GS G3V888/5-30_111-242 DR GENE3D; 5be83ecb5b1b037a4d974ca0b99f4734/5-30_111-242; #=GS G3V888/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Rattus; Rattus norvegicus; #=GS G3V888/5-30_111-242 DR EC; 2.3.3.8; #=GS Q66JH9/5-30_111-242 AC Q66JH9 #=GS Q66JH9/5-30_111-242 OS Xenopus tropicalis #=GS Q66JH9/5-30_111-242 DE ATP-citrate synthase #=GS Q66JH9/5-30_111-242 DR GENE3D; 5c82e91fdfd3cbe0d5a6632fa5977308/5-30_111-242; #=GS Q66JH9/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Silurana; Xenopus tropicalis; #=GS Q66JH9/5-30_111-242 DR EC; 2.3.3.8; #=GS H2LF97/5-30_111-242 AC H2LF97 #=GS H2LF97/5-30_111-242 OS Oryzias latipes #=GS H2LF97/5-30_111-242 DE ATP-citrate synthase #=GS H2LF97/5-30_111-242 DR GENE3D; 5f5e6ff1700faa8a60199fbf676383b9/5-30_111-242; #=GS H2LF97/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS H2LF97/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A087Y0B8/5-30_111-242 AC A0A087Y0B8 #=GS A0A087Y0B8/5-30_111-242 OS Poecilia formosa #=GS A0A087Y0B8/5-30_111-242 DE ATP-citrate synthase #=GS A0A087Y0B8/5-30_111-242 DR GENE3D; 61ce9d00d917b867d2ddce6e5f7f06bc/5-30_111-242; #=GS A0A087Y0B8/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia formosa; #=GS A0A087Y0B8/5-30_111-242 DR EC; 2.3.3.8; #=GS B4KQQ6/5-30_111-243 AC B4KQQ6 #=GS B4KQQ6/5-30_111-243 OS Drosophila mojavensis #=GS B4KQQ6/5-30_111-243 DE ATP-citrate synthase #=GS B4KQQ6/5-30_111-243 DR GENE3D; 63bb07b99034766052e530b35ce3a090/5-30_111-243; #=GS B4KQQ6/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Drosophila; repleta group; mulleri subgroup; Drosophila mojavensis; #=GS B4KQQ6/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A1A8UQW1/5-30_111-242 AC A0A1A8UQW1 #=GS A0A1A8UQW1/5-30_111-242 OS Nothobranchius furzeri #=GS A0A1A8UQW1/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8UQW1/5-30_111-242 DR GENE3D; 6627631a985fb91a79a9c12bc37f8ea2/5-30_111-242; #=GS A0A1A8UQW1/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius furzeri; #=GS A0A1A8UQW1/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8EQQ4/5-30_111-242 AC A0A1A8EQQ4 #=GS A0A1A8EQQ4/5-30_111-242 OS Nothobranchius korthausae #=GS A0A1A8EQQ4/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8EQQ4/5-30_111-242 DR GENE3D; 6ba25a3f55a5b226b495499c3b9df8d0/5-30_111-242; #=GS A0A1A8EQQ4/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius korthausae; #=GS A0A1A8EQQ4/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A151PCB8/5-30_111-242 AC A0A151PCB8 #=GS A0A151PCB8/5-30_111-242 OS Alligator mississippiensis #=GS A0A151PCB8/5-30_111-242 DE ATP-citrate synthase #=GS A0A151PCB8/5-30_111-242 DR GENE3D; 6c5bc60d62ac996f03eec1a6f01f3a41/5-30_111-242; #=GS A0A151PCB8/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Crocodylia; Alligatoridae; Alligatorinae; Alligator; Alligator mississippiensis; #=GS A0A151PCB8/5-30_111-242 DR EC; 2.3.3.8; #=GS Q6DG67/5-30_111-242 AC Q6DG67 #=GS Q6DG67/5-30_111-242 OS Danio rerio #=GS Q6DG67/5-30_111-242 DE ATP-citrate synthase #=GS Q6DG67/5-30_111-242 DR GENE3D; 6c6196baea8dbbff69ac4e1c4dd34f05/5-30_111-242; #=GS Q6DG67/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Cypriniphysae; Cypriniformes; Cyprinoidea; Cyprinidae; Danio; Danio rerio; #=GS Q6DG67/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A182XLF6/5-29_110-241 AC A0A182XLF6 #=GS A0A182XLF6/5-29_110-241 OS Anopheles quadriannulatus #=GS A0A182XLF6/5-29_110-241 DE ATP-citrate synthase #=GS A0A182XLF6/5-29_110-241 DR GENE3D; 6d9dee7b330cf122d694b36b982656eb/5-29_110-241; #=GS A0A182XLF6/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles quadriannulatus; #=GS A0A182XLF6/5-29_110-241 DR EC; 2.3.3.8; #=GS A0A1A9ZGT9/5-30_111-242 AC A0A1A9ZGT9 #=GS A0A1A9ZGT9/5-30_111-242 OS Glossina pallidipes #=GS A0A1A9ZGT9/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A9ZGT9/5-30_111-242 DR GENE3D; 718373f31c0cfb0b24775bead757c208/5-30_111-242; #=GS A0A1A9ZGT9/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Hippoboscoidea; Glossinidae; Glossina; Glossina; Glossina pallidipes; #=GS A0A1A9ZGT9/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0P8Y505/5-30_111-243 AC A0A0P8Y505 #=GS A0A0P8Y505/5-30_111-243 OS Drosophila ananassae #=GS A0A0P8Y505/5-30_111-243 DE ATP-citrate synthase #=GS A0A0P8Y505/5-30_111-243 DR GENE3D; 7267cc5b38ed23adf1095263d73b389b/5-30_111-243; #=GS A0A0P8Y505/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; ananassae subgroup; Drosophila ananassae; #=GS A0A0P8Y505/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A1I8MVD7/5-30_111-242 AC A0A1I8MVD7 #=GS A0A1I8MVD7/5-30_111-242 OS Musca domestica #=GS A0A1I8MVD7/5-30_111-242 DE ATP-citrate synthase #=GS A0A1I8MVD7/5-30_111-242 DR GENE3D; 72f5e4388f8d6b450c160bf61702ae14/5-30_111-242; #=GS A0A1I8MVD7/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Muscoidea; Muscidae; Muscinae; Muscini; Musca; Musca; Musca domestica; #=GS A0A1I8MVD7/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8JEG9/5-30_111-242 AC A0A1A8JEG9 #=GS A0A1A8JEG9/5-30_111-242 OS Nothobranchius kuhntae #=GS A0A1A8JEG9/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8JEG9/5-30_111-242 DR GENE3D; 75b7d7740a394c704436d4d86b2e6895/5-30_111-242; #=GS A0A1A8JEG9/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius kuhntae; #=GS A0A1A8JEG9/5-30_111-242 DR EC; 2.3.3.8; #=GS S4RJD1/8-32_114-245 AC S4RJD1 #=GS S4RJD1/8-32_114-245 OS Petromyzon marinus #=GS S4RJD1/8-32_114-245 DE ATP-citrate synthase #=GS S4RJD1/8-32_114-245 DR GENE3D; 767405abf27a338ad04ba8ed38004e55/8-32_114-245; #=GS S4RJD1/8-32_114-245 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Petromyzontiformes; Petromyzontidae; Petromyzon; Petromyzon marinus; #=GS S4RJD1/8-32_114-245 DR EC; 2.3.3.8; #=GS G3P216/5-30_111-242 AC G3P216 #=GS G3P216/5-30_111-242 OS Gasterosteus aculeatus #=GS G3P216/5-30_111-242 DE ATP-citrate synthase #=GS G3P216/5-30_111-242 DR GENE3D; 78599b33048bb80a4e14f9295467ebf7/5-30_111-242; #=GS G3P216/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Perciformes; Cottioidei; Gasterosteales; Gasterosteidae; Gasterosteus; Gasterosteus aculeatus; #=GS G3P216/5-30_111-242 DR EC; 2.3.3.8; #=GS R4GEU0/5-30_111-242 AC R4GEU0 #=GS R4GEU0/5-30_111-242 OS Danio rerio #=GS R4GEU0/5-30_111-242 DE ATP-citrate synthase #=GS R4GEU0/5-30_111-242 DR GENE3D; 79307e4c0fc21eabdd7e948b0bb6a4da/5-30_111-242; #=GS R4GEU0/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Cypriniphysae; Cypriniformes; Cyprinoidea; Cyprinidae; Danio; Danio rerio; #=GS R4GEU0/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A146Z9U0/5-30_111-242 AC A0A146Z9U0 #=GS A0A146Z9U0/5-30_111-242 OS Fundulus heteroclitus #=GS A0A146Z9U0/5-30_111-242 DE ATP-citrate synthase #=GS A0A146Z9U0/5-30_111-242 DR GENE3D; 795a9a758188b0f03c085401d101ccaa/5-30_111-242; #=GS A0A146Z9U0/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A146Z9U0/5-30_111-242 DR EC; 2.3.3.8; #=GS E6ZHD6/5-30_111-242 AC E6ZHD6 #=GS E6ZHD6/5-30_111-242 OS Dicentrarchus labrax #=GS E6ZHD6/5-30_111-242 DE ATP-citrate synthase #=GS E6ZHD6/5-30_111-242 DR GENE3D; 7bb30727ec2e454e6673685d8fa08ea5/5-30_111-242; #=GS E6ZHD6/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Moronidae; Dicentrarchus; Dicentrarchus labrax; #=GS E6ZHD6/5-30_111-242 DR EC; 2.3.3.8; #=GS U3J925/5-30_111-242 AC U3J925 #=GS U3J925/5-30_111-242 OS Anas platyrhynchos #=GS U3J925/5-30_111-242 DE ATP-citrate synthase #=GS U3J925/5-30_111-242 DR GENE3D; 7bd820e95afd423ae6abcffbed634356/5-30_111-242; #=GS U3J925/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Anseriformes; Anatidae; Anas; Anas platyrhynchos; #=GS U3J925/5-30_111-242 DR EC; 2.3.3.8; #=GS F6ZC40/5-30_111-242 AC F6ZC40 #=GS F6ZC40/5-30_111-242 OS Monodelphis domestica #=GS F6ZC40/5-30_111-242 DE ATP-citrate synthase #=GS F6ZC40/5-30_111-242 DR GENE3D; 7d42d3aec23049b5600bfae75c835a41/5-30_111-242; #=GS F6ZC40/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Didelphimorphia; Didelphidae; Didelphinae; Monodelphis; Monodelphis domestica; #=GS F6ZC40/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8SCV5/5-30_111-242 AC A0A1A8SCV5 #=GS A0A1A8SCV5/5-30_111-242 OS Nothobranchius rachovii #=GS A0A1A8SCV5/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8SCV5/5-30_111-242 DR GENE3D; 7ec2a78c4f4bd713c1767874e764db78/5-30_111-242; #=GS A0A1A8SCV5/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius rachovii; #=GS A0A1A8SCV5/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0A9WBE8/5-28_109-240 AC A0A0A9WBE8 #=GS A0A0A9WBE8/5-28_109-240 OS Lygus hesperus #=GS A0A0A9WBE8/5-28_109-240 DE ATP-citrate synthase #=GS A0A0A9WBE8/5-28_109-240 DR GENE3D; 7f8263dc2b965ff060bc070c06d962ba/5-28_109-240; #=GS A0A0A9WBE8/5-28_109-240 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Cimicoidea; Miridae; Mirinae; Mirini; Lygus; Lygus hesperus; #=GS A0A0A9WBE8/5-28_109-240 DR EC; 2.3.3.8; #=GS Q5F3V2/5-30_111-242 AC Q5F3V2 #=GS Q5F3V2/5-30_111-242 OS Gallus gallus #=GS Q5F3V2/5-30_111-242 DE ATP-citrate synthase #=GS Q5F3V2/5-30_111-242 DR GENE3D; 81b0978ea19e403107b5592a2ad80949/5-30_111-242; #=GS Q5F3V2/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS Q5F3V2/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1I8P547/5-30_111-242 AC A0A1I8P547 #=GS A0A1I8P547/5-30_111-242 OS Stomoxys calcitrans #=GS A0A1I8P547/5-30_111-242 DE ATP-citrate synthase #=GS A0A1I8P547/5-30_111-242 DR GENE3D; 82338c1e56109bc5515584d4ef6f4d0c/5-30_111-242; #=GS A0A1I8P547/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Muscoidea; Muscidae; Muscinae; Stomoxyini; Stomoxys; Stomoxys calcitrans; #=GS A0A1I8P547/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A182U8G4/5-29_110-241 AC A0A182U8G4 #=GS A0A182U8G4/5-29_110-241 OS Anopheles melas #=GS A0A182U8G4/5-29_110-241 DE ATP-citrate synthase #=GS A0A182U8G4/5-29_110-241 DR GENE3D; 83d728294f9272f50b10aa4081461558/5-29_110-241; #=GS A0A182U8G4/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles melas; #=GS A0A182U8G4/5-29_110-241 DR EC; 2.3.3.8; #=GS A0A1A7XS50/5-30_111-242 AC A0A1A7XS50 #=GS A0A1A7XS50/5-30_111-242 OS Aphyosemion striatum #=GS A0A1A7XS50/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A7XS50/5-30_111-242 DR GENE3D; 8822c1e67287c113147eeaf5cce7446b/5-30_111-242; #=GS A0A1A7XS50/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Aphyosemion; Aphyosemion striatum; #=GS A0A1A7XS50/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1I8P4X7/5-30_111-242 AC A0A1I8P4X7 #=GS A0A1I8P4X7/5-30_111-242 OS Stomoxys calcitrans #=GS A0A1I8P4X7/5-30_111-242 DE ATP-citrate synthase #=GS A0A1I8P4X7/5-30_111-242 DR GENE3D; 883fe6442a84fbdf8880e88441179d99/5-30_111-242; #=GS A0A1I8P4X7/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Muscoidea; Muscidae; Muscinae; Stomoxyini; Stomoxys; Stomoxys calcitrans; #=GS A0A1I8P4X7/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8N5B7/5-30_111-242 AC A0A1A8N5B7 #=GS A0A1A8N5B7/5-30_111-242 OS Nothobranchius pienaari #=GS A0A1A8N5B7/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8N5B7/5-30_111-242 DR GENE3D; 8a1a4ec0cbdd02c5d87176498ed0aea6/5-30_111-242; #=GS A0A1A8N5B7/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius pienaari; #=GS A0A1A8N5B7/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A182HQV2/5-29_110-241 AC A0A182HQV2 #=GS A0A182HQV2/5-29_110-241 OS Anopheles arabiensis #=GS A0A182HQV2/5-29_110-241 DE ATP-citrate synthase #=GS A0A182HQV2/5-29_110-241 DR GENE3D; 8b35ee2437deac2c597c770aae04a34b/5-29_110-241; #=GS A0A182HQV2/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles arabiensis; #=GS A0A182HQV2/5-29_110-241 DR EC; 2.3.3.8; #=GS A0A0J9U372/5-30_111-243 AC A0A0J9U372 #=GS A0A0J9U372/5-30_111-243 OS Drosophila simulans #=GS A0A0J9U372/5-30_111-243 DE ATP-citrate synthase #=GS A0A0J9U372/5-30_111-243 DR GENE3D; 8b6c674ea942ce8c02c04fe96f14c3ad/5-30_111-243; #=GS A0A0J9U372/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila simulans; #=GS A0A0J9U372/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A1D2MPB4/5-29_110-241 AC A0A1D2MPB4 #=GS A0A1D2MPB4/5-29_110-241 OS Orchesella cincta #=GS A0A1D2MPB4/5-29_110-241 DE ATP-citrate synthase #=GS A0A1D2MPB4/5-29_110-241 DR GENE3D; 8cefe1db2e49a1444e5119c2cb3f597a/5-29_110-241; #=GS A0A1D2MPB4/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Collembola; Entomobryomorpha; Entomobryoidea; Entomobryidae; Orchesellinae; Orchesella; Orchesella cincta; #=GS A0A1D2MPB4/5-29_110-241 DR EC; 2.3.3.8; #=GS V5GTA5/5-29_110-241 AC V5GTA5 #=GS V5GTA5/5-29_110-241 OS Anoplophora glabripennis #=GS V5GTA5/5-29_110-241 DE ATP-citrate synthase #=GS V5GTA5/5-29_110-241 DR GENE3D; 9051849e60f9dd5f82a79a9a0ac59e6c/5-29_110-241; #=GS V5GTA5/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Cucujiformia; Chrysomeloidea; Cerambycidae; Lamiinae; Lamiini; Anoplophora; Anoplophora glabripennis; #=GS V5GTA5/5-29_110-241 DR EC; 2.3.3.8; #=GS A0A146ZY41/5-30_111-242 AC A0A146ZY41 #=GS A0A146ZY41/5-30_111-242 OS Fundulus heteroclitus #=GS A0A146ZY41/5-30_111-242 DE ATP-citrate synthase #=GS A0A146ZY41/5-30_111-242 DR GENE3D; 9186014b567cf892c07b310cc674ec14/5-30_111-242; #=GS A0A146ZY41/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A146ZY41/5-30_111-242 DR EC; 2.3.3.8; #=GS B4QHD4/5-30_111-243 AC B4QHD4 #=GS B4QHD4/5-30_111-243 OS Drosophila simulans #=GS B4QHD4/5-30_111-243 DE ATP-citrate synthase #=GS B4QHD4/5-30_111-243 DR GENE3D; 91c2e8dea0886d34029ab077e61e36dc/5-30_111-243; #=GS B4QHD4/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila simulans; #=GS B4QHD4/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A1I8P4Z2/5-30_111-242 AC A0A1I8P4Z2 #=GS A0A1I8P4Z2/5-30_111-242 OS Stomoxys calcitrans #=GS A0A1I8P4Z2/5-30_111-242 DE ATP-citrate synthase #=GS A0A1I8P4Z2/5-30_111-242 DR GENE3D; 92a075c159549bf3827a1d3a45133def/5-30_111-242; #=GS A0A1I8P4Z2/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Muscoidea; Muscidae; Muscinae; Stomoxyini; Stomoxys; Stomoxys calcitrans; #=GS A0A1I8P4Z2/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A7ZET6/5-30_111-242 AC A0A1A7ZET6 #=GS A0A1A7ZET6/5-30_111-242 OS Nothobranchius furzeri #=GS A0A1A7ZET6/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A7ZET6/5-30_111-242 DR GENE3D; 92ca1ac4689027a7e3cb87878a4bca14/5-30_111-242; #=GS A0A1A7ZET6/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius furzeri; #=GS A0A1A7ZET6/5-30_111-242 DR EC; 2.3.3.8; #=GS B3MC04/5-30_111-243 AC B3MC04 #=GS B3MC04/5-30_111-243 OS Drosophila ananassae #=GS B3MC04/5-30_111-243 DE ATP-citrate synthase #=GS B3MC04/5-30_111-243 DR GENE3D; 94216ce59a36bb637a3d04678d7c7640/5-30_111-243; #=GS B3MC04/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; ananassae subgroup; Drosophila ananassae; #=GS B3MC04/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A0Q5VM32/5-30_111-243 AC A0A0Q5VM32 #=GS A0A0Q5VM32/5-30_111-243 OS Drosophila erecta #=GS A0A0Q5VM32/5-30_111-243 DE ATP-citrate synthase #=GS A0A0Q5VM32/5-30_111-243 DR GENE3D; 949892c98c590eb423e2e801d097d8ca/5-30_111-243; #=GS A0A0Q5VM32/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila erecta; #=GS A0A0Q5VM32/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A1A8CNZ1/5-30_111-242 AC A0A1A8CNZ1 #=GS A0A1A8CNZ1/5-30_111-242 OS Nothobranchius kadleci #=GS A0A1A8CNZ1/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8CNZ1/5-30_111-242 DR GENE3D; 98aefdca7c88a103bbd2b70e428be58c/5-30_111-242; #=GS A0A1A8CNZ1/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius kadleci; #=GS A0A1A8CNZ1/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8N9Y5/5-30_111-242 AC A0A1A8N9Y5 #=GS A0A1A8N9Y5/5-30_111-242 OS Nothobranchius rachovii #=GS A0A1A8N9Y5/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8N9Y5/5-30_111-242 DR GENE3D; 99871b25a6df9b1317fab7b45d8297af/5-30_111-242; #=GS A0A1A8N9Y5/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius rachovii; #=GS A0A1A8N9Y5/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A146Q799/5-30_111-242 AC A0A146Q799 #=GS A0A146Q799/5-30_111-242 OS Fundulus heteroclitus #=GS A0A146Q799/5-30_111-242 DE ATP-citrate synthase #=GS A0A146Q799/5-30_111-242 DR GENE3D; 9a7d583bb7814375fd402aa10247a609/5-30_111-242; #=GS A0A146Q799/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A146Q799/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0Q9W5R4/5-30_111-243 AC A0A0Q9W5R4 #=GS A0A0Q9W5R4/5-30_111-243 OS Drosophila virilis #=GS A0A0Q9W5R4/5-30_111-243 DE ATP-citrate synthase #=GS A0A0Q9W5R4/5-30_111-243 DR GENE3D; 9afd17a5f8213442d232f7ce08e882a7/5-30_111-243; #=GS A0A0Q9W5R4/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Drosophila; virilis group; Drosophila virilis; #=GS A0A0Q9W5R4/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A0V0G5Z5/5-28_109-240 AC A0A0V0G5Z5 #=GS A0A0V0G5Z5/5-28_109-240 OS Triatoma dimidiata #=GS A0A0V0G5Z5/5-28_109-240 DE ATP-citrate synthase #=GS A0A0V0G5Z5/5-28_109-240 DR GENE3D; 9d04a4d7a15f42a9b7624c9f29a3d148/5-28_109-240; #=GS A0A0V0G5Z5/5-28_109-240 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Reduvioidea; Reduviidae; Triatominae; Triatoma; Triatoma dimidiata; #=GS A0A0V0G5Z5/5-28_109-240 DR EC; 2.3.3.8; #=GS J9NST7/5-30_111-242 AC J9NST7 #=GS J9NST7/5-30_111-242 OS Canis lupus familiaris #=GS J9NST7/5-30_111-242 DE ATP-citrate synthase #=GS J9NST7/5-30_111-242 DR GENE3D; 9ea2e0e861d8f575f2f8f57f3931b137/5-30_111-242; #=GS J9NST7/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Carnivora; Caniformia; Canidae; Canis; Canis lupus; Canis lupus familiaris; #=GS J9NST7/5-30_111-242 DR EC; 2.3.3.8; #=GS M4A312/5-30_111-242 AC M4A312 #=GS M4A312/5-30_111-242 OS Xiphophorus maculatus #=GS M4A312/5-30_111-242 DE ATP-citrate synthase #=GS M4A312/5-30_111-242 DR GENE3D; a28818d410c64ef5907f13f72da1dd42/5-30_111-242; #=GS M4A312/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus maculatus; #=GS M4A312/5-30_111-242 DR EC; 2.3.3.8; #=GS I3KHA9/5-30_111-242 AC I3KHA9 #=GS I3KHA9/5-30_111-242 OS Oreochromis niloticus #=GS I3KHA9/5-30_111-242 DE ATP-citrate synthase #=GS I3KHA9/5-30_111-242 DR GENE3D; a3244d4e1210a8737418f4f21dc52a65/5-30_111-242; #=GS I3KHA9/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Oreochromini; Oreochromis; Oreochromis niloticus; #=GS I3KHA9/5-30_111-242 DR EC; 2.3.3.8; #=GS M4A713/5-29_110-241 AC M4A713 #=GS M4A713/5-29_110-241 OS Xiphophorus maculatus #=GS M4A713/5-29_110-241 DE ATP-citrate synthase #=GS M4A713/5-29_110-241 DR GENE3D; a34637f623ed175be0f059d0acaa8ae0/5-29_110-241; #=GS M4A713/5-29_110-241 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus maculatus; #=GS M4A713/5-29_110-241 DR EC; 2.3.3.8; #=GS A0A0R1DSP7/5-30_111-243 AC A0A0R1DSP7 #=GS A0A0R1DSP7/5-30_111-243 OS Drosophila yakuba #=GS A0A0R1DSP7/5-30_111-243 DE ATP-citrate synthase #=GS A0A0R1DSP7/5-30_111-243 DR GENE3D; a43602b4b4428d1b1d72f9454da129f6/5-30_111-243; #=GS A0A0R1DSP7/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila yakuba; #=GS A0A0R1DSP7/5-30_111-243 DR EC; 2.3.3.8; #=GS F1QZ09/5-30_111-242 AC F1QZ09 #=GS F1QZ09/5-30_111-242 OS Danio rerio #=GS F1QZ09/5-30_111-242 DE ATP-citrate synthase #=GS F1QZ09/5-30_111-242 DR GENE3D; a531866c68799008e907606b5dfc2a2a/5-30_111-242; #=GS F1QZ09/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Cypriniphysae; Cypriniformes; Cyprinoidea; Cyprinidae; Danio; Danio rerio; #=GS F1QZ09/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1I8MVE8/5-30_111-242 AC A0A1I8MVE8 #=GS A0A1I8MVE8/5-30_111-242 OS Musca domestica #=GS A0A1I8MVE8/5-30_111-242 DE ATP-citrate synthase #=GS A0A1I8MVE8/5-30_111-242 DR GENE3D; a58243ac09d118cfaf4646d701ca123d/5-30_111-242; #=GS A0A1I8MVE8/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Muscoidea; Muscidae; Muscinae; Muscini; Musca; Musca; Musca domestica; #=GS A0A1I8MVE8/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A7Y038/5-30_111-242 AC A0A1A7Y038 #=GS A0A1A7Y038/5-30_111-242 OS Aphyosemion striatum #=GS A0A1A7Y038/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A7Y038/5-30_111-242 DR GENE3D; a5deeb75692db529a05af732b50afcdc/5-30_111-242; #=GS A0A1A7Y038/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Aphyosemion; Aphyosemion striatum; #=GS A0A1A7Y038/5-30_111-242 DR EC; 2.3.3.8; #=GS I3IXL2/5-30_111-242 AC I3IXL2 #=GS I3IXL2/5-30_111-242 OS Oreochromis niloticus #=GS I3IXL2/5-30_111-242 DE ATP-citrate synthase #=GS I3IXL2/5-30_111-242 DR GENE3D; a5ed505a21ad80837d36f236bdced782/5-30_111-242; #=GS I3IXL2/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Oreochromini; Oreochromis; Oreochromis niloticus; #=GS I3IXL2/5-30_111-242 DR EC; 2.3.3.8; #=GS B4LL37/5-30_111-243 AC B4LL37 #=GS B4LL37/5-30_111-243 OS Drosophila virilis #=GS B4LL37/5-30_111-243 DE ATP-citrate synthase #=GS B4LL37/5-30_111-243 DR GENE3D; a67ee63d4cfed209f273aaa978bcc523/5-30_111-243; #=GS B4LL37/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Drosophila; virilis group; Drosophila virilis; #=GS B4LL37/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A0B8RV19/5-30_111-242 AC A0A0B8RV19 #=GS A0A0B8RV19/5-30_111-242 OS Boiga irregularis #=GS A0A0B8RV19/5-30_111-242 DE ATP-citrate synthase #=GS A0A0B8RV19/5-30_111-242 DR GENE3D; a6872ba3d03dfd2d31ffbe9cf4a8eaba/5-30_111-242; #=GS A0A0B8RV19/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Lepidosauria; Squamata; Serpentes; Colubroidea; Colubridae; Colubrinae; Boiga; Boiga irregularis; #=GS A0A0B8RV19/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1J1I0D2/5-31_112-243 AC A0A1J1I0D2 #=GS A0A1J1I0D2/5-31_112-243 OS Clunio marinus #=GS A0A1J1I0D2/5-31_112-243 DE ATP-citrate synthase #=GS A0A1J1I0D2/5-31_112-243 DR GENE3D; a694c26901f25fa96bc7c63ee4de8b15/5-31_112-243; #=GS A0A1J1I0D2/5-31_112-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Chironomoidea; Chironomidae; Orthocladiinae; Clunio; Clunio marinus; #=GS A0A1J1I0D2/5-31_112-243 DR EC; 2.3.3.8; #=GS B4HSH9/5-30_111-243 AC B4HSH9 #=GS B4HSH9/5-30_111-243 OS Drosophila sechellia #=GS B4HSH9/5-30_111-243 DE ATP-citrate synthase #=GS B4HSH9/5-30_111-243 DR GENE3D; a7aaa1a9f6803a8ecabea80388963ece/5-30_111-243; #=GS B4HSH9/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila sechellia; #=GS B4HSH9/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A0K8S2M1/5-30_111-242 AC A0A0K8S2M1 #=GS A0A0K8S2M1/5-30_111-242 OS Crotalus horridus #=GS A0A0K8S2M1/5-30_111-242 DE ATP-citrate synthase #=GS A0A0K8S2M1/5-30_111-242 DR GENE3D; a7e09014dcb084e3162c1f5b6551b6b0/5-30_111-242; #=GS A0A0K8S2M1/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Lepidosauria; Squamata; Serpentes; Colubroidea; Viperidae; Crotalinae; Crotalus; Crotalus horridus; #=GS A0A0K8S2M1/5-30_111-242 DR EC; 2.3.3.8; #=GS F1R515/5-30_111-242 AC F1R515 #=GS F1R515/5-30_111-242 OS Danio rerio #=GS F1R515/5-30_111-242 DE ATP-citrate synthase #=GS F1R515/5-30_111-242 DR GENE3D; a83bdfc3cf163bbe0ddbc806167ecbb7/5-30_111-242; #=GS F1R515/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Cypriniphysae; Cypriniformes; Cyprinoidea; Cyprinidae; Danio; Danio rerio; #=GS F1R515/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8UXY2/5-30_111-242 AC A0A1A8UXY2 #=GS A0A1A8UXY2/5-30_111-242 OS Nothobranchius furzeri #=GS A0A1A8UXY2/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8UXY2/5-30_111-242 DR GENE3D; ab6ced7bda166efa4bfa3096fbf2cd7c/5-30_111-242; #=GS A0A1A8UXY2/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius furzeri; #=GS A0A1A8UXY2/5-30_111-242 DR EC; 2.3.3.8; #=GS H2TQH3/5-30_111-242 AC H2TQH3 #=GS H2TQH3/5-30_111-242 OS Takifugu rubripes #=GS H2TQH3/5-30_111-242 DE ATP-citrate synthase #=GS H2TQH3/5-30_111-242 DR GENE3D; ac5704cb75e8c4ac9346d446f89d1198/5-30_111-242; #=GS H2TQH3/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Takifugu; Takifugu rubripes; #=GS H2TQH3/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0Q3PSM6/5-30_111-242 AC A0A0Q3PSM6 #=GS A0A0Q3PSM6/5-30_111-242 OS Amazona aestiva #=GS A0A0Q3PSM6/5-30_111-242 DE ATP-citrate synthase #=GS A0A0Q3PSM6/5-30_111-242 DR GENE3D; acb9e9ad0fbe4c1489079b2c79f78489/5-30_111-242; #=GS A0A0Q3PSM6/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Psittaciformes; Psittacidae; Amazona; Amazona aestiva; #=GS A0A0Q3PSM6/5-30_111-242 DR EC; 2.3.3.8; #=GS E3UBT9/5-30_111-242 AC E3UBT9 #=GS E3UBT9/5-30_111-242 OS Anser anser anser #=GS E3UBT9/5-30_111-242 DE ATP-citrate synthase #=GS E3UBT9/5-30_111-242 DR GENE3D; af7c49d6cb175e8608fa028344d4c41d/5-30_111-242; #=GS E3UBT9/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Anseriformes; Anatidae; Anser; Anser anser; Anser anser anser; #=GS E3UBT9/5-30_111-242 DR EC; 2.3.3.8; #=GS H2UUH3/5-30_111-242 AC H2UUH3 #=GS H2UUH3/5-30_111-242 OS Takifugu rubripes #=GS H2UUH3/5-30_111-242 DE ATP-citrate synthase #=GS H2UUH3/5-30_111-242 DR GENE3D; b30b8d14bb4239cf2be0f2b6f91beab9/5-30_111-242; #=GS H2UUH3/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Takifugu; Takifugu rubripes; #=GS H2UUH3/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8NHR6/5-30_111-242 AC A0A1A8NHR6 #=GS A0A1A8NHR6/5-30_111-242 OS Nothobranchius rachovii #=GS A0A1A8NHR6/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8NHR6/5-30_111-242 DR GENE3D; b3d432e50ade570c826571f117577cdf/5-30_111-242; #=GS A0A1A8NHR6/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius rachovii; #=GS A0A1A8NHR6/5-30_111-242 DR EC; 2.3.3.8; #=GS K7IWV9/5-29_110-242 AC K7IWV9 #=GS K7IWV9/5-29_110-242 OS Nasonia vitripennis #=GS K7IWV9/5-29_110-242 DE ATP-citrate synthase #=GS K7IWV9/5-29_110-242 DR GENE3D; b4c62fb584f7b420bd4fee46192e4d03/5-29_110-242; #=GS K7IWV9/5-29_110-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Terebrantes; Chalcidoidea; Pteromalidae; Pteromalinae; Nasonia; Nasonia vitripennis; #=GS K7IWV9/5-29_110-242 DR EC; 2.3.3.8; #=GS A0A087XLP6/5-30_111-242 AC A0A087XLP6 #=GS A0A087XLP6/5-30_111-242 OS Poecilia formosa #=GS A0A087XLP6/5-30_111-242 DE ATP-citrate synthase #=GS A0A087XLP6/5-30_111-242 DR GENE3D; b4ecf7a6e790c6774854cb2414e94ac1/5-30_111-242; #=GS A0A087XLP6/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia formosa; #=GS A0A087XLP6/5-30_111-242 DR EC; 2.3.3.8; #=GS V9IDN5/5-29_110-242 AC V9IDN5 #=GS V9IDN5/5-29_110-242 OS Apis cerana #=GS V9IDN5/5-29_110-242 DE ATP-citrate synthase #=GS V9IDN5/5-29_110-242 DR GENE3D; b55705e34820fe2701173c6d9a8e9372/5-29_110-242; #=GS V9IDN5/5-29_110-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Apoidea; Apidae; Apinae; Apini; Apis; Apis cerana; #=GS V9IDN5/5-29_110-242 DR EC; 2.3.3.8; #=GS A0A182WA54/5-29_110-241 AC A0A182WA54 #=GS A0A182WA54/5-29_110-241 OS Anopheles minimus #=GS A0A182WA54/5-29_110-241 DE ATP-citrate synthase #=GS A0A182WA54/5-29_110-241 DR GENE3D; b58e5f7f1f0d0f6272d34aeb4870df1c/5-29_110-241; #=GS A0A182WA54/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; minimus group; Anopheles minimus; #=GS A0A182WA54/5-29_110-241 DR EC; 2.3.3.8; #=GS A0A1A9W2F7/5-30_111-242 AC A0A1A9W2F7 #=GS A0A1A9W2F7/5-30_111-242 OS Glossina brevipalpis #=GS A0A1A9W2F7/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A9W2F7/5-30_111-242 DR GENE3D; be39827c18f252ad857974b70a77d5cc/5-30_111-242; #=GS A0A1A9W2F7/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Hippoboscoidea; Glossinidae; Glossina; Austenina; Glossina brevipalpis; #=GS A0A1A9W2F7/5-30_111-242 DR EC; 2.3.3.8; #=GS H2MFN0/9-34_115-246 AC H2MFN0 #=GS H2MFN0/9-34_115-246 OS Oryzias latipes #=GS H2MFN0/9-34_115-246 DE ATP-citrate synthase #=GS H2MFN0/9-34_115-246 DR GENE3D; bf4dd67b2503d26fdc7205900f28c0f6/9-34_115-246; #=GS H2MFN0/9-34_115-246 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS H2MFN0/9-34_115-246 DR EC; 2.3.3.8; #=GS G3V9G4/5-30_111-242 AC G3V9G4 #=GS G3V9G4/5-30_111-242 OS Rattus norvegicus #=GS G3V9G4/5-30_111-242 DE ATP-citrate synthase #=GS G3V9G4/5-30_111-242 DR GENE3D; c219b674b167592924d098fd850cd19e/5-30_111-242; #=GS G3V9G4/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Rattus; Rattus norvegicus; #=GS G3V9G4/5-30_111-242 DR EC; 2.3.3.8; #=GS W5N4K7/5-30_111-242 AC W5N4K7 #=GS W5N4K7/5-30_111-242 OS Lepisosteus oculatus #=GS W5N4K7/5-30_111-242 DE ATP-citrate synthase #=GS W5N4K7/5-30_111-242 DR GENE3D; c2c1c39c7deb71c0c58f85a8f94e79f4/5-30_111-242; #=GS W5N4K7/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Holostei; Semionotiformes; Lepisosteidae; Lepisosteus; Lepisosteus oculatus; #=GS W5N4K7/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0Q9XLD9/5-30_111-243 AC A0A0Q9XLD9 #=GS A0A0Q9XLD9/5-30_111-243 OS Drosophila mojavensis #=GS A0A0Q9XLD9/5-30_111-243 DE ATP-citrate synthase #=GS A0A0Q9XLD9/5-30_111-243 DR GENE3D; c2e5248532c35e31c3cf47c6e0435ed2/5-30_111-243; #=GS A0A0Q9XLD9/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Drosophila; repleta group; mulleri subgroup; Drosophila mojavensis; #=GS A0A0Q9XLD9/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A146NW44/5-30_111-242 AC A0A146NW44 #=GS A0A146NW44/5-30_111-242 OS Fundulus heteroclitus #=GS A0A146NW44/5-30_111-242 DE ATP-citrate synthase #=GS A0A146NW44/5-30_111-242 DR GENE3D; c32149093267580a594de4640540aa1c/5-30_111-242; #=GS A0A146NW44/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A146NW44/5-30_111-242 DR EC; 2.3.3.8; #=GS B4P6T1/5-30_111-243 AC B4P6T1 #=GS B4P6T1/5-30_111-243 OS Drosophila yakuba #=GS B4P6T1/5-30_111-243 DE ATP-citrate synthase #=GS B4P6T1/5-30_111-243 DR GENE3D; c6519d1de098e8b28406373ef9e9bb32/5-30_111-243; #=GS B4P6T1/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; melanogaster subgroup; Drosophila yakuba; #=GS B4P6T1/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A1B0BKF0/5-30_111-242 AC A0A1B0BKF0 #=GS A0A1B0BKF0/5-30_111-242 OS Glossina palpalis gambiensis #=GS A0A1B0BKF0/5-30_111-242 DE ATP-citrate synthase #=GS A0A1B0BKF0/5-30_111-242 DR GENE3D; cdb24c26333b6c6a87afdcdf0d508db2/5-30_111-242; #=GS A0A1B0BKF0/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Hippoboscoidea; Glossinidae; Glossina; Nemorhina; Glossina palpalis; Glossina palpalis gambiensis; #=GS A0A1B0BKF0/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A182MUM6/5-29_110-241 AC A0A182MUM6 #=GS A0A182MUM6/5-29_110-241 OS Anopheles culicifacies #=GS A0A182MUM6/5-29_110-241 DE ATP-citrate synthase #=GS A0A182MUM6/5-29_110-241 DR GENE3D; ced968ed3c07399029e3a7dd29261bbc/5-29_110-241; #=GS A0A182MUM6/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles culicifacies; #=GS A0A182MUM6/5-29_110-241 DR EC; 2.3.3.8; #=GS A0A0P7UTX9/39-64_145-276 AC A0A0P7UTX9 #=GS A0A0P7UTX9/39-64_145-276 OS Scleropages formosus #=GS A0A0P7UTX9/39-64_145-276 DE ATP-citrate synthase #=GS A0A0P7UTX9/39-64_145-276 DR GENE3D; d121da51b612dc153a592ecde9656c11/39-64_145-276; #=GS A0A0P7UTX9/39-64_145-276 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Osteoglossidae; Scleropages; Scleropages formosus; #=GS A0A0P7UTX9/39-64_145-276 DR EC; 2.3.3.8; #=GS K9J7M6/5-30_111-242 AC K9J7M6 #=GS K9J7M6/5-30_111-242 OS Xenopus tropicalis #=GS K9J7M6/5-30_111-242 DE ATP-citrate synthase #=GS K9J7M6/5-30_111-242 DR GENE3D; d1af001bdfb277cdf79a9a476aecb570/5-30_111-242; #=GS K9J7M6/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Silurana; Xenopus tropicalis; #=GS K9J7M6/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0A9W2Z2/5-28_109-240 AC A0A0A9W2Z2 #=GS A0A0A9W2Z2/5-28_109-240 OS Lygus hesperus #=GS A0A0A9W2Z2/5-28_109-240 DE ATP-citrate synthase #=GS A0A0A9W2Z2/5-28_109-240 DR GENE3D; d97f936ff39ee2d8136ef72f9ee55155/5-28_109-240; #=GS A0A0A9W2Z2/5-28_109-240 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Cimicoidea; Miridae; Mirinae; Mirini; Lygus; Lygus hesperus; #=GS A0A0A9W2Z2/5-28_109-240 DR EC; 2.3.3.8; #=GS T1P9Z0/5-30_111-242 AC T1P9Z0 #=GS T1P9Z0/5-30_111-242 OS Musca domestica #=GS T1P9Z0/5-30_111-242 DE ATP-citrate synthase #=GS T1P9Z0/5-30_111-242 DR GENE3D; d9965614722526bd361ff4b66973d0ee/5-30_111-242; #=GS T1P9Z0/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Muscoidea; Muscidae; Muscinae; Muscini; Musca; Musca; Musca domestica; #=GS T1P9Z0/5-30_111-242 DR EC; 2.3.3.8; #=GS W5UF19/5-30_111-242 AC W5UF19 #=GS W5UF19/5-30_111-242 OS Ictalurus punctatus #=GS W5UF19/5-30_111-242 DE ATP-citrate synthase #=GS W5UF19/5-30_111-242 DR GENE3D; dc24b751e3887cafca92a8246154363d/5-30_111-242; #=GS W5UF19/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Characiphysae; Siluriformes; Siluroidei; Ictaluridae; Ictalurus; Ictalurus punctatus; #=GS W5UF19/5-30_111-242 DR EC; 2.3.3.8; #=GS F1Q3V2/43-68_149-280 AC F1Q3V2 #=GS F1Q3V2/43-68_149-280 OS Canis lupus familiaris #=GS F1Q3V2/43-68_149-280 DE ATP-citrate synthase #=GS F1Q3V2/43-68_149-280 DR GENE3D; e05325dad5965e48515d605d011c8bf7/43-68_149-280; #=GS F1Q3V2/43-68_149-280 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Carnivora; Caniformia; Canidae; Canis; Canis lupus; Canis lupus familiaris; #=GS F1Q3V2/43-68_149-280 DR EC; 2.3.3.8; #=GS A0A0A1XRN0/5-31_112-244 AC A0A0A1XRN0 #=GS A0A0A1XRN0/5-31_112-244 OS Bactrocera cucurbitae #=GS A0A0A1XRN0/5-31_112-244 DE ATP-citrate synthase #=GS A0A0A1XRN0/5-31_112-244 DR GENE3D; e2cc428a312f3f9ed338cd062eeef770/5-31_112-244; #=GS A0A0A1XRN0/5-31_112-244 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Tephritoidea; Tephritidae; Dacinae; Dacini; Bactrocera; Zeugodacus; Bactrocera cucurbitae; #=GS A0A0A1XRN0/5-31_112-244 DR EC; 2.3.3.8; #=GS W8AYI0/5-31_112-244 AC W8AYI0 #=GS W8AYI0/5-31_112-244 OS Ceratitis capitata #=GS W8AYI0/5-31_112-244 DE ATP-citrate synthase #=GS W8AYI0/5-31_112-244 DR GENE3D; e426d9ce8fbb0cece37c27c12cfe5210/5-31_112-244; #=GS W8AYI0/5-31_112-244 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Tephritoidea; Tephritidae; Dacinae; Ceratitidini; Ceratitis; Ceratitis; Ceratitis capitata; #=GS W8AYI0/5-31_112-244 DR EC; 2.3.3.8; #=GS U3FXF4/5-30_111-242 AC U3FXF4 #=GS U3FXF4/5-30_111-242 OS Micrurus fulvius #=GS U3FXF4/5-30_111-242 DE ATP-citrate synthase #=GS U3FXF4/5-30_111-242 DR GENE3D; e51fef90c7f4c49bfd0054314b83a4f2/5-30_111-242; #=GS U3FXF4/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Lepidosauria; Squamata; Serpentes; Colubroidea; Elapidae; Elapinae; Micrurus; Micrurus fulvius; #=GS U3FXF4/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A131YXM1/5-28_109-240 AC A0A131YXM1 #=GS A0A131YXM1/5-28_109-240 OS Rhipicephalus appendiculatus #=GS A0A131YXM1/5-28_109-240 DE ATP-citrate synthase #=GS A0A131YXM1/5-28_109-240 DR GENE3D; e735a0ba9a932e0189b300a48b798252/5-28_109-240; #=GS A0A131YXM1/5-28_109-240 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Parasitiformes; Ixodida; Ixodoidea; Ixodidae; Rhipicephalinae; Rhipicephalus; Rhipicephalus; Rhipicephalus appendiculatus; #=GS A0A131YXM1/5-28_109-240 DR EC; 2.3.3.8; #=GS A0A0N8P0B2/5-30_111-243 AC A0A0N8P0B2 #=GS A0A0N8P0B2/5-30_111-243 OS Drosophila ananassae #=GS A0A0N8P0B2/5-30_111-243 DE ATP-citrate synthase #=GS A0A0N8P0B2/5-30_111-243 DR GENE3D; e926cc7f6e0269e84bc25cf29e39f4b2/5-30_111-243; #=GS A0A0N8P0B2/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; melanogaster group; ananassae subgroup; Drosophila ananassae; #=GS A0A0N8P0B2/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A1A8R906/5-30_111-242 AC A0A1A8R906 #=GS A0A1A8R906/5-30_111-242 OS Nothobranchius rachovii #=GS A0A1A8R906/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8R906/5-30_111-242 DR GENE3D; e965c1bb0803442cd162bb13619eaf2f/5-30_111-242; #=GS A0A1A8R906/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius rachovii; #=GS A0A1A8R906/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A8JLH6/5-30_111-242 AC A0A1A8JLH6 #=GS A0A1A8JLH6/5-30_111-242 OS Nothobranchius kuhntae #=GS A0A1A8JLH6/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A8JLH6/5-30_111-242 DR GENE3D; eb87d24324ce9b809f7d020f0f5e26d3/5-30_111-242; #=GS A0A1A8JLH6/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius kuhntae; #=GS A0A1A8JLH6/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A091SH37/5-30_111-242 AC A0A091SH37 #=GS A0A091SH37/5-30_111-242 OS Pelecanus crispus #=GS A0A091SH37/5-30_111-242 DE ATP-citrate synthase #=GS A0A091SH37/5-30_111-242 DR GENE3D; f33fcd98a479141da445dfa1b8749057/5-30_111-242; #=GS A0A091SH37/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Pelecaniformes; Pelecanidae; Pelecanus; Pelecanus crispus; #=GS A0A091SH37/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A1A7Y5W4/5-30_111-242 AC A0A1A7Y5W4 #=GS A0A1A7Y5W4/5-30_111-242 OS Aphyosemion striatum #=GS A0A1A7Y5W4/5-30_111-242 DE ATP-citrate synthase #=GS A0A1A7Y5W4/5-30_111-242 DR GENE3D; f5bc168335dcb28354af9c4e8a05e446/5-30_111-242; #=GS A0A1A7Y5W4/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Aphyosemion; Aphyosemion striatum; #=GS A0A1A7Y5W4/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A182K9C8/5-29_110-241 AC A0A182K9C8 #=GS A0A182K9C8/5-29_110-241 OS Anopheles christyi #=GS A0A182K9C8/5-29_110-241 DE ATP-citrate synthase #=GS A0A182K9C8/5-29_110-241 DR GENE3D; f6d5364276ee87d1a02566bd09fca298/5-29_110-241; #=GS A0A182K9C8/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles christyi; #=GS A0A182K9C8/5-29_110-241 DR EC; 2.3.3.8; #=GS A0A0Q9XH45/5-30_111-243 AC A0A0Q9XH45 #=GS A0A0Q9XH45/5-30_111-243 OS Drosophila mojavensis #=GS A0A0Q9XH45/5-30_111-243 DE ATP-citrate synthase #=GS A0A0Q9XH45/5-30_111-243 DR GENE3D; fa99a933b77f73eb90ac6a223f77e340/5-30_111-243; #=GS A0A0Q9XH45/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Drosophila; repleta group; mulleri subgroup; Drosophila mojavensis; #=GS A0A0Q9XH45/5-30_111-243 DR EC; 2.3.3.8; #=GS W5LPY0/5-30_111-242 AC W5LPY0 #=GS W5LPY0/5-30_111-242 OS Astyanax mexicanus #=GS W5LPY0/5-30_111-242 DE ATP-citrate synthase #=GS W5LPY0/5-30_111-242 DR GENE3D; fdb847aabbd0b3a0e590ee5e5d449878/5-30_111-242; #=GS W5LPY0/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Characiphysae; Characiformes; Characoidei; Characidae; Astyanax; Astyanax mexicanus; #=GS W5LPY0/5-30_111-242 DR EC; 2.3.3.8; #=GS F1P269/5-30_111-242 AC F1P269 #=GS F1P269/5-30_111-242 OS Gallus gallus #=GS F1P269/5-30_111-242 DE ATP-citrate synthase #=GS F1P269/5-30_111-242 DR GENE3D; fdbf20b751ab44c392ede00628343c2f/5-30_111-242; #=GS F1P269/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS F1P269/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A0S7JM13/5-30_111-242 AC A0A0S7JM13 #=GS A0A0S7JM13/5-30_111-242 OS Poeciliopsis prolifica #=GS A0A0S7JM13/5-30_111-242 DE ATP-citrate synthase #=GS A0A0S7JM13/5-30_111-242 DR GENE3D; fec5d226b22dc81e5ce95283de20f228/5-30_111-242; #=GS A0A0S7JM13/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poeciliopsis; Poeciliopsis prolifica; #=GS A0A0S7JM13/5-30_111-242 DR EC; 2.3.3.8; #=GS H2TQH4/5-30_111-242 AC H2TQH4 #=GS H2TQH4/5-30_111-242 OS Takifugu rubripes #=GS H2TQH4/5-30_111-242 DE ATP-citrate synthase #=GS H2TQH4/5-30_111-242 DR GENE3D; ffb614a94de490e1ff8c8ebf1f4de4ff/5-30_111-242; #=GS H2TQH4/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Takifugu; Takifugu rubripes; #=GS H2TQH4/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A084WGB0/75-206 AC A0A084WGB0 #=GS A0A084WGB0/75-206 OS Anopheles sinensis #=GS A0A084WGB0/75-206 DE ATP-citrate synthase #=GS A0A084WGB0/75-206 DR GENE3D; c101f7db01921e40e282439e4f54c281/75-206; #=GS A0A084WGB0/75-206 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Anopheles; hyrcanus group; Anopheles sinensis; #=GS A0A084WGB0/75-206 DR EC; 2.3.3.8; #=GS A0A016TFN7/5-29_110-249 AC A0A016TFN7 #=GS A0A016TFN7/5-29_110-249 OS Ancylostoma ceylanicum #=GS A0A016TFN7/5-29_110-249 DE ATP-citrate synthase #=GS A0A016TFN7/5-29_110-249 DR GENE3D; 26bb358d1fe7a256c6f3d265d7febdc1/5-29_110-249; #=GS A0A016TFN7/5-29_110-249 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Ancylostomatoidea; Ancylostomatidae; Ancylostomatinae; Ancylostoma; Ancylostoma ceylanicum; #=GS A0A016TFN7/5-29_110-249 DR EC; 2.3.3.8; #=GS F4WBC0/5-29_110-242 AC F4WBC0 #=GS F4WBC0/5-29_110-242 OS Acromyrmex echinatior #=GS F4WBC0/5-29_110-242 DE ATP-citrate synthase #=GS F4WBC0/5-29_110-242 DR GENE3D; 8dd077d070d9f5444107a5a6e031dfc0/5-29_110-242; #=GS F4WBC0/5-29_110-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Myrmicinae; Attini; Acromyrmex; Acromyrmex echinatior; #=GS F4WBC0/5-29_110-242 DR EC; 2.3.3.8; #=GS U6NKJ1/5-29_110-249 AC U6NKJ1 #=GS U6NKJ1/5-29_110-249 OS Haemonchus contortus #=GS U6NKJ1/5-29_110-249 DE ATP-citrate synthase #=GS U6NKJ1/5-29_110-249 DR GENE3D; 3d160cffd3066ad2ffd243645e81e368/5-29_110-249; #=GS U6NKJ1/5-29_110-249 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Trichostrongyloidea; Haemonchidae; Haemonchinae; Haemonchus; Haemonchus contortus; #=GS U6NKJ1/5-29_110-249 DR EC; 2.3.3.8; #=GS Q9NDQ3/5-30_111-242 AC Q9NDQ3 #=GS Q9NDQ3/5-30_111-242 OS Ciona intestinalis #=GS Q9NDQ3/5-30_111-242 DE ATP-citrate synthase #=GS Q9NDQ3/5-30_111-242 DR GENE3D; 8282f4543522497967d0fab25a8672ff/5-30_111-242; #=GS Q9NDQ3/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Tunicata; Ascidiacea; Enterogona; Phlebobranchia; Cionidae; Ciona; Ciona intestinalis; #=GS Q9NDQ3/5-30_111-242 DR EC; 2.3.3.8; #=GS Q17D87/5-29_110-241 AC Q17D87 #=GS Q17D87/5-29_110-241 OS Aedes aegypti #=GS Q17D87/5-29_110-241 DE ATP-citrate synthase #=GS Q17D87/5-29_110-241 DR GENE3D; 778b1abf634766b7c9a6edcd09096440/5-29_110-241; #=GS Q17D87/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Culicinae; Aedini; Aedes; Stegomyia; Aedes aegypti; #=GS Q17D87/5-29_110-241 DR EC; 2.3.3.8; #=GS H2VWW6/5-29_110-253 AC H2VWW6 #=GS H2VWW6/5-29_110-253 OS Caenorhabditis japonica #=GS H2VWW6/5-29_110-253 DE ATP-citrate synthase #=GS H2VWW6/5-29_110-253 DR GENE3D; 532f690adaaba3b4433a2f2bd424171d/5-29_110-253; #=GS H2VWW6/5-29_110-253 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis japonica; #=GS H2VWW6/5-29_110-253 DR EC; 2.3.3.8; #=GS R7UXV8/5-28_109-240 AC R7UXV8 #=GS R7UXV8/5-28_109-240 OS Capitella teleta #=GS R7UXV8/5-28_109-240 DE ATP-citrate synthase #=GS R7UXV8/5-28_109-240 DR GENE3D; a232f349cb5987178c6b3e4b4633d299/5-28_109-240; #=GS R7UXV8/5-28_109-240 DR ORG; Eukaryota; Metazoa; Annelida; Polychaeta; Scolecida; Capitellida; Capitellidae; Capitella; Capitella teleta; #=GS R7UXV8/5-28_109-240 DR EC; 2.3.3.8; #=GS A8WKV9/5-29_110-253 AC A8WKV9 #=GS A8WKV9/5-29_110-253 OS Caenorhabditis briggsae #=GS A8WKV9/5-29_110-253 DE ATP-citrate synthase #=GS A8WKV9/5-29_110-253 DR GENE3D; 35e97acc9b4903860d68f2c956996e0d/5-29_110-253; #=GS A8WKV9/5-29_110-253 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis briggsae; #=GS A8WKV9/5-29_110-253 DR EC; 2.3.3.8; #=GS H2ZP61/5-30_111-242 AC H2ZP61 #=GS H2ZP61/5-30_111-242 OS Ciona savignyi #=GS H2ZP61/5-30_111-242 DE ATP-citrate synthase #=GS H2ZP61/5-30_111-242 DR GENE3D; 2582bae55b7e1085dc3f3c49f93e0aba/5-30_111-242; #=GS H2ZP61/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Tunicata; Ascidiacea; Enterogona; Phlebobranchia; Cionidae; Ciona; Ciona savignyi; #=GS H2ZP61/5-30_111-242 DR EC; 2.3.3.8; #=GS A0A026W0M5/5-29_110-242 AC A0A026W0M5 #=GS A0A026W0M5/5-29_110-242 OS Cerapachys biroi #=GS A0A026W0M5/5-29_110-242 DE ATP-citrate synthase #=GS A0A026W0M5/5-29_110-242 DR GENE3D; 5a9d96c12c8eb47a553c4f6f39e8a793/5-29_110-242; #=GS A0A026W0M5/5-29_110-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Cerapachyinae; Cerapachyini; Cerapachys; Cerapachys biroi; #=GS A0A026W0M5/5-29_110-242 DR EC; 2.3.3.8; #=GS A8X940/6-35_116-259 AC A8X940 #=GS A8X940/6-35_116-259 OS Caenorhabditis briggsae #=GS A8X940/6-35_116-259 DE ATP-citrate synthase #=GS A8X940/6-35_116-259 DR GENE3D; 70a82c0922f35a9615bf1451a33d7e6c/6-35_116-259; #=GS A8X940/6-35_116-259 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis briggsae; #=GS A8X940/6-35_116-259 DR EC; 2.3.3.8; #=GS K1RTR1/5-27_108-239 AC K1RTR1 #=GS K1RTR1/5-27_108-239 OS Crassostrea gigas #=GS K1RTR1/5-27_108-239 DE ATP-citrate synthase #=GS K1RTR1/5-27_108-239 DR GENE3D; 1c0f92da99208a14482f93c5c5750650/5-27_108-239; #=GS K1RTR1/5-27_108-239 DR ORG; Eukaryota; Metazoa; Mollusca; Bivalvia; Pteriomorphia; Ostreoida; Ostreoidea; Ostreidae; Crassostrea; Crassostrea gigas; #=GS K1RTR1/5-27_108-239 DR EC; 2.3.3.8; #=GS G0N7T0/5-29_110-253 AC G0N7T0 #=GS G0N7T0/5-29_110-253 OS Caenorhabditis brenneri #=GS G0N7T0/5-29_110-253 DE ATP-citrate synthase #=GS G0N7T0/5-29_110-253 DR GENE3D; f2da236be759bc22fe3b2fb0faf62743/5-29_110-253; #=GS G0N7T0/5-29_110-253 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis brenneri; #=GS G0N7T0/5-29_110-253 DR EC; 2.3.3.8; #=GS E3LU34/5-29_110-253 AC E3LU34 #=GS E3LU34/5-29_110-253 OS Caenorhabditis remanei #=GS E3LU34/5-29_110-253 DE ATP-citrate synthase #=GS E3LU34/5-29_110-253 DR GENE3D; 539c35abd3b7a124e7a76f61d15bc3d6/5-29_110-253; #=GS E3LU34/5-29_110-253 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis remanei; #=GS E3LU34/5-29_110-253 DR EC; 2.3.3.8; #=GS S4PEX5/5-29_110-242 AC S4PEX5 #=GS S4PEX5/5-29_110-242 OS Pararge aegeria #=GS S4PEX5/5-29_110-242 DE ATP-citrate synthase #=GS S4PEX5/5-29_110-242 DR GENE3D; 88f7a12dbb3e3f0959dabdf18c960338/5-29_110-242; #=GS S4PEX5/5-29_110-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Lepidoptera; Glossata; Neolepidoptera; Heteroneura; Papilionoidea; Nymphalidae; Satyrinae; Satyrini; Parargina; Pararge; Pararge aegeria; #=GS S4PEX5/5-29_110-242 DR EC; 2.3.3.8; #=GS U5EZ83/5-29_110-242 AC U5EZ83 #=GS U5EZ83/5-29_110-242 OS Corethrella appendiculata #=GS U5EZ83/5-29_110-242 DE ATP-citrate synthase #=GS U5EZ83/5-29_110-242 DR GENE3D; 377840c000a03916c6c5a3a3e4205279/5-29_110-242; #=GS U5EZ83/5-29_110-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Chaoboridae; Corethrellinae; Corethrella; Corethrella appendiculata; #=GS U5EZ83/5-29_110-242 DR EC; 2.3.3.8; #=GS X1WV43/5-29_110-241 AC X1WV43 #=GS X1WV43/5-29_110-241 OS Acyrthosiphon pisum #=GS X1WV43/5-29_110-241 DE ATP-citrate synthase #=GS X1WV43/5-29_110-241 DR GENE3D; 58e8bf8c6e7c98b7b06682147574ba7b/5-29_110-241; #=GS X1WV43/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Sternorrhyncha; Aphidomorpha; Aphidoidea; Aphididae; Aphidinae; Macrosiphini; Acyrthosiphon; Acyrthosiphon pisum; #=GS X1WV43/5-29_110-241 DR EC; 2.3.3.8; #=GS W5J1A9/5-29_110-241 AC W5J1A9 #=GS W5J1A9/5-29_110-241 OS Anopheles darlingi #=GS W5J1A9/5-29_110-241 DE ATP-citrate synthase #=GS W5J1A9/5-29_110-241 DR GENE3D; a51bc52f62c3a19c2c552692b3c2f104/5-29_110-241; #=GS W5J1A9/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Nyssorhynchus; darlingi group; Anopheles darlingi; #=GS W5J1A9/5-29_110-241 DR EC; 2.3.3.8; #=GS B4J9W4/5-30_111-243 AC B4J9W4 #=GS B4J9W4/5-30_111-243 OS Drosophila grimshawi #=GS B4J9W4/5-30_111-243 DE ATP-citrate synthase #=GS B4J9W4/5-30_111-243 DR GENE3D; be507f6130bd1e6f7baf1cdf804967d2/5-30_111-243; #=GS B4J9W4/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; grimshawi group; grimshawi subgroup; Drosophila grimshawi; #=GS B4J9W4/5-30_111-243 DR EC; 2.3.3.8; #=GS A0A016TFI4/5-29_110-249 AC A0A016TFI4 #=GS A0A016TFI4/5-29_110-249 OS Ancylostoma ceylanicum #=GS A0A016TFI4/5-29_110-249 DE ATP-citrate synthase #=GS A0A016TFI4/5-29_110-249 DR GENE3D; bcd384d989862a2ab1938aba17d10918/5-29_110-249; #=GS A0A016TFI4/5-29_110-249 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Ancylostomatoidea; Ancylostomatidae; Ancylostomatinae; Ancylostoma; Ancylostoma ceylanicum; #=GS A0A016TFI4/5-29_110-249 DR EC; 2.3.3.8; #=GS A0A069DXN3/5-28_109-240 AC A0A069DXN3 #=GS A0A069DXN3/5-28_109-240 OS Panstrongylus megistus #=GS A0A069DXN3/5-28_109-240 DE ATP-citrate synthase #=GS A0A069DXN3/5-28_109-240 DR GENE3D; 60923e46562e1f5daa2908303284426c/5-28_109-240; #=GS A0A069DXN3/5-28_109-240 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Reduvioidea; Reduviidae; Triatominae; Panstrongylus; Panstrongylus megistus; #=GS A0A069DXN3/5-28_109-240 DR EC; 2.3.3.8; #=GS E3M9Y0/5-29_110-253 AC E3M9Y0 #=GS E3M9Y0/5-29_110-253 OS Caenorhabditis remanei #=GS E3M9Y0/5-29_110-253 DE ATP-citrate synthase #=GS E3M9Y0/5-29_110-253 DR GENE3D; f2e8348f639bf4620e1273ccead43de1/5-29_110-253; #=GS E3M9Y0/5-29_110-253 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis remanei; #=GS E3M9Y0/5-29_110-253 DR EC; 2.3.3.8; #=GS H2ZP60/5-30_111-242 AC H2ZP60 #=GS H2ZP60/5-30_111-242 OS Ciona savignyi #=GS H2ZP60/5-30_111-242 DE ATP-citrate synthase #=GS H2ZP60/5-30_111-242 DR GENE3D; 31f4d61eb1a460958a09889930a2c90e/5-30_111-242; #=GS H2ZP60/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Tunicata; Ascidiacea; Enterogona; Phlebobranchia; Cionidae; Ciona; Ciona savignyi; #=GS H2ZP60/5-30_111-242 DR EC; 2.3.3.8; #=GS T1HR11/5-28_109-240 AC T1HR11 #=GS T1HR11/5-28_109-240 OS Rhodnius prolixus #=GS T1HR11/5-28_109-240 DE ATP-citrate synthase #=GS T1HR11/5-28_109-240 DR GENE3D; ea5c391aeb42aa9b9348377abe58b6da/5-28_109-240; #=GS T1HR11/5-28_109-240 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Reduvioidea; Reduviidae; Triatominae; Rhodnius; Rhodnius prolixus; #=GS T1HR11/5-28_109-240 DR EC; 2.3.3.8; #=GS E2BZ81/5-29_110-242 AC E2BZ81 #=GS E2BZ81/5-29_110-242 OS Harpegnathos saltator #=GS E2BZ81/5-29_110-242 DE ATP-citrate synthase #=GS E2BZ81/5-29_110-242 DR GENE3D; b0600189f412d75d41b21656d82c28d7/5-29_110-242; #=GS E2BZ81/5-29_110-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Ponerinae; Ponerini; Harpegnathos; Harpegnathos saltator; #=GS E2BZ81/5-29_110-242 DR EC; 2.3.3.8; #=GS G0N9A1/5-29_110-253 AC G0N9A1 #=GS G0N9A1/5-29_110-253 OS Caenorhabditis brenneri #=GS G0N9A1/5-29_110-253 DE ATP-citrate synthase #=GS G0N9A1/5-29_110-253 DR GENE3D; f361068dc39d72e65f1fc6a47963b9b1/5-29_110-253; #=GS G0N9A1/5-29_110-253 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis brenneri; #=GS G0N9A1/5-29_110-253 DR EC; 2.3.3.8; #=GS A0A016TEM8/5-29_110-249 AC A0A016TEM8 #=GS A0A016TEM8/5-29_110-249 OS Ancylostoma ceylanicum #=GS A0A016TEM8/5-29_110-249 DE ATP-citrate synthase #=GS A0A016TEM8/5-29_110-249 DR GENE3D; 4fb65d90f135337d3d0b0845caffad57/5-29_110-249; #=GS A0A016TEM8/5-29_110-249 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Ancylostomatoidea; Ancylostomatidae; Ancylostomatinae; Ancylostoma; Ancylostoma ceylanicum; #=GS A0A016TEM8/5-29_110-249 DR EC; 2.3.3.8; #=GS A0A034VWU5/5-31_112-244 AC A0A034VWU5 #=GS A0A034VWU5/5-31_112-244 OS Bactrocera dorsalis #=GS A0A034VWU5/5-31_112-244 DE ATP-citrate synthase #=GS A0A034VWU5/5-31_112-244 DR GENE3D; 06bce5795cc6af352c12bf38d137854b/5-31_112-244; #=GS A0A034VWU5/5-31_112-244 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Tephritoidea; Tephritidae; Dacinae; Dacini; Bactrocera; Bactrocera; Bactrocera dorsalis; #=GS A0A034VWU5/5-31_112-244 DR EC; 2.3.3.8; #=GS A0A034VZD1/5-31_112-244 AC A0A034VZD1 #=GS A0A034VZD1/5-31_112-244 OS Bactrocera dorsalis #=GS A0A034VZD1/5-31_112-244 DE ATP-citrate synthase #=GS A0A034VZD1/5-31_112-244 DR GENE3D; c93dd1c7a3032f07fe71c6538a0e522c/5-31_112-244; #=GS A0A034VZD1/5-31_112-244 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Tephritoidea; Tephritidae; Dacinae; Dacini; Bactrocera; Bactrocera; Bactrocera dorsalis; #=GS A0A034VZD1/5-31_112-244 DR EC; 2.3.3.8; #=GS A0A091JI62/6-31_112-243 AC A0A091JI62 #=GS A0A091JI62/6-31_112-243 OS Egretta garzetta #=GS A0A091JI62/6-31_112-243 DE ATP-citrate synthase #=GS A0A091JI62/6-31_112-243 DR GENE3D; 03c23db7e529a132f92d8cf3562a2d25/6-31_112-243; #=GS A0A091JI62/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Pelecaniformes; Ardeidae; Egretta; Egretta garzetta; #=GS A0A091E333/6-31_112-243 AC A0A091E333 #=GS A0A091E333/6-31_112-243 OS Corvus brachyrhynchos #=GS A0A091E333/6-31_112-243 DE ATP-citrate synthase #=GS A0A091E333/6-31_112-243 DR GENE3D; 04acdafcbfb05c0bf59e1cb5cf6428b7/6-31_112-243; #=GS A0A091E333/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Passeriformes; Corvoidea; Corvidae; Corvus; Corvus brachyrhynchos; #=GS A0A1A7MS63/11-136 AC A0A1A7MS63 #=GS A0A1A7MS63/11-136 OS Aureobasidium pullulans #=GS A0A1A7MS63/11-136 DE UDP-N-acetylglucosamine:dolichyl phosphate N-acetylglucosamine-1-phosphate transferase-like protein #=GS A0A1A7MS63/11-136 DR GENE3D; 06b7feaf1e22a3720c2a773d003712d1/11-136; #=GS A0A1A7MS63/11-136 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Dothideomycetes; Dothideomycetidae; Dothideales; Aureobasidiaceae; Aureobasidium; Aureobasidium pullulans; #=GS L9JX65/59-84_165-296 AC L9JX65 #=GS L9JX65/59-84_165-296 OS Tupaia chinensis #=GS L9JX65/59-84_165-296 DE ATP-citrate synthase #=GS L9JX65/59-84_165-296 DR GENE3D; 06ce587c18d1ec1340904401ffe274c5/59-84_165-296; #=GS L9JX65/59-84_165-296 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Scandentia; Tupaiidae; Tupaia; Tupaia chinensis; #=GS A0A0F2M2N7/1-128 AC A0A0F2M2N7 #=GS A0A0F2M2N7/1-128 OS Sporothrix schenckii 1099-18 #=GS A0A0F2M2N7/1-128 DE ATP citrate (Pro-S)-lyase #=GS A0A0F2M2N7/1-128 DR GENE3D; 1d38fc88e7e1a9a832e64de36ea11a03/1-128; #=GS A0A0F2M2N7/1-128 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Sordariomycetes; Sordariomycetidae; Ophiostomatales; Ophiostomataceae; Sporothrix; Sporothrix schenckii; #=GS A0A182KJL3/5-29_110-241 AC A0A182KJL3 #=GS A0A182KJL3/5-29_110-241 OS Anopheles coluzzii #=GS A0A182KJL3/5-29_110-241 DE Uncharacterized protein #=GS A0A182KJL3/5-29_110-241 DR GENE3D; 1ede7b2e7d6334ddd5544406d1cad0aa/5-29_110-241; #=GS A0A182KJL3/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles coluzzii; #=GS A0A087QJ73/6-31_112-243 AC A0A087QJ73 #=GS A0A087QJ73/6-31_112-243 OS Aptenodytes forsteri #=GS A0A087QJ73/6-31_112-243 DE ATP-citrate synthase #=GS A0A087QJ73/6-31_112-243 DR GENE3D; 1efe0c5e46064d8a8a415f0eab97dfab/6-31_112-243; #=GS A0A087QJ73/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Sphenisciformes; Spheniscidae; Aptenodytes; Aptenodytes forsteri; #=GS Q4STH3/17-148 AC Q4STH3 #=GS Q4STH3/17-148 OS Tetraodon nigroviridis #=GS Q4STH3/17-148 DE Chromosome undetermined SCAF14221, whole genome shotgun sequence #=GS Q4STH3/17-148 DR GENE3D; 23fa41bde7f62b1d7d8a91c218f89666/17-148; #=GS Q4STH3/17-148 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Tetraodon; Tetraodon nigroviridis; #=GS A0A091JS47/6-31_112-243 AC A0A091JS47 #=GS A0A091JS47/6-31_112-243 OS Colius striatus #=GS A0A091JS47/6-31_112-243 DE ATP-citrate synthase #=GS A0A091JS47/6-31_112-243 DR GENE3D; 2ca02935f23e0082a4119f01cb4a4d3e/6-31_112-243; #=GS A0A091JS47/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Coliiformes; Coliidae; Colius; Colius striatus; #=GS C9SKJ6/21-150 AC C9SKJ6 #=GS C9SKJ6/21-150 OS Verticillium alfalfae VaMs.102 #=GS C9SKJ6/21-150 DE ATP-citrate synthase #=GS C9SKJ6/21-150 DR GENE3D; 2ca4469dc1ac9d98c7056f0049ad96cd/21-150; #=GS C9SKJ6/21-150 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Sordariomycetes; Hypocreomycetidae; Glomerellales; Plectosphaerellaceae; Verticillium; Verticillium alfalfae; #=GS H0YW70/6-31_112-243 AC H0YW70 #=GS H0YW70/6-31_112-243 OS Taeniopygia guttata #=GS H0YW70/6-31_112-243 DE Uncharacterized protein #=GS H0YW70/6-31_112-243 DR GENE3D; 34d14e58dd91b25bb5f4ca1da121ffd2/6-31_112-243; #=GS H0YW70/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Passeriformes; Passeroidea; Estrildidae; Estrildinae; Taeniopygia; Taeniopygia guttata; #=GS A0A094L357/7-32_113-244 AC A0A094L357 #=GS A0A094L357/7-32_113-244 OS Antrostomus carolinensis #=GS A0A094L357/7-32_113-244 DE ATP-citrate synthase #=GS A0A094L357/7-32_113-244 DR GENE3D; 3543448fbbb81197c25977c86a41a288/7-32_113-244; #=GS A0A094L357/7-32_113-244 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Caprimulgiformes; Caprimulgidae; Antrostomus; Antrostomus carolinensis; #=GS A0A0S7JNA9/5-30_111-242 AC A0A0S7JNA9 #=GS A0A0S7JNA9/5-30_111-242 OS Poeciliopsis prolifica #=GS A0A0S7JNA9/5-30_111-242 DE ACLY #=GS A0A0S7JNA9/5-30_111-242 DR GENE3D; 44cf787c08dc0ab07a9e2e1c76091d41/5-30_111-242; #=GS A0A0S7JNA9/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poeciliopsis; Poeciliopsis prolifica; #=GS S9Y4I5/29-54_155-214_233-304 AC S9Y4I5 #=GS S9Y4I5/29-54_155-214_233-304 OS Camelus ferus #=GS S9Y4I5/29-54_155-214_233-304 DE ATP-citrate synthase isoform 2 #=GS S9Y4I5/29-54_155-214_233-304 DR GENE3D; 450f5fde8f7e67d371155083019332c3/29-54_155-214_233-304; #=GS S9Y4I5/29-54_155-214_233-304 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Tylopoda; Camelidae; Camelus; Camelus ferus; #=GS A0A154MJI8/5-30_111-242 AC A0A154MJI8 #=GS A0A154MJI8/5-30_111-242 OS Fundulus heteroclitus #=GS A0A154MJI8/5-30_111-242 DE ATP-citrate synthase #=GS A0A154MJI8/5-30_111-242 DR GENE3D; 54edb772a1a921710a97147a695cd70d/5-30_111-242; #=GS A0A154MJI8/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A091QGB6/57-188 AC A0A091QGB6 #=GS A0A091QGB6/57-188 OS Merops nubicus #=GS A0A091QGB6/57-188 DE ATP-citrate synthase #=GS A0A091QGB6/57-188 DR GENE3D; 652bd752e2190de692721717f1e09697/57-188; #=GS A0A091QGB6/57-188 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Coraciiformes; Meropidae; Merops; Merops nubicus; #=GS A0A0P7XP65/66-91_172-303 AC A0A0P7XP65 #=GS A0A0P7XP65/66-91_172-303 OS Scleropages formosus #=GS A0A0P7XP65/66-91_172-303 DE ATP-citrate synthase-like #=GS A0A0P7XP65/66-91_172-303 DR GENE3D; 67c87e0244462c64b65fdf1d1b26d1b0/66-91_172-303; #=GS A0A0P7XP65/66-91_172-303 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Osteoglossidae; Scleropages; Scleropages formosus; #=GS A0A1B0G038/5-30_111-242 AC A0A1B0G038 #=GS A0A1B0G038/5-30_111-242 OS Glossina morsitans morsitans #=GS A0A1B0G038/5-30_111-242 DE Uncharacterized protein #=GS A0A1B0G038/5-30_111-242 DR GENE3D; 689acb088cb8d1bc862afd977c533a5e/5-30_111-242; #=GS A0A1B0G038/5-30_111-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Hippoboscoidea; Glossinidae; Glossina; Glossina; Glossina morsitans; Glossina morsitans morsitans; #=GS A0A093I1X7/6-31_112-243 AC A0A093I1X7 #=GS A0A093I1X7/6-31_112-243 OS Struthio camelus australis #=GS A0A093I1X7/6-31_112-243 DE ATP-citrate synthase #=GS A0A093I1X7/6-31_112-243 DR GENE3D; 68e2c7aed21659ead0be13912757b906/6-31_112-243; #=GS A0A093I1X7/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Palaeognathae; Struthioniformes; Struthionidae; Struthio; Struthio camelus; Struthio camelus australis; #=GS A0A093J9I3/7-32_113-244 AC A0A093J9I3 #=GS A0A093J9I3/7-32_113-244 OS Eurypyga helias #=GS A0A093J9I3/7-32_113-244 DE ATP-citrate synthase #=GS A0A093J9I3/7-32_113-244 DR GENE3D; 78adc2024d9d56483cd119bb1c7484b2/7-32_113-244; #=GS A0A093J9I3/7-32_113-244 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Gruiformes; Eurypygidae; Eurypyga; Eurypyga helias; #=GS H1W2E9/190-314 AC H1W2E9 #=GS H1W2E9/190-314 OS Colletotrichum higginsianum IMI 349063 #=GS H1W2E9/190-314 DE ATP-citrate synthase #=GS H1W2E9/190-314 DR GENE3D; 7b85be48c3cbf8fd02353fc6ea33a8b1/190-314; #=GS H1W2E9/190-314 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Sordariomycetes; Hypocreomycetidae; Glomerellales; Glomerellaceae; Colletotrichum; Colletotrichum higginsianum; #=GS A0A091MGJ0/8-33_114-245 AC A0A091MGJ0 #=GS A0A091MGJ0/8-33_114-245 OS Cariama cristata #=GS A0A091MGJ0/8-33_114-245 DE ATP-citrate synthase #=GS A0A091MGJ0/8-33_114-245 DR GENE3D; 7d7f895af830d00d0c992117c450da1f/8-33_114-245; #=GS A0A091MGJ0/8-33_114-245 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Cariamiformes; Cariamidae; Cariama; Cariama cristata; #=GS G1PJD1/14-39_120-251 AC G1PJD1 #=GS G1PJD1/14-39_120-251 OS Myotis lucifugus #=GS G1PJD1/14-39_120-251 DE Uncharacterized protein #=GS G1PJD1/14-39_120-251 DR GENE3D; 80c2fe4f899a8bc8b109073762bf220e/14-39_120-251; #=GS G1PJD1/14-39_120-251 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Chiroptera; Microchiroptera; Vespertilionidae; Myotis; Myotis lucifugus; #=GS A0A1B7NRT4/1-122 AC A0A1B7NRT4 #=GS A0A1B7NRT4/1-122 OS Emmonsia sp. CAC-2015a #=GS A0A1B7NRT4/1-122 DE ATP-citrate synthase #=GS A0A1B7NRT4/1-122 DR GENE3D; 854e31c927907a332f267cb59a5f33cc/1-122; #=GS A0A1B7NRT4/1-122 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Eurotiomycetes; Eurotiomycetidae; Onygenales; Ajellomycetaceae; Emmonsia; Emmonsia sp. CAC-2015a; #=GS A0A146NJD9/5-30_111-242 AC A0A146NJD9 #=GS A0A146NJD9/5-30_111-242 OS Fundulus heteroclitus #=GS A0A146NJD9/5-30_111-242 DE ATP-citrate synthase #=GS A0A146NJD9/5-30_111-242 DR GENE3D; 85b93a6859c01f11a82b4a93cdea3ab9/5-30_111-242; #=GS A0A146NJD9/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A091GRN6/6-31_112-243 AC A0A091GRN6 #=GS A0A091GRN6/6-31_112-243 OS Buceros rhinoceros silvestris #=GS A0A091GRN6/6-31_112-243 DE ATP-citrate synthase #=GS A0A091GRN6/6-31_112-243 DR GENE3D; 88801895992b64a8077275175a890284/6-31_112-243; #=GS A0A091GRN6/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Bucerotiformes; Bucerotidae; Buceros; Buceros rhinoceros; Buceros rhinoceros silvestris; #=GS A0A091UGV3/6-31_112-243 AC A0A091UGV3 #=GS A0A091UGV3/6-31_112-243 OS Phoenicopterus ruber ruber #=GS A0A091UGV3/6-31_112-243 DE ATP-citrate synthase #=GS A0A091UGV3/6-31_112-243 DR GENE3D; 90a12b8cdbef68632e444ad0ecf105e4/6-31_112-243; #=GS A0A091UGV3/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Phoenicopteriformes; Phoenicopteridae; Phoenicopterus; Phoenicopterus ruber; Phoenicopterus ruber ruber; #=GS A0A093CAG9/6-31_112-243 AC A0A093CAG9 #=GS A0A093CAG9/6-31_112-243 OS Pterocles gutturalis #=GS A0A093CAG9/6-31_112-243 DE ATP-citrate synthase #=GS A0A093CAG9/6-31_112-243 DR GENE3D; 93a61e4d36336bbf87160ecccfe119be/6-31_112-243; #=GS A0A093CAG9/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Ciconiiformes; Pteroclidae; Pterocles; Pterocles gutturalis; #=GS Q4ST86/5-30_111-242 AC Q4ST86 #=GS Q4ST86/5-30_111-242 OS Tetraodon nigroviridis #=GS Q4ST86/5-30_111-242 DE Chromosome undetermined SCAF14275, whole genome shotgun sequence #=GS Q4ST86/5-30_111-242 DR GENE3D; 967e17481656a34e484f6866bcb77f9f/5-30_111-242; #=GS Q4ST86/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Tetraodon; Tetraodon nigroviridis; #=GS A0A1E1KWN8/244-373 AC A0A1E1KWN8 #=GS A0A1E1KWN8/244-373 OS Rhynchosporium commune #=GS A0A1E1KWN8/244-373 DE Probable ATP citrate lyase subunit 2 #=GS A0A1E1KWN8/244-373 DR GENE3D; 9772a6cc8e6d41dc6d3ebc1fdbddf080/244-373; #=GS A0A1E1KWN8/244-373 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Leotiomycetes; Helotiales; Rhynchosporium; Rhynchosporium commune; #=GS B4H6D0/5-30_111-243 AC B4H6D0 #=GS B4H6D0/5-30_111-243 OS Drosophila persimilis #=GS B4H6D0/5-30_111-243 DE GL20648 #=GS B4H6D0/5-30_111-243 DR GENE3D; 9826f3da226e158704e0a340d9f42f7b/5-30_111-243; #=GS B4H6D0/5-30_111-243 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Sophophora; obscura group; pseudoobscura subgroup; Drosophila persimilis; #=GS A0A091R7T0/7-32_113-244 AC A0A091R7T0 #=GS A0A091R7T0/7-32_113-244 OS Mesitornis unicolor #=GS A0A091R7T0/7-32_113-244 DE ATP-citrate synthase #=GS A0A091R7T0/7-32_113-244 DR GENE3D; 9edb44eace0d75cb67b9b67ee569bd71/7-32_113-244; #=GS A0A091R7T0/7-32_113-244 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Gruiformes; Mesitornithidae; Mesitornis; Mesitornis unicolor; #=GS A0A091W9B1/6-31_112-243 AC A0A091W9B1 #=GS A0A091W9B1/6-31_112-243 OS Opisthocomus hoazin #=GS A0A091W9B1/6-31_112-243 DE ATP-citrate synthase #=GS A0A091W9B1/6-31_112-243 DR GENE3D; a1ba862119da22087ea82b64c0fd0c88/6-31_112-243; #=GS A0A091W9B1/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Opisthocomiformes; Opisthocomidae; Opisthocomus; Opisthocomus hoazin; #=GS A0A087UDF1/5-28_109-240 AC A0A087UDF1 #=GS A0A087UDF1/5-28_109-240 OS Stegodyphus mimosarum #=GS A0A087UDF1/5-28_109-240 DE ATP-citrate synthase #=GS A0A087UDF1/5-28_109-240 DR GENE3D; a846deaca3d03822ff5ac4c6d9a192fa/5-28_109-240; #=GS A0A087UDF1/5-28_109-240 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Araneae; Araneomorphae; Eresoidea; Eresidae; Stegodyphus; Stegodyphus mimosarum; #=GS A0A091T9K7/6-31_112-243 AC A0A091T9K7 #=GS A0A091T9K7/6-31_112-243 OS Nestor notabilis #=GS A0A091T9K7/6-31_112-243 DE ATP-citrate synthase #=GS A0A091T9K7/6-31_112-243 DR GENE3D; aab02b41c00b3ad2fa6749075ee05178/6-31_112-243; #=GS A0A091T9K7/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Psittaciformes; Psittacidae; Nestor; Nestor notabilis; #=GS A0A093FN91/6-31_112-243 AC A0A093FN91 #=GS A0A093FN91/6-31_112-243 OS Tyto alba #=GS A0A093FN91/6-31_112-243 DE ATP-citrate synthase #=GS A0A093FN91/6-31_112-243 DR GENE3D; abf8bae3f47dd1d18759966d5ad6a86b/6-31_112-243; #=GS A0A093FN91/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Strigiformes; Tytonidae; Tyto; Tyto alba; #=GS A0A0A0A3D7/6-31_112-243 AC A0A0A0A3D7 #=GS A0A0A0A3D7/6-31_112-243 OS Charadrius vociferus #=GS A0A0A0A3D7/6-31_112-243 DE ATP-citrate synthase #=GS A0A0A0A3D7/6-31_112-243 DR GENE3D; ad5d6f23bff62e8a41105f9a0c1031db/6-31_112-243; #=GS A0A0A0A3D7/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Charadriiformes; Charadriidae; Charadrius; Charadrius vociferus; #=GS A0A093QUL7/6-31_112-243 AC A0A093QUL7 #=GS A0A093QUL7/6-31_112-243 OS Phalacrocorax carbo #=GS A0A093QUL7/6-31_112-243 DE ATP-citrate synthase #=GS A0A093QUL7/6-31_112-243 DR GENE3D; c252f726b050009f592ef896a791ffa0/6-31_112-243; #=GS A0A093QUL7/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Pelecaniformes; Phalacrocoracidae; Phalacrocorax; Phalacrocorax carbo; #=GS G1LGZ5/8-33_114-245 AC G1LGZ5 #=GS G1LGZ5/8-33_114-245 OS Ailuropoda melanoleuca #=GS G1LGZ5/8-33_114-245 DE Uncharacterized protein #=GS G1LGZ5/8-33_114-245 DR GENE3D; c9d091139312608d96dd1ee397e18c65/8-33_114-245; #=GS G1LGZ5/8-33_114-245 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ailuropoda; Ailuropoda melanoleuca; #=GS A0A091HML7/6-31_112-243 AC A0A091HML7 #=GS A0A091HML7/6-31_112-243 OS Calypte anna #=GS A0A091HML7/6-31_112-243 DE ATP-citrate synthase #=GS A0A091HML7/6-31_112-243 DR GENE3D; cba2ff397cd67d8ea03a4a17e514edc7/6-31_112-243; #=GS A0A091HML7/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Trochiliformes; Trochilidae; Calypte; Calypte anna; #=GS A0A093J668/6-31_112-242 AC A0A093J668 #=GS A0A093J668/6-31_112-242 OS Fulmarus glacialis #=GS A0A093J668/6-31_112-242 DE ATP-citrate synthase #=GS A0A093J668/6-31_112-242 DR GENE3D; cbed9d53c105543f5a3a6ac6c6e1cd66/6-31_112-242; #=GS A0A093J668/6-31_112-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Procellariiformes; Procellariidae; Fulmarus; Fulmarus glacialis; #=GS R0I9P1/240-368 AC R0I9P1 #=GS R0I9P1/240-368 OS Setosphaeria turcica Et28A #=GS R0I9P1/240-368 DE Uncharacterized protein #=GS R0I9P1/240-368 DR GENE3D; cf4c5a61d7124a775be636bd4a677fc3/240-368; #=GS R0I9P1/240-368 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Dothideomycetes; Pleosporomycetidae; Pleosporales; Pleosporineae; Pleosporaceae; Setosphaeria; Setosphaeria turcica; #=GS A0A0T6BD56/5-29_110-241 AC A0A0T6BD56 #=GS A0A0T6BD56/5-29_110-241 OS Oryctes borbonicus #=GS A0A0T6BD56/5-29_110-241 DE Uncharacterized protein #=GS A0A0T6BD56/5-29_110-241 DR GENE3D; d4ae774d29e84161edcc6fd1a511a24f/5-29_110-241; #=GS A0A0T6BD56/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Scarabaeiformia; Scarabaeoidea; Scarabaeidae; Dynastinae; Oryctes; Oryctes borbonicus; #=GS A0A0L0CF01/7-32_113-244 AC A0A0L0CF01 #=GS A0A0L0CF01/7-32_113-244 OS Lucilia cuprina #=GS A0A0L0CF01/7-32_113-244 DE Uncharacterized protein #=GS A0A0L0CF01/7-32_113-244 DR GENE3D; d5f3c15c0557e40ce9d4a3f987f453be/7-32_113-244; #=GS A0A0L0CF01/7-32_113-244 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Oestroidea; Calliphoridae; Luciliinae; Lucilia; Lucilia cuprina; #=GS A0A091FSK2/1-14_95-226 AC A0A091FSK2 #=GS A0A091FSK2/1-14_95-226 OS Cuculus canorus #=GS A0A091FSK2/1-14_95-226 DE ATP-citrate synthase #=GS A0A091FSK2/1-14_95-226 DR GENE3D; d7320ce0990bbfcfb22714dd15abcfe0/1-14_95-226; #=GS A0A091FSK2/1-14_95-226 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Cuculiformes; Cuculidae; Cuculus; Cuculus canorus; #=GS G1MW07/7-32_113-245 AC G1MW07 #=GS G1MW07/7-32_113-245 OS Meleagris gallopavo #=GS G1MW07/7-32_113-245 DE Uncharacterized protein #=GS G1MW07/7-32_113-245 DR GENE3D; db9867864e68ec881e49b9a15c181d0e/7-32_113-245; #=GS G1MW07/7-32_113-245 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Galliformes; Phasianidae; Meleagridinae; Meleagris; Meleagris gallopavo; #=GS A0A0S7JLZ3/5-29_110-241 AC A0A0S7JLZ3 #=GS A0A0S7JLZ3/5-29_110-241 OS Poeciliopsis prolifica #=GS A0A0S7JLZ3/5-29_110-241 DE ACLY #=GS A0A0S7JLZ3/5-29_110-241 DR GENE3D; dd90cf57d94324aaf41e8ba8d1f0b4e6/5-29_110-241; #=GS A0A0S7JLZ3/5-29_110-241 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poeciliopsis; Poeciliopsis prolifica; #=GS G3VCQ8/7-32_113-244 AC G3VCQ8 #=GS G3VCQ8/7-32_113-244 OS Sarcophilus harrisii #=GS G3VCQ8/7-32_113-244 DE Uncharacterized protein #=GS G3VCQ8/7-32_113-244 DR GENE3D; dfa6eec169b06d265dd46ce3cbab2dc7/7-32_113-244; #=GS G3VCQ8/7-32_113-244 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Dasyuromorphia; Dasyuridae; Sarcophilus; Sarcophilus harrisii; #=GS A0A060WSF9/5-30_111-242 AC A0A060WSF9 #=GS A0A060WSF9/5-30_111-242 OS Oncorhynchus mykiss #=GS A0A060WSF9/5-30_111-242 DE Uncharacterized protein #=GS A0A060WSF9/5-30_111-242 DR GENE3D; e542b06680848b9c170be456100f193b/5-30_111-242; #=GS A0A060WSF9/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Salmoniformes; Salmonidae; Salmoninae; Oncorhynchus; Oncorhynchus mykiss; #=GS A0A023FS20/5-28_109-240 AC A0A023FS20 #=GS A0A023FS20/5-28_109-240 OS Amblyomma parvum #=GS A0A023FS20/5-28_109-240 DE Putative atp-citrate lyase #=GS A0A023FS20/5-28_109-240 DR GENE3D; e66b7e79bdcd29c51a545b5f2badefa0/5-28_109-240; #=GS A0A023FS20/5-28_109-240 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Parasitiformes; Ixodida; Ixodoidea; Ixodidae; Amblyomminae; Amblyomma; Amblyomma parvum; #=GS A0A093PX56/6-31_112-243 AC A0A093PX56 #=GS A0A093PX56/6-31_112-243 OS Manacus vitellinus #=GS A0A093PX56/6-31_112-243 DE ATP-citrate synthase #=GS A0A093PX56/6-31_112-243 DR GENE3D; f3bdd6c0126a0789c984ba4357d64ebc/6-31_112-243; #=GS A0A093PX56/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Passeriformes; Pipridae; Manacus; Manacus vitellinus; #=GS A0A0S7JNT9/5-29_110-241 AC A0A0S7JNT9 #=GS A0A0S7JNT9/5-29_110-241 OS Poeciliopsis prolifica #=GS A0A0S7JNT9/5-29_110-241 DE ACLY #=GS A0A0S7JNT9/5-29_110-241 DR GENE3D; f3c2f479baf846ce0bb4d4193aecf533/5-29_110-241; #=GS A0A0S7JNT9/5-29_110-241 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poeciliopsis; Poeciliopsis prolifica; #=GS A0A091UU87/6-31_112-243 AC A0A091UU87 #=GS A0A091UU87/6-31_112-243 OS Nipponia nippon #=GS A0A091UU87/6-31_112-243 DE ATP-citrate synthase #=GS A0A091UU87/6-31_112-243 DR GENE3D; f44d72e1df7a681710b8837c01c72403/6-31_112-243; #=GS A0A091UU87/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Pelecaniformes; Threskiornithidae; Nipponia; Nipponia nippon; #=GS H2TQH2/9-34_115-246 AC H2TQH2 #=GS H2TQH2/9-34_115-246 OS Takifugu rubripes #=GS H2TQH2/9-34_115-246 DE Uncharacterized protein #=GS H2TQH2/9-34_115-246 DR GENE3D; f5161176447eaf2b4aee51435a9aa2f9/9-34_115-246; #=GS H2TQH2/9-34_115-246 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Takifugu; Takifugu rubripes; #=GS A0A0S7JNS5/5-29_110-241 AC A0A0S7JNS5 #=GS A0A0S7JNS5/5-29_110-241 OS Poeciliopsis prolifica #=GS A0A0S7JNS5/5-29_110-241 DE ACLY #=GS A0A0S7JNS5/5-29_110-241 DR GENE3D; f7dca3a3ab456f5f62e2886bc78f5a43/5-29_110-241; #=GS A0A0S7JNS5/5-29_110-241 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poeciliopsis; Poeciliopsis prolifica; #=GS A0A091ML34/6-31_112-243 AC A0A091ML34 #=GS A0A091ML34/6-31_112-243 OS Acanthisitta chloris #=GS A0A091ML34/6-31_112-243 DE ATP-citrate synthase #=GS A0A091ML34/6-31_112-243 DR GENE3D; f8a8e9c93fdb41a0553fa226c25ddb6d/6-31_112-243; #=GS A0A091ML34/6-31_112-243 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Passeriformes; Acanthisittidae; Acanthisitta; Acanthisitta chloris; #=GS E4WZV7/5-29_110-242 AC E4WZV7 #=GS E4WZV7/5-29_110-242 OS Oikopleura dioica #=GS E4WZV7/5-29_110-242 DE Uncharacterized protein #=GS E4WZV7/5-29_110-242 DR GENE3D; 416bd8992098bd8143cc27c69e606865/5-29_110-242; #=GS E4WZV7/5-29_110-242 DR ORG; Eukaryota; Metazoa; Chordata; Tunicata; Appendicularia; Oikopleuridae; Oikopleura; Oikopleura dioica; #=GS T2MF65/9-31_112-245 AC T2MF65 #=GS T2MF65/9-31_112-245 OS Hydra vulgaris #=GS T2MF65/9-31_112-245 DE ATP-citrate synthase #=GS T2MF65/9-31_112-245 DR GENE3D; c8536d90168fbba734995221c410b856/9-31_112-245; #=GS T2MF65/9-31_112-245 DR ORG; Eukaryota; Metazoa; Cnidaria; Hydrozoa; Hydroidolina; Anthoathecata; Aplanulata; Hydridae; Hydra; Hydra vulgaris; #=GS E5SDB5/5-28_110-244 AC E5SDB5 #=GS E5SDB5/5-28_110-244 OS Trichinella spiralis #=GS E5SDB5/5-28_110-244 DE ATP-citrate synthase #=GS E5SDB5/5-28_110-244 DR GENE3D; 08b0460b542978af7f88ff6f0100a513/5-28_110-244; #=GS E5SDB5/5-28_110-244 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella spiralis; #=GS H2ZP65/58-194 AC H2ZP65 #=GS H2ZP65/58-194 OS Ciona savignyi #=GS H2ZP65/58-194 DE Uncharacterized protein #=GS H2ZP65/58-194 DR GENE3D; 7ec4a7928ac793b161b23a55def681cf/58-194; #=GS H2ZP65/58-194 DR ORG; Eukaryota; Metazoa; Chordata; Tunicata; Ascidiacea; Enterogona; Phlebobranchia; Cionidae; Ciona; Ciona savignyi; #=GS U4UPY7/46-177 AC U4UPY7 #=GS U4UPY7/46-177 OS Dendroctonus ponderosae #=GS U4UPY7/46-177 DE Uncharacterized protein #=GS U4UPY7/46-177 DR GENE3D; 73fa52a40903fa54c3f3899c3bbf3c2f/46-177; #=GS U4UPY7/46-177 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Cucujiformia; Curculionoidea; Curculionidae; Scolytinae; Dendroctonus; Dendroctonus ponderosae; #=GS N6T8J1/5-29_110-241 AC N6T8J1 #=GS N6T8J1/5-29_110-241 OS Dendroctonus ponderosae #=GS N6T8J1/5-29_110-241 DE Uncharacterized protein #=GS N6T8J1/5-29_110-241 DR GENE3D; df59206df1885fb3c4680e75c915dff7/5-29_110-241; #=GS N6T8J1/5-29_110-241 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Cucujiformia; Curculionoidea; Curculionidae; Scolytinae; Dendroctonus; Dendroctonus ponderosae; #=GS E2ABZ4/5-29_110-242 AC E2ABZ4 #=GS E2ABZ4/5-29_110-242 OS Camponotus floridanus #=GS E2ABZ4/5-29_110-242 DE ATP-citrate synthase #=GS E2ABZ4/5-29_110-242 DR GENE3D; fee9354789ab1fd32207ce99fe035acd/5-29_110-242; #=GS E2ABZ4/5-29_110-242 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Formicinae; Camponotini; Camponotus; Camponotus floridanus; #=GS H2ZP64/58-192 AC H2ZP64 #=GS H2ZP64/58-192 OS Ciona savignyi #=GS H2ZP64/58-192 DE Uncharacterized protein #=GS H2ZP64/58-192 DR GENE3D; 530d1cf1c3d42f13f6d59aa6b88a0a1e/58-192; #=GS H2ZP64/58-192 DR ORG; Eukaryota; Metazoa; Chordata; Tunicata; Ascidiacea; Enterogona; Phlebobranchia; Cionidae; Ciona; Ciona savignyi; #=GS V5N9M8/75-218 AC V5N9M8 #=GS V5N9M8/75-218 OS Caenorhabditis sp. 11 RJ-2013 #=GS V5N9M8/75-218 DE Uncharacterized protein #=GS V5N9M8/75-218 DR GENE3D; 2f1a419afedef73fb6017c2643f1189c/75-218; #=GS V5N9M8/75-218 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis sp. 11 RJ-2013; #=GS H2XSF2/5-30_111-242 AC H2XSF2 #=GS H2XSF2/5-30_111-242 OS Ciona intestinalis #=GS H2XSF2/5-30_111-242 DE Uncharacterized protein #=GS H2XSF2/5-30_111-242 DR GENE3D; ed4a4d7797a16f1c8e4d70b288188ef5/5-30_111-242; #=GS H2XSF2/5-30_111-242 DR ORG; Eukaryota; Metazoa; Chordata; Tunicata; Ascidiacea; Enterogona; Phlebobranchia; Cionidae; Ciona; Ciona intestinalis; #=GS A0A0B2VDT7/5-29_110-250 AC A0A0B2VDT7 #=GS A0A0B2VDT7/5-29_110-250 OS Toxocara canis #=GS A0A0B2VDT7/5-29_110-250 DE Putative ATP-citrate synthase #=GS A0A0B2VDT7/5-29_110-250 DR GENE3D; 58b3e09798ec9575095d87c932a01138/5-29_110-250; #=GS A0A0B2VDT7/5-29_110-250 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Ascaridida; Ascaridoidea; Toxocaridae; Toxocara; Toxocara canis; #=GF TC 152.4 7.9E-47 #=GF SQ 275 3mwdA01/1-30_111-242 XSAKAISEQTGKE------LLYKFI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKLLVGVDE-----KL-NPEDIKKHLLVHA--P--EDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKVDATADYICKVKWG----------DIEFPPPF- 3mweA01/1-30_111-242 MSAKAISEQTGKE------LLYKFI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKLLVGVDE-----KL-NPEDIKKHLLVHA--P--EDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKVDATADYICKVKWG----------DIEFPPPF- Q7KN85/5-30_111-243 ----AITEASGKD------ILNRHL--NTHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- E2QCF1/5-30_111-243 ----AITEASGKD------ILNRHL--NTHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A0B4LFH8/5-30_111-243 ----AITEASGKD------ILNRHL--NTHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- Q6AWP8/5-30_111-243 ----AITEASGKD------ILNRHL--NTHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- Q3TED3/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKLLVGVDE-----KL-NTGDIKRHLLVHA--P--EDKKEVLASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYILDLAAKVDATADYICKVKWG----------DIEFPPPF- P90731/5-29_110-253 ----AVSELSGKE------VLYKYF--ESTG--IVSAPHCAHTENEEMYIAIYSERCRDVIMFYEQGGVDIGDVEEKARSVHVPVQL-----DD-NAMSISERELGVLLGP--CSDKDDIRKFVRSLYEAYKALHFTYLEINPF---VLT------NGKIHILDLAAKLDETASFLCSDKWSGRNASARIAPTLEFPAPF- P53585/5-29_110-253 ----AVSELSGKE------VLYKYF--EPSG--LLSAPHCAHTEKDEMYIAIYSERFRDVIMFYEQGGVDIGDVEEKARTVSVPVQL-----NE-NAMTPSDEELTTLLGP--LKDSDIVRRFVVELYKAYKDLHFTYLEINPF---VLL------NNQIHVLDLAARLDETANFLCADKWKSRLTPYGGPNHVEFPAPF- A0A088ARD2/5-29_110-242 ----AIYEATGKN------LINRKL--SSGT--NVIKCRIPHKQEEEAYVCIFSHRKADTILFHHEGGVDIGDVDAKALKLDIAVGE-----EAPNRSTIIEKLLINV--T--DDKKEIIGNFIESLYKLYVTLYFTYLEINPL---VIT------ENKIYILDLAAKLDTTADFICRPDWG----------EIDYPPPF- Q7Q0U7/5-29_110-241 ----AIREATGKD------IINRQL--QGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLEVPVGT-----DV-TMAEIEKVLLTEI--S--SAKKKRVANFVYNLYKMYVDLYFTYLEINPL---VVT------DDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- D2A5W6/5-29_110-241 ----AIREATGKN------LINKHL--PGGT--AAVQCRVPHKDNEEVYVCIYSHRHGDTILFYHQGGVDIGDVDSKAVKLEVPVGE-----SV-DEKRITEALLSQV--D--ASKKAMIANFVNNLYKLYVDLYFTYLEINPL---VVT------QKEIYVLDLAAKLDATADFICKPMWG----------EIDYPPPF- A0A067QJK7/5-29_110-241 ----AIREASGKD------LINRNL--PNGT--AAAKCQIHHEADEEAYMCIYSQRYVDTILFHHQGGVDIGDVDAKALKLNVPVGH-----TV-DAATIQDKLLTNV--V--AEKKLIIAKFIESLYQLYTELYFTYLEINPL---VVT------KDTIYILDLAAKLDSTADFVCRPKWG----------EIDYPPPF- T1ELJ3/5-30_111-242 ----AIYESCGKQ------IMRNNL--KVNN-GLDVSLNIPHSQKEEYYLCIYSARENDVILFHHEGGVDVGDVDAKALKLKIPINR-----DL-KDEDVSNILLVNA--Q--PQNRNSLIEFIRCLYKLYVDLHFTYLEINPL---VVK------QEKVYVLDLAAKLDQCADYLCNRLWG----------EVQFPPPF- V3ZZR7/5-27_108-239 ----AISEAKGKE------LLNKFL--ED----TAIKNRIAHEQNEEFYVCIHSHRHADTILFHHEGGIDIGDVDAKAVNLEVPVGS-----EI-NANDVTSKLLSKV--P--TAKQTNLCRFILKLYSVYKEIHFTYLEINPL---VMV------GEKIYVLDLAAKIDQTAEFLCKSKWG----------VMEFPPPF- E0VNM4/5-28_109-239 ----AIREATGKD------LLNRHL--KCS---SAVKSRVPHADNEEFYVCIYSHRHGDTILFHHEGGIEIGDVDSKALRLEVSVNE-----NF-DINRLK-TILRNV--S--PSKQIIIAEFIQSLYKVYVDLYFTYLEINPL---VVT------NESVYVLDMAAKVDATADFMCRTLWG----------EIDFPPPF- A7SFA3/5-28_109-240 ----AIYESDGKT------LLSSYL--SCPN---YVPNKVAHHQSEEHYVCIYAQRHCDTILFYHEGGVDIGDVDSKAIKLDIGLQE-----KV-TAVWLEKTLMINV--P--EQKKKPLAEFVHALYSLFTDLYFTYLEINPL---VMV------ADKIYALDLAAKLDQTAEFICKTKWG----------DIEFPPPF- I1FX37/4-28_118-248 ----AIREKDGKA------ILCSYL--NELR--FSEEYKMPHADKEEYYLCIYATRSGNTVLFHTEGGMSVGDIDSKAYRVDIDIDS-----TL-GIDRAL-SLVESA--P--SDMRQVLAEYIVLLYRAYADLYFTYLEINPL---VVK------GNAVHMLDLAAKLDSTAEYLCKKKWS----------GIEFPPPF- T1KBC0/5-27_108-238 ----AIHEATGKN------LLNKFL--NG----TCASSKLPHQDSEEAYICIYSHRHGDTILFYHQGGVDIGDVDSKAIKYDLSVDE-----QP-TEELVKSKLLVNI--S--DNKKDKVTRFILDLYKIYVDLYFTYLEINPL---VIS------DD-IHVLDLAAKLDATAEFICKQKWG----------DIDFPPPF- E9H778/5-29_110-243 ----AIWEATGKD------LINRNL--NYSN--GVAKCRIAHKDEEEAYVCVYSERNGDVILFHHQGGVDIGDVDEKALRLSVEIDN-----KP-SREDILSGLLVNV--T-DNAKKERVADYIVALYDVYVDLHFTYMEINPL---VVT-----AEGGVFMLDLAAKIDATADFLCRTKWG----------SIEYPPPF- P16638/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDTKAQKLLVGVDE-----KL-NAEDIKRHLLVHA--P--EDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYILDLAAKVDATADYICKVKWG----------DIEFPPPF- Q32PF2/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHTQEEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKLLVGVDE-----KL-NPEDIKKHLLVHA--P--EDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKVDATADYICKVKWG----------DIEFPPPF- A0A060W7T9/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSA-AVQNRFRVAHKQEEEFYVCIYATREGDYVLFHHEGGVDVGDVDSKASKLLVGVDE-----KL-TEDAVKKQLLTHV--A--ADIKEVLASFIVGLFNLYQDLYFTYLEINPL---VVT------KDGVFVLDMAAKIDATADYLCKAKWG----------DVEFPPPF- A0A1A8A0Y5/5-30_111-242 ----AISEQTGKE------FLYRHI--CTSA-PVQNKFRVPHKQVEEFYLCVYAAREGDYVLFHHEGGVDVGDVDAKAQKLLIRVDE-----KI-SEEQVKKELLAKA--P--ADKKGVLAGFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- A0A1A8BRN7/5-30_111-242 ----AISEQTGKE------FLYRHI--CTSA-PVQNKFRVPHKQVEEFYLCVYAAREGDYVLFHHEGGVDVGDVDAKAQKLLIRVDE-----KI-SEEQVKKELLAKA--P--ADKKGVLAGFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- W5JYI4/5-30_111-242 ----AISEQTGKD------FLYKHI--CTTA-AVQNRFRVAHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDSKAQKLLVGVDE-----KL-RPDDVKQKLLTHV--P--ADKKEVLTSFLVGLFNLYEDLYFTYLEINPL---VVT------KNGVYVLDMAAKIDATADYLCKAKWG----------DVEFPPPF- A0A0S7JLY3/5-29_110-241 ----AISEQTGKK------FLYNN---TALA-AVQNRFRVPHTQDEEFYVCIYATREGDHVLFHHEGGVEVGDVDAKALRLTVAVDD-----KL-SDAQVKEQLLTHV--P--DDKKDVLASFIVGLFNLYEDLYFTYLEINPL---VVT------KDGVHVLDMAAKIDATADFICKAKWG----------DVEFPPPF- G1KTI3/48-73_154-287 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQAEEFYVCIYAAREGDYVLFYHEGGVDVGDVDAKAQKLLVRVDE-----KL-HESDIKKHLLLHA--P--KDKQDILASFISGLFNLYEDLYFTYLEINPLD-EVVT------VNGVYVLDLAAKIDATADYICKVKWG----------DVDFPPPF- T1E784/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQTEEFYVCIYAAREGDYVLFHHQGGVDVGDVDAKAQKLLVHVDC-----KL-SESDIKKHLLVHA--P--LDKKDILASFIFGLFNLYEDLYFTYLEINPL---VVT------SDGVYVLDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A0R1DT27/5-30_111-243 ----AITEASGKD------ILNRHL--NNHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A182JI57/5-29_110-241 ----AIREATGKD------IINRQL--EGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDSKALKLDVPVGK-----DL-RLEDVEQHLLTEI--A--AAKKQRVANFVYNLYRLYVDLHFTYLEINPL---VVT------NDSIYILDLAAKLDATADFICRPKWG----------EIDYPPPF- W8B9U8/5-31_112-244 ----AISEATGKD------ILNRFLNVNGAS--GAAQCRVPHEESEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDVLVNN-----QT-SVEEITTKLLVHV--A-DAATKKRIANFIFALYNAYVDLYFTYLEINPL---VVT------KDNMYILDLAAKLDATADFICRPKWG----------DVCYPPPF- A0A1A8JI93/5-30_111-242 ----AISEQTGKE------FLYRHI--CTSA-PVQNKFRVPHKQVEEFYLCVYAAREGDYVLFHHEGGVDVGDVDAKAQKLLIRVDE-----KI-SEEQVKKELLAKA--P--ADKKGVLAGFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- A0A1A8K533/5-30_111-242 ----AISEQTGKE------FLYKYI--SSSA-AVQNRFYVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVKEQLLTHV--P--DDKKGVLSSFIVALFNLYEDLYFTYLEINPL---VVT------QDGVYILDMAAKIDATADFICKAKWG----------NVEFPPPF- A0A0M4EUF0/5-30_111-243 ----AITEATGKD------ILNRHL--NQHG-AGAATCRVPHTEAEEMYVCIYSHRTADTILFHHQGGVDIGDVDAKAVKLEVPVDS-----TL-TLADVQSKLLKAI-TD--TANKERIAKFIYALYNTFADLYFTYLEINPL---VVT------ADSLYILDLAAKLDSTADFICRPKWG----------DIEYPPPF- B4MIX5/5-30_111-243 ----AITEATGKD------ILNRHL--NNHG-ASVATCRLPHTDDEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----KL-AQADVKSKLLKEV-TD--SAKKERIANFITALYATFVDLYFTYLEINPV---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A0A1X6Q5/5-31_112-244 ----AISEATGKD------ILNRFLNVNGAS--GAAQCRVPHDESEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDVLVNN-----ET-SVEEITAKLLVHV--A-DAATKQRIANFIYALYKAYVDLYFTYLEINPL---VVT------KNSMYILDLAAKLDSTADFICRPKWG----------DVDYPPPF- A0A096MBJ0/5-30_111-242 ----AISEQTGKE------FLYKYI--DPSV-AVQDRVRVPHTQDEEFYVCIYATREGDHVLFYHEGGVEVGDVDAKAQRLTVTVDD-----KL-SDAQVKEQLLTHV--P--DDKKDVLASFIVALFSLYEDLYFTYLEINPL---VVT------KDGVYVLDMAAKIDATADFICKAKWG----------DVEFPPPF- A0A0G2K5E7/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDTKAQKLLVGVDE-----KL-NAEDIKRHLLVHA--P--EDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYILDLAAKVDATADYICKVKWG----------DIEFPPPF- G3NSD2/5-30_111-242 ----AISEQTGKE------FLYKHI--CTSA-AVQNRFRVPHPQEEEFYVCIYATREGDHVLFHHEGGVEVGDVDAKAQRLLVAVDE-----KL-SEEQVTEKLLPHV--P--DEKKKVLASFIVGLFNLYEDLYFTYLEINPI---VVT------KDGVYVLDMAAKIDATADYICKAKWG----------DVEFPPPF- H0VHR6/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFRVPHSQAEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVGVDK-----KL-SSEDVREHLLVHV--P--ADKKEVLASFICGLFNFYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKVDATADYICKVKWG----------DIEFPPPF- A0A0R3NVZ8/5-30_111-243 ----AITEATGKD------ILNRHL--NVHG-AGAATCRLPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----DL-SLADVKSKLLKEV-KD--ASQRERIAKFIGALYATFVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A151PCN1/5-30_111-242 ----AISEQTGKE------FLYKYI--CTTS-AIQNRFKVPHKQEEEFYVCIYAARGGDCVLFHHEGGVDVGDVDAKAQKLLVGVNE-----KL-TESDVKKHLLVHA--P--EDKKDILASFISGLFNLYEDLYFTYLEINPL---VVT------KDGVHILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A1D5PSE5/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFYHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVKKHLLQHA--P--ADKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A182Q238/5-29_110-241 ----AIREATGKD------IINRHL--QGEH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLDVPVGK-----DV-TQAEIEKVLLTEI--S--AANKQRVANFVYNLYRLYVDLYFTYLEINPL---VVT------SDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- Q5U5A8/5-30_111-242 ----AISEQTGKE------FLYKFI--CTSA-AVQNRFKVPHKQEEEYYVCIYAAREGDYVLFHHEGGVDVGDVDSKAQKLLVGVGE-----RL-TEQQVKSQLLIHV--A--QDKKEVLSSFITGLFNLYEDLYFTYLEINPL---VVT------QNGVYVLDMAAKIDATADYICKAKWG----------DVEFPPPF- U3JCZ8/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KI-SESDVKKHLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- V9K932/5-30_111-242 ----AISEQTAKE------FLYKFI--NTKT-GVQNKFKVPHEQLEEFYVCIYADREGDYVLFHHEGGVDIGDVDSKALKLLVGVDG-----KL-TKEKVIKTLLRCV--P--ESQKSVLATFIVGLFTLYEDLYFTYLEINPL---VVN------DKGIFVLDLAAKIDATADYICKAKWG----------DVEFPPPF- A0A1A8DAX8/5-30_111-242 ----AISEQTGKE------FLYKYI--SSSA-AVQNRFYVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVKEQLLTHV--P--DDKKGVLSSFIVALFNLYEDLYFTYLEINPL---VVT------QDGVYVLDMAAKIDATADFICKAKWG----------NVEFPPPF- A0A0F7ZEL6/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQTEEFYVCIYAAREGDYVLFHHQGGVDVGDVDAKAQKLLVHVDC-----KL-SESDIKKHLLVHA--P--LDKKDILASFIFGLFNLYEDLYFTYLEINPL---VVT------SDGVYVLDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A1A8MY24/5-30_111-242 ----AISEQTGKE------FLYKYI--SSSA-AVQNRFYVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVKEQLLTHV--P--DDKKGVLSSFIVALFNLYEDLYFTYLEINPL---VVT------QDGVYILDMAAKIDATADFICKAKWG----------NVEFPPPF- A0A0R3NQ61/5-30_111-243 ----AITEATGKD------ILNRHL--NVHG-AGAATCRLPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----DL-SLADVKSKLLKEV-KD--ASQRERIAKFIGALYATFVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A182R7Q4/5-29_110-241 ----AIREATGKD------IINRHL--QGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLDVPVGK-----DV-TMAEIEKVLLTEI--S--SAKKQRVANFVYNLYRLYVDLYFTYLEINPL---VIT------NDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- K7FVG9/5-30_111-242 ----AISEQTGKE------FLYKYI--CTAS-AIQNRFKVPHKQEEEFYMCIYAAREGDYVLFHHQGGMDVGDVDAKAQKLLVRVDE-----KL-TASDVKKHLLVHV--L--EEKKDVLASFISGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKIDATADYVCKVKWG----------DVDFPPPF- V5I497/5-28_110-241 ----AISEATGKR------LLNEHL--AEG---LAAPCLLKHSQEEEVYLCIYSHRHGDTILFHHEGGIDIGDVDAKALKLEVPIDT-----QP-SEEQVTKTLLCHL--P--VEKQRLVAAFICGLYNVYVDLYFTYLEINPL---VLT------GGQVHILDLAAKLDATAEFVCKQKWG----------DVTFPPPF- A0A1A8HF58/5-30_111-242 ----AISEQTGKE------FVYKYI--GPSA-AVQNRFYVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVKEQLLTHV--P--DDKKEVLSSFIVALFNLYEDLYFTYLEINPL---VVT------QDGVYILDMAAKIDATADFICKAKWG----------NVEFPPPF- A0A0J9RDY6/5-30_111-243 ----AITEASGKD------ILNRHL--NTHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A098M0G7/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AVQNRFKVPHKQTEEFYVCIYAAREGDYVLFHHQGGVDVGDVDAKAQKLLVHVDC-----KL-SESXIKKHLLVHA--P--LDKKDILASFIFGLFNLYEDLYFTYLEINPL---VVT------ADGVYVLDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A182PCH9/5-29_110-241 ----AIREATGKD------IINRQL--QGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDSKALKLEVPVGK-----DV-TMADIEKVLLTEI--S--SAKKQRVASFVYNLYNLYVDLHFTYLEINPL---VVT------NDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- Q5XH22/5-30_111-242 ----AISEQTGKE------FLYKYI--CTTA-AVQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDSKAQKLLVGVGE-----RL-TEQQVKSHLLIHV--A--QDNKEVLASFITGLFHLYEDLYFTYLEINPL---VVT------QNGVYVLDMAAKIDATADYICKAKWG----------DVDFPPPF- M3VXZ1/19-44_125-256 ----AISEQTGKE------LLYKFI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDTKAQKLLVGVDK-----KL-NAEDIKKHLLVHA--P--EEKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKVDATADYICKVKWG----------DIEFPPPF- Q28WR6/5-30_111-243 ----AITEATGKD------ILNRHL--NVHG-AGAATCRLPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----DL-SLADVKSKLLKEV-KD--ASQRERIAKFIGALYATFVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A131XEL2/5-28_109-240 ----AINEATGKR------LLNEHL--APG---AAAPCECKHSQEEEAYVCIYSHRNGDTILFHHEGGVDIGDVDSKALRLEVPIDH-----KP-SAEEVTQALLTKL--P--QDKRSLVATFICSLYDVYVDLYFTYLEINPL---VVT------GGQVYILDLAAKLDATAEFVCKQKWG----------DVTFPPPF- K9J7M5/5-30_111-242 ----AISEQTGKE------FLYKYI--CTTA-AVQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDSKAQKLLVGVGE-----RL-TEKEVKSRLLIHV--A--QDKQEVLASFITGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKAKWG----------DVEFPPPF- I3KHB0/13-38_119-250 ----AISEQTGKE------LLYKNI--CTSA-AVQNRFRVPHTQEEEFYVCIYATREGDHVLFHHEGGVEVGDVDAKAQKLMVPVDG-----KL-TEDQVKEQLLSQV--P--DDKKDVLASFIVGLFNLYEDLYFTYLEINPL---VVT------QDGVYVLDMAAKIDATADYICKAKWG----------DLEFPPPF- A0A0Q5W116/5-30_111-243 ----AITEASGKD------ILNRHL--NNHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVI------ADNLYILDLAAKLDSTADFICRPKWG----------DIDYPPPF- V9K8V4/5-30_111-242 ----AISEQTAKE------FLYKFI--NTKT-GVQNKFKVPHEQLEEFYVCIYADREGDYVLFHHEGGVDIGDVDSKALKLLVGVDG-----KL-TKEKVIKTLLRCV--P--ESQKSVLATFIVGLFTLYEDLYFTYLEINPL---VVN------DKGIFVLDLAAKIDATADYICKAKWG----------DVEFPPPF- B3NPZ2/5-30_111-243 ----AITEASGKD------ILNRHL--NNHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVI------ADNLYILDLAAKLDSTADFICRPKWG----------DIDYPPPF- G3SZ75/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQVEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKLRVGVDE-----KL-DPEDIKKHLLLHA--P--EDKKEILASFISGLFDFYEDLYFTYLEINPL---VVT------KDGVYILDLAAKVDATADYICKVKWG----------DIDFPPPF- A0A0A1X3Z2/5-31_112-244 ----AISEATGKD------ILNRFLNVNGAS--GAAQCRVPHDESEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDVLVNN-----ET-SVEEITAKLLVHV--A-DAATKQRIANFIYALYKAYVDLYFTYLEINPL---VVT------KNSMYILDLAAKLDSTADFICRPKWG----------DVDYPPPF- A0A1A8HBJ8/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSA-PVQNKFRVPHKQVEEFYLCVYAAREGDYVLFHHEGGVDVGDVDAKAQKLLIRVDE-----KI-SEEQVKKELLAKA--P--ADKKGILASFVVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- A0A1A9XP97/5-30_111-242 ----AIREATGKD------ILNRHL--NHHG-AIFTPCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDIPVNS-----DV-TMADIDNKLLSQV--P--VQKKERVAKFIYALYKAFVDLYFTYLEINPL---VVT------DDNIYVLDLAAKLDSTADFICRPKWG----------DIDYPPPF- A0A1A9UZB8/5-30_111-242 ----AIREATGKD------ILNRHL--NHHG-APFTPCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDIPVNS-----DV-TMADINNKLLSQV--P--GQKKERVAKFIYALYKAFVDLYFTYLEINPL---VVT------DDNIYILDLAAKLDSTADFICRPKWG----------DIDYPPPF- H2LF96/7-32_113-244 ----AISEQTGKE------FLYKFI--FSSA-AVQNRFRVPHKQEKEFYVCIYAAREGDYILFHHEGGVDVGNVNAKAQKLLIRVDE-----KI-DEDQVKKALLTKA--P--NDKRAVLASFIVGLFNLYEELFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKAKWG----------DVEFPPPF- M7C7H2/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHQGGVDVGDVDAKAQKLLVRVDE-----KL-SASDVKKHLLVHA--L--EEKKDVLASFISGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKIDATADYICKVKWG----------DVEFPPPF- S7NBB6/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATRQGDYVLFHHEGGVDVGDVDTKAQKLLVGVDE-----KL-NPEDIKEHLLVHA--P--EDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKVDATADYICKVKWG----------DIEFPPPF- A0A131Y0Z8/5-28_110-241 ----AISEATGKR------LLNEHL--AEG---LAAPCLLKHSQEEEVYLCIYSHRHGDTILFHHEGGIDIGDVDAKALKLEVPIDT-----QP-SEEQVTKTLLCHL--P--VEKQRLVAAFICGLYNVYVDLYFTYLEINPL---VLT------GGLVHILDLAAKLDATAEFVCKQKWG----------DVTFPPPF- T1PC34/5-30_111-242 ----AICEATGKD------ILNRHL--NANG-AGFQTCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLEVPVNT-----DL-SLADINEKLLTHV--P--AAKKERVANFVNALYKTYVELYFTYLEINPL---VVT------DTDLYILDLAAKLDSTADFICRPKWG----------DIEYPPPF- B0W198/5-31_112-243 ----AIREATGKD------IISRHLAASGEH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLEVPVGT-----DV-TAESIEKVLLTEV--A--AGKKKRIASFVYNLYKLYVDLYFTYLEINPL---VVT------DSAIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- G3V888/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDTKAQKLLVGVDE-----KL-NAEDIKRHLLVHA--P--EDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYILDLAAKVDATADYICKVKWG----------DIEFPPPF- Q66JH9/5-30_111-242 ----AISEQTGKE------FLYKYI--CTTA-AVQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDSKAQKLLVGVGE-----RL-TEKEVKSRLLIHV--A--QDKQEVLASFITGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKAKWG----------DVEFPPPF- H2LF97/5-30_111-242 ----AISEQTGKE------FLYKFI--FSSA-AVQNRFRVPHKQEKEFYVCIYAAREGDYILFHHEGGVDVGNVNAKAQKLLIRVDE-----KI-DEDQVKKALLTKA--P--NDKRAVLASFIVGLFNLYEELFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKAKWG----------DVEFPPPF- A0A087Y0B8/5-30_111-242 ----AISEQTGKE------YLYKYI--CTSA-PVQNRFRVPHKQTEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLIGVDE-----KI-SEDQVKRELLTKA--P--NDKKAILASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- B4KQQ6/5-30_111-243 ----AITEATGKD------ILNRHL--NQHG-AGAANCRIPHTEAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKAVKLDVKVDS-----TL-SLADVKTTLLKAI-TD--ASKKERIAKFIYGLYATFADLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A1A8UQW1/5-30_111-242 ----AISEQTGKE------FLYKYI--SSSA-AVQNRFYVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVKEQLLTHV--P--DDKKGVLSSFIVALFNLYGDLYFTYLEINPL---VVT------QDGVYVLDMAAKIDATADFICKAKWG----------NVEFPPPF- A0A1A8EQQ4/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSA-PVQNKFRVPHKQVEEFYLCVYAAREGDYVLFHHEGGVDVGDVDAKAQKLLIRVDE-----KI-SEEQVKKELLAKA--P--ADKKGILASFVVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- A0A151PCB8/5-30_111-242 ----AISEQTGKE------FLYKYI--CTTS-AIQNRFKVPHKQEEEFYVCIYAARGGDCVLFHHEGGVDVGDVDAKAQKLLVGVNE-----KL-TESDVKKHLLVHA--P--EDKKDILASFISGLFNLYEDLYFTYLEINPL---VVT------KDGVHILDLAAKIDATADYICKVKWG----------DVEFPPPF- Q6DG67/5-30_111-242 ----AISEQTGKE------FLYKHI--CTSA-SVQNRFRVAHKQEEEFYVCIYATREGDYMLFHHEGGVDVGDVDSKALKLLVGVDE-----KI-SADTVKSQLLTHA--P--ADKKEILSSFLVGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYLCKAKWG----------DVEFPPPF- A0A182XLF6/5-29_110-241 ----AIREATGKD------IINRQL--QGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLEVPVGT-----DV-TMAEIEKVLLTEI--S--SAKKKRVANFVYNLYKMYVDLYFTYLEINPL---VVT------DDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- A0A1A9ZGT9/5-30_111-242 ----AIREATGKD------ILNRHL--NHHG-APFTPCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDIPVNS-----DV-TMADINNKLLSQV--P--GQKKERVAKFIYALYKAFVDLYFTYLEINPL---VVT------DDNIYILDLAAKLDSTADFICRPKWG----------DIDYPPPF- A0A0P8Y505/5-30_111-243 ----AITEASGKD------ILNRHL--SLHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDIPVNA-----SL-SLADVKSKLLVEV-KD--AKVKERIAKFISALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A1I8MVD7/5-30_111-242 ----AICEATGKD------ILNRHL--NANG-AGFQTCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLEVPVNT-----DL-SLADINEKLLTHV--P--AAKKERVANFVNALYKTYVELYFTYLEINPL---VVT------DTDLYILDLAAKLDSTADFICRPKWG----------DIEYPPPF- A0A1A8JEG9/5-30_111-242 ----AISEQTGKE------FLYKYI--SSSA-AVQNRFYVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVKEQLLTHV--P--DDKKGVLSSFIVALFNLYEDLYFTYLEINPL---VVT------QDGVYILDMAAKIDATADFICKAKWG----------NVEFPPPF- S4RJD1/8-32_114-245 -----VLEVTGKE------LLYKHL--DSVA-SVQNKFRVPHKQEEEFYVCVYATREGDVVLFHHEGGVDVGDVDTKALRLLVGVEG-----GL-TADSVKARLLQNV--P--AKRKELLAKFIAGLFKVYEDLFFTYLEINPL---VVT------DNGVYVLDMAAKIDATADYLCKTKWG----------DIDFPPPF- G3P216/5-30_111-242 ----AISEQTGKE------FLYKHI--CTSA-AVQNRFRVPHKQEEEFYLCVYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KI-SEDSVKKELLTHV--P--RDKKAVLASFIVGLFNLYEDLFFTYLEINPV---VVT------KDGVYVLDMAAKIDATADYICKAKWG----------DVEFPPPF- R4GEU0/5-30_111-242 ----AISERTGKE------LLYKYI--CTTA-VVRNRFSVPHIQEEEFYVCIYASREGSHVLFHHEGGVEIGDVDNKAQRLTLGIDE-----KL-MEEIVTQQLLVHV--P--DDKKEVLASFIVGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDMAAKIDSAAEYICKPKWG----------DVEFPPPF- A0A146Z9U0/5-30_111-242 ----AISEQTGKE------FLYKYI--STSA-AVQNRSRVPHTQDEEFYVCIYATRDGDQVLFHHEGGVEVGDVDAKAQRLMVAVDD-----KL-SDAQVKEQLLTHV--P--DDKKEVLASFIVGLFNLYEDLYFTYLEINPL---VLT------KDGVYVLDMAAKIDATADFLCKTKWG----------DVEFPPPF- E6ZHD6/5-30_111-242 ----AISEQTGKE------FLYKHV--CTSA-AVQNRFRVPHTQEEEFYVCIYATREGDHVLFHHEGGVEVGDVDAKAQRLMVAVDE-----KL-SEDQVTEQLLTQV--P--DDKKEVLASFIVGLFNLYEDLYFTYLEINPL---VVT------QDGVYVLDMAAKIDATADYICKAKWG----------DVEFPPPF- U3J925/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SEADVKKQLLQYA--P--ANKKDVLASFICGLFNLYEDLYFTYLEINPL---VVT------TDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- F6ZC40/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVAHTQAEEFYICIYATREGDYILFHHEGGMDVGDVDTKAQKLLVGINE-----KL-HPDNIKQHLLVHA--P--DSKKEILASFISGLFHLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DLEFPPPF- A0A1A8SCV5/5-30_111-242 ----AISEQTGKE------FLYKYI--SSPA-AVQNRFYVPHQQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVREQLLTHV--P--DDKKGVLSSFIVALFNLYEDLYFTYLEINPL---VVT------QDGVYILDMAAKIDATADFICKAKWG----------NVEFPPPF- A0A0A9WBE8/5-28_109-240 ----AIREATGKD------LINRNL--CTS---ALAKCRIAHKPAEEAYVCIYSHRKADTILFHHEGGVDIGDVDAKALKLDVPIDG-----TV-TVEEVKAKLLGKI--P--AAKQSMVATFISSLYKMYADLYFTYLEVNPL---VVT------DDSIYILDLAAKLDATADFVCRSKWG----------EIEYPPPF- Q5F3V2/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFYHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVKKHLLQHA--P--ADKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A1I8P547/5-30_111-242 ----AICEATGKD------ILNRHL--NENG-AGFQTCRVPHTDAEEMYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLDVPVNT-----DL-SLADINSKLLTHV--P--AAKKERVAKFVYALYKTYVDLYFTYLEINPL---VVT------DKDLYILDLAAKLDSTADFICRPKWG----------DIDYPPPF- A0A182U8G4/5-29_110-241 ----AIREATGKD------IINRQL--QGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLEVPVGT-----DV-TMAEIEKVLLTEI--S--SSKKKRVANFVYNLYKMYVDLYFTYLEINPL---VVT------DDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- A0A1A7XS50/5-30_111-242 ----AISEQTGKE------FLYRYI--CTSA-PIQNKFRVPHKQAEEFYLCVYAAREGDYVLFHHEGGVDVGDVDAKAQKLLIGVDE-----KI-SEEQVKKELLAKA--P--VDKKGILASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- A0A1I8P4X7/5-30_111-242 ----AICEATGKD------ILNRHL--NENG-AGFQTCRVPHTDAEEMYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLDVPVNT-----DL-SLADINSKLLTHV--P--AAKKERVAKFVYALYKTYVDLYFTYLEINPL---VVT------DKDLYILDLAAKLDSTADFICRPKWG----------DIDYPPPF- A0A1A8N5B7/5-30_111-242 ----AISEQTGKE------FLYRHI--CTSA-PVQNKFRVPHKQVEEFYLCVYAAREGDYVLFHHEGGVDVGDVDAKAQKLLIRVDE-----KI-SEEQVKKELLAKA--P--ADKKGVLASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- A0A182HQV2/5-29_110-241 ----AIREATGKD------IINRQL--QGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLEVPVGT-----DV-TMAEIEKVLLTEI--S--SAKKKRVANFVYNLYKMYVDLYFTYLEINPL---VVT------DDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- A0A0J9U372/5-30_111-243 ----AITEASGKD------ILNRHL--NTHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A1D2MPB4/5-29_110-241 ----AIREATGKR------ILNNFL--ADQP--YFAQCKIPHADNEESYVCIYSHRQGDTILFHHQGGVDIGDVDAKANSFLVTIDH-----TP-TLDEIKTKLLTEV--T--GDKKELVAKFVSALYKAYVDLHFTYLEINPL---VIT------GGKIYMLDLAAKLDATADFICRGKWG----------EIEYPPPF- V5GTA5/5-29_110-241 ----AIREATGKD------IINRQL--AGNT--AAASCRVPHKENEEMYVCIYSHRHADTILFYHQGGVDIGDVDSKAVKLDVPIGE-----HT-DEDAITKTLLRDV--P--ASKKAMVAKFVYNLYKLYVDLYFTYLEINPL---VVT------DKEIYILDLAAKLDTTADFICRPQWG----------EIEYPPPF- A0A146ZY41/5-30_111-242 ----AISEQTGKE------YLYKFI--CTSA-PVQNRFRVPHLQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDSKAQKLLIGVDE-----KI-SEDQVKKELLAKA--P--SDKKAILASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- B4QHD4/5-30_111-243 ----AITEASGKD------ILNRHL--NTHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A1I8P4Z2/5-30_111-242 ----AICEATGKD------ILNRHL--NENG-AGFQTCRVPHTDAEEMYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLDVPVNT-----DL-SLADINSKLLTHV--P--AAKKERVAKFVYALYKTYVDLYFTYLEINPL---VVT------DKDLYILDLAAKLDSTADFICRPKWG----------DIDYPPPF- A0A1A7ZET6/5-30_111-242 ----AISEQTGKE------FLYKYI--SSSA-AVQNRFYVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVKEQLLTHV--P--DDKKGVLSSFIVALFNLYGDLYFTYLEINPL---VVT------QDGVYVLDMAAKIDATADFICKAKWG----------NVEFPPPF- B3MC04/5-30_111-243 ----AITEASGKD------ILNRHL--SLHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDIPVNA-----SL-SLADVKSKLLVEV-KD--AKVKERIAKFISALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A0Q5VM32/5-30_111-243 ----AITEASGKD------ILNRHL--NNHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVI------ADNLYILDLAAKLDSTADFICRPKWG----------DIDYPPPF- A0A1A8CNZ1/5-30_111-242 ----AISEQTGKE------FLYKYI--SSSA-AVQNRFYVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVKEQLLTHV--P--DDKKGVLSSFIVALFNLYEDLYFTYLEINPL---VVT------QDGVYVLDMAAKIDATADFICKAKWG----------NVEFPPPF- A0A1A8N9Y5/5-30_111-242 ----AISEQTGKE------FLYRHI--CTSA-PVQNKFRVPHKQVEEFYLCVYAAREGDYVLFHHEGGVDVGDVDAKAQKLLIRVDE-----KI-SEEQVKKELLAKA--P--ADKKGILASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- A0A146Q799/5-30_111-242 ----AISEQTGKE------YLYKFI--CTSA-PVQNRFRVPHLQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDSKAQKLLIGVDE-----KI-SEDQVKKELLAKA--P--SDKKAILASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- A0A0Q9W5R4/5-30_111-243 ----AITEATGKD------ILNRHL--NQHG-AGAAACRVPHTEAEEMYVCIYSHRSADTILFYHLGGVDIGDVDAKAVKLEVPVDS-----TL-SLADVKTTLLKAI-TD--ASKKERIAKFIYALYATFADLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A0V0G5Z5/5-28_109-240 ----AIREATGKD------LLNRHL--SCS---SAVKCRIRHEPTEEAYVCIYSERHADVILFHHEGGVDIGDVDAKALRLCIPVES-----SL-SLDDIKEKLLVGM--P--ESKHRMLVNFISSLYKLYCDLYFTYLEVNPL---VVT------DDSIYVLDLAAKLDSTADFICRQAWG----------DIDYPPPF- J9NST7/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKLLVGVDK-----KL-NPEDIKKHLLVHA--P--GDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKIDATADYICKVKWG----------DIEFPPPF- M4A312/5-30_111-242 ----AISEQTGKE------YLYKYI--CTSA-PVQNRFRVPHKQTEEFYVCIYAAREGDYILFHHEGGVDVGDVDAKAQKLLIGVDE-----KI-GEDRVKRELLTKA--P--NDKKAILASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKTDATADYICKSKWG----------DVEFPPPF- I3KHA9/5-30_111-242 ----AISEQTGKE------LLYKNI--CTSA-AVQNRFRVPHTQEEEFYVCIYATREGDHVLFHHEGGVEVGDVDAKAQKLMVPVDG-----KL-TEDQVKEQLLSQV--P--DDKKDVLASFIVGLFNLYEDLYFTYLEINPL---VVT------QDGVYVLDMAAKIDATADYICKAKWG----------DLEFPPPF- M4A713/5-29_110-241 ----AISEQTGKK------FLYNN---NTLA-AVQNRFRVPHTQDEEFYVCIYATREADHVLFYHEGGVEVGDVDAKAQRLTVAVDD-----KL-SDTQVKEQLLTHV--P--DDKKDVLASFIVGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDLAGKIDATADFICKAKWG----------DVEFPPPF- A0A0R1DSP7/5-30_111-243 ----AITEASGKD------ILNRHL--NNHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- F1QZ09/5-30_111-242 ----AISEQTGKE------FLYKHI--CTSA-SVQNRFRVAHKQEEEFYVCIYATREGDYMLFHHEGGVDVGDVDSKALKLLVGVDE-----KI-SADTVKSQLLTHA--P--ADKKEILSSFLVGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYLCKAKWG----------DVEFPPPF- A0A1I8MVE8/5-30_111-242 ----AICEATGKD------ILNRHL--NANG-AGFQTCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLEVPVNT-----DL-SLADINEKLLTHV--P--AAKKERVANFVNALYKTYVELYFTYLEINPL---VVT------DTDLYILDLAAKLDSTADFICRPKWG----------DIEYPPPF- A0A1A7Y038/5-30_111-242 ----AISEQTGKE------FLYKYI--SSSA-AVQNRFRVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TDDQVKEQLLTHV--P--DDKKAVLSSFIVALFNFYEDLYFTYLEINPL---VVT------QDGVYILDMAAKIDATADFICKAKWG----------DVEFPPPF- I3IXL2/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSA-AIQNRFRVPHKQEEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKLLIKVDE-----KI-SEDLVKKDLLTHV--P--NDKKVVLASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKAKWG----------DVEFPPPF- B4LL37/5-30_111-243 ----AITEATGKD------ILNRHL--NQHG-AGAAACRVPHTEAEEMYVCIYSHRSADTILFYHLGGVDIGDVDAKAVKLEVPVDS-----TL-SLADVKTTLLKAI-TD--ASKKERIAKFIYALYATFADLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A0B8RV19/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AVQNRFKVPHKQTEEFYVCIYAAREGDYVLFHHQGGVDVGDVDAKAQKLLVQVDC-----KL-SESDIKKHLLVHA--P--QDKKDILASFIFGLFNLYEDLYFTYLEINPL---VVT------ADGVYVLDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A1J1I0D2/5-31_112-243 ----AIREATGKE------LINKYL--EGGNEIGVQKSRIPHKDVEEAYVCIYSHRTADTILFYHQGGVDIGDVDSKALKLDVSVGS-----NT-TLENIEKVLLKEI--P--AAKKTRVAKFVHSLYQLYVDLYFTYLEINPL---VVT------DNSIYILDLAAKIDATADFICRPKWG----------EIEYPPPF- B4HSH9/5-30_111-243 ----AITEASGKD------ILNRHL--NTHG-ADAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A0K8S2M1/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQTEEFYVCIYAAREGDYVLFHHQGGVDVGDVDAKAQKLLVHVDC-----KL-SESDIKKHLLVHA--P--LDKKDILASFIFGLFNLYEDLYFTYLEINPL---VVT------SDGVYVLDLAAKIDATADYICKVKWG----------DVEFPPPF- F1R515/5-30_111-242 ----AISERTGKE------LLYKYI--CTTA-VVRNRFSVPHIQEEEFYVCIYASREGSHVLFHHEGGVEIGDVDNKAQRLTLGIDE-----KL-MEEIVTQQLLVHV--P--DDKKEVLASFIVGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDMAAKIDSAAEYICKPKWG----------DVEFPPPF- A0A1A8UXY2/5-30_111-242 ----AISEQTGKE------FLYKYI--SSSA-AVQNRFYVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVKEQLLTHV--P--DDKKGVLSSFIVALFNLYGDLYFTYLEINPL---VVT------QDGVYVLDMAAKIDATADFICKAKWG----------NVEFPPPF- H2TQH3/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSA-AVQNRFRVPHVQEDEFYVCIYATREGDHVLFHHEGGVEVGDVDAKAQRLMVAVDD-----KL-TEEQVSEQLLIHV--S--DDKKAVLANFIVGLFSLYEDLYFTYLEINPL---VVT------GDGVYVLDMAAKIDATAEYICKPKWG----------DVEFPPPF- A0A0Q3PSM6/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVKKYLLQXA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------DDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- E3UBT9/5-30_111-242 ----AISEQTGKE------FLYKYI--CASS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SESDVKKQLLQYA--P--ANKKDVLASFICGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- H2UUH3/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSA-AVQNRFRVPHKQEEEFYVCIYATREGDFVLFHHEGGVDVGDVDAKAKKLLIGVDE-----KI-SEDAVKKQLLTLI--P--NDKKSVLSSFIVGLFNFYEDLFFTYLEINPL---VVT------KEGVFVLDMAAKIDATADYICKAKWG----------DVDFPPPF- A0A1A8NHR6/5-30_111-242 ----AISEQTGKE------FLYKYI--SSPA-AVQNRFYVPHQQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVREQLLTHV--P--DDKKGVLSSFIVALFNLYEDLYFTYLEINPL---VVT------QDGVYILDMAAKIDATADFICKAKWG----------NVEFPPPF- K7IWV9/5-29_110-242 ----AIREATGKD------LINRKL--AQGT--RAAKCRVPHKPEEEAYVCIYSHRTADTILFHHEGGVDIGDVDAKALKLEVPVDS-----DIPDESTITSRLLAHV--A--NDKKPVIAKFIQSLYKLYVDLYFTYLEINPL---VVT------DDSIYILDLAAKLDTTADFICRPDWG----------EIDYPPPF- A0A087XLP6/5-30_111-242 ----AISEQTGKE------FLYKYI--DPSV-AVQDRVRVPHTQDEEFYVCIYATREGDHVLFYHEGGVEVGDVDAKAQRLTVTVDD-----KL-SDAQVKEQLLTHV--P--DDKKDVLASFIVALFSLYEDLYFTYLEINPL---VVT------KDGVYVLDMAAKIDATADFICKAKWG----------DVEFPPPF- V9IDN5/5-29_110-242 ----AIYEATGKD------LINRKL--SSGT--NVIKCRIPHKQEEEAYVCIFSHRKADTILFHHEGGVDIGDVDAKALKLDIAVGE-----EAPNRSTIIEKLLINV--T--DDKKEIIGNFIESLYKLYVTLYFTYLEINPL---VIT------ENRIYILDLAAKLDTTADFICRPDWG----------EIDYPPPF- A0A182WA54/5-29_110-241 ----AIREATGKD------IINRHL--QGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLDVPVGK-----DV-TMAEIEKVLLTEI--S--SAKKQRVANFVYNLYRLYVDLYFTYLEINPL---VIT------NDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- A0A1A9W2F7/5-30_111-242 ----AIREATGKD------ILNRHL--NRYG-APFTPCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDIPVNS-----DV-TMADINNKLLSQV--P--AQKKERVAKFIYALYKAFVDLYFTYLEINPL---VVT------DDNIYILDLAAKLDSTADFICRPKWG----------DIDYPPPF- H2MFN0/9-34_115-246 ----AISEQTGKE------FLYKHI--NTSA-AVQNRFRVPHKQEEEFYVCIYAVREGDIVLFHHEGGVEVGDVDAKAQKLTVAVNE-----KI-SEEQVKEQLLSYV--P--EDKKGVLASFIVGLFNLYEDLYFTYLEINPL---VVT------TDGVYVLDMAAKIDATADFICKSKWG----------DVEFPPPF- G3V9G4/5-30_111-242 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDTKAQKLLVGVDE-----KL-NAEDIKRHLLVHA--P--EDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYILDLAAKVDATADYICKVKWG----------DIEFPPPF- W5N4K7/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSA-AVQNRFKVAHKQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKHLVGVGA-----KL-TEEAVKTHLLEHV--P--AAKKDVLASFVMGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYLCKAKWG----------DVEFPPPF- A0A0Q9XLD9/5-30_111-243 ----AITEATGKD------ILNRHL--NQHG-AGAANCRIPHTEAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKAVKLDVKVDS-----TL-SLADVKTTLLKAI-TD--ASKKERIAKFIYGLYATFADLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A146NW44/5-30_111-242 ----AISEQTGKE------FLYKYI--STSA-AVQNRSRVPHTQDEEFYVCIYATRDGDQVLFHHEGGVEVGDVDAKAQRLMVAVDD-----KL-SDAQVKEQLLTHV--P--DDKKEVLASFIVGLFNLYEDLYFTYLEINPL---VLT------KDGVYVLDMAAKIDATADFLCKTKWG----------DVEFPPPF- B4P6T1/5-30_111-243 ----AITEASGKD------ILNRHL--NNHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----SL-SLADVKSKLLKEV-KD--AGTKERIAKFVSALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A1B0BKF0/5-30_111-242 ----AIREATGKD------ILNRHL--NHHG-AIFTPCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDIPVNS-----DV-TMADIDNKLLSQV--P--VQKKERVAKFIYALYKAFVDLYFTYLEINPL---VVT------DDNIYVLDLAAKLDSTADFICRPKWG----------DIDYPPPF- A0A182MUM6/5-29_110-241 ----AIREATGKD------IINRHL--QGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLDVPVGK-----DV-TMAEIEKVLLTEI--S--SAKKQRVANFVYNLYRLYVDLYFTYLEINPL---VIT------NDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- A0A0P7UTX9/39-64_145-276 ----AISEQTGKE------LLYKYI--CTSA-ALHNRFKVAHKQEDEFYVCIFATREGDHVLFHHEGGVDVGDVDAKAQRLLVGVDQ-----KL-ESSALKNHLLSHV--P--DHKREVLASFLVGLFNFYEDLYFTYLEINPL---VVT------EDCVYVLDMAAKIDATADYVCKAKWG----------DVEFPPPF- K9J7M6/5-30_111-242 ----AISEQTGKE------FLYKYI--CTTA-AVQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDSKAQKLLVGVGE-----RL-TEKEVKSRLLIHV--A--QDKQEVLASFITGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKAKWG----------DVEFPPPF- A0A0A9W2Z2/5-28_109-240 ----AIREATGKD------IINRNL--CTS---ALAKCRIAHKPAEEAYVCIYSHRKADTILFHHEGGVDIGDVDAKALKLDVPIDG-----TV-TVEEVKAKLLGKI--P--AAKQSMVATFISSLYKMYADLYFTYLEVNPL---VVT------DDSIYILDLAAKLDATADFVCRSKWG----------EIEYPPPF- T1P9Z0/5-30_111-242 ----AICEATGKD------ILNRHL--NANG-AGFQTCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLEVPVNT-----DL-SLADINEKLLTHV--P--AAKKERVANFVNALYKTYVELYFTYLEINPL---VVT------DTDLYILDLAAKLDSTADFICRPKWG----------DIEYPPPF- W5UF19/5-30_111-242 ----AISEQTGKE------FLYKHI--CTTA-VVQNRFRVAHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDSKAQKLLVGVDE-----KL-DLDSVRQKLLTHA--P--KDKKEVLTTFLVGLFNLYEDLYFTYLEINPL---VVT------KNGVYVLDMAAKIDATAEYLCKAKWG----------DVEFPPPF- F1Q3V2/43-68_149-280 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKLLVGVDK-----KL-NPEDIKKHLLVHA--P--GDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKIDATADYICKVKWG----------DIEFPPPF- A0A0A1XRN0/5-31_112-244 ----AISEATGKD------ILNRFLNVNGAS--GAAQCRVPHDESEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDVLVNN-----ET-SVEEITAKLLVHV--A-DAATKQRIANFIYALYKAYVDLYFTYLEINPL---VVT------KNSMYILDLAAKLDSTADFICRPKWG----------DVDYPPPF- W8AYI0/5-31_112-244 ----AISEATGKD------ILNRFLNVNGAS--GAAQCRVPHEESEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDVLVNN-----QT-SVEEITTKLLVHV--A-DAATKKRIANFIFALYNAYVDLYFTYLEINPL---VVT------KDNMYILDLAAKLDATADFICRPKWG----------DVCYPPPF- U3FXF4/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AVQNRFKVPHKQTEEFYVCIYAAREGDYVLFHHQGGVDVGDVDAKAQKLLVRVDC-----KL-SESDIKNLLLVHV--P--LDKKDILASFIFGLFNLYEDLYFTYLEINPL---VVT------ADGVYVLDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A131YXM1/5-28_109-240 ----AINEATGKR------LLNEHL--APG---AAAPCECKHSQDEEAYVCIYSHRNGDTILFHHEGGVDIGDVDSKALRLEVPIDH-----KP-SAEEVTKALLTKL--P--QDKQSLVATFIRSLYDVYVDLYFTYLEINPL---VVT------GGQVYILDLAAKLDATAEFVCKQKWG----------DVTFPPPF- A0A0N8P0B2/5-30_111-243 ----AITEASGKD------ILNRHL--SLHG-AGAATCRVPHTDAEEMYVCIYSHRAADTILFYHQGGVDIGDVDAKAVKLDIPVNA-----SL-SLADVKSKLLVEV-KD--AKVKERIAKFISALYTTYVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A1A8R906/5-30_111-242 ----AISEQTGKE------FLYKYI--SSPA-AVQNRFYVPHQQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVREQLLTHV--P--DDKKGVLSSFIVALFNLYEDLYFTYLEINPL---VVT------QDGVYILDMAAKIDATADFICKAKWG----------NVEFPPPF- A0A1A8JLH6/5-30_111-242 ----AISEQTGKE------FLYKYI--SSSA-AVQNRFYVPHKQEEEFYVCIYATREGDFVLFHHEGGVEVGDVDAKAQRLMVGVDE-----KL-TEDQVKEQLLTHV--P--DDKKGVLSSFIVALFNLYEDLYFTYLEINPL---VVT------QDGVYILDMAAKIDATADFICKAKWG----------NVEFPPPF- A0A091SH37/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----NL-SGSDVKKHLLQHA--P--ANKKDILASFICGLFNFYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A1A7Y5W4/5-30_111-242 ----AISEQTGKE------FLYRYI--CTSA-PIQNKFRVPHKQAEEFYLCVYAAREGDYVLFHHEGGVDVGDVDAKAQKLLIGVDE-----KI-SEEQVKKELLAKA--P--VDKKGILASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- A0A182K9C8/5-29_110-241 ----AIREATGKD------IINRQL--PGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDSKALKLEVPVGQ-----EV-SMAEIEKVLLTEI--S--SAKKQRVASFVYNLYKLYVDLYFTYLEINPL---VVT------NDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- A0A0Q9XH45/5-30_111-243 ----AITEATGKD------ILNRHL--NQHG-AGAANCRIPHTEAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKAVKLDVKVDS-----TL-SLADVKTTLLKAI-TD--ASKKERIAKFIYGLYATFADLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- W5LPY0/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSA-AVQNRFRVPHSQEEEFYTCIYATREGDYVLFHHEGGVEVGDVDSKAQRLLVGVDE-----KL-TEDAVTEQLLIHV--P--DEKKEVLSSFIVGLFNLYEDLYFTYLEINPL---VVT------GEGVFVLDMAAKIDATAEFICKPKWG----------DVEFPPPF- F1P269/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFYHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVKKHLLQHA--P--ADKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A0S7JM13/5-30_111-242 ----AISEQTGKE------YLYKYI--CTSA-PVQNRFRVPHKQTEEFYVCIYAAREGDYILFHHEGGVDVGDVDAKAQKLLIGVDE-----KI-SEDQVKRELLTKA--P--NDKKAILASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- H2TQH4/5-30_111-242 ----AISEQTGKE------FLYKYI--CTSA-AVQNRFRVPHVQEDEFYVCIYATREGDHVLFHHEGGVEVGDVDAKAQRLMVAVDD-----KL-TEEQVSEQLLIHV--S--DDKKAVLANFIVGLFSLYEDLYFTYLEINPL---VVT------GDGVYVLDMAAKIDATAEYICKPKWG----------DVEFPPPF- A0A084WGB0/75-206 ---------------------------------------VPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDSKALKLDVPVGK-----DV-ALEDIENVLLTEI--S--SAKKQRVANFVYNLYRLYVDLHFTYLEINPL---VVT------SDSIYILDLAAKLDATADFICRPKWG----------EIDYPPPF- A0A016TFN7/5-29_110-249 ----AISELSGKE------LLYRYL--ESSG--LIDAPTCTHTDADELYVAIFSQRHHDVIMFYEHGGVDIGDVDQKARSINVGVSI-----DE-NEMMPTDAQLATLIGNL-GDRTAVLKTFITSLYSAYKALHFTYLEINPL---VVK------NGKVYILDLAAKLDETANFLCADKWKTRSGA-----AVEFPAPF- F4WBC0/5-29_110-242 ----AIREATGKD------LINRKL--SVGT--KIAKCRVPHKSEEEAYVCIYSHRKADTILFHHQGGIDIGDVDAKALKLNISVGS-----EMPDRSILINRLLTNV--M--DDKKVVIAEFIESLYKLYVNLHFTYLEINPL---VIT------DNAIHVLDLAAKLDTTADFICKPDWG----------EIDYPPPF- U6NKJ1/5-29_110-249 ----AVSELSGKE------LLYRCL--ECSG--LVDAPTVAHSDADELYIAIFSQRNNDVIMFYEHGGVDIGDVDQKARSIKIEVSL-----DD-NDMVPTDAQLKELIGNL-GDRTTVLKTFISSLYSAYKQLHFTYLEINPL---VVK------NSKVYILDLAAKLDETANFLCSDKWKTRSGL-----AVEFPAPF- Q9NDQ3/5-30_111-242 ----AINEITAKT------ILCKNI--GDDI-NLSNRLRVAHKQEEEFYICIHSSREEDTILFHHEGGVNIGDVDAKANKLHILTGE-----KA-DSTKITTALLKSV--S--RENQRLLEPFILSLYEFYTSLHFTYLEINPL---VVN------DGKIYVLDLAAKLDQCAEFVCARTWG----------PVEFPPPF- Q17D87/5-29_110-241 ----AIREATGKD------IINRHL--VGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDSKALKLDVPVGQ-----DV-TLESIEKVLLTEV--A--AAKKKRVASFIYNLYKLYVDLYFTYLEINPL---VVT------ESSIYILDLAAKIDATADFVCRPKWG----------EIDYPPPF- H2VWW6/5-29_110-253 ----AVSELSGKE------ILYKYF--ESTS--LLNSPHCAHSEQDEMYIAIFSERNRDVIMFYEHGGVDIGDVEEKARSVSIPVQL-----DN-SAMKPSDEDISNLLGP--VKDSEIVKKFVVELYKAYKDLHFTYLEINPF---VLR------NNQIHVLDLAAKIDETASFLCADKWKSRLTQYGGNNHVEFPAPF- R7UXV8/5-28_109-240 ----AIREVVGKQ------LLASCL--ESG---VAVSAKVAHDQSDEMYICIYSNRNGDTILFHHEGGVDIGDVDAKAMKLEIAIDT-----VP-TDSEIKETLLKKV--K--PSLQSQVLQFVQALYKCYSDLFFTYLEINPL---VLT------QDRIYILDLAAKLDQCAEYLCKQKWG----------DMEFPPPF- A8WKV9/5-29_110-253 ----AVSEFSGKE------VLYKYF--ESSG--LLFSPHCAHTEKDEMYIAIFSERSRDVIMFYEHGGVDIGDVEEKARSVSISVQL-----DN-KAMAISEEELTHLLGP--VKDNKVVRKFVLELYGAYKDLHFTYLEINPF---VVL------NDKVHVLDLAAKLDETANFLCADKWESRMTPYGGPNHVEFPAPF- H2ZP61/5-30_111-242 ----AISEFTSKT------ILCKNI--GDDV-ILSNKLKVAHKQEEEFYICIHSSREENTILFHHEGGVDIGDVDSKANKLPILTGE-----NI-DSNKITDVLLNNL--N--KENRRLLEPFIFALYNLYTSLHFTYLEINPL---VVN------DGKIYVLDLAAKLDQCAEFVCARQWG----------PVEFPPPF- A0A026W0M5/5-29_110-242 ----AIREATGKD------LINRKL--PLGT--KAAKCRIPHKPEEEVYVCIYSHRKADTILFHHQGGVDIGDVDAKALKLDVPVGA-----EAPDRSTLINKLLTNV--V--DEKKVVISEFIESLYKLYVNLYFTYLEINPL---VVT------DTAIYVLDLAAKLDTTADFICRPDWG----------EIDYPPPF- A8X940/6-35_116-259 -----VSELSGKEVTFLLFVLYKHF--ESTG--IVSAPHCAHSEDEEMYIAIYSERCRDVIMFYEHGGVDIGDVEEKARAVHIPVQL-----ND-NEMTITERELDMLLGP--CKEKDIIRKFVLNLYEAYKALHFTYLEINPF---VLT------NGKIHVLDLAAKLDETANFLCSDRWSSRSASSRITRSIEFPAPF- K1RTR1/5-27_108-239 ----AIYEAKGKE------LLNKYL--TD----EAAKNRIKHEQNEEFYLCIYSSRYCDTILFHHEGGIDIGDVDAKAVKLDIPVLE-----EV-SDSDIKSKLLSKA--P--ASAKEPLTKFIKALYTQYRNLHFTYLEINPL---VFT------GGRLYILDLAAKIDQCAEYLCKSLWG----------DLEFPPPF- G0N7T0/5-29_110-253 ----AVSELSGKE------VLYKYF--EPSG--LLASPHCAHTEKDEMYIAIFSERSRDVIMFYEHGGVDIGDVEEKARSVSIPVQL-----DN-KAMTPSDEELSTLLGP--VKDSDIVKKFVLELYKAYKDLHFTYLEINPF---VVL------NNQVHVLDLAAKLDETANFLCADKWKSRLTPYGGPNHVEFPAPF- E3LU34/5-29_110-253 ----AVSELSGKE------VLYKYF--ESTG--IVSAPHCAHTDDEEMYIAIYSERCRDVIMFYEQGGVDIGDVEEKARAVHIPVKL-----DD-SEMSITERELDVLLGP--CKEKDVIRKFVKNLYEAYKTLHFTYLEINPF---VLT------NGKIHILDLAAKLDETANFLCSDKWSSRTASARIARSIEFPAPF- S4PEX5/5-29_110-242 ----AIHEATGKD------LINRHI--ASGT--ALVPCRVKHEPSEEMYLCIHSGRRSDTIMFHHQGGVDVGDVDALALRLDVPVDT-----FP-TGEEIDRSLLKNV-KS--ATVKRILTTFITSLYRVFVDLYFTYMEINPV---VVT------NERVYLLDLAAKLDQTADFICAKNWG----------AVTFPPPF- U5EZ83/5-29_110-242 ----AIREATGKD------IINRHI--ESDS--GAAKCRIPHKDDEEAYVCIYSHRTADTILFYHQGGVDIGDVDSKAFKLEVPVGH-----DV-NLGDIEKQLLTKV-TA--AAKKQRLANFIFKLYKLYVDLYFTYLEINPL---VVT------DSSIYVLDLAAKIDATADFICRPKWG----------EIDYPPPF- X1WV43/5-29_110-241 ----AISEATGKD------IINRNL--APLT--SAVKCRIPHKDEEEAYVCIYSHRHADTILFHHEGGVDIGDVDAKALKLEVPIGQ-----SV-TEEQILEKLLTKV--S--PAKQKTIATFIVALYKMYVNLYFTYLEINPL---VVT------DSAIYILDLAAKIDSTADFICRASWG----------EIEYPPPF- W5J1A9/5-29_110-241 ----AIREATGKD------IINRLL--QGDH--GAAQCRIPHKDNEEAYVCIYSQRTVDTILFYHQGGVDIGDVDSKALKLDVPVGQ-----DV-SLADIEKVLLTEI--S--GAKKQRIANFVYNLYRMYVDMYFTYLEINPL---VVT------NDSIYILDLAAKLDATADFICRPKWG----------DIDYPPPF- B4J9W4/5-30_111-243 ----AITEATGKD------LLNRHL--NQHG-AGAATCRVPHTEAEEMYVCIYSHRSADTILFYHLGGVDIGDVDAKAVKLDVPVDS-----EL-SLADVKTTLLKAI-TD--ESKKERIANFIYALYATFAELYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPNWG----------EIDYPPPF- A0A016TFI4/5-29_110-249 ----AISELSGKE------LLYRYL--ESSG--LIDAPTCTHTDADELYVAIFSQRHHDVIMFYEHGGVDIGDVDQKARSINVGVSI-----DE-NEMMPTDAQLATLIGNL-GDRTAVLKTFITSLYSAYKALHFTYLEINPL---VVK------NGKVYILDLAAKLDETANFLCADKWKTRSGA-----AVEFPAPF- A0A069DXN3/5-28_109-240 ----AIREAAGKD------LLNRHL--SCS---SAVKCRIKHEPTEEAYVCIYSERHVDVILFHHEGGVDIGDVDAKALRLSIPIEC-----SL-SLDDIKEKLLIGM--P--ESKHKMLVNFISSLYKLYCELYFTYLEVNPL---VVT------DDSIYVLDLAAKLDSTADFICRQAWG----------DIDYPPPF- E3M9Y0/5-29_110-253 ----AVSELSGKE------VLYKYF--ESSG--LLSSPHCAHTEKDEMYIAIFSERTRDVIMFYEHGGVDIGDVEEKARSVSIPVQL-----DN-KAMSPSDEELSTLLGP--VKDSELIRKFVVELYKAYKDLHFTYLEINPF---VLL------NNQIHVLDLAAKLDETANFLCADKWKSRLTPYGGPNHVEFPAPF- H2ZP60/5-30_111-242 ----AISEFTSKT------ILCKNI--GDDV-ILSNKLKVAHKQEEEFYICIHSSREENTILFHHEGGVDIGDVDSKANKLPILTGE-----NI-DSNKITDVLLNNL--N--KENRRLLEPFIFALYNLYTSLHFTYLEINPL---VVN------DGKIYVLDLAAKLDQCAEFVCARQWG----------PVEFPPPF- T1HR11/5-28_109-240 ----AIREATGKD------LLNRHL--SCT---SAVRCRIRHEPIEEAYVCIYSERHADIILFHHEGGVDIGDVDAKALRLSVPVGS-----SL-SLDDVQEKLVVGM--P--ENKHKILVNFISSLYKVYCDLYFTYLEINPL---VVT------EDFIYTLDLAAKLDSTADFICRQAWG----------EIDYPPPF- E2BZ81/5-29_110-242 ----AIREATGKD------LINRKL--SLGT--KVAKCRIPHKLEEEAYVCIYSHRRADTILFHHQGGIDIGDVDAKALKLDVPVGS-----ELPDRSTLIDELLTNV--M--DDKKMVIAEFIESLYKFYVNLYFTYLEINPL---VVT------DTAIYILDLAAKLDTTADFICRPDWG----------EIDYPPPF- G0N9A1/5-29_110-253 ----AVSELSGKE------VLYKYF--DSTG--IVSAPHCVHTEDEEMYVAIYSERCRDVIMFYEHGGVDIGDVEEKARSVHIPVRL-----DD-SEMSITEREIDNLLGP--CKDKDVIRKFIQNLYEAYKSLHFTYLEINPF---VLT------NGKIHILDLAAKLDETANFICSDKWSSRSASARIARSIEFPAPF- A0A016TEM8/5-29_110-249 ----AISELSGKE------LLYRYL--ESSG--LIDAPTCTHTDADELYVAIFSQRHHDVIMFYEHGGVDIGDVDQKARSINVGVSI-----DE-NEMMPTDAQLATLIGNL-GDRTAVLKTFITSLYSAYKALHFTYLEINPL---VVK------NGKVYILDLAAKLDETANFLCADKWKTRSGA-----AVEFPAPF- A0A034VWU5/5-31_112-244 ----AISEATGKD------ILNRFLNVNGAS--GAAQCRLPHDESEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDVLVNK-----ET-SVEEITTKLLVHV--A-DVATKKRIATFIYALYRAYVDLYFTYLEINPL---VVT------KTSMYILDLAAKLDSTADFICRPKWG----------DVEYPPPF- A0A034VZD1/5-31_112-244 ----AISEATGKD------ILNRFLNVNGAS--GAAQCRLPHDESEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDVLVNK-----ET-SVEEITTKLLVHV--A-DVATKKRIATFIYALYRAYVDLYFTYLEINPL---VVT------KTSMYILDLAAKLDSTADFICRPKWG----------DVEYPPPF- A0A091JI62/6-31_112-243 ----AISEQTGKE------FLYKFI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SELDVKKHLLQHA--P--ANKKDVLASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A091E333/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SESDVKKHLLQHA--P--ADKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A1A7MS63/11-136 ----------------------------------------------------SPRCNGDWILFTHEGGVDVGDVDAKAEKILIPVDL---KEYP-SNEEIAATLLKKV--P--QGVHNVLVDFISRLYAVYVDCQFTYLEINPL---VVIPNADATSADVHFLDLAAKIDQTAEFECGAKWA----------IARSATA-- L9JX65/59-84_165-296 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDTKAQKLLVGVDE-----KL-NPEDIKKHLLLHA--P--EDKKEILASFISGLFNLYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKVDATADYICKVKWG----------DIEFPPPF- A0A0F2M2N7/1-128 ---------------------------------------------------MAEDTSGDWILFTHEGGVDVGDVDAKAEKLLIPVDL---SEYP-SNEEIAATLLKHI--P--KGLHNVLVDFITRLYAVYVDCQFTYLEINPL---VVIPNEDATSAAVHFLDLAAKLDQTADFECGVKWA----------IARSPAAL- A0A182KJL3/5-29_110-241 ----AIREATGKD------IINRQL--QGDH--GAAKCRVPHKDNEEAYVCIYSHRTADTILFYHQGGVDIGDVDAKALKLEVPVGT-----DV-TMAEIEKVLLTEI--S--SAKKKRVANFVYNLYKMYVDLYFTYLEINPL---VVT------DDSIYILDLAAKVDATADFICRPKWG----------EIDYPPPF- A0A087QJ73/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKIPHKQEEEFYVCIYAAREGDYVLFHHEGGMDVGDVDAKAQKLLVAVDE-----KL-NESDVKKHLLQHA--P--ANKKDILASFICGLFNFYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- Q4STH3/17-148 ---------------------------------------VPHKQEEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAKKLLIGVDE-----KI-SEDTVKKELLPLV--P--NHKKSVLSSFIIGLFNLYEDLFFTYLEINPL---VVT------KDGVFVLDMAAKIDATADYICKAKWG----------DVDFPPPF- A0A091JS47/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVKKHLLKHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------SDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- C9SKJ6/21-150 -------------------------------------------------VNADYDLQGDWILFTHEGGVDVGDVDEKAEKILIPVDL---SEYP-SNEEIASTLLKKV--P--KGVHNVLVDFISRLYAVYVECNFTYLEINPL---VVIPNEDATSATVHFLDLAAKIDQTADFECGVKWA----------IARSPAAL- H0YW70/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SESDVKKHLLQHA--P--ADKKDVLASFICGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A094L357/7-32_113-244 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-NELDVKKHLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVDFPPPF- A0A0S7JNA9/5-30_111-242 ----AISEQTGKE------YLYKYI--CTSA-PVQNRFRVPHKQTEEFYVCIYAAREGDYILFHHEGGVDVGDVDAKAQKLLIGVDE-----KI-SEDQVKRELLTKA--P--NDKKAILASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- S9Y4I5/29-54_155-214_233-304 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKLLVGVDE-----KL-NPEDIKKHLLCRG--P--GKANGILVSFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYILDLAAKVDATADYICKVKWG----------DIEFPPPF- A0A154MJI8/5-30_111-242 ----AISEQTGKE------YLYKFI--CTSA-PVQNRFRVPHLQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDSKAQKLLIGVDE-----KI-SEDQVKKELLAKA--P--SDKKAILASFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVYVLDMAAKIDATADYICKSKWG----------DVEFPPPF- A0A091QGB6/57-188 ---------------------------------------VPHKQEEEFYVCIYAAREGDFLLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVKKHLLQHA--P--ANKRDILASFICGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A0P7XP65/66-91_172-303 ----AISEQTGKE------FLYKYI--CTSA-AVQNRFKVAHKQEEEFYVCIYAAREGDYVLFYHEGGVDVGDVDAKAQKLLVGVDE-----KL-SEEAVKRQLLTHV--P--MDRKEVLASFVVGLFNLYEDLFFTYLEINPL---VVT------KDGVFVLDMAAKIDATADFICKAKWG----------DVEFPPPF- A0A1B0G038/5-30_111-242 ----AIREATGKD------ILNRHL--NRHG-APFTPCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDIPVNS-----DV-TMADINNKLLSQV--P--GQKKERVAKFIYALYKAFVDLYFTYLEINPL---VVT------DDNIYILDLAAKLDSTADFICRPKWG----------DIDYPPPF- A0A093I1X7/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVGVDE-----KL-NDSDVKKHLLQHA--P--ANKKDILASFISGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A093J9I3/7-32_113-244 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCVYAAREGDYILFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SESDVKKHLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- H1W2E9/190-314 ------------------------------------------------------PFPGDWILFTHEGGVDVGDVDAKAEKLLIPVDL---SQYP-SNDEIAATLLKKV--P--KGVHNVLVDFISRLYAVYVECQFTYLEINPL---VVIPNEDATSASVHFLDLAAKLDQTADFECGVKWA----------IARSPAAL- A0A091MGJ0/8-33_114-245 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVTKHLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYMCKVKWG----------DVEFPPPF- G1PJD1/14-39_120-251 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATRQGDYVLFHHEGGVDVGDVDTKAQKLLVGVDE-----KL-NPEDIKEHLLVHA--P--EDKKEILASFISGLFNFYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKVDATADYICKVKWG----------DIEFPPPF- A0A1B7NRT4/1-122 ---------------------------------------------------------GDWILFTHEGGVDVGDVDAKAEKLLIPVNL---KNYP-SNDEIAAALLSKI--P--QGLHNVLVDFITRLYAVYVDCQFTYLEINPL---VVIPNAAKTSAAVHFLDLAAKLDQTAEFECGTKWA----------IARSPAAL- A0A146NJD9/5-30_111-242 ----AISEQTGKE------FLYKYI--STSA-AVQNRSRVPHTQDEEFYVCIYATRDGDQVLFHHEGGVEVGDVDAKAQRLMVAVDD-----KL-SDAQVKEQLLTHV--P--DDKKEVLASFIVGLFNLYEDLYFTYLEINPL---VLT------KDGVYVLDMAAKIDATADFLCKTKWG----------DVEFPPPF- A0A091GRN6/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVPVDE-----KL-NESDVKQHLLQHA--P--ANKRDVLASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A091UGV3/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCVYAAREGDYVLFHHEGGVDVGDVDAKAQQLLVAVDE-----KL-TESDVKKYLLQHA--P--ANKKDVLASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A093CAG9/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-NELDVKKHLLQHA--P--ANKRDILASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- Q4ST86/5-30_111-242 ----AISEQTGKE------FLYKHI--CTSA-AVQNRFRVPHKQEEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAKKLLIGVDE-----KI-SEDTVKKELLPLV--P--NDKKSVLSSFIVGLFNLYEDLFFTYLEINPL---VVT------KDGVFVLDMAAKIDATADYICKAKWG----------DVDFPPPF- A0A1E1KWN8/244-373 -------------------------------------------------SRSRQPPLGDWILFTHEGGVDVGDVDAKAEKLLIPVDL---SEYP-SNEEIAGTLLKKV--P--KGVHNVLVDFITRLYAVYVDCQFTYLEINPL---VVIPNADATSAEVHFLDLAAKIDQTAEFECGVKWA----------IARSPAAL- B4H6D0/5-30_111-243 ----AITEATGKD------ILNRHL--NVHG-AGAATCRLPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKAVKLDVPVNS-----DL-SLADVKSKLLKEV-KD--ASQKERIAKFIGALYATFVDLYFTYLEINPL---VVT------ADNLYILDLAAKLDSTADFICRPKWG----------EIDYPPPF- A0A091R7T0/7-32_113-244 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SESDVKKHLLQHA--P--ASKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------NGGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A091W9B1/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQDEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-NELDVKKYLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A087UDF1/5-28_109-240 ----AVREATGKD------LLNRFL--CTG---AVVKCRVPHKQEEEAYVCIYSHRYADTILFHHEGGVDIGDVDAKALKLDIPVDT-----KP-SFDDVKLKLVRNL--P--AEKQDYVAAFICSLYDVYVDLYFTYLEINPL---VLT------EGKAYILDLAAKLDATADFLCKQKWG----------EFEFPPAF- A0A091T9K7/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SESDVKKHLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------GSGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A093FN91/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHRQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVKKYLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A0A0A3D7/6-31_112-243 ----AISEQTGKE------LLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SESDVKKHLLKHA--P--ANKKDILASFICGLFNFYEDLYFTYLEINPI---VVH------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A093QUL7/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFYHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVKKHLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------NGGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- G1LGZ5/8-33_114-245 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGVDVGDVDAKAQKLLVGVDK-----KL-NPEDIKKHLLVHA--P--GDKKEILASFISGLFDFYEDLYFTYLEINPL---VVT------KDGVYVLDLAAKIDATADYICKVKWG----------DIEFPPPF- A0A091HML7/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SESDVKKHLLQHA--P--SNKKDVLASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A093J668/6-31_112-242 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVLHKQ-AKFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVKKHLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------SDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- R0I9P1/240-368 ---------------------------------------------------LLPAAPGDWILFTHEGGVDVGDVDEKAEKLLIPVDL---KEYP-SNEEIAATLLKKV--P--EGVHNVLVDFISRLYAVYVDCQFTYLEINPL---VVIPNEDKTSAAVHFLDLAAKLDQTAEFECGAKWA----------IARSANALG A0A0T6BD56/5-29_110-241 ----AIREATGKE------LINRLL--EANT--AAVRCKIPHKPEEEMYICIYSHRFADTILFYHQGGVDIGDVDSKALKLEVPVDE-----SL-DSSKIDKVLLKEV--P--ATKKAMLNKFITALYKLYVELYFTYLEVNPL---VVT------EKEIYILDLAAKLDATAEFLCRPQWG----------DIEYPPPF- A0A0L0CF01/7-32_113-244 ----AITEATGKD------ILNRHL--NDNG-AGVQTCRVPHTDAEEMYVCIYSHRSADTILFYHQGGVDIGDVDAKALKLDIPVNS-----EV-TMEDIKAKLLTEV--P--AGKKERIAKFIFALYKTFADLYFTYLEINPL---VVT------DDSMYILDLAAKLDSTADFICRPRWG----------DIDYPPPF- A0A091FSK2/1-14_95-226 ----------------------KYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SESDVKKHLLQHA--P--AHKKDVLASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKMKWG----------DVEFPPPF- G1MW07/7-32_113-245 ----AISEQTGKE------FLYKFI--CTSS-AIQNRFKVPHRQEEEFYVCIYAAREGDCVLFYHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESDVKKHLLQHA--P--ADKKDILASFICGLFNLYEDLYFTYLEINPL--EVVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A0S7JLZ3/5-29_110-241 ----AISEQTGKK------FLYNN---TALA-AVQNRFRVPHTQDEEFYVCIYATREGDHVLFHHEGGVEVGDVDAKALRLTVAVDD-----KL-SDAQVKEQLLTHV--P--DDKKDVLASFIVGLFNLYEDLYFTYLEINPL---VVT------KDGVHVLDMAAKIDATADFICKAKWG----------DVEFPPPF- G3VCQ8/7-32_113-244 ----AISEQTGKE------LLYKYI--CTTS-AIQNRFKVPHSQAEEFYVCIYATREGDYVLFHHEGGMDVGDVDTKAQKLLVGVNE-----KL-HPTDIKQHLLTHV--P--ESQKEILASFISGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DLEFPPPF- A0A060WSF9/5-30_111-242 ----AISEQTGKE------FLYKHI--CTSA-AVQNRFRVAHTQEEEFYICIYATREGDHVLFHHEGGVDVGDVDAKAQRLLVGVDD-----KL-SEDSVKEQLFMHV--P--EDRKEVLVSFVVGLFNLYEDLYFTYLEINPL---VVN------QDGVFVLDMAAKIDATADYICKAKWG----------DVEFPPPF- A0A023FS20/5-28_109-240 ----AISEATGKR------LLNEHL--TPG---VAAPCHIKHAQDEEAYVCIYSHRNGDTILFHHEGGVDIGDVDAKALRLEVPIDH-----KP-DAEEVTKALLTHL--P--QDKRSVVAAFICSLYGVYVDLYFTYLEINPL---VVT------GGQVYILDLAAKLDATAEFVCKQKWG----------EVTFPPPF- A0A093PX56/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SESDVKKQLLQHA--P--ADKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------KDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- A0A0S7JNT9/5-29_110-241 ----AISEQTGKK------FLYNN---TALA-AVQNRFRVPHTQDEEFYVCIYATREGDHVLFHHEGGVEVGDVDAKALRLTVAVDD-----KL-SDAQVKEQLLTHV--P--DDKKDVLASFIVGLFNLYEDLYFTYLEINPL---VVT------KDGVHVLDMAAKIDATADFICKAKWG----------DVEFPPPF- A0A091UU87/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDYVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-NESNVKKHLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------NDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- H2TQH2/9-34_115-246 ----AISEQTGKE------FLYKYI--CTSA-AVQNRFRVPHVQEDEFYVCIYATREGDHVLFHHEGGVEVGDVDAKAQRLMVAVDD-----KL-TEEQVSEQLLIHV--S--DDKKAVLANFIVGLFSLYEDLYFTYLEINPL---VVT------GDGVYVLDMAAKIDATAEYICKPKWG----------DVEFPPPF- A0A0S7JNS5/5-29_110-241 ----AISEQTGKK------FLYNN---TALA-AVQNRFRVPHTQDEEFYVCIYATREGDHVLFHHEGGVEVGDVDAKALRLTVAVDD-----KL-SDAQVKEQLLTHV--P--DDKKDVLASFIVGLFNLYEDLYFTYLEINPL---VVT------KDGVHVLDMAAKIDATADFICKAKWG----------DVEFPPPF- A0A091ML34/6-31_112-243 ----AISEQTGKE------FLYKYI--CTSS-AIQNRFKVPHKQEEEFYVCIYAAREGDCVLFHHEGGVDVGDVDAKAQKLLVAVDE-----KL-SEADVKKHLLQHA--P--ANKKDILASFICGLFNLYEDLYFTYLEINPL---VVT------GDGVYILDLAAKIDATADYICKVKWG----------DVEFPPPF- E4WZV7/5-29_110-242 ----AISEFDAKR------LVWNNI--NLSC--VANKNLVAHEEKDEMYVAIYGTKAGDKILFHHEGGVDIGDVDEKAVSLDVDVDQ-----KL-KKNDVEEKLLAGV--K-DADQKALVAEFIVGLFAVYRKLYFAYMEINPI---VVR------DGKIYILDLAAKLDQCAEYICSREWG----------SLTFPPPF- T2MF65/9-31_112-245 -----IFEADGKR------LLSCHL--QCES---FVRPEIGHHMVEEMYVCILSERDQDVILFHHQGGIEVGDIDSKALKLSVCIGD-----QV-NVSQIQCQLLPSV--X--XENKSTLAAFIKNLYDVYVDLHFTYMEINPI---VVN------NDGIFILDMAAKIDTTADYLCSTKWG--------KTKLKFPPPF- E5SDB5/5-28_110-244 ----AITEFQAKT------IVYNNI--DQC---PLKILPISHKEEDECYVCIYSVRSGDVVLFYHRGGIDVGDVDQKSENLFIPLEK-----TP-SYVEIVSKLLINL--K-CNVKKQLVAEFIIKLYQLYVNLHFTYLEINPL---LVN----GDDKTIYMLDIAAKLDSAADFMCRRQWG----------EIEFPTPF- H2ZP65/58-194 ---------------------------------------VAHKQEEEFYICIHSSREENTILFHHEGGVDIGDVDSKANKLPVSYHEFPDLTNI-DSNKITDVLLNNL--N--KENRRLLEPFIFALYNLYTSLHFTYLEINPL---VVN------DGKIYVLDLAAKLDQCAEFVCARQWG----------PVEFPPPF- U4UPY7/46-177 ---------------------------------------VPHKEEEETYVCIYSHRHADSILFYHQGGVDIGDVDSKAVKLDVPVGE-----AL-KEEDVLNVLLAQV--K--AAKKSSISKFIINLYQLYVDLYFTYLEINPL---VVT------DEAIFILDLAAKLDATADFMCRPKWG----------EIDYPPPF- N6T8J1/5-29_110-241 ----AIREAAGKN------LINKHL--GGNT--AATQCRVPHKEEEETYVCIYSHRHADSILFYHQGGVDIGDVDSKAVKLDVPVGE-----AL-KEEDVLNVLLAQV--K--AAKKSSISKFIVNLYQLYVDLYFTYLEINPL---VVT------DEAIFILDLAAKLDATADFMCRPKWG----------EIDYPPPF- E2ABZ4/5-29_110-242 ----AIREATGKD------LINRKL--SSGT--KVAKSRVSHKPEEEVYICIYSHRKADTILFHHQGGVDIGDVDAKALKLDIPVGG-----ELPDRSILINKLLVNV--A--DDKKVMIAEFIESLYKLYVNLYFTYMEINPL---VVT------DSAIYILDLAAKLDTTADFICKPDWG----------EIDYPPPF- H2ZP64/58-192 ---------------------------------------VAHKQEEEFYICIHSSREENTILFHHEGGVDIGDVDSKANKLPILTGE-----NI-DSNKITDVLLNNL--N--KENRRLLEPFIFALYNLYTSLHFTYLEINPLGKFMVN------DGKIYVLDLAAKLDQCAEFVCARQWG----------PVEFPPPF- V5N9M8/75-218 ---------------------------------------CAHTENEEMYIAIYSERCRDVIMFYEHGGVDIGDVEEKARTINIPVRL-----ED-GEMSITEREIDVLLGP--CKENEAIRKFVRNLYEAYKTLHFTYLEINPF---VFT------NGRIHILDLAAKLDETANFLCSDKWNGRNASARAARSIEFPAPF- H2XSF2/5-30_111-242 ----AINEITAKT------ILCKNI--GDDI-NLSNRLRVAHKQEEEFYICIHSSREEDTILFHHEGGVDIGDVDAKANKLHILTGE-----KA-DSTKITTALLKSV--S--RENQRLLEPFILSLYEFYTSLHFTYLEINPL---VVN------DGKIYVLDLAAKLDQCAEFVCARTWG----------PVEFPPPF- A0A0B2VDT7/5-29_110-250 ----AISEYTGKE------LLYRHL--NRVT--FVDKPEVEHTEGDEMYVAMLSRRDHDIIMFYEKGGIDVGDIDAKARKLIVPVQL-----DE-MSMELSEDELTKLIGPVAEDNLSLVKMFIKELYNVYKDNFFTYLEINPL---VVT------GGKIHILDLAAKLDETALFLCSEKWKTRSGR-----PVEFPAPF- #=GC scorecons 000077473577500000046454500333302334334658443784877775484583789676998879888688367374853000004404334644378345005003456446548734974484787989898998000886000000454676997988695897769537970000000000566787880 #=GC scorecons_70 ____**_*__**________*____________________*___**_*****__*__*_*****_*********_**_**_*_*______________*___**___________*__*__**__**__*_************___***_________*********_*_******__***___________*******_ #=GC scorecons_80 _______*___*_____________________________*___**_*__**__*__*_***_*_****_****_**__*_*_*__________________**_________________**__**__*_**_*********___**___________*_******_*_****_*__***______________****_ #=GC scorecons_90 _________________________________________*______*______*__*__**___****_****_**__________________________*_________________*___*___*____*********___*______________**_***_*_**___*___*_______________*_**_ //