# STOCKHOLM 1.0 #=GF ID 2.130.10.10/FF/102733 #=GF DE U5 small nuclear ribonucleoprotein #=GF AC 2.130.10.10/FF/102733 #=GF TP FunFam #=GF DR CATH: 4.2 #=GF DR DOPS: 89.857 #=GS 3jb9L00/42-340 AC O94620 #=GS 3jb9L00/42-340 OS Schizosaccharomyces pombe 972h- #=GS 3jb9L00/42-340 DE Pre-mRNA-splicing factor cwf17 #=GS 3jb9L00/42-340 DR CATH; 3jb9; L:42-340; #=GS 3jb9L00/42-340 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Taphrinomycotina; Schizosaccharomycetes; Schizosaccharomycetales; Schizosaccharomycetaceae; Schizosaccharomyces; Schizosaccharomyces pombe; #=GS 3jb9L00/42-340 DR GO; GO:0005515; GO:0005634; GO:0005681; GO:0005682; GO:0045292; GO:0071014; #=GS E0VDW2/48-347 AC E0VDW2 #=GS E0VDW2/48-347 OS Pediculus humanus corporis #=GS E0VDW2/48-347 DE WD-repeat protein, putative #=GS E0VDW2/48-347 DR GENE3D; 1bf51c8887965a5decb63d8bd1aac4f5/48-347; #=GS E0VDW2/48-347 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Psocodea; Phthiraptera; Anoplura; Pediculidae; Pediculus; Pediculus humanus; Pediculus humanus corporis; #=GS E0VDW2/48-347 DR EC; 2.7.11.7; #=GS A0A0B2RQU6/47-345 AC A0A0B2RQU6 #=GS A0A0B2RQU6/47-345 OS Glycine soja #=GS A0A0B2RQU6/47-345 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0B2RQU6/47-345 DR GENE3D; 055398e84d81c93519fad4fa91e0c555/47-345; #=GS A0A0B2RQU6/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Fabales; Fabaceae; Papilionoideae; Phaseoleae; Glycine; Soja; Glycine soja; #=GS A0A0B2RQU6/47-345 DR EC; 2.3.1.48; #=GS Q96DI7/58-357 AC Q96DI7 #=GS Q96DI7/58-357 OS Homo sapiens #=GS Q96DI7/58-357 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS Q96DI7/58-357 DR GENE3D; d11c710a973118587545c72708887fe2/58-357; #=GS Q96DI7/58-357 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS Q96DI7/58-357 DR GO; GO:0000375; GO:0000398; GO:0003723; GO:0005515; GO:0005654; GO:0005682; GO:0005732; GO:0005829; GO:0006396; GO:0008380; GO:0016607; GO:0071013; #=GS O94620/42-340 AC O94620 #=GS O94620/42-340 OS Schizosaccharomyces pombe 972h- #=GS O94620/42-340 DE Pre-mRNA-splicing factor cwf17 #=GS O94620/42-340 DR GENE3D; 2f1a844648e93b142fccf8619b8dfd36/42-340; #=GS O94620/42-340 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Taphrinomycotina; Schizosaccharomycetes; Schizosaccharomycetales; Schizosaccharomycetaceae; Schizosaccharomyces; Schizosaccharomyces pombe; #=GS O94620/42-340 DR GO; GO:0005515; GO:0005634; GO:0005681; GO:0005682; GO:0045292; GO:0071014; #=GS Q9VPL0/47-346 AC Q9VPL0 #=GS Q9VPL0/47-346 OS Drosophila melanogaster #=GS Q9VPL0/47-346 DE CG3436, isoform A #=GS Q9VPL0/47-346 DR GENE3D; 16a72ec72cba3f28343906a82068cb93/47-346; #=GS Q9VPL0/47-346 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 Q9VPL0/47-346 DR GO; GO:0000278; GO:0000398; GO:0003723; GO:0071011; GO:0071013; #=GS Q6PE01/59-358 AC Q6PE01 #=GS Q6PE01/59-358 OS Mus musculus #=GS Q6PE01/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS Q6PE01/59-358 DR GENE3D; 22d6540a7e7d99294e51ac232ff16078/59-358; #=GS Q6PE01/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Mus; Mus; Mus musculus; #=GS Q6PE01/59-358 DR GO; GO:0003723; GO:0005829; GO:0016607; GO:0071013; #=GS A0MNP2/58-357 AC A0MNP2 #=GS A0MNP2/58-357 OS Homo sapiens #=GS A0MNP2/58-357 DE CDW11/WDR57 #=GS A0MNP2/58-357 DR GENE3D; d11c710a973118587545c72708887fe2/58-357; #=GS A0MNP2/58-357 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS A0MNP2/58-357 DR GO; GO:0005829; GO:0016607; #=GS O22826/45-343 AC O22826 #=GS O22826/45-343 OS Arabidopsis thaliana #=GS O22826/45-343 DE At2g43770 #=GS O22826/45-343 DR GENE3D; eb4a1f4bbdd05fb5cc062020c5b27e3f/45-343; #=GS O22826/45-343 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Camelineae; Arabidopsis; Arabidopsis thaliana; #=GS O22826/45-343 DR GO; GO:0080008; #=GS O02097/28-327 AC O02097 #=GS O02097/28-327 OS Caenorhabditis elegans #=GS O02097/28-327 DE Uncharacterized protein #=GS O02097/28-327 DR GENE3D; 58075736c9fc9afb5b514d801e3204f2/28-327; #=GS O02097/28-327 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis elegans; #=GS Q19211/30-329 AC Q19211 #=GS Q19211/30-329 OS Caenorhabditis elegans #=GS Q19211/30-329 DE Uncharacterized protein #=GS Q19211/30-329 DR GENE3D; 73d64336de3c5538edec3803660103ad/30-329; #=GS Q19211/30-329 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis elegans; #=GS Q55AR8/54-354 AC Q55AR8 #=GS Q55AR8/54-354 OS Dictyostelium discoideum #=GS Q55AR8/54-354 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS Q55AR8/54-354 DR GENE3D; 5228dc2bff960d42fb4b8fe7cf9a8365/54-354; #=GS Q55AR8/54-354 DR ORG; Eukaryota; Dictyosteliida; Dictyostelium; Dictyostelium discoideum; #=GS Q55AR8/54-354 DR GO; GO:0005634; #=GS T1FN91/50-349 AC T1FN91 #=GS T1FN91/50-349 OS Helobdella robusta #=GS T1FN91/50-349 DE Uncharacterized protein #=GS T1FN91/50-349 DR GENE3D; 06ac661176d8f614b33b38e8749d3a96/50-349; #=GS T1FN91/50-349 DR ORG; Eukaryota; Metazoa; Annelida; Clitellata; Hirudinea; Rhynchobdellida; Glossiphoniidae; Helobdella; Helobdella robusta; #=GS G4VPH0/64-363 AC G4VPH0 #=GS G4VPH0/64-363 OS Schistosoma mansoni #=GS G4VPH0/64-363 DE U5 snrnp-specific protein-related #=GS G4VPH0/64-363 DR GENE3D; 1019951d98e5a7de74762c2c4696f373/64-363; #=GS G4VPH0/64-363 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Trematoda; Digenea; Strigeidida; Schistosomatoidea; Schistosomatidae; Schistosoma; Schistosoma mansoni; #=GS A7RQB4/50-349 AC A7RQB4 #=GS A7RQB4/50-349 OS Nematostella vectensis #=GS A7RQB4/50-349 DE Predicted protein #=GS A7RQB4/50-349 DR GENE3D; 1bcdf55ce1aa33ff2e76c241ecc8e7a1/50-349; #=GS A7RQB4/50-349 DR ORG; Eukaryota; Metazoa; Cnidaria; Anthozoa; Hexacorallia; Actiniaria; Edwardsiidae; Nematostella; Nematostella vectensis; #=GS A0A0K0J9A6/48-347 AC A0A0K0J9A6 #=GS A0A0K0J9A6/48-347 OS Brugia malayi #=GS A0A0K0J9A6/48-347 DE Bm3208 #=GS A0A0K0J9A6/48-347 DR GENE3D; 24c9728bbe776815bb03e5b51f620ff5/48-347; #=GS A0A0K0J9A6/48-347 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Spirurida; Filarioidea; Onchocercidae; Brugia; Brugia malayi; #=GS V3ZVT0/46-345 AC V3ZVT0 #=GS V3ZVT0/46-345 OS Lottia gigantea #=GS V3ZVT0/46-345 DE Uncharacterized protein #=GS V3ZVT0/46-345 DR GENE3D; 25f9c1208dc952389b98732aafcbdb14/46-345; #=GS V3ZVT0/46-345 DR ORG; Eukaryota; Metazoa; Mollusca; Gastropoda; Lottioidea; Lottiidae; Lottia; Lottia gigantea; #=GS A9SF78/11-310 AC A9SF78 #=GS A9SF78/11-310 OS Physcomitrella patens #=GS A9SF78/11-310 DE Predicted protein #=GS A9SF78/11-310 DR GENE3D; 3b2dead5f826af24c6baf63b6fdaffe3/11-310; #=GS A9SF78/11-310 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Bryopsida; Funariidae; Funariales; Funariaceae; Physcomitrella; Physcomitrella patens; #=GS F6HB26/46-344 AC F6HB26 #=GS F6HB26/46-344 OS Vitis vinifera #=GS F6HB26/46-344 DE Putative uncharacterized protein #=GS F6HB26/46-344 DR GENE3D; 55fe1b2322579847ece565b83a671588/46-344; #=GS F6HB26/46-344 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Vitales; Vitaceae; Vitis; Vitis vinifera; #=GS D6WYC4/48-347 AC D6WYC4 #=GS D6WYC4/48-347 OS Tribolium castaneum #=GS D6WYC4/48-347 DE Protein will die slowly-like Protein #=GS D6WYC4/48-347 DR GENE3D; 6811aa9e61b1a67d973c521dc10cc894/48-347; #=GS D6WYC4/48-347 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Cucujiformia; Tenebrionoidea; Tenebrionidae; Tribolium; Tribolium castaneum; #=GS K4BGV7/28-326 AC K4BGV7 #=GS K4BGV7/28-326 OS Solanum lycopersicum #=GS K4BGV7/28-326 DE Uncharacterized protein #=GS K4BGV7/28-326 DR GENE3D; 6f7038f966ef5158bd5d9f04490a7caf/28-326; #=GS K4BGV7/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; asterids; Solanales; Solanaceae; Solanoideae; Solaneae; Solanum; Lycopersicon; Solanum lycopersicum; #=GS B3RP89/1-298 AC B3RP89 #=GS B3RP89/1-298 OS Trichoplax adhaerens #=GS B3RP89/1-298 DE Putative uncharacterized protein #=GS B3RP89/1-298 DR GENE3D; 9013c4911f7b18ee5ffd12d43820b349/1-298; #=GS B3RP89/1-298 DR ORG; Eukaryota; Metazoa; Placozoa; Trichoplax; Trichoplax adhaerens; #=GS A9STI4/56-355 AC A9STI4 #=GS A9STI4/56-355 OS Physcomitrella patens #=GS A9STI4/56-355 DE Predicted protein #=GS A9STI4/56-355 DR GENE3D; 91cd29d35597a990c10fb41057776169/56-355; #=GS A9STI4/56-355 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Bryopsida; Funariidae; Funariales; Funariaceae; Physcomitrella; Physcomitrella patens; #=GS T1JD28/48-347 AC T1JD28 #=GS T1JD28/48-347 OS Strigamia maritima #=GS T1JD28/48-347 DE Uncharacterized protein #=GS T1JD28/48-347 DR GENE3D; cf496cbb8f339a11229abe83a1690ebc/48-347; #=GS T1JD28/48-347 DR ORG; Eukaryota; Metazoa; Arthropoda; Myriapoda; Chilopoda; Pleurostigmophora; Geophilomorpha; Linotaeniidae; Strigamia; Strigamia maritima; #=GS A8HY75/25-329 AC A8HY75 #=GS A8HY75/25-329 OS Chlamydomonas reinhardtii #=GS A8HY75/25-329 DE U5 snRNP-specific protein #=GS A8HY75/25-329 DR GENE3D; d0b745163adf9e4a97049ae1df145b12/25-329; #=GS A8HY75/25-329 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Chlorophyceae; Chlamydomonadales; Chlamydomonadaceae; Chlamydomonas; Chlamydomonas reinhardtii; #=GS A0A088A190/49-348 AC A0A088A190 #=GS A0A088A190/49-348 OS Apis mellifera #=GS A0A088A190/49-348 DE Uncharacterized protein #=GS A0A088A190/49-348 DR GENE3D; d1ef9803c71a826d581887d0c777fd2c/49-348; #=GS A0A088A190/49-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Apoidea; Apidae; Apinae; Apini; Apis; Apis mellifera; #=GS W4Z7Y6/50-349 AC W4Z7Y6 #=GS W4Z7Y6/50-349 OS Strongylocentrotus purpuratus #=GS W4Z7Y6/50-349 DE Uncharacterized protein #=GS W4Z7Y6/50-349 DR GENE3D; d21d51b1723278832882bb7bcb1f68e9/50-349; #=GS W4Z7Y6/50-349 DR ORG; Eukaryota; Metazoa; Echinodermata; Echinozoa; Echinoidea; Euechinoidea; Echinacea; Echinoida; Strongylocentrotidae; Strongylocentrotus; Strongylocentrotus purpuratus; #=GS U5DDF4/37-336 AC U5DDF4 #=GS U5DDF4/37-336 OS Amborella trichopoda #=GS U5DDF4/37-336 DE Uncharacterized protein #=GS U5DDF4/37-336 DR GENE3D; d42a0f904b96fff1b9bf77898c3ebe81/37-336; #=GS U5DDF4/37-336 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Amborellales; Amborellaceae; Amborella; Amborella trichopoda; #=GS E9GI96/37-336 AC E9GI96 #=GS E9GI96/37-336 OS Daphnia pulex #=GS E9GI96/37-336 DE Putative uncharacterized protein #=GS E9GI96/37-336 DR GENE3D; de1094645913d4619bd4d59752ebe5cf/37-336; #=GS E9GI96/37-336 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia pulex; #=GS Q7QG51/50-349 AC Q7QG51 #=GS Q7QG51/50-349 OS Anopheles gambiae #=GS Q7QG51/50-349 DE AGAP009506-PA #=GS Q7QG51/50-349 DR GENE3D; df8a1de939c5d3843f02d83ee5520e5f/50-349; #=GS Q7QG51/50-349 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles gambiae; #=GS T1K8X8/51-350 AC T1K8X8 #=GS T1K8X8/51-350 OS Tetranychus urticae #=GS T1K8X8/51-350 DE Uncharacterized protein #=GS T1K8X8/51-350 DR GENE3D; e778e99e34758eae324e1d5d00a03961/51-350; #=GS T1K8X8/51-350 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Acariformes; Prostigmata; Eleutherengona; Tetranychoidea; Tetranychidae; Tetranychus; Tetranychus urticae; #=GS A0A067R8E6/46-345 AC A0A067R8E6 #=GS A0A067R8E6/46-345 OS Zootermopsis nevadensis #=GS A0A067R8E6/46-345 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A067R8E6/46-345 DR GENE3D; e8c47b065167b1646a8906de44447e51/46-345; #=GS A0A067R8E6/46-345 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Polyneoptera; Blattodea; Blattoidea; Termopsidae; Termopsinae; Termopsini; Zootermopsis; Zootermopsis nevadensis; #=GS B9SFU6/47-345 AC B9SFU6 #=GS B9SFU6/47-345 OS Ricinus communis #=GS B9SFU6/47-345 DE WD-repeat protein, putative #=GS B9SFU6/47-345 DR GENE3D; 357eb34b96ce912f6a50435af68338b8/47-345; #=GS B9SFU6/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Malpighiales; Euphorbiaceae; Acalyphoideae; Acalypheae; Ricinus; Ricinus communis; #=GS B9SFU6/47-345 DR EC; 2.3.1.48; #=GS A0A0B2SJ77/47-345 AC A0A0B2SJ77 #=GS A0A0B2SJ77/47-345 OS Glycine soja #=GS A0A0B2SJ77/47-345 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0B2SJ77/47-345 DR GENE3D; 682856a90b387f71d655a42b302f13c6/47-345; #=GS A0A0B2SJ77/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Fabales; Fabaceae; Papilionoideae; Phaseoleae; Glycine; Soja; Glycine soja; #=GS A0A0B2SJ77/47-345 DR EC; 2.3.1.48; #=GS C6TJP9/47-345 AC C6TJP9 #=GS C6TJP9/47-345 OS Glycine max #=GS C6TJP9/47-345 DE Putative uncharacterized protein #=GS C6TJP9/47-345 DR GENE3D; 682856a90b387f71d655a42b302f13c6/47-345; #=GS C6TJP9/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Fabales; Fabaceae; Papilionoideae; Phaseoleae; Glycine; Soja; Glycine max; #=GS C6TJP9/47-345 DR EC; 2.3.1.48; #=GS A0A0D2MII0/13-313 AC A0A0D2MII0 #=GS A0A0D2MII0/13-313 OS Monoraphidium neglectum #=GS A0A0D2MII0/13-313 DE Prp8 binding protein #=GS A0A0D2MII0/13-313 DR GENE3D; 891c5b78f04390dea0622aacbf970874/13-313; #=GS A0A0D2MII0/13-313 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Chlorophyceae; Sphaeropleales; Selenastraceae; Monoraphidium; Monoraphidium neglectum; #=GS A0A0D2MII0/13-313 DR EC; 2.3.1.48; #=GS B7QLK2/51-350 AC B7QLK2 #=GS B7QLK2/51-350 OS Ixodes scapularis #=GS B7QLK2/51-350 DE mRNA splicing factor, putative #=GS B7QLK2/51-350 DR GENE3D; d451377a76bf808a4fd9b0fe4e4d0a16/51-350; #=GS B7QLK2/51-350 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Parasitiformes; Ixodida; Ixodoidea; Ixodidae; Ixodinae; Ixodes; Ixodes scapularis; #=GS B7QLK2/51-350 DR EC; 2.7.11.7; #=GS D0N7P8/59-358 AC D0N7P8 #=GS D0N7P8/59-358 OS Phytophthora infestans T30-4 #=GS D0N7P8/59-358 DE WD domain-containing protein #=GS D0N7P8/59-358 DR GENE3D; 61dde8a05f89105957b0d732b2bd043d/59-358; #=GS D0N7P8/59-358 DR ORG; Eukaryota; Oomycetes; Peronosporales; Phytophthora; Phytophthora infestans; #=GS B9FQ97/28-326 AC B9FQ97 #=GS B9FQ97/28-326 OS Oryza sativa Japonica Group #=GS B9FQ97/28-326 DE Uncharacterized protein #=GS B9FQ97/28-326 DR GENE3D; 79ef748aff01e08f2bf1bc6acafd342c/28-326; #=GS B9FQ97/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza sativa; #=GS L1JBT6/38-337 AC L1JBT6 #=GS L1JBT6/38-337 OS Guillardia theta CCMP2712 #=GS L1JBT6/38-337 DE Uncharacterized protein #=GS L1JBT6/38-337 DR GENE3D; 8346430c8e45a9610e3e4ce270da4c18/38-337; #=GS L1JBT6/38-337 DR ORG; Eukaryota; Cryptophyta; Pyrenomonadales; Geminigeraceae; Guillardia; Guillardia theta; #=GS Q67WC9/45-343 AC Q67WC9 #=GS Q67WC9/45-343 OS Oryza sativa Japonica Group #=GS Q67WC9/45-343 DE Os06g0653800 protein #=GS Q67WC9/45-343 DR GENE3D; db44bab6ab192a4ee038c071fc34b322/45-343; #=GS Q67WC9/45-343 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza sativa; #=GS G3NQ98/78-377 AC G3NQ98 #=GS G3NQ98/78-377 OS Gasterosteus aculeatus #=GS G3NQ98/78-377 DE Uncharacterized protein #=GS G3NQ98/78-377 DR GENE3D; 010a9952cf5875ce998f841b4fd8342a/78-377; #=GS G3NQ98/78-377 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Perciformes; Cottioidei; Gasterosteales; Gasterosteidae; Gasterosteus; Gasterosteus aculeatus; #=GS A0A0P1B1U5/59-358 AC A0A0P1B1U5 #=GS A0A0P1B1U5/59-358 OS Plasmopara halstedii #=GS A0A0P1B1U5/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa #=GS A0A0P1B1U5/59-358 DR GENE3D; 0158b5ab74e0f3bc84e0e318ba794f5a/59-358; #=GS A0A0P1B1U5/59-358 DR ORG; Eukaryota; Oomycetes; Peronosporales; Peronosporaceae; Plasmopara; Plasmopara halstedii; #=GS V4L5U7/45-343 AC V4L5U7 #=GS V4L5U7/45-343 OS Eutrema salsugineum #=GS V4L5U7/45-343 DE Uncharacterized protein #=GS V4L5U7/45-343 DR GENE3D; 03049dade1438310ec049aae4fe0c533/45-343; #=GS V4L5U7/45-343 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Eutremeae; Eutrema; Eutrema salsugineum; #=GS K7GG47/29-328 AC K7GG47 #=GS K7GG47/29-328 OS Pelodiscus sinensis #=GS K7GG47/29-328 DE Uncharacterized protein #=GS K7GG47/29-328 DR GENE3D; 03bd978e1ab8f79444412744497658e9/29-328; #=GS K7GG47/29-328 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Testudines; Cryptodira; Trionychidae; Pelodiscus; Pelodiscus sinensis; #=GS D3BVR5/57-357 AC D3BVR5 #=GS D3BVR5/57-357 OS Polysphondylium pallidum #=GS D3BVR5/57-357 DE WD40 repeat-containing protein #=GS D3BVR5/57-357 DR GENE3D; 03c2fadff878657c8ee10898c44389dc/57-357; #=GS D3BVR5/57-357 DR ORG; Eukaryota; Dictyosteliida; Polysphondylium; Polysphondylium pallidum; #=GS D9CJ45/47-349 AC D9CJ45 #=GS D9CJ45/47-349 OS Volvox carteri f. nagariensis #=GS D9CJ45/47-349 DE WDR57m #=GS D9CJ45/47-349 DR GENE3D; 0412fbb323f580532ab7d48abc78f61a/47-349; #=GS D9CJ45/47-349 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Chlorophyceae; Chlamydomonadales; Volvocaceae; Volvox; Volvox carteri; Volvox carteri f. nagariensis; #=GS V7CX72/47-345 AC V7CX72 #=GS V7CX72/47-345 OS Phaseolus vulgaris #=GS V7CX72/47-345 DE Uncharacterized protein #=GS V7CX72/47-345 DR GENE3D; 043fc69fb9ba455015781f8141ade46a/47-345; #=GS V7CX72/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Fabales; Fabaceae; Papilionoideae; Phaseoleae; Phaseolus; Phaseolus vulgaris; #=GS V4TPR1/49-347 AC V4TPR1 #=GS V4TPR1/49-347 OS Citrus clementina #=GS V4TPR1/49-347 DE Uncharacterized protein #=GS V4TPR1/49-347 DR GENE3D; 0594ce1888b939d0105f5dd583f2c208/49-347; #=GS V4TPR1/49-347 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Sapindales; Rutaceae; Aurantioideae; Citrus; Citrus clementina; #=GS A0A1L1RQD6/1-287 AC A0A1L1RQD6 #=GS A0A1L1RQD6/1-287 OS Gallus gallus #=GS A0A1L1RQD6/1-287 DE Uncharacterized protein #=GS A0A1L1RQD6/1-287 DR GENE3D; 065f9c76798be47f4dabf266ee62e097/1-287; #=GS A0A1L1RQD6/1-287 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS A0A091H679/10-293 AC A0A091H679 #=GS A0A091H679/10-293 OS Buceros rhinoceros silvestris #=GS A0A091H679/10-293 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091H679/10-293 DR GENE3D; 08b0a6cdafffd6e625a541b2b8c610d6/10-293; #=GS A0A091H679/10-293 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Bucerotiformes; Bucerotidae; Buceros; Buceros rhinoceros; Buceros rhinoceros silvestris; #=GS A0A068XGG6/59-359 AC A0A068XGG6 #=GS A0A068XGG6/59-359 OS Hymenolepis microstoma #=GS A0A068XGG6/59-359 DE U5 small nuclear ribonucleoprotein 40 kDa #=GS A0A068XGG6/59-359 DR GENE3D; 0941c7d02f859951c539e631e8478f54/59-359; #=GS A0A068XGG6/59-359 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Cestoda; Eucestoda; Cyclophyllidea; Hymenolepididae; Hymenolepis; Hymenolepis microstoma; #=GS A0A0N4Y701/24-317 AC A0A0N4Y701 #=GS A0A0N4Y701/24-317 OS Nippostrongylus brasiliensis #=GS A0A0N4Y701/24-317 DE Uncharacterized protein #=GS A0A0N4Y701/24-317 DR GENE3D; 0b2ff3aaf21e3186492de874f397d33c/24-317; #=GS A0A0N4Y701/24-317 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Trichostrongyloidea; Heligmonellidae; Nippostrongylinae; Nippostrongylus; Nippostrongylus brasiliensis; #=GS S4RGQ6/49-348 AC S4RGQ6 #=GS S4RGQ6/49-348 OS Petromyzon marinus #=GS S4RGQ6/49-348 DE Uncharacterized protein #=GS S4RGQ6/49-348 DR GENE3D; 0c60f00fa63798ea0a670e7d512dfc98/49-348; #=GS S4RGQ6/49-348 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Petromyzontiformes; Petromyzontidae; Petromyzon; Petromyzon marinus; #=GS A0A091MIK0/20-319 AC A0A091MIK0 #=GS A0A091MIK0/20-319 OS Acanthisitta chloris #=GS A0A091MIK0/20-319 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091MIK0/20-319 DR GENE3D; 0c71d6f1966a67c64918a407c870f543/20-319; #=GS A0A091MIK0/20-319 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Passeriformes; Acanthisittidae; Acanthisitta; Acanthisitta chloris; #=GS A0A0Q3U4F1/25-185_217-341 AC A0A0Q3U4F1 #=GS A0A0Q3U4F1/25-185_217-341 OS Amazona aestiva #=GS A0A0Q3U4F1/25-185_217-341 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0Q3U4F1/25-185_217-341 DR GENE3D; 0c9ebfd13a2abbf236e93abd502d8231/25-185_217-341; #=GS A0A0Q3U4F1/25-185_217-341 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Psittaciformes; Psittacidae; Amazona; Amazona aestiva; #=GS L7MRW5/1-217 AC L7MRW5 #=GS L7MRW5/1-217 OS Equus caballus #=GS L7MRW5/1-217 DE U5 small nuclear ribonucleoprotein 40 kDa-like protein #=GS L7MRW5/1-217 DR GENE3D; 0cf70a13ac2c87605f946738376bcbfb/1-217; #=GS L7MRW5/1-217 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Perissodactyla; Equidae; Equus; Equus; Equus caballus; #=GS A0A0K0DGM3/25-324 AC A0A0K0DGM3 #=GS A0A0K0DGM3/25-324 OS Angiostrongylus cantonensis #=GS A0A0K0DGM3/25-324 DE Uncharacterized protein #=GS A0A0K0DGM3/25-324 DR GENE3D; 0d98000243790a3b549b4bd76955f5c8/25-324; #=GS A0A0K0DGM3/25-324 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Metastrongyloidea; Angiostrongylidae; Angiostrongylus; Angiostrongylus cantonensis; #=GS A0A0V0YHM2/319-608 AC A0A0V0YHM2 #=GS A0A0V0YHM2/319-608 OS Trichinella pseudospiralis #=GS A0A0V0YHM2/319-608 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V0YHM2/319-608 DR GENE3D; 0e50b39363fd96551c1bfef0e8815e2a/319-608; #=GS A0A0V0YHM2/319-608 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella pseudospiralis; #=GS U6PA40/38-337 AC U6PA40 #=GS U6PA40/38-337 OS Haemonchus contortus #=GS U6PA40/38-337 DE WD40 repeat domain containing protein #=GS U6PA40/38-337 DR GENE3D; 0f70086b3ec703bad6445ee923c5ffe0/38-337; #=GS U6PA40/38-337 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Trichostrongyloidea; Haemonchidae; Haemonchinae; Haemonchus; Haemonchus contortus; #=GS J9PAP8/59-358 AC J9PAP8 #=GS J9PAP8/59-358 OS Canis lupus familiaris #=GS J9PAP8/59-358 DE Uncharacterized protein #=GS J9PAP8/59-358 DR GENE3D; 1057ff53c2478f58cae33baca24a9f3f/59-358; #=GS J9PAP8/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Carnivora; Caniformia; Canidae; Canis; Canis lupus; Canis lupus familiaris; #=GS A0A091LHR8/5-304 AC A0A091LHR8 #=GS A0A091LHR8/5-304 OS Cathartes aura #=GS A0A091LHR8/5-304 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091LHR8/5-304 DR GENE3D; 10c74f9af3395d2472c1b11d3d40b022/5-304; #=GS A0A091LHR8/5-304 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Ciconiiformes; Cathartidae; Cathartes; Cathartes aura; #=GS A0A087VGM8/5-304 AC A0A087VGM8 #=GS A0A087VGM8/5-304 OS Balearica regulorum gibbericeps #=GS A0A087VGM8/5-304 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A087VGM8/5-304 DR GENE3D; 10c74f9af3395d2472c1b11d3d40b022/5-304; #=GS A0A087VGM8/5-304 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Gruiformes; Gruidae; Balearica; Balearica regulorum; Balearica regulorum gibbericeps; #=GS A0A0M9A986/49-342 AC A0A0M9A986 #=GS A0A0M9A986/49-342 OS Melipona quadrifasciata #=GS A0A0M9A986/49-342 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0M9A986/49-342 DR GENE3D; 11a46dc8b1ed4084ed31ca621e77f5ac/49-342; #=GS A0A0M9A986/49-342 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Apoidea; Apidae; Meliponinae; Melipona; Melipona quadrifasciata; #=GS A0A0N4TWZ0/367-650 AC A0A0N4TWZ0 #=GS A0A0N4TWZ0/367-650 OS Brugia pahangi #=GS A0A0N4TWZ0/367-650 DE Uncharacterized protein #=GS A0A0N4TWZ0/367-650 DR GENE3D; 131c1ca22b344e85222b05d12d633d39/367-650; #=GS A0A0N4TWZ0/367-650 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Spirurida; Filarioidea; Onchocercidae; Brugia; Brugia pahangi; #=GS A0A0D6LXV4/36-325 AC A0A0D6LXV4 #=GS A0A0D6LXV4/36-325 OS Ancylostoma ceylanicum #=GS A0A0D6LXV4/36-325 DE Lipoyltransferase and lipoate-protein ligase #=GS A0A0D6LXV4/36-325 DR GENE3D; 132097b98a268e024a33c49c24cf574f/36-325; #=GS A0A0D6LXV4/36-325 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Ancylostomatoidea; Ancylostomatidae; Ancylostomatinae; Ancylostoma; Ancylostoma ceylanicum; #=GS A0A093GSD8/14-295 AC A0A093GSD8 #=GS A0A093GSD8/14-295 OS Picoides pubescens #=GS A0A093GSD8/14-295 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A093GSD8/14-295 DR GENE3D; 14273cda9b322d328a2d639debdf35aa/14-295; #=GS A0A093GSD8/14-295 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Piciformes; Picidae; Picoides; Picoides pubescens; #=GS G1MQ22/40-339 AC G1MQ22 #=GS G1MQ22/40-339 OS Meleagris gallopavo #=GS G1MQ22/40-339 DE Uncharacterized protein #=GS G1MQ22/40-339 DR GENE3D; 15363adea2426b04d947bcc522ca0633/40-339; #=GS G1MQ22/40-339 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Galliformes; Phasianidae; Meleagridinae; Meleagris; Meleagris gallopavo; #=GS K1RHY3/47-346 AC K1RHY3 #=GS K1RHY3/47-346 OS Crassostrea gigas #=GS K1RHY3/47-346 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS K1RHY3/47-346 DR GENE3D; 1554fd0216d00b4ef8b4f709fb43b874/47-346; #=GS K1RHY3/47-346 DR ORG; Eukaryota; Metazoa; Mollusca; Bivalvia; Pteriomorphia; Ostreoida; Ostreoidea; Ostreidae; Crassostrea; Crassostrea gigas; #=GS C5Z768/45-343 AC C5Z768 #=GS C5Z768/45-343 OS Sorghum bicolor #=GS C5Z768/45-343 DE Uncharacterized protein #=GS C5Z768/45-343 DR GENE3D; 156d3f1147534dcee4b4665d66291012/45-343; #=GS C5Z768/45-343 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Panicoideae; Andropogoneae; Sorghinae; Sorghum; Sorghum bicolor; #=GS A0A1D2N6S0/45-328 AC A0A1D2N6S0 #=GS A0A1D2N6S0/45-328 OS Orchesella cincta #=GS A0A1D2N6S0/45-328 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A1D2N6S0/45-328 DR GENE3D; 1712c37c751f67410f712004484db233/45-328; #=GS A0A1D2N6S0/45-328 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Collembola; Entomobryomorpha; Entomobryoidea; Entomobryidae; Orchesellinae; Orchesella; Orchesella cincta; #=GS A0A0V0ZWJ3/43-342 AC A0A0V0ZWJ3 #=GS A0A0V0ZWJ3/43-342 OS Trichinella patagoniensis #=GS A0A0V0ZWJ3/43-342 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V0ZWJ3/43-342 DR GENE3D; 177a6e3854aa54f39cf4d8c89c745cd5/43-342; #=GS A0A0V0ZWJ3/43-342 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella patagoniensis; #=GS A0A091SWS9/16-315 AC A0A091SWS9 #=GS A0A091SWS9/16-315 OS Pelecanus crispus #=GS A0A091SWS9/16-315 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091SWS9/16-315 DR GENE3D; 179998aaa2c25798741488e80165013a/16-315; #=GS A0A091SWS9/16-315 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Pelecaniformes; Pelecanidae; Pelecanus; Pelecanus crispus; #=GS A0A091DVB0/59-358 AC A0A091DVB0 #=GS A0A091DVB0/59-358 OS Fukomys damarensis #=GS A0A091DVB0/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091DVB0/59-358 DR GENE3D; 17fa70a70d761e2713344c8716eec613/59-358; #=GS A0A091DVB0/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Hystricomorpha; Bathyergidae; Fukomys; Fukomys damarensis; #=GS A0A0W8DS86/1-298 AC A0A0W8DS86 #=GS A0A0W8DS86/1-298 OS Phytophthora nicotianae #=GS A0A0W8DS86/1-298 DE Adenylate cyclase #=GS A0A0W8DS86/1-298 DR GENE3D; 17fef001f4d18a30e9db9875aa6b2004/1-298; #=GS A0A0W8DS86/1-298 DR ORG; Eukaryota; Oomycetes; Peronosporales; Phytophthora; Phytophthora nicotianae; #=GS H2KT16/62-361 AC H2KT16 #=GS H2KT16/62-361 OS Clonorchis sinensis #=GS H2KT16/62-361 DE Prp8 binding protein #=GS H2KT16/62-361 DR GENE3D; 182bb1cd90d1112f4ccc3398f371cac2/62-361; #=GS H2KT16/62-361 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Trematoda; Digenea; Opisthorchiida; Opisthorchiata; Opisthorchiidae; Clonorchis; Clonorchis sinensis; #=GS A0A084VPG8/50-349 AC A0A084VPG8 #=GS A0A084VPG8/50-349 OS Anopheles sinensis #=GS A0A084VPG8/50-349 DE AGAP009506-PA-like protein #=GS A0A084VPG8/50-349 DR GENE3D; 1970920c7258c6417ad9faf714ffe4f0/50-349; #=GS A0A084VPG8/50-349 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Anopheles; hyrcanus group; Anopheles sinensis; #=GS A0A151XFA3/50-348 AC A0A151XFA3 #=GS A0A151XFA3/50-348 OS Trachymyrmex zeteki #=GS A0A151XFA3/50-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A151XFA3/50-348 DR GENE3D; 19d85cf840739156319d0409b46d9a4c/50-348; #=GS A0A151XFA3/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Myrmicinae; Attini; Trachymyrmex; Trachymyrmex zeteki; #=GS A0A151PGU9/66-365 AC A0A151PGU9 #=GS A0A151PGU9/66-365 OS Alligator mississippiensis #=GS A0A151PGU9/66-365 DE U5 small nuclear ribonucleoprotein #=GS A0A151PGU9/66-365 DR GENE3D; 1a76ca6a098aaa3c1d6e6daf317bb293/66-365; #=GS A0A151PGU9/66-365 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Crocodylia; Alligatoridae; Alligatorinae; Alligator; Alligator mississippiensis; #=GS G3QFE7/58-315 AC G3QFE7 #=GS G3QFE7/58-315 OS Gorilla gorilla gorilla #=GS G3QFE7/58-315 DE Uncharacterized protein #=GS G3QFE7/58-315 DR GENE3D; 1ac9fa8ea5cfd56cb2a9583a3343e104/58-315; #=GS G3QFE7/58-315 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Gorilla; Gorilla gorilla; Gorilla gorilla gorilla; #=GS A0A182PD85/22-289 AC A0A182PD85 #=GS A0A182PD85/22-289 OS Anopheles epiroticus #=GS A0A182PD85/22-289 DE Uncharacterized protein #=GS A0A182PD85/22-289 DR GENE3D; 1af75d978c63acd44d3c75b6d2822e9a/22-289; #=GS A0A182PD85/22-289 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles epiroticus; #=GS E2CA00/50-348 AC E2CA00 #=GS E2CA00/50-348 OS Harpegnathos saltator #=GS E2CA00/50-348 DE WD repeat-containing protein 57 #=GS E2CA00/50-348 DR GENE3D; 1b05b4fce44448c236f58e5d595273a6/50-348; #=GS E2CA00/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Ponerinae; Ponerini; Harpegnathos; Harpegnathos saltator; #=GS H2M7K0/57-356 AC H2M7K0 #=GS H2M7K0/57-356 OS Oryzias latipes #=GS H2M7K0/57-356 DE Uncharacterized protein #=GS H2M7K0/57-356 DR GENE3D; 1b0a491d462b541dcbd48296dc306617/57-356; #=GS H2M7K0/57-356 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A091QSX9/11-310 AC A0A091QSX9 #=GS A0A091QSX9/11-310 OS Merops nubicus #=GS A0A091QSX9/11-310 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091QSX9/11-310 DR GENE3D; 1c0a13446707accc1fdc9a069b8f0e9b/11-310; #=GS A0A091QSX9/11-310 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Coraciiformes; Meropidae; Merops; Merops nubicus; #=GS F6W7C5/38-339 AC F6W7C5 #=GS F6W7C5/38-339 OS Xenopus tropicalis #=GS F6W7C5/38-339 DE Uncharacterized protein #=GS F6W7C5/38-339 DR GENE3D; 1c7a419cb9455dbf9167a4194bf3fbdc/38-339; #=GS F6W7C5/38-339 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Silurana; Xenopus tropicalis; #=GS H0WQ43/59-358 AC H0WQ43 #=GS H0WQ43/59-358 OS Otolemur garnettii #=GS H0WQ43/59-358 DE Uncharacterized protein #=GS H0WQ43/59-358 DR GENE3D; 1e9d312eb89ae4838b4b141237003989/59-358; #=GS H0WQ43/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Strepsirrhini; Lorisiformes; Galagidae; Otolemur; Otolemur garnettii; #=GS A0A0P6J8T4/87-369 AC A0A0P6J8T4 #=GS A0A0P6J8T4/87-369 OS Daphnia magna #=GS A0A0P6J8T4/87-369 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0P6J8T4/87-369 DR GENE3D; 1f3abfdb931ae43689d12b3150372444/87-369; #=GS A0A0P6J8T4/87-369 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia magna; #=GS H9JD02/49-348 AC H9JD02 #=GS H9JD02/49-348 OS Bombyx mori #=GS H9JD02/49-348 DE Uncharacterized protein #=GS H9JD02/49-348 DR GENE3D; 1f583aabd69cc3199ee2a24b5c040cb3/49-348; #=GS H9JD02/49-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Lepidoptera; Glossata; Neolepidoptera; Heteroneura; Bombycoidea; Bombycidae; Bombycinae; Bombyx; Bombyx mori; #=GS B3N784/47-346 AC B3N784 #=GS B3N784/47-346 OS Drosophila erecta #=GS B3N784/47-346 DE Uncharacterized protein #=GS B3N784/47-346 DR GENE3D; 22c621bd4d8d75918f582622a4be8a7d/47-346; #=GS B3N784/47-346 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 A0A1C7N2V6/57-356 AC A0A1C7N2V6 #=GS A0A1C7N2V6/57-356 OS Choanephora cucurbitarum #=GS A0A1C7N2V6/57-356 DE U5 small nuclear ribonucleoprotein #=GS A0A1C7N2V6/57-356 DR GENE3D; 2321bdec1769fb81a9457fb0d7c033dd/57-356; #=GS A0A1C7N2V6/57-356 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Mucorineae; Choanephoraceae; Choanephoroideae; Choanephora; Choanephora cucurbitarum; #=GS A0A0P5K0P1/37-336 AC A0A0P5K0P1 #=GS A0A0P5K0P1/37-336 OS Daphnia magna #=GS A0A0P5K0P1/37-336 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0P5K0P1/37-336 DR GENE3D; 246b93f7a935e51c45108b93a4ac3a99/37-336; #=GS A0A0P5K0P1/37-336 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia magna; #=GS A0A044S800/321-620 AC A0A044S800 #=GS A0A044S800/321-620 OS Onchocerca volvulus #=GS A0A044S800/321-620 DE Uncharacterized protein #=GS A0A044S800/321-620 DR GENE3D; 249232af203ea0c8c1dec56b78eb47d8/321-620; #=GS A0A044S800/321-620 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Spirurida; Filarioidea; Onchocercidae; Onchocerca; Onchocerca volvulus; #=GS A0A058ZW78/53-319 AC A0A058ZW78 #=GS A0A058ZW78/53-319 OS Eucalyptus grandis #=GS A0A058ZW78/53-319 DE Uncharacterized protein #=GS A0A058ZW78/53-319 DR GENE3D; 2513a64fe00873c2afcd787c21bf9669/53-319; #=GS A0A058ZW78/53-319 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Myrtales; Myrtaceae; Myrtoideae; Eucalypteae; Eucalyptus; Eucalyptus grandis; #=GS A0A1I8BIB3/54-355 AC A0A1I8BIB3 #=GS A0A1I8BIB3/54-355 OS Meloidogyne hapla #=GS A0A1I8BIB3/54-355 DE Uncharacterized protein #=GS A0A1I8BIB3/54-355 DR GENE3D; 2517e25d2f87222ced4e284c2b5e7160/54-355; #=GS A0A1I8BIB3/54-355 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Tylenchida; Tylenchina; Tylenchoidea; Meloidogynidae; Meloidogyninae; Meloidogyne; Meloidogyne hapla; #=GS A0A0V1LC21/324-614 AC A0A0V1LC21 #=GS A0A0V1LC21/324-614 OS Trichinella nativa #=GS A0A0V1LC21/324-614 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1LC21/324-614 DR GENE3D; 26bb445a38f6c670fb2be26cdb6b5877/324-614; #=GS A0A0V1LC21/324-614 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella nativa; #=GS A0A1B0C6H0/47-346 AC A0A1B0C6H0 #=GS A0A1B0C6H0/47-346 OS Glossina palpalis gambiensis #=GS A0A1B0C6H0/47-346 DE Uncharacterized protein #=GS A0A1B0C6H0/47-346 DR GENE3D; 2bf50a71b64590147546921ade6d3c37/47-346; #=GS A0A1B0C6H0/47-346 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Hippoboscoidea; Glossinidae; Glossina; Nemorhina; Glossina palpalis; Glossina palpalis gambiensis; #=GS I0Z2J2/50-349 AC I0Z2J2 #=GS I0Z2J2/50-349 OS Coccomyxa subellipsoidea C-169 #=GS I0Z2J2/50-349 DE WD40 repeat-like protein #=GS I0Z2J2/50-349 DR GENE3D; 2c28724bb07f527632b50198efa2e582/50-349; #=GS I0Z2J2/50-349 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Trebouxiophyceae; Coccomyxaceae; Coccomyxa; Coccomyxa subellipsoidea; #=GS F1MLP7/59-358 AC F1MLP7 #=GS F1MLP7/59-358 OS Bos taurus #=GS F1MLP7/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS F1MLP7/59-358 DR GENE3D; 2e796074f7c70fc19c250f8adc145e2d/59-358; #=GS F1MLP7/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS F1SVA6/59-358 AC F1SVA6 #=GS F1SVA6/59-358 OS Sus scrofa #=GS F1SVA6/59-358 DE Uncharacterized protein #=GS F1SVA6/59-358 DR GENE3D; 2e796074f7c70fc19c250f8adc145e2d/59-358; #=GS F1SVA6/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Suina; Suidae; Sus; Sus scrofa; #=GS L5JU74/59-358 AC L5JU74 #=GS L5JU74/59-358 OS Pteropus alecto #=GS L5JU74/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS L5JU74/59-358 DR GENE3D; 2e796074f7c70fc19c250f8adc145e2d/59-358; #=GS L5JU74/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Chiroptera; Megachiroptera; Pteropodidae; Pteropodinae; Pteropus; Pteropus alecto; #=GS A0A061EI20/44-342 AC A0A061EI20 #=GS A0A061EI20/44-342 OS Theobroma cacao #=GS A0A061EI20/44-342 DE Transducin/WD40 repeat-like superfamily protein isoform 1 #=GS A0A061EI20/44-342 DR GENE3D; 2f57b9010db58e1d94851cbf2605d389/44-342; #=GS A0A061EI20/44-342 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Malvales; Malvaceae; Byttnerioideae; Theobroma; Theobroma cacao; #=GS A0A1I8I3Y1/59-358 AC A0A1I8I3Y1 #=GS A0A1I8I3Y1/59-358 OS Macrostomum lignano #=GS A0A1I8I3Y1/59-358 DE Uncharacterized protein #=GS A0A1I8I3Y1/59-358 DR GENE3D; 2f9f97efea1a72217d67d60d9a660a90/59-358; #=GS A0A1I8I3Y1/59-358 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Macrostomida; Macrostomidae; Macrostomum; Macrostomum lignano; #=GS M3W1R3/59-308 AC M3W1R3 #=GS M3W1R3/59-308 OS Felis catus #=GS M3W1R3/59-308 DE Uncharacterized protein #=GS M3W1R3/59-308 DR GENE3D; 2ffaf8d3db1ccedbcbc980c4af8b07a2/59-308; #=GS M3W1R3/59-308 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Carnivora; Feliformia; Felidae; Felinae; Felis; Felis catus; #=GS T2M7B4/62-361 AC T2M7B4 #=GS T2M7B4/62-361 OS Hydra vulgaris #=GS T2M7B4/62-361 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS T2M7B4/62-361 DR GENE3D; 31aea34c666fd3f24fb539cf04909d28/62-361; #=GS T2M7B4/62-361 DR ORG; Eukaryota; Metazoa; Cnidaria; Hydrozoa; Hydroidolina; Anthoathecata; Aplanulata; Hydridae; Hydra; Hydra vulgaris; #=GS W2YGJ0/59-358 AC W2YGJ0 #=GS W2YGJ0/59-358 OS Phytophthora parasitica P10297 #=GS W2YGJ0/59-358 DE Uncharacterized protein #=GS W2YGJ0/59-358 DR GENE3D; 31e0dcd6e0e810c59a641108ca5ff2d5/59-358; #=GS W2YGJ0/59-358 DR ORG; Eukaryota; Oomycetes; Peronosporales; Phytophthora; Phytophthora parasitica; #=GS A0A0L8G0E7/46-345 AC A0A0L8G0E7 #=GS A0A0L8G0E7/46-345 OS Octopus bimaculoides #=GS A0A0L8G0E7/46-345 DE Uncharacterized protein #=GS A0A0L8G0E7/46-345 DR GENE3D; 336af9dba1e444497904a35a098f9065/46-345; #=GS A0A0L8G0E7/46-345 DR ORG; Eukaryota; Metazoa; Mollusca; Cephalopoda; Coleoidea; Neocoleoidea; Octopodiformes; Octopoda; Incirrata; Octopodidae; Octopus; Octopus bimaculoides; #=GS U6CVC3/59-358 AC U6CVC3 #=GS U6CVC3/59-358 OS Neovison vison #=GS U6CVC3/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS U6CVC3/59-358 DR GENE3D; 34608ab5ce2dbf087c830c60e7f54fdf/59-358; #=GS U6CVC3/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Carnivora; Caniformia; Mustelidae; Mustelinae; Neovison; Neovison vison; #=GS M3YVI1/59-358 AC M3YVI1 #=GS M3YVI1/59-358 OS Mustela putorius furo #=GS M3YVI1/59-358 DE Uncharacterized protein #=GS M3YVI1/59-358 DR GENE3D; 34608ab5ce2dbf087c830c60e7f54fdf/59-358; #=GS M3YVI1/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Carnivora; Caniformia; Mustelidae; Mustelinae; Mustela; Mustela putorius; Mustela putorius furo; #=GS A0A0V1LB66/324-608 AC A0A0V1LB66 #=GS A0A0V1LB66/324-608 OS Trichinella nativa #=GS A0A0V1LB66/324-608 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1LB66/324-608 DR GENE3D; 346c0795787fba23b0dee19f5347cbc2/324-608; #=GS A0A0V1LB66/324-608 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella nativa; #=GS A0A077W835/61-360 AC A0A077W835 #=GS A0A077W835/61-360 OS Lichtheimia ramosa #=GS A0A077W835/61-360 DE Uncharacterized protein #=GS A0A077W835/61-360 DR GENE3D; 349d096a61280c8b64c12481d808d436/61-360; #=GS A0A077W835/61-360 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Lichtheimiaceae; Lichtheimia; Lichtheimia ramosa; #=GS A0A0N5CLX3/1-298 AC A0A0N5CLX3 #=GS A0A0N5CLX3/1-298 OS Thelazia callipaeda #=GS A0A0N5CLX3/1-298 DE Uncharacterized protein #=GS A0A0N5CLX3/1-298 DR GENE3D; 34f30acae8d0a4dc0f87c29d763f66c3/1-298; #=GS A0A0N5CLX3/1-298 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Spirurida; Thelazioidea; Thelaziidae; Thelazia; Thelazia callipaeda; #=GS H2U966/48-347 AC H2U966 #=GS H2U966/48-347 OS Takifugu rubripes #=GS H2U966/48-347 DE Uncharacterized protein #=GS H2U966/48-347 DR GENE3D; 3525c1c1606c5ff88bd19b2023c12cf3/48-347; #=GS H2U966/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Takifugu; Takifugu rubripes; #=GS W5J9I0/51-350 AC W5J9I0 #=GS W5J9I0/51-350 OS Anopheles darlingi #=GS W5J9I0/51-350 DE Wd-repeat protein #=GS W5J9I0/51-350 DR GENE3D; 352b0b2fa299b738e2be3887da32d472/51-350; #=GS W5J9I0/51-350 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Nyssorhynchus; darlingi group; Anopheles darlingi; #=GS A0A093H0Y7/1-279 AC A0A093H0Y7 #=GS A0A093H0Y7/1-279 OS Struthio camelus australis #=GS A0A093H0Y7/1-279 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A093H0Y7/1-279 DR GENE3D; 35ba4d4ae830aad38cbc241deaa04133/1-279; #=GS A0A093H0Y7/1-279 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Palaeognathae; Struthioniformes; Struthionidae; Struthio; Struthio camelus; Struthio camelus australis; #=GS A0A0N5ADH4/338-651 AC A0A0N5ADH4 #=GS A0A0N5ADH4/338-651 OS Syphacia muris #=GS A0A0N5ADH4/338-651 DE Uncharacterized protein #=GS A0A0N5ADH4/338-651 DR GENE3D; 3700742d87dff2ac9d6a69e2af91d2c2/338-651; #=GS A0A0N5ADH4/338-651 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Oxyurida; Oxyuroidea; Oxyuridae; Syphacia; Syphacia muris; #=GS A0A158Q867/394-693 AC A0A158Q867 #=GS A0A158Q867/394-693 OS Elaeophora elaphi #=GS A0A158Q867/394-693 DE Uncharacterized protein #=GS A0A158Q867/394-693 DR GENE3D; 3729cf467e9586e86f27016ed3ad143a/394-693; #=GS A0A158Q867/394-693 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Spirurida; Filarioidea; Onchocercidae; Elaeophora; Elaeophora elaphi; #=GS A0A085MJ90/328-627 AC A0A085MJ90 #=GS A0A085MJ90/328-627 OS Trichuris suis #=GS A0A085MJ90/328-627 DE Uncharacterized protein #=GS A0A085MJ90/328-627 DR GENE3D; 37de48b011371751a63ecfe79c40008f/328-627; #=GS A0A085MJ90/328-627 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichuridae; Trichuris; Trichuris suis; #=GS A0A087XPV1/48-347 AC A0A087XPV1 #=GS A0A087XPV1/48-347 OS Poecilia formosa #=GS A0A087XPV1/48-347 DE Uncharacterized protein #=GS A0A087XPV1/48-347 DR GENE3D; 38c28e410ad1981481700482e72b7131/48-347; #=GS A0A087XPV1/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia formosa; #=GS A0A0V0X097/321-605 AC A0A0V0X097 #=GS A0A0V0X097/321-605 OS Trichinella sp. T6 #=GS A0A0V0X097/321-605 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V0X097/321-605 DR GENE3D; 38ebc79132528c27e98c2a2c35f86df3/321-605; #=GS A0A0V0X097/321-605 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella sp. T6; #=GS F6SV59/102-401 AC F6SV59 #=GS F6SV59/102-401 OS Macaca mulatta #=GS F6SV59/102-401 DE Uncharacterized protein #=GS F6SV59/102-401 DR GENE3D; 3c4de5458d632e39b682ab430746d85f/102-401; #=GS F6SV59/102-401 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS F6WST1/58-359 AC F6WST1 #=GS F6WST1/58-359 OS Xenopus tropicalis #=GS F6WST1/58-359 DE Uncharacterized protein #=GS F6WST1/58-359 DR GENE3D; 3e73aafb6cb82aa651b3b0a76e189dab/58-359; #=GS F6WST1/58-359 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Silurana; Xenopus tropicalis; #=GS A0A091XTP9/14-313 AC A0A091XTP9 #=GS A0A091XTP9/14-313 OS Opisthocomus hoazin #=GS A0A091XTP9/14-313 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091XTP9/14-313 DR GENE3D; 3ea16d2fafa6f5188a632c502a32114c/14-313; #=GS A0A091XTP9/14-313 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Opisthocomiformes; Opisthocomidae; Opisthocomus; Opisthocomus hoazin; #=GS K7ITB8/49-343 AC K7ITB8 #=GS K7ITB8/49-343 OS Nasonia vitripennis #=GS K7ITB8/49-343 DE Uncharacterized protein #=GS K7ITB8/49-343 DR GENE3D; 3eaa56a13100ac2b16410e51a9488a26/49-343; #=GS K7ITB8/49-343 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Terebrantes; Chalcidoidea; Pteromalidae; Pteromalinae; Nasonia; Nasonia vitripennis; #=GS A0A0D3CUU6/78-376 AC A0A0D3CUU6 #=GS A0A0D3CUU6/78-376 OS Brassica oleracea var. oleracea #=GS A0A0D3CUU6/78-376 DE Uncharacterized protein #=GS A0A0D3CUU6/78-376 DR GENE3D; 3f97ef3b65faf9352cb4f26bc7a25114/78-376; #=GS A0A0D3CUU6/78-376 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Brassiceae; Brassica; Brassica oleracea; Brassica oleracea var. oleracea; #=GS S2JES3/58-357 AC S2JES3 #=GS S2JES3/58-357 OS Mucor circinelloides f. circinelloides 1006PhL #=GS S2JES3/58-357 DE Uncharacterized protein #=GS S2JES3/58-357 DR GENE3D; 419f1d96c0c0260bff30357de7945528/58-357; #=GS S2JES3/58-357 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Mucorineae; Mucoraceae; Mucor; Mucor circinelloides; Mucor circinelloides f. circinelloides; #=GS D7LKI4/45-343 AC D7LKI4 #=GS D7LKI4/45-343 OS Arabidopsis lyrata subsp. lyrata #=GS D7LKI4/45-343 DE Transducin family protein #=GS D7LKI4/45-343 DR GENE3D; 426bd2c4dca87e4a6e5935e7bf52f7fa/45-343; #=GS D7LKI4/45-343 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Camelineae; Arabidopsis; Arabidopsis lyrata; Arabidopsis lyrata subsp. lyrata; #=GS A0A022RDQ0/41-339 AC A0A022RDQ0 #=GS A0A022RDQ0/41-339 OS Erythranthe guttata #=GS A0A022RDQ0/41-339 DE Uncharacterized protein #=GS A0A022RDQ0/41-339 DR GENE3D; 4271d0bc30c1909a6345147e3fa0aaa3/41-339; #=GS A0A022RDQ0/41-339 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; asterids; Lamiales; Phrymaceae; Erythranthe; Erythranthe guttata; #=GS A0A0P7UFS1/51-326 AC A0A0P7UFS1 #=GS A0A0P7UFS1/51-326 OS Scleropages formosus #=GS A0A0P7UFS1/51-326 DE U5 small nuclear ribonucleoprotein 40 kDa protein-like #=GS A0A0P7UFS1/51-326 DR GENE3D; 453471ae26079247119da7b6dd278f67/51-326; #=GS A0A0P7UFS1/51-326 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Osteoglossidae; Scleropages; Scleropages formosus; #=GS B4MTV0/47-346 AC B4MTV0 #=GS B4MTV0/47-346 OS Drosophila willistoni #=GS B4MTV0/47-346 DE Uncharacterized protein #=GS B4MTV0/47-346 DR GENE3D; 471cedcb935e532fabb9a32f95dda1a8/47-346; #=GS B4MTV0/47-346 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 A0A0B0P4Q5/44-342 AC A0A0B0P4Q5 #=GS A0A0B0P4Q5/44-342 OS Gossypium arboreum #=GS A0A0B0P4Q5/44-342 DE U5 small nuclear ribonucleoprotein 40 kDa #=GS A0A0B0P4Q5/44-342 DR GENE3D; 47b8468886331698c281554a0225fe0e/44-342; #=GS A0A0B0P4Q5/44-342 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Malvales; Malvaceae; Malvoideae; Gossypium; Gossypium arboreum; #=GS A0A0P5RBQ7/56-266 AC A0A0P5RBQ7 #=GS A0A0P5RBQ7/56-266 OS Daphnia magna #=GS A0A0P5RBQ7/56-266 DE Putative U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0P5RBQ7/56-266 DR GENE3D; 496b724cb60a3b15ac9d3753bf91d94e/56-266; #=GS A0A0P5RBQ7/56-266 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia magna; #=GS E3MGH9/1-298 AC E3MGH9 #=GS E3MGH9/1-298 OS Caenorhabditis remanei #=GS E3MGH9/1-298 DE Putative uncharacterized protein #=GS E3MGH9/1-298 DR GENE3D; 4a25b52a9ea56e72798d51feef9fef49/1-298; #=GS E3MGH9/1-298 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis remanei; #=GS A0A1I7VFB2/57-349 AC A0A1I7VFB2 #=GS A0A1I7VFB2/57-349 OS Loa loa #=GS A0A1I7VFB2/57-349 DE Uncharacterized protein #=GS A0A1I7VFB2/57-349 DR GENE3D; 4f97461316fd19aae9d15d98d08969bd/57-349; #=GS A0A1I7VFB2/57-349 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Spirurida; Filarioidea; Onchocercidae; Loa; Loa loa; #=GS M1CHQ5/42-340 AC M1CHQ5 #=GS M1CHQ5/42-340 OS Solanum tuberosum #=GS M1CHQ5/42-340 DE Uncharacterized protein #=GS M1CHQ5/42-340 DR GENE3D; 4fd752d2bc28844ff3652926b46a6f75/42-340; #=GS M1CHQ5/42-340 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; asterids; Solanales; Solanaceae; Solanoideae; Solaneae; Solanum; Solanum tuberosum; #=GS A0A176W510/54-353 AC A0A176W510 #=GS A0A176W510/54-353 OS Marchantia polymorpha subsp. polymorpha #=GS A0A176W510/54-353 DE Uncharacterized protein #=GS A0A176W510/54-353 DR GENE3D; 515ebd0e0506c13eec0a4c5972a3f9ac/54-353; #=GS A0A176W510/54-353 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Marchantiopsida; Marchantiidae; Marchantiales; Marchantiaceae; Marchantia; Marchantia polymorpha; Marchantia polymorpha subsp. polymorpha; #=GS I3J1Z0/48-343 AC I3J1Z0 #=GS I3J1Z0/48-343 OS Oreochromis niloticus #=GS I3J1Z0/48-343 DE Uncharacterized protein #=GS I3J1Z0/48-343 DR GENE3D; 51ef023831ff1b9dfc8014b33c29314c/48-343; #=GS I3J1Z0/48-343 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Oreochromini; Oreochromis; Oreochromis niloticus; #=GS G3W5B8/62-361 AC G3W5B8 #=GS G3W5B8/62-361 OS Sarcophilus harrisii #=GS G3W5B8/62-361 DE Uncharacterized protein #=GS G3W5B8/62-361 DR GENE3D; 52fc8552cc040f7c2dcd1be8513291dd/62-361; #=GS G3W5B8/62-361 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Dasyuromorphia; Dasyuridae; Sarcophilus; Sarcophilus harrisii; #=GS A0A0V1P6S7/321-611 AC A0A0V1P6S7 #=GS A0A0V1P6S7/321-611 OS Trichinella sp. T8 #=GS A0A0V1P6S7/321-611 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1P6S7/321-611 DR GENE3D; 543770fdd10e7d26b0e0a5895d6a15c6/321-611; #=GS A0A0V1P6S7/321-611 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella sp. T8; #=GS C1C0Y0/55-354 AC C1C0Y0 #=GS C1C0Y0/55-354 OS Caligus clemensi #=GS C1C0Y0/55-354 DE WD repeat-containing protein 57 #=GS C1C0Y0/55-354 DR GENE3D; 54f72d75bef66dad18b5f302c0771f92/55-354; #=GS C1C0Y0/55-354 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Maxillopoda; Copepoda; Neocopepoda; Podoplea; Siphonostomatoida; Caligidae; Caligus; Caligus clemensi; #=GS A0A015LUW7/43-342 AC A0A015LUW7 #=GS A0A015LUW7/43-342 OS Rhizophagus irregularis DAOM 197198w #=GS A0A015LUW7/43-342 DE Rsa4p #=GS A0A015LUW7/43-342 DR GENE3D; 5551118168ebdea9133eb947d891495a/43-342; #=GS A0A015LUW7/43-342 DR ORG; Eukaryota; Fungi; Mucoromycota; Glomeromycotina; Glomeromycetes; Glomerales; Glomeraceae; Rhizophagus; Rhizophagus irregularis; #=GS U9TC64/43-342 AC U9TC64 #=GS U9TC64/43-342 OS Rhizophagus irregularis DAOM 181602 #=GS U9TC64/43-342 DE Uncharacterized protein #=GS U9TC64/43-342 DR GENE3D; 5551118168ebdea9133eb947d891495a/43-342; #=GS U9TC64/43-342 DR ORG; Eukaryota; Fungi; Mucoromycota; Glomeromycotina; Glomeromycetes; Glomerales; Glomeraceae; Rhizophagus; Rhizophagus irregularis; #=GS A0A1B6D8I5/32-331 AC A0A1B6D8I5 #=GS A0A1B6D8I5/32-331 OS Clastoptera arizonana #=GS A0A1B6D8I5/32-331 DE Uncharacterized protein #=GS A0A1B6D8I5/32-331 DR GENE3D; 55b3836f86a3027d1c8f431800bb536f/32-331; #=GS A0A1B6D8I5/32-331 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Auchenorrhyncha; Cicadomorpha; Cercopoidea; Clastopteridae; Clastoptera; Clastoptera arizonana; #=GS G3TCC5/56-355 AC G3TCC5 #=GS G3TCC5/56-355 OS Loxodonta africana #=GS G3TCC5/56-355 DE Uncharacterized protein #=GS G3TCC5/56-355 DR GENE3D; 55c783f5c09abcf5b33897395950b3c8/56-355; #=GS G3TCC5/56-355 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Afrotheria; Proboscidea; Elephantidae; Loxodonta; Loxodonta africana; #=GS M4CKP8/117-415 AC M4CKP8 #=GS M4CKP8/117-415 OS Brassica rapa subsp. pekinensis #=GS M4CKP8/117-415 DE Uncharacterized protein #=GS M4CKP8/117-415 DR GENE3D; 5657dc0eb8e093084e369d764c99440e/117-415; #=GS M4CKP8/117-415 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Brassiceae; Brassica; Brassica rapa; Brassica rapa subsp. pekinensis; #=GS A0A0L0CAU3/46-345 AC A0A0L0CAU3 #=GS A0A0L0CAU3/46-345 OS Lucilia cuprina #=GS A0A0L0CAU3/46-345 DE Uncharacterized protein #=GS A0A0L0CAU3/46-345 DR GENE3D; 56d45a8a1f425a0995f95aa85b9b0082/46-345; #=GS A0A0L0CAU3/46-345 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Oestroidea; Calliphoridae; Luciliinae; Lucilia; Lucilia cuprina; #=GS C1BSR6/59-358 AC C1BSR6 #=GS C1BSR6/59-358 OS Lepeophtheirus salmonis #=GS C1BSR6/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS C1BSR6/59-358 DR GENE3D; 5713ecfb055c44f4fb641c19e9cd1f02/59-358; #=GS C1BSR6/59-358 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Maxillopoda; Copepoda; Neocopepoda; Podoplea; Siphonostomatoida; Caligidae; Lepeophtheirus; Lepeophtheirus salmonis; #=GS A0A0A0B0E5/14-313 AC A0A0A0B0E5 #=GS A0A0A0B0E5/14-313 OS Charadrius vociferus #=GS A0A0A0B0E5/14-313 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0A0B0E5/14-313 DR GENE3D; 57a0015cad0af31122b8202284d4e671/14-313; #=GS A0A0A0B0E5/14-313 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Charadriiformes; Charadriidae; Charadrius; Charadrius vociferus; #=GS H2M7K1/48-347 AC H2M7K1 #=GS H2M7K1/48-347 OS Oryzias latipes #=GS H2M7K1/48-347 DE Uncharacterized protein #=GS H2M7K1/48-347 DR GENE3D; 57e790fd06c6d311da598556ee930df8/48-347; #=GS H2M7K1/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS C3Y8A7/48-347 AC C3Y8A7 #=GS C3Y8A7/48-347 OS Branchiostoma floridae #=GS C3Y8A7/48-347 DE Putative uncharacterized protein #=GS C3Y8A7/48-347 DR GENE3D; 58616d1a3b4bd57846d3f3d411c2daa4/48-347; #=GS C3Y8A7/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Cephalochordata; Branchiostomidae; Branchiostoma; Branchiostoma floridae; #=GS H3BBL9/51-338 AC H3BBL9 #=GS H3BBL9/51-338 OS Latimeria chalumnae #=GS H3BBL9/51-338 DE Uncharacterized protein #=GS H3BBL9/51-338 DR GENE3D; 58b107bf477d473ef4bcae49e2a2259b/51-338; #=GS H3BBL9/51-338 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Coelacanthiformes; Coelacanthidae; Latimeria; Latimeria chalumnae; #=GS W5MD75/51-314 AC W5MD75 #=GS W5MD75/51-314 OS Lepisosteus oculatus #=GS W5MD75/51-314 DE Uncharacterized protein #=GS W5MD75/51-314 DR GENE3D; 5959dac2fc7dfa47180dc4986a7a686d/51-314; #=GS W5MD75/51-314 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Holostei; Semionotiformes; Lepisosteidae; Lepisosteus; Lepisosteus oculatus; #=GS A0A0V0X0F2/321-608 AC A0A0V0X0F2 #=GS A0A0V0X0F2/321-608 OS Trichinella sp. T6 #=GS A0A0V0X0F2/321-608 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V0X0F2/321-608 DR GENE3D; 5a94edbc622897cae7fa470c2b07a795/321-608; #=GS A0A0V0X0F2/321-608 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella sp. T6; #=GS A0A0D3BPM2/29-327 AC A0A0D3BPM2 #=GS A0A0D3BPM2/29-327 OS Brassica oleracea var. oleracea #=GS A0A0D3BPM2/29-327 DE Uncharacterized protein #=GS A0A0D3BPM2/29-327 DR GENE3D; 5ac36e473b4efbe530e81a4d7373d86d/29-327; #=GS A0A0D3BPM2/29-327 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Brassiceae; Brassica; Brassica oleracea; Brassica oleracea var. oleracea; #=GS A0A058ZXE8/46-344 AC A0A058ZXE8 #=GS A0A058ZXE8/46-344 OS Eucalyptus grandis #=GS A0A058ZXE8/46-344 DE Uncharacterized protein #=GS A0A058ZXE8/46-344 DR GENE3D; 5bc40a1846902d6a37171ef602096018/46-344; #=GS A0A058ZXE8/46-344 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Myrtales; Myrtaceae; Myrtoideae; Eucalypteae; Eucalyptus; Eucalyptus grandis; #=GS H2PYI7/58-347 AC H2PYI7 #=GS H2PYI7/58-347 OS Pan troglodytes #=GS H2PYI7/58-347 DE Uncharacterized protein #=GS H2PYI7/58-347 DR GENE3D; 5be3f4ee358a408e6a317f668d8550e3/58-347; #=GS H2PYI7/58-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS A0A1A8QLN7/87-386 AC A0A1A8QLN7 #=GS A0A1A8QLN7/87-386 OS Nothobranchius pienaari #=GS A0A1A8QLN7/87-386 DE Small nuclear ribonucleoprotein 40 (U5) #=GS A0A1A8QLN7/87-386 DR GENE3D; 5bebff31554d046926a26926c7d8253d/87-386; #=GS A0A1A8QLN7/87-386 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Nothobranchius; Nothobranchius pienaari; #=GS I3J1Y9/48-347 AC I3J1Y9 #=GS I3J1Y9/48-347 OS Oreochromis niloticus #=GS I3J1Y9/48-347 DE Uncharacterized protein #=GS I3J1Y9/48-347 DR GENE3D; 5c76d8c0eb79513558e6cf731754a762/48-347; #=GS I3J1Y9/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Oreochromini; Oreochromis; Oreochromis niloticus; #=GS A0A0V0RHY8/328-627 AC A0A0V0RHY8 #=GS A0A0V0RHY8/328-627 OS Trichinella nelsoni #=GS A0A0V0RHY8/328-627 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V0RHY8/328-627 DR GENE3D; 5d4def71d07f972cc182401d224a4326/328-627; #=GS A0A0V0RHY8/328-627 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella nelsoni; #=GS A0A0V0YIW1/332-621 AC A0A0V0YIW1 #=GS A0A0V0YIW1/332-621 OS Trichinella pseudospiralis #=GS A0A0V0YIW1/332-621 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V0YIW1/332-621 DR GENE3D; 5dc5b5a9048cf2842a641a7b17c253c8/332-621; #=GS A0A0V0YIW1/332-621 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella pseudospiralis; #=GS F7IKF4/59-358 AC F7IKF4 #=GS F7IKF4/59-358 OS Callithrix jacchus #=GS F7IKF4/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS F7IKF4/59-358 DR GENE3D; 5dce28921c36743dce2a807b3fdf2230/59-358; #=GS F7IKF4/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS J3MGE7/136-434 AC J3MGE7 #=GS J3MGE7/136-434 OS Oryza brachyantha #=GS J3MGE7/136-434 DE Uncharacterized protein #=GS J3MGE7/136-434 DR GENE3D; 602ff611f8dd213984d08cd209c771a3/136-434; #=GS J3MGE7/136-434 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza brachyantha; #=GS A0A0S3RWJ1/47-345 AC A0A0S3RWJ1 #=GS A0A0S3RWJ1/47-345 OS Vigna angularis var. angularis #=GS A0A0S3RWJ1/47-345 DE Uncharacterized protein #=GS A0A0S3RWJ1/47-345 DR GENE3D; 61231d087d7b0fda27513cd23ca8f992/47-345; #=GS A0A0S3RWJ1/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Fabales; Fabaceae; Papilionoideae; Phaseoleae; Vigna; Vigna angularis; Vigna angularis var. angularis; #=GS A0A0L9U747/47-345 AC A0A0L9U747 #=GS A0A0L9U747/47-345 OS Vigna angularis #=GS A0A0L9U747/47-345 DE Uncharacterized protein #=GS A0A0L9U747/47-345 DR GENE3D; 61231d087d7b0fda27513cd23ca8f992/47-345; #=GS A0A0L9U747/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Fabales; Fabaceae; Papilionoideae; Phaseoleae; Vigna; Vigna angularis; #=GS W5MD89/51-350 AC W5MD89 #=GS W5MD89/51-350 OS Lepisosteus oculatus #=GS W5MD89/51-350 DE Uncharacterized protein #=GS W5MD89/51-350 DR GENE3D; 63d0ddf5836bb0341f40c7b148d67bc5/51-350; #=GS W5MD89/51-350 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Holostei; Semionotiformes; Lepisosteidae; Lepisosteus; Lepisosteus oculatus; #=GS G1MH69/58-341 AC G1MH69 #=GS G1MH69/58-341 OS Ailuropoda melanoleuca #=GS G1MH69/58-341 DE Uncharacterized protein #=GS G1MH69/58-341 DR GENE3D; 641053fddff8c6546a149ba0cf8cdcb0/58-341; #=GS G1MH69/58-341 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ailuropoda; Ailuropoda melanoleuca; #=GS A0A0A1N9B9/1-298 AC A0A0A1N9B9 #=GS A0A0A1N9B9/1-298 OS Rhizopus microsporus #=GS A0A0A1N9B9/1-298 DE Uncharacterized protein #=GS A0A0A1N9B9/1-298 DR GENE3D; 64364554e92ecd30c6df688a2ed603a0/1-298; #=GS A0A0A1N9B9/1-298 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Mucorineae; Rhizopodaceae; Rhizopus; Rhizopus microsporus; #=GS A0A1D6BKV2/105-389 AC A0A1D6BKV2 #=GS A0A1D6BKV2/105-389 OS Triticum aestivum #=GS A0A1D6BKV2/105-389 DE Uncharacterized protein #=GS A0A1D6BKV2/105-389 DR GENE3D; 647944fdfca677a82773f0b5d6994ac2/105-389; #=GS A0A1D6BKV2/105-389 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Pooideae; Triticeae; Triticinae; Triticum; Triticum aestivum; #=GS A0A1A7YAM2/48-347 AC A0A1A7YAM2 #=GS A0A1A7YAM2/48-347 OS Aphyosemion striatum #=GS A0A1A7YAM2/48-347 DE Small nuclear ribonucleoprotein 40 (U5) #=GS A0A1A7YAM2/48-347 DR GENE3D; 64cf2a9f3b205c5fb7c0741bd629128c/48-347; #=GS A0A1A7YAM2/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Nothobranchiidae; Aphyosemion; Aphyosemion striatum; #=GS A0A140JWV4/40-340 AC A0A140JWV4 #=GS A0A140JWV4/40-340 OS Gonium pectorale #=GS A0A140JWV4/40-340 DE U5 snRNP-specific protein #=GS A0A140JWV4/40-340 DR GENE3D; 64e7916c4b3e80e19e04c4254ea36c86/40-340; #=GS A0A140JWV4/40-340 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Chlorophyceae; Chlamydomonadales; Volvocaceae; Gonium; Gonium pectorale; #=GS A0A0A9W2S0/35-334 AC A0A0A9W2S0 #=GS A0A0A9W2S0/35-334 OS Lygus hesperus #=GS A0A0A9W2S0/35-334 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0A9W2S0/35-334 DR GENE3D; 64f122cc2b936fc48605f879b73e37ac/35-334; #=GS A0A0A9W2S0/35-334 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Cimicoidea; Miridae; Mirinae; Mirini; Lygus; Lygus hesperus; #=GS A0A151U093/28-326 AC A0A151U093 #=GS A0A151U093/28-326 OS Cajanus cajan #=GS A0A151U093/28-326 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A151U093/28-326 DR GENE3D; 64fd1b76e9d05ddc022b0c9139f7e8a2/28-326; #=GS A0A151U093/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Fabales; Fabaceae; Papilionoideae; Phaseoleae; Cajanus; Cajanus cajan; #=GS I1GVN5/46-344 AC I1GVN5 #=GS I1GVN5/46-344 OS Brachypodium distachyon #=GS I1GVN5/46-344 DE Uncharacterized protein #=GS I1GVN5/46-344 DR GENE3D; 6605dd21ab558a0402787c3edf185959/46-344; #=GS I1GVN5/46-344 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Pooideae; Brachypodieae; Brachypodium; Brachypodium distachyon; #=GS S4P792/51-350 AC S4P792 #=GS S4P792/51-350 OS Pararge aegeria #=GS S4P792/51-350 DE WD repeat-containing protein 57 #=GS S4P792/51-350 DR GENE3D; 66ffc1ad4ed2169d05c586166df1e1bf/51-350; #=GS S4P792/51-350 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Lepidoptera; Glossata; Neolepidoptera; Heteroneura; Papilionoidea; Nymphalidae; Satyrinae; Satyrini; Parargina; Pararge; Pararge aegeria; #=GS C4WX63/39-340 AC C4WX63 #=GS C4WX63/39-340 OS Acyrthosiphon pisum #=GS C4WX63/39-340 DE ACYPI008815 protein #=GS C4WX63/39-340 DR GENE3D; 677189d8b7d294adcec7a272a4fdff2b/39-340; #=GS C4WX63/39-340 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Sternorrhyncha; Aphidomorpha; Aphidoidea; Aphididae; Aphidinae; Macrosiphini; Acyrthosiphon; Acyrthosiphon pisum; #=GS A0A0M4E8Y4/47-346 AC A0A0M4E8Y4 #=GS A0A0M4E8Y4/47-346 OS Drosophila busckii #=GS A0A0M4E8Y4/47-346 DE CG3436 #=GS A0A0M4E8Y4/47-346 DR GENE3D; 6781a8a060331336fd09e3ef8146f5ba/47-346; #=GS A0A0M4E8Y4/47-346 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Dorsilopha; Drosophila busckii; #=GS B9IQV9/47-345 AC B9IQV9 #=GS B9IQV9/47-345 OS Populus trichocarpa #=GS B9IQV9/47-345 DE Transducin family protein #=GS B9IQV9/47-345 DR GENE3D; 68083eae941f321ba8274e65db2f1159/47-345; #=GS B9IQV9/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Malpighiales; Salicaceae; Saliceae; Populus; Populus trichocarpa; #=GS A0A197K6Y9/1-299 AC A0A197K6Y9 #=GS A0A197K6Y9/1-299 OS Mortierella elongata AG-77 #=GS A0A197K6Y9/1-299 DE WD40 repeat-like protein #=GS A0A197K6Y9/1-299 DR GENE3D; 68bed80cedb213a164d38ed9922510f8/1-299; #=GS A0A197K6Y9/1-299 DR ORG; Eukaryota; Fungi; Mucoromycota; Mortierellomycotina; Mortierellales; Mortierellaceae; Mortierella; Mortierella elongata; #=GS F4WDB5/50-348 AC F4WDB5 #=GS F4WDB5/50-348 OS Acromyrmex echinatior #=GS F4WDB5/50-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS F4WDB5/50-348 DR GENE3D; 68d736435c3e6f8cb7c38c0b144123d4/50-348; #=GS F4WDB5/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Myrmicinae; Attini; Acromyrmex; Acromyrmex echinatior; #=GS A0A195FX31/50-348 AC A0A195FX31 #=GS A0A195FX31/50-348 OS Trachymyrmex septentrionalis #=GS A0A195FX31/50-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A195FX31/50-348 DR GENE3D; 68d736435c3e6f8cb7c38c0b144123d4/50-348; #=GS A0A195FX31/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Myrmicinae; Attini; Trachymyrmex; Trachymyrmex septentrionalis; #=GS A0A0V0I1R5/1-285 AC A0A0V0I1R5 #=GS A0A0V0I1R5/1-285 OS Solanum chacoense #=GS A0A0V0I1R5/1-285 DE Putative U5 small nuclear ribonucleoprotein 40 kDa protein-like #=GS A0A0V0I1R5/1-285 DR GENE3D; 690c859414c3ad6f2f0d14b77797f1ae/1-285; #=GS A0A0V0I1R5/1-285 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; asterids; Solanales; Solanaceae; Solanoideae; Solaneae; Solanum; Solanum chacoense; #=GS F1NUK8/86-385 AC F1NUK8 #=GS F1NUK8/86-385 OS Gallus gallus #=GS F1NUK8/86-385 DE Uncharacterized protein #=GS F1NUK8/86-385 DR GENE3D; 699ae865ddfe93a437707be809fc5f08/86-385; #=GS F1NUK8/86-385 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS M8CYH3/85-383 AC M8CYH3 #=GS M8CYH3/85-383 OS Aegilops tauschii #=GS M8CYH3/85-383 DE Uncharacterized protein #=GS M8CYH3/85-383 DR GENE3D; 69c44190165147f7d0b253c4bff6da97/85-383; #=GS M8CYH3/85-383 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Pooideae; Triticeae; Triticinae; Aegilops; Aegilops tauschii; #=GS L8H8P1/45-344 AC L8H8P1 #=GS L8H8P1/45-344 OS Acanthamoeba castellanii str. Neff #=GS L8H8P1/45-344 DE WD repeat domain 57 (U5 snRNP specific), putative #=GS L8H8P1/45-344 DR GENE3D; 6a787af675ca9fc116d4fd36cad6c51d/45-344; #=GS L8H8P1/45-344 DR ORG; Eukaryota; Longamoebia; Acanthamoebidae; Acanthamoeba; Acanthamoeba castellanii; #=GS A0A0P5ZLY2/18-250 AC A0A0P5ZLY2 #=GS A0A0P5ZLY2/18-250 OS Daphnia magna #=GS A0A0P5ZLY2/18-250 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0P5ZLY2/18-250 DR GENE3D; 6b15ebc73dbc08d8b94974ba224e5938/18-250; #=GS A0A0P5ZLY2/18-250 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia magna; #=GS I1Q478/45-343 AC I1Q478 #=GS I1Q478/45-343 OS Oryza glaberrima #=GS I1Q478/45-343 DE Uncharacterized protein #=GS I1Q478/45-343 DR GENE3D; 6c97cfac53e77cbc59fca51615d3460d/45-343; #=GS I1Q478/45-343 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza glaberrima; #=GS A0A091IAT6/14-313 AC A0A091IAT6 #=GS A0A091IAT6/14-313 OS Calypte anna #=GS A0A091IAT6/14-313 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091IAT6/14-313 DR GENE3D; 6daa05a12747efbea524635cfb877f15/14-313; #=GS A0A091IAT6/14-313 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Trochiliformes; Trochilidae; Calypte; Calypte anna; #=GS A0A166D1I2/48-346 AC A0A166D1I2 #=GS A0A166D1I2/48-346 OS Daucus carota subsp. sativus #=GS A0A166D1I2/48-346 DE Uncharacterized protein #=GS A0A166D1I2/48-346 DR GENE3D; 6de4c700a37523873011d449574f9611/48-346; #=GS A0A166D1I2/48-346 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; asterids; Apiales; Apiineae; Apiaceae; Apioideae; Scandiceae; Daucinae; Daucus; Daucus sect. Daucus; Daucus carota; Daucus carota subsp. sativus; #=GS A0A078FYL8/119-417 AC A0A078FYL8 #=GS A0A078FYL8/119-417 OS Brassica napus #=GS A0A078FYL8/119-417 DE BnaC04g03070D protein #=GS A0A078FYL8/119-417 DR GENE3D; 6de5f86ec111970a4504672e0540f1d4/119-417; #=GS A0A078FYL8/119-417 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Brassiceae; Brassica; Brassica napus; #=GS A0A1D1VVZ8/59-359 AC A0A1D1VVZ8 #=GS A0A1D1VVZ8/59-359 OS Ramazzottius varieornatus #=GS A0A1D1VVZ8/59-359 DE Uncharacterized protein #=GS A0A1D1VVZ8/59-359 DR GENE3D; 6e3400dae25d66117f329be53b512dd0/59-359; #=GS A0A1D1VVZ8/59-359 DR ORG; Eukaryota; Metazoa; Tardigrada; Eutardigrada; Parachela; Hypsibiidae; Ramazzottius; Ramazzottius varieornatus; #=GS F7FDZ9/59-352 AC F7FDZ9 #=GS F7FDZ9/59-352 OS Callithrix jacchus #=GS F7FDZ9/59-352 DE Uncharacterized protein #=GS F7FDZ9/59-352 DR GENE3D; 6e878b331054f6d89adfe506cf1b5f8a/59-352; #=GS F7FDZ9/59-352 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS A0A1D6P5H9/28-326 AC A0A1D6P5H9 #=GS A0A1D6P5H9/28-326 OS Zea mays #=GS A0A1D6P5H9/28-326 DE Uncharacterized protein #=GS A0A1D6P5H9/28-326 DR GENE3D; 6ea0aebacf75703db786da24e1f30bbe/28-326; #=GS A0A1D6P5H9/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Panicoideae; Andropogoneae; Tripsacinae; Zea; Zea mays; #=GS A0A0V1MV28/321-614 AC A0A0V1MV28 #=GS A0A0V1MV28/321-614 OS Trichinella papuae #=GS A0A0V1MV28/321-614 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1MV28/321-614 DR GENE3D; 6f0c7ea13a6eb89bae11e0fe16d58183/321-614; #=GS A0A0V1MV28/321-614 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella papuae; #=GS A0A183KND3/1-254 AC A0A183KND3 #=GS A0A183KND3/1-254 OS Schistosoma curassoni #=GS A0A183KND3/1-254 DE Uncharacterized protein #=GS A0A183KND3/1-254 DR GENE3D; 6f27ff4aa02492a57dea75cb63b5c978/1-254; #=GS A0A183KND3/1-254 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Trematoda; Digenea; Strigeidida; Schistosomatoidea; Schistosomatidae; Schistosoma; Schistosoma curassoni; #=GS W9SFC3/47-345 AC W9SFC3 #=GS W9SFC3/47-345 OS Morus notabilis #=GS W9SFC3/47-345 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS W9SFC3/47-345 DR GENE3D; 70a9f71c92f819bbd64e6b10ea50aab1/47-345; #=GS W9SFC3/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Rosales; Moraceae; Morus; Morus notabilis; #=GS N6TQB0/1046-1348 AC N6TQB0 #=GS N6TQB0/1046-1348 OS Dendroctonus ponderosae #=GS N6TQB0/1046-1348 DE Uncharacterized protein #=GS N6TQB0/1046-1348 DR GENE3D; 70ab2dfb35bea519cade56d6a586d1ab/1046-1348; #=GS N6TQB0/1046-1348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Cucujiformia; Curculionoidea; Curculionidae; Scolytinae; Dendroctonus; Dendroctonus ponderosae; #=GS A0A061S960/46-337 AC A0A061S960 #=GS A0A061S960/46-337 OS Tetraselmis sp. GSL018 #=GS A0A061S960/46-337 DE Prp8 binding protein #=GS A0A061S960/46-337 DR GENE3D; 713e75951bca04e2c6b4718ea75d116e/46-337; #=GS A0A061S960/46-337 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Chlorodendrophyceae; Chlorodendrales; Chlorodendraceae; Tetraselmis; Tetraselmis sp. GSL018; #=GS A0A0F7VK63/58-357 AC A0A0F7VK63 #=GS A0A0F7VK63/58-357 OS Euperipatoides kanangrensis #=GS A0A0F7VK63/58-357 DE Eka-G protein beta 3 protein #=GS A0A0F7VK63/58-357 DR GENE3D; 716dc22579205f83a2da4545cc27bf23/58-357; #=GS A0A0F7VK63/58-357 DR ORG; Eukaryota; Metazoa; Onychophora; Peripatopsidae; Euperipatoides; Euperipatoides kanangrensis; #=GS R0LFI9/1-253 AC R0LFI9 #=GS R0LFI9/1-253 OS Anas platyrhynchos #=GS R0LFI9/1-253 DE WD repeat-containing protein 57 #=GS R0LFI9/1-253 DR GENE3D; 727a6b6bcef15526c935b5f9180747bb/1-253; #=GS R0LFI9/1-253 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Anseriformes; Anatidae; Anas; Anas platyrhynchos; #=GS F7ATS4/61-358 AC F7ATS4 #=GS F7ATS4/61-358 OS Ornithorhynchus anatinus #=GS F7ATS4/61-358 DE Uncharacterized protein #=GS F7ATS4/61-358 DR GENE3D; 72c482cacc698c6c9449c5704207a7d8/61-358; #=GS F7ATS4/61-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Monotremata; Ornithorhynchidae; Ornithorhynchus; Ornithorhynchus anatinus; #=GS E3TE56/48-347 AC E3TE56 #=GS E3TE56/48-347 OS Ictalurus punctatus #=GS E3TE56/48-347 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS E3TE56/48-347 DR GENE3D; 72c6de3e153afb01f50e2a8d83f78f83/48-347; #=GS E3TE56/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Characiphysae; Siluriformes; Siluroidei; Ictaluridae; Ictalurus; Ictalurus punctatus; #=GS E9I8L8/49-332 AC E9I8L8 #=GS E9I8L8/49-332 OS Solenopsis invicta #=GS E9I8L8/49-332 DE Putative uncharacterized protein #=GS E9I8L8/49-332 DR GENE3D; 73c9c821fa91ce18556cc2e2b0330090/49-332; #=GS E9I8L8/49-332 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Myrmicinae; Solenopsidini; Solenopsis; Solenopsis invicta; #=GS A0A0D9WSR6/203-501 AC A0A0D9WSR6 #=GS A0A0D9WSR6/203-501 OS Leersia perrieri #=GS A0A0D9WSR6/203-501 DE Uncharacterized protein #=GS A0A0D9WSR6/203-501 DR GENE3D; 7412143b4fb2432a5e681387a0ca2c45/203-501; #=GS A0A0D9WSR6/203-501 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Leersia; Leersia perrieri; #=GS A0A158QNE6/23-322 AC A0A158QNE6 #=GS A0A158QNE6/23-322 OS Haemonchus placei #=GS A0A158QNE6/23-322 DE Uncharacterized protein #=GS A0A158QNE6/23-322 DR GENE3D; 74a17af01f2f181d08dc6d402ed8718a/23-322; #=GS A0A158QNE6/23-322 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Trichostrongyloidea; Haemonchidae; Haemonchinae; Haemonchus; Haemonchus placei; #=GS A0A016VZ87/36-335 AC A0A016VZ87 #=GS A0A016VZ87/36-335 OS Ancylostoma ceylanicum #=GS A0A016VZ87/36-335 DE Uncharacterized protein #=GS A0A016VZ87/36-335 DR GENE3D; 767aea6b09e729e1611acc21e1b1ed71/36-335; #=GS A0A016VZ87/36-335 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Ancylostomatoidea; Ancylostomatidae; Ancylostomatinae; Ancylostoma; Ancylostoma ceylanicum; #=GS H3G945/1-298 AC H3G945 #=GS H3G945/1-298 OS Phytophthora ramorum #=GS H3G945/1-298 DE Uncharacterized protein #=GS H3G945/1-298 DR GENE3D; 7697d22e38caebb54866bc1c186930cd/1-298; #=GS H3G945/1-298 DR ORG; Eukaryota; Oomycetes; Peronosporales; Phytophthora; Phytophthora ramorum; #=GS A0A074YXG7/62-361 AC A0A074YXG7 #=GS A0A074YXG7/62-361 OS Opisthorchis viverrini #=GS A0A074YXG7/62-361 DE Uncharacterized protein #=GS A0A074YXG7/62-361 DR GENE3D; 77dbb4cab27f5ff70c2e1560e5a4a714/62-361; #=GS A0A074YXG7/62-361 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Trematoda; Digenea; Opisthorchiida; Opisthorchiata; Opisthorchiidae; Opisthorchis; Opisthorchis viverrini; #=GS B4K357/6-246 AC B4K357 #=GS B4K357/6-246 OS Drosophila grimshawi #=GS B4K357/6-246 DE GH25232 #=GS B4K357/6-246 DR GENE3D; 78129d1a383517be0c2e2b270b994a33/6-246; #=GS B4K357/6-246 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 W6URP5/881-1181 AC W6URP5 #=GS W6URP5/881-1181 OS Echinococcus granulosus #=GS W6URP5/881-1181 DE U5 small nuclear ribonucleoprotein #=GS W6URP5/881-1181 DR GENE3D; 78598b69ebc74ab392fde69077d06fd6/881-1181; #=GS W6URP5/881-1181 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Cestoda; Eucestoda; Cyclophyllidea; Taeniidae; Echinococcus; Echinococcus granulosus; #=GS A0A015K3X2/1-245 AC A0A015K3X2 #=GS A0A015K3X2/1-245 OS Rhizophagus irregularis DAOM 197198w #=GS A0A015K3X2/1-245 DE Pwp2p #=GS A0A015K3X2/1-245 DR GENE3D; 78a5685bac0008107b490ece7e3e9c2d/1-245; #=GS A0A015K3X2/1-245 DR ORG; Eukaryota; Fungi; Mucoromycota; Glomeromycotina; Glomeromycetes; Glomerales; Glomeraceae; Rhizophagus; Rhizophagus irregularis; #=GS A0A0L7R5D1/49-348 AC A0A0L7R5D1 #=GS A0A0L7R5D1/49-348 OS Habropoda laboriosa #=GS A0A0L7R5D1/49-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0L7R5D1/49-348 DR GENE3D; 78cabec6cf3e45071170605ec2289af0/49-348; #=GS A0A0L7R5D1/49-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Apoidea; Apidae; Anthophorinae; Anthophorini; Habropoda; Habropoda laboriosa; #=GS A0A094ZL65/64-363 AC A0A094ZL65 #=GS A0A094ZL65/64-363 OS Schistosoma haematobium #=GS A0A094ZL65/64-363 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A094ZL65/64-363 DR GENE3D; 78e0ba40b0f03bc7ca1539a82ba33c0a/64-363; #=GS A0A094ZL65/64-363 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Trematoda; Digenea; Strigeidida; Schistosomatoidea; Schistosomatidae; Schistosoma; Schistosoma haematobium; #=GS C1EHA8/70-370 AC C1EHA8 #=GS C1EHA8/70-370 OS Micromonas commoda #=GS C1EHA8/70-370 DE Splicing factor #=GS C1EHA8/70-370 DR GENE3D; 7968d8e1778e729c0a53fd44c494a90a/70-370; #=GS C1EHA8/70-370 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Mamiellophyceae; Mamiellales; Mamiellaceae; Micromonas; Micromonas commoda; #=GS A2YFR3/28-326 AC A2YFR3 #=GS A2YFR3/28-326 OS Oryza sativa Indica Group #=GS A2YFR3/28-326 DE Putative uncharacterized protein #=GS A2YFR3/28-326 DR GENE3D; 79ef748aff01e08f2bf1bc6acafd342c/28-326; #=GS A2YFR3/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza sativa; #=GS A0A0E0ACP4/28-326 AC A0A0E0ACP4 #=GS A0A0E0ACP4/28-326 OS Oryza glumipatula #=GS A0A0E0ACP4/28-326 DE Uncharacterized protein #=GS A0A0E0ACP4/28-326 DR GENE3D; 79ef748aff01e08f2bf1bc6acafd342c/28-326; #=GS A0A0E0ACP4/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza glumipatula; #=GS A0A0E0LE64/28-326 AC A0A0E0LE64 #=GS A0A0E0LE64/28-326 OS Oryza punctata #=GS A0A0E0LE64/28-326 DE Uncharacterized protein #=GS A0A0E0LE64/28-326 DR GENE3D; 79ef748aff01e08f2bf1bc6acafd342c/28-326; #=GS A0A0E0LE64/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza punctata; #=GS A0A0E0HUE3/28-326 AC A0A0E0HUE3 #=GS A0A0E0HUE3/28-326 OS Oryza nivara #=GS A0A0E0HUE3/28-326 DE Uncharacterized protein #=GS A0A0E0HUE3/28-326 DR GENE3D; 79ef748aff01e08f2bf1bc6acafd342c/28-326; #=GS A0A0E0HUE3/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza nivara; #=GS A0A0K9QCM4/47-345 AC A0A0K9QCM4 #=GS A0A0K9QCM4/47-345 OS Spinacia oleracea #=GS A0A0K9QCM4/47-345 DE Uncharacterized protein #=GS A0A0K9QCM4/47-345 DR GENE3D; 79f8ddecefc4794c0fa2d4e3e6806770/47-345; #=GS A0A0K9QCM4/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Caryophyllales; Chenopodiaceae; Chenopodioideae; Anserineae; Spinacia; Spinacia oleracea; #=GS B4KHF0/47-346 AC B4KHF0 #=GS B4KHF0/47-346 OS Drosophila mojavensis #=GS B4KHF0/47-346 DE Uncharacterized protein #=GS B4KHF0/47-346 DR GENE3D; 7a5111efa41a953d1cad5da30e04d937/47-346; #=GS B4KHF0/47-346 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 H0V391/59-358 AC H0V391 #=GS H0V391/59-358 OS Cavia porcellus #=GS H0V391/59-358 DE Uncharacterized protein #=GS H0V391/59-358 DR GENE3D; 7b01a9d645341b474a10be79c3161c52/59-358; #=GS H0V391/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Hystricomorpha; Caviidae; Cavia; Cavia porcellus; #=GS A0A162UIL5/58-357 AC A0A162UIL5 #=GS A0A162UIL5/58-357 OS Phycomyces blakesleeanus NRRL 1555(-) #=GS A0A162UIL5/58-357 DE Uncharacterized protein #=GS A0A162UIL5/58-357 DR GENE3D; 7b8050d7cd7947b6533e1220148dfb57/58-357; #=GS A0A162UIL5/58-357 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Phycomycetaceae; Phycomyces; Phycomyces blakesleeanus; #=GS G1NTM8/59-356 AC G1NTM8 #=GS G1NTM8/59-356 OS Myotis lucifugus #=GS G1NTM8/59-356 DE Uncharacterized protein #=GS G1NTM8/59-356 DR GENE3D; 7b877433150fcf42baa908b81d89f024/59-356; #=GS G1NTM8/59-356 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Chiroptera; Microchiroptera; Vespertilionidae; Myotis; Myotis lucifugus; #=GS F1L1D4/49-348 AC F1L1D4 #=GS F1L1D4/49-348 OS Ascaris suum #=GS F1L1D4/49-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS F1L1D4/49-348 DR GENE3D; 7c8093e13d59c0bb2a2d8b5761e92666/49-348; #=GS F1L1D4/49-348 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Ascaridida; Ascaridoidea; Ascarididae; Ascaris; Ascaris suum; #=GS U3IQK3/1-288 AC U3IQK3 #=GS U3IQK3/1-288 OS Anas platyrhynchos #=GS U3IQK3/1-288 DE Uncharacterized protein #=GS U3IQK3/1-288 DR GENE3D; 7d5143bac2135000d6696ed2dc860afe/1-288; #=GS U3IQK3/1-288 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Anseriformes; Anatidae; Anas; Anas platyrhynchos; #=GS A0A091GAA7/13-312 AC A0A091GAA7 #=GS A0A091GAA7/13-312 OS Cuculus canorus #=GS A0A091GAA7/13-312 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091GAA7/13-312 DR GENE3D; 7df51192d971a6592df67db9533f1529/13-312; #=GS A0A091GAA7/13-312 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Cuculiformes; Cuculidae; Cuculus; Cuculus canorus; #=GS A0A0K9QAG7/90-388 AC A0A0K9QAG7 #=GS A0A0K9QAG7/90-388 OS Spinacia oleracea #=GS A0A0K9QAG7/90-388 DE Uncharacterized protein #=GS A0A0K9QAG7/90-388 DR GENE3D; 7f78f833a0e14a88f5b250618cfdc265/90-388; #=GS A0A0K9QAG7/90-388 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Caryophyllales; Chenopodiaceae; Chenopodioideae; Anserineae; Spinacia; Spinacia oleracea; #=GS V9L0Y0/49-348 AC V9L0Y0 #=GS V9L0Y0/49-348 OS Callorhinchus milii #=GS V9L0Y0/49-348 DE Small nuclear ribonucleoprotein 40kDa (U5) #=GS V9L0Y0/49-348 DR GENE3D; 805132bb21d6db4bebbffec0e4b3c925/49-348; #=GS V9L0Y0/49-348 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Chondrichthyes; Holocephali; Chimaeriformes; Callorhinchidae; Callorhinchus; Callorhinchus milii; #=GS A0A1D6LQJ4/28-326 AC A0A1D6LQJ4 #=GS A0A1D6LQJ4/28-326 OS Zea mays #=GS A0A1D6LQJ4/28-326 DE Uncharacterized protein #=GS A0A1D6LQJ4/28-326 DR GENE3D; 80618ae66ca559623621210430665fb2/28-326; #=GS A0A1D6LQJ4/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Panicoideae; Andropogoneae; Tripsacinae; Zea; Zea mays; #=GS A0A091F7Y0/20-319 AC A0A091F7Y0 #=GS A0A091F7Y0/20-319 OS Corvus brachyrhynchos #=GS A0A091F7Y0/20-319 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091F7Y0/20-319 DR GENE3D; 81ac1716b983267b0db4197289cc0905/20-319; #=GS A0A091F7Y0/20-319 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Passeriformes; Corvoidea; Corvidae; Corvus; Corvus brachyrhynchos; #=GS Q7ZTY9/48-347 AC Q7ZTY9 #=GS Q7ZTY9/48-347 OS Danio rerio #=GS Q7ZTY9/48-347 DE Small nuclear ribonucleoprotein 40 (U5) #=GS Q7ZTY9/48-347 DR GENE3D; 825323401988befd9a75b4e261850e30/48-347; #=GS Q7ZTY9/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Cypriniphysae; Cypriniformes; Cyprinoidea; Cyprinidae; Danio; Danio rerio; #=GS A0A0V0ZY16/36-335 AC A0A0V0ZY16 #=GS A0A0V0ZY16/36-335 OS Trichinella patagoniensis #=GS A0A0V0ZY16/36-335 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V0ZY16/36-335 DR GENE3D; 82de5c2e8eec7af06754b45830bca4ad/36-335; #=GS A0A0V0ZY16/36-335 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella patagoniensis; #=GS W2G206/59-358 AC W2G206 #=GS W2G206/59-358 OS Phytophthora parasitica #=GS W2G206/59-358 DE Uncharacterized protein #=GS W2G206/59-358 DR GENE3D; 831a31d9d08d50e66754c70052dd48d1/59-358; #=GS W2G206/59-358 DR ORG; Eukaryota; Oomycetes; Peronosporales; Phytophthora; Phytophthora parasitica; #=GS W2W5J1/59-358 AC W2W5J1 #=GS W2W5J1/59-358 OS Phytophthora parasitica CJ01A1 #=GS W2W5J1/59-358 DE Uncharacterized protein #=GS W2W5J1/59-358 DR GENE3D; 831a31d9d08d50e66754c70052dd48d1/59-358; #=GS W2W5J1/59-358 DR ORG; Eukaryota; Oomycetes; Peronosporales; Phytophthora; Phytophthora parasitica; #=GS A0A0W8C750/59-358 AC A0A0W8C750 #=GS A0A0W8C750/59-358 OS Phytophthora nicotianae #=GS A0A0W8C750/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0W8C750/59-358 DR GENE3D; 831a31d9d08d50e66754c70052dd48d1/59-358; #=GS A0A0W8C750/59-358 DR ORG; Eukaryota; Oomycetes; Peronosporales; Phytophthora; Phytophthora nicotianae; #=GS W2QZJ9/59-358 AC W2QZJ9 #=GS W2QZJ9/59-358 OS Phytophthora parasitica INRA-310 #=GS W2QZJ9/59-358 DE Uncharacterized protein #=GS W2QZJ9/59-358 DR GENE3D; 831a31d9d08d50e66754c70052dd48d1/59-358; #=GS W2QZJ9/59-358 DR ORG; Eukaryota; Oomycetes; Peronosporales; Phytophthora; Phytophthora parasitica; #=GS A0A080ZDN7/59-358 AC A0A080ZDN7 #=GS A0A080ZDN7/59-358 OS Phytophthora parasitica P1976 #=GS A0A080ZDN7/59-358 DE Uncharacterized protein #=GS A0A080ZDN7/59-358 DR GENE3D; 831a31d9d08d50e66754c70052dd48d1/59-358; #=GS A0A080ZDN7/59-358 DR ORG; Eukaryota; Oomycetes; Peronosporales; Phytophthora; Phytophthora parasitica; #=GS A0A0E0Q0Z7/110-408 AC A0A0E0Q0Z7 #=GS A0A0E0Q0Z7/110-408 OS Oryza rufipogon #=GS A0A0E0Q0Z7/110-408 DE Uncharacterized protein #=GS A0A0E0Q0Z7/110-408 DR GENE3D; 831b9b55a12e7e07545e49b1fa7e743b/110-408; #=GS A0A0E0Q0Z7/110-408 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza rufipogon; #=GS A0A0R3W3I5/61-361 AC A0A0R3W3I5 #=GS A0A0R3W3I5/61-361 OS Taenia asiatica #=GS A0A0R3W3I5/61-361 DE Uncharacterized protein #=GS A0A0R3W3I5/61-361 DR GENE3D; 83e5181d97e2407189f28a680b669a32/61-361; #=GS A0A0R3W3I5/61-361 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Cestoda; Eucestoda; Cyclophyllidea; Taeniidae; Taenia; Taenia asiatica; #=GS A0A099ZLY9/11-314 AC A0A099ZLY9 #=GS A0A099ZLY9/11-314 OS Tinamus guttatus #=GS A0A099ZLY9/11-314 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A099ZLY9/11-314 DR GENE3D; 8535faf4da0181cc8f7e1e4e3304a842/11-314; #=GS A0A099ZLY9/11-314 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Palaeognathae; Tinamiformes; Tinamidae; Tinamus; Tinamus guttatus; #=GS A0A0F7VHH7/46-345 AC A0A0F7VHH7 #=GS A0A0F7VHH7/46-345 OS Cupiennius salei #=GS A0A0F7VHH7/46-345 DE Csa-G protein beta 4 #=GS A0A0F7VHH7/46-345 DR GENE3D; 853ad0779fe3f525cad894f426b46640/46-345; #=GS A0A0F7VHH7/46-345 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Araneae; Araneomorphae; Lycosoidea; Ctenidae; Cupiennius; Cupiennius salei; #=GS E4X2Z4/74-376 AC E4X2Z4 #=GS E4X2Z4/74-376 OS Oikopleura dioica #=GS E4X2Z4/74-376 DE Uncharacterized protein #=GS E4X2Z4/74-376 DR GENE3D; 86777d9962ea73bec70cbff581eeb9d3/74-376; #=GS E4X2Z4/74-376 DR ORG; Eukaryota; Metazoa; Chordata; Tunicata; Appendicularia; Oikopleuridae; Oikopleura; Oikopleura dioica; #=GS A0A1B6H667/68-367 AC A0A1B6H667 #=GS A0A1B6H667/68-367 OS Homalodisca liturata #=GS A0A1B6H667/68-367 DE Uncharacterized protein #=GS A0A1B6H667/68-367 DR GENE3D; 86ae1dce70575fce1b4e0c1713649ef5/68-367; #=GS A0A1B6H667/68-367 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Auchenorrhyncha; Cicadomorpha; Membracoidea; Cicadellidae; Cicadellinae; Homalodisca; Homalodisca liturata; #=GS E1ZGD8/1-298 AC E1ZGD8 #=GS E1ZGD8/1-298 OS Chlorella variabilis #=GS E1ZGD8/1-298 DE Putative uncharacterized protein #=GS E1ZGD8/1-298 DR GENE3D; 8955188258f424ac1e024f4c5bd1545f/1-298; #=GS E1ZGD8/1-298 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Trebouxiophyceae; Chlorellales; Chlorellaceae; Chlorella; Chlorella variabilis; #=GS A0A0A0KTB1/46-344 AC A0A0A0KTB1 #=GS A0A0A0KTB1/46-344 OS Cucumis sativus #=GS A0A0A0KTB1/46-344 DE Uncharacterized protein #=GS A0A0A0KTB1/46-344 DR GENE3D; 89e425113f47f474466482fc552b44ae/46-344; #=GS A0A0A0KTB1/46-344 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Cucurbitales; Cucurbitaceae; Benincaseae; Cucumis; Cucumis sativus; #=GS S8E8K3/41-339 AC S8E8K3 #=GS S8E8K3/41-339 OS Genlisea aurea #=GS S8E8K3/41-339 DE Uncharacterized protein #=GS S8E8K3/41-339 DR GENE3D; 8c765090f15795b8f68bc92ffb88686d/41-339; #=GS S8E8K3/41-339 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; asterids; Lamiales; Lentibulariaceae; Genlisea; Genlisea aurea; #=GS A0A061EIG1/27-325 AC A0A061EIG1 #=GS A0A061EIG1/27-325 OS Theobroma cacao #=GS A0A061EIG1/27-325 DE Transducin/WD40 repeat-like superfamily protein isoform 3 #=GS A0A061EIG1/27-325 DR GENE3D; 8db4680bead1a202b2cb442583cf8472/27-325; #=GS A0A061EIG1/27-325 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Malvales; Malvaceae; Byttnerioideae; Theobroma; Theobroma cacao; #=GS A0A1I8A4M9/123-423 AC A0A1I8A4M9 #=GS A0A1I8A4M9/123-423 OS Steinernema glaseri #=GS A0A1I8A4M9/123-423 DE Uncharacterized protein #=GS A0A1I8A4M9/123-423 DR GENE3D; 8e46dfcdd6787285b6e0bea85d971615/123-423; #=GS A0A1I8A4M9/123-423 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Panagrolaimoidea; Steinernematidae; Steinernema; Steinernema glaseri; #=GS A0A0L7LAP8/24-312 AC A0A0L7LAP8 #=GS A0A0L7LAP8/24-312 OS Operophtera brumata #=GS A0A0L7LAP8/24-312 DE WD repeat-containing protein 57 #=GS A0A0L7LAP8/24-312 DR GENE3D; 8eefad7414dbe3117d50fd06364f3826/24-312; #=GS A0A0L7LAP8/24-312 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Lepidoptera; Glossata; Neolepidoptera; Heteroneura; Geometroidea; Geometridae; Larentiinae; Operophtera; Operophtera brumata; #=GS A0A0L0GAR9/62-360 AC A0A0L0GAR9 #=GS A0A0L0GAR9/62-360 OS Sphaeroforma arctica JP610 #=GS A0A0L0GAR9/62-360 DE U5 small nuclear ribonucleoprotein #=GS A0A0L0GAR9/62-360 DR GENE3D; 8ef9d9996b1edd68fa0bc219b6581e27/62-360; #=GS A0A0L0GAR9/62-360 DR ORG; Eukaryota; Ichthyosporea; Ichthyophonida; Sphaeroforma; Sphaeroforma arctica; #=GS A0A0T6AWX1/48-316 AC A0A0T6AWX1 #=GS A0A0T6AWX1/48-316 OS Oryctes borbonicus #=GS A0A0T6AWX1/48-316 DE Translation initiation factor eIF2A #=GS A0A0T6AWX1/48-316 DR GENE3D; 8fa04855ac092b61b3dbb9cd1c1db85b/48-316; #=GS A0A0T6AWX1/48-316 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Scarabaeiformia; Scarabaeoidea; Scarabaeidae; Dynastinae; Oryctes; Oryctes borbonicus; #=GS A0A1B0CTK2/47-327 AC A0A1B0CTK2 #=GS A0A1B0CTK2/47-327 OS Lutzomyia longipalpis #=GS A0A1B0CTK2/47-327 DE Uncharacterized protein #=GS A0A1B0CTK2/47-327 DR GENE3D; 8fc1efd22d34b2a55d959d486623a636/47-327; #=GS A0A1B0CTK2/47-327 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Psychodomorpha; Psychodoidea; Psychodidae; Phlebotominae; Lutzomyia; Lutzomyia; Lutzomyia longipalpis; #=GS A8XQX7/30-329 AC A8XQX7 #=GS A8XQX7/30-329 OS Caenorhabditis briggsae #=GS A8XQX7/30-329 DE Protein CBG17375 #=GS A8XQX7/30-329 DR GENE3D; 9146fbfc732893cb005f119808e279ce/30-329; #=GS A8XQX7/30-329 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis briggsae; #=GS A0A1J3J279/42-340 AC A0A1J3J279 #=GS A0A1J3J279/42-340 OS Noccaea caerulescens #=GS A0A1J3J279/42-340 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A1J3J279/42-340 DR GENE3D; 92e404bc3d1f8e4749d1e8e4a21b50c2/42-340; #=GS A0A1J3J279/42-340 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Coluteocarpeae; Noccaea; Noccaea caerulescens; #=GS A0A067KTJ0/47-345 AC A0A067KTJ0 #=GS A0A067KTJ0/47-345 OS Jatropha curcas #=GS A0A067KTJ0/47-345 DE Uncharacterized protein #=GS A0A067KTJ0/47-345 DR GENE3D; 93e7a807a7f03ce1d2e27e0299a63c86/47-345; #=GS A0A067KTJ0/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Malpighiales; Euphorbiaceae; Crotonoideae; Jatropheae; Jatropha; Jatropha curcas; #=GS G1Q3G9/60-358 AC G1Q3G9 #=GS G1Q3G9/60-358 OS Myotis lucifugus #=GS G1Q3G9/60-358 DE Uncharacterized protein #=GS G1Q3G9/60-358 DR GENE3D; 96447af8ba549b6b87f8f71bd0a54e0a/60-358; #=GS G1Q3G9/60-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Chiroptera; Microchiroptera; Vespertilionidae; Myotis; Myotis lucifugus; #=GS B3VIY0/1-215 AC B3VIY0 #=GS B3VIY0/1-215 OS Populus tremula #=GS B3VIY0/1-215 DE U5 snRNP-specific protein-like factor #=GS B3VIY0/1-215 DR GENE3D; 967cbe1ae1962ba2b4f9b6b748bd6603/1-215; #=GS B3VIY0/1-215 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Malpighiales; Salicaceae; Saliceae; Populus; Populus tremula; #=GS A0A0V1D163/321-605 AC A0A0V1D163 #=GS A0A0V1D163/321-605 OS Trichinella britovi #=GS A0A0V1D163/321-605 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1D163/321-605 DR GENE3D; 96b9c12c8dd46b8925edcba1530686be/321-605; #=GS A0A0V1D163/321-605 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella britovi; #=GS F7E1N4/59-358 AC F7E1N4 #=GS F7E1N4/59-358 OS Equus caballus #=GS F7E1N4/59-358 DE Uncharacterized protein #=GS F7E1N4/59-358 DR GENE3D; 970622c95be27cc30c0b3ee17e11e351/59-358; #=GS F7E1N4/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Perissodactyla; Equidae; Equus; Equus; Equus caballus; #=GS B4P2A3/47-346 AC B4P2A3 #=GS B4P2A3/47-346 OS Drosophila yakuba #=GS B4P2A3/47-346 DE Uncharacterized protein #=GS B4P2A3/47-346 DR GENE3D; 995c607db603203d5cd448ae920508bb/47-346; #=GS B4P2A3/47-346 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 A0A195E265/50-348 AC A0A195E265 #=GS A0A195E265/50-348 OS Trachymyrmex cornetzi #=GS A0A195E265/50-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A195E265/50-348 DR GENE3D; 99a46974242de60a5a359c4d8eb2087d/50-348; #=GS A0A195E265/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Myrmicinae; Attini; Trachymyrmex; Trachymyrmex cornetzi; #=GS G1T7P9/101-400 AC G1T7P9 #=GS G1T7P9/101-400 OS Oryctolagus cuniculus #=GS G1T7P9/101-400 DE Uncharacterized protein #=GS G1T7P9/101-400 DR GENE3D; 9aeb9c6fb7cb9e3d84d46a04ec768172/101-400; #=GS G1T7P9/101-400 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Lagomorpha; Leporidae; Oryctolagus; Oryctolagus cuniculus; #=GS A0A0N4V7K2/376-687 AC A0A0N4V7K2 #=GS A0A0N4V7K2/376-687 OS Enterobius vermicularis #=GS A0A0N4V7K2/376-687 DE Uncharacterized protein #=GS A0A0N4V7K2/376-687 DR GENE3D; 9b85510dd6294995383cb874fc72ef10/376-687; #=GS A0A0N4V7K2/376-687 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Oxyurida; Oxyuroidea; Oxyuridae; Enterobius; Enterobius vermicularis; #=GS A0A0V0U3P1/331-630 AC A0A0V0U3P1 #=GS A0A0V0U3P1/331-630 OS Trichinella murrelli #=GS A0A0V0U3P1/331-630 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V0U3P1/331-630 DR GENE3D; 9b9334c7353b1b6977c5a42bc96701b5/331-630; #=GS A0A0V0U3P1/331-630 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella murrelli; #=GS A0A0D8XKB2/504-799 AC A0A0D8XKB2 #=GS A0A0D8XKB2/504-799 OS Dictyocaulus viviparus #=GS A0A0D8XKB2/504-799 DE Lipoyltransferase and lipoate-protein ligase #=GS A0A0D8XKB2/504-799 DR GENE3D; 9c4ff17ee908d38e132f4ea5b2a477fa/504-799; #=GS A0A0D8XKB2/504-799 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Trichostrongyloidea; Dictyocaulidae; Dictyocaulinae; Dictyocaulus; Dictyocaulus viviparus; #=GS Q171B6/51-350 AC Q171B6 #=GS Q171B6/51-350 OS Aedes aegypti #=GS Q171B6/51-350 DE AAEL007708-PA #=GS Q171B6/51-350 DR GENE3D; a08a4f4d32dee3ee28a68a8e86343026/51-350; #=GS Q171B6/51-350 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Culicinae; Aedini; Aedes; Stegomyia; Aedes aegypti; #=GS F7ATA4/61-347 AC F7ATA4 #=GS F7ATA4/61-347 OS Ornithorhynchus anatinus #=GS F7ATA4/61-347 DE Uncharacterized protein #=GS F7ATA4/61-347 DR GENE3D; a08e6e20174d48b50e2d67186e859413/61-347; #=GS F7ATA4/61-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Monotremata; Ornithorhynchidae; Ornithorhynchus; Ornithorhynchus anatinus; #=GS A0A158NHG5/50-348 AC A0A158NHG5 #=GS A0A158NHG5/50-348 OS Atta cephalotes #=GS A0A158NHG5/50-348 DE Uncharacterized protein #=GS A0A158NHG5/50-348 DR GENE3D; a09db5501a52b7381b20f08248be17cd/50-348; #=GS A0A158NHG5/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Myrmicinae; Attini; Atta; Atta cephalotes; #=GS A0A195AUP8/50-348 AC A0A195AUP8 #=GS A0A195AUP8/50-348 OS Atta colombica #=GS A0A195AUP8/50-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A195AUP8/50-348 DR GENE3D; a09db5501a52b7381b20f08248be17cd/50-348; #=GS A0A195AUP8/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Myrmicinae; Attini; Atta; Atta colombica; #=GS B4ICS9/47-346 AC B4ICS9 #=GS B4ICS9/47-346 OS Drosophila sechellia #=GS B4ICS9/47-346 DE GM16719 #=GS B4ICS9/47-346 DR GENE3D; a0a1ee9d99a44e392268f6ef1e98f8bf/47-346; #=GS B4ICS9/47-346 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 B4Q5N3/47-346 AC B4Q5N3 #=GS B4Q5N3/47-346 OS Drosophila simulans #=GS B4Q5N3/47-346 DE GD23005 #=GS B4Q5N3/47-346 DR GENE3D; a0a1ee9d99a44e392268f6ef1e98f8bf/47-346; #=GS B4Q5N3/47-346 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 F0ZM92/57-357 AC F0ZM92 #=GS F0ZM92/57-357 OS Dictyostelium purpureum #=GS F0ZM92/57-357 DE Putative uncharacterized protein #=GS F0ZM92/57-357 DR GENE3D; a13ff63371f7175fa65a59daf103c11f/57-357; #=GS F0ZM92/57-357 DR ORG; Eukaryota; Dictyosteliida; Dictyostelium; Dictyostelium purpureum; #=GS A0A0V1P6V8/321-605 AC A0A0V1P6V8 #=GS A0A0V1P6V8/321-605 OS Trichinella sp. T8 #=GS A0A0V1P6V8/321-605 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1P6V8/321-605 DR GENE3D; a1d4721df0902fc1f0361d47fe14282c/321-605; #=GS A0A0V1P6V8/321-605 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella sp. T8; #=GS F6VKV2/62-361 AC F6VKV2 #=GS F6VKV2/62-361 OS Monodelphis domestica #=GS F6VKV2/62-361 DE Uncharacterized protein #=GS F6VKV2/62-361 DR GENE3D; a2326d2aa8f3347ca3d8a9b4bae800a6/62-361; #=GS F6VKV2/62-361 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Didelphimorphia; Didelphidae; Didelphinae; Monodelphis; Monodelphis domestica; #=GS H9G3W1/59-359 AC H9G3W1 #=GS H9G3W1/59-359 OS Anolis carolinensis #=GS H9G3W1/59-359 DE Uncharacterized protein #=GS H9G3W1/59-359 DR GENE3D; a311e20114c5ddca26aba830f8119e4f/59-359; #=GS H9G3W1/59-359 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Lepidosauria; Squamata; Iguania; Iguanidae; Polychrotinae; Anolis; Anolis carolinensis; #=GS U3JEN5/90-389 AC U3JEN5 #=GS U3JEN5/90-389 OS Ficedula albicollis #=GS U3JEN5/90-389 DE Uncharacterized protein #=GS U3JEN5/90-389 DR GENE3D; a38c586f2c9a886db778f7657de58ed7/90-389; #=GS U3JEN5/90-389 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Passeriformes; Muscicapidae; Ficedula; Ficedula albicollis; #=GS A0A091KXG3/15-264 AC A0A091KXG3 #=GS A0A091KXG3/15-264 OS Colius striatus #=GS A0A091KXG3/15-264 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091KXG3/15-264 DR GENE3D; a393cf6fc433a2d176361c52788b9ddd/15-264; #=GS A0A091KXG3/15-264 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Coliiformes; Coliidae; Colius; Colius striatus; #=GS A0A199VQI5/28-326 AC A0A199VQI5 #=GS A0A199VQI5/28-326 OS Ananas comosus #=GS A0A199VQI5/28-326 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A199VQI5/28-326 DR GENE3D; a4fb2046dca39460bd9346505ee460ee/28-326; #=GS A0A199VQI5/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Bromeliaceae; Bromelioideae; Ananas; Ananas comosus; #=GS A0A0V0ZY12/324-623 AC A0A0V0ZY12 #=GS A0A0V0ZY12/324-623 OS Trichinella patagoniensis #=GS A0A0V0ZY12/324-623 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V0ZY12/324-623 DR GENE3D; a5ad156ae3793092a5407701b764ec59/324-623; #=GS A0A0V0ZY12/324-623 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella patagoniensis; #=GS S7PQR8/59-358 AC S7PQR8 #=GS S7PQR8/59-358 OS Myotis brandtii #=GS S7PQR8/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS S7PQR8/59-358 DR GENE3D; a6271589861d2928a25de34fc18d7321/59-358; #=GS S7PQR8/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Chiroptera; Microchiroptera; Vespertilionidae; Myotis; Myotis brandtii; #=GS A0A0K9PZR4/43-341 AC A0A0K9PZR4 #=GS A0A0K9PZR4/43-341 OS Zostera marina #=GS A0A0K9PZR4/43-341 DE Putative WD-repeat protein #=GS A0A0K9PZR4/43-341 DR GENE3D; a6b88b6a1b567b62a0e567fbf890b35c/43-341; #=GS A0A0K9PZR4/43-341 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Alismatales; Zosteraceae; Zostera; Zostera marina; #=GS G3RNR8/58-355 AC G3RNR8 #=GS G3RNR8/58-355 OS Gorilla gorilla gorilla #=GS G3RNR8/58-355 DE Uncharacterized protein #=GS G3RNR8/58-355 DR GENE3D; a6f53ddbfe7c8656ea73fd6eb1403b4e/58-355; #=GS G3RNR8/58-355 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Gorilla; Gorilla gorilla; Gorilla gorilla gorilla; #=GS A0A0D3GJE4/28-326 AC A0A0D3GJE4 #=GS A0A0D3GJE4/28-326 OS Oryza barthii #=GS A0A0D3GJE4/28-326 DE Uncharacterized protein #=GS A0A0D3GJE4/28-326 DR GENE3D; a7df99c85db4ae4cbc3b0605448fa160/28-326; #=GS A0A0D3GJE4/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza barthii; #=GS A0A1D1Y1W1/51-349 AC A0A1D1Y1W1 #=GS A0A1D1Y1W1/51-349 OS Anthurium amnicola #=GS A0A1D1Y1W1/51-349 DE U5 small nuclear ribonucleoprotein #=GS A0A1D1Y1W1/51-349 DR GENE3D; a85a37eca40d30d7b2a1d229030da786/51-349; #=GS A0A1D1Y1W1/51-349 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Alismatales; Araceae; Pothoideae; Potheae; Anthurium; Anthurium amnicola; #=GS B3MUC8/47-346 AC B3MUC8 #=GS B3MUC8/47-346 OS Drosophila ananassae #=GS B3MUC8/47-346 DE Uncharacterized protein #=GS B3MUC8/47-346 DR GENE3D; a873fb19d3a7ca1ad5f489433eaac85c/47-346; #=GS B3MUC8/47-346 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 H0YRC3/81-378 AC H0YRC3 #=GS H0YRC3/81-378 OS Taeniopygia guttata #=GS H0YRC3/81-378 DE Uncharacterized protein #=GS H0YRC3/81-378 DR GENE3D; a87d6b8daa688f74f0076c7bf1a834d3/81-378; #=GS H0YRC3/81-378 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Passeriformes; Passeroidea; Estrildidae; Estrildinae; Taeniopygia; Taeniopygia guttata; #=GS A0A1A9X086/95-370 AC A0A1A9X086 #=GS A0A1A9X086/95-370 OS Glossina brevipalpis #=GS A0A1A9X086/95-370 DE Uncharacterized protein #=GS A0A1A9X086/95-370 DR GENE3D; a8a74e14e70694131f6039d781c02184/95-370; #=GS A0A1A9X086/95-370 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Hippoboscoidea; Glossinidae; Glossina; Austenina; Glossina brevipalpis; #=GS A0A093D060/1-267 AC A0A093D060 #=GS A0A093D060/1-267 OS Tauraco erythrolophus #=GS A0A093D060/1-267 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A093D060/1-267 DR GENE3D; a8dd5faa008a1699a37c4fe242885733/1-267; #=GS A0A093D060/1-267 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Musophagiformes; Musophagidae; Tauraco; Tauraco erythrolophus; #=GS A0A091KX54/1-267 AC A0A091KX54 #=GS A0A091KX54/1-267 OS Chlamydotis macqueenii #=GS A0A091KX54/1-267 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091KX54/1-267 DR GENE3D; a8dd5faa008a1699a37c4fe242885733/1-267; #=GS A0A091KX54/1-267 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Gruiformes; Otididae; Chlamydotis; Chlamydotis macqueenii; #=GS A0A091P9Z8/1-267 AC A0A091P9Z8 #=GS A0A091P9Z8/1-267 OS Haliaeetus albicilla #=GS A0A091P9Z8/1-267 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091P9Z8/1-267 DR GENE3D; a8dd5faa008a1699a37c4fe242885733/1-267; #=GS A0A091P9Z8/1-267 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Falconiformes; Accipitridae; Accipitrinae; Haliaeetus; Haliaeetus albicilla; #=GS A0A091UM61/1-267 AC A0A091UM61 #=GS A0A091UM61/1-267 OS Nipponia nippon #=GS A0A091UM61/1-267 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091UM61/1-267 DR GENE3D; a8dd5faa008a1699a37c4fe242885733/1-267; #=GS A0A091UM61/1-267 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Pelecaniformes; Threskiornithidae; Nipponia; Nipponia nippon; #=GS A0A078CSS9/117-415 AC A0A078CSS9 #=GS A0A078CSS9/117-415 OS Brassica napus #=GS A0A078CSS9/117-415 DE BnaA05g03540D protein #=GS A0A078CSS9/117-415 DR GENE3D; a92b6e3ab254d2abb792494c3c9e78b4/117-415; #=GS A0A078CSS9/117-415 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Brassiceae; Brassica; Brassica napus; #=GS A0A152A2A9/58-361 AC A0A152A2A9 #=GS A0A152A2A9/58-361 OS Dictyostelium lacteum #=GS A0A152A2A9/58-361 DE WD40 repeat-containing protein #=GS A0A152A2A9/58-361 DR GENE3D; a9c25b954c4b4d68ae15d7039bc03a26/58-361; #=GS A0A152A2A9/58-361 DR ORG; Eukaryota; Dictyosteliida; Dictyostelium; Dictyostelium lacteum; #=GS A0A0V1P773/321-614 AC A0A0V1P773 #=GS A0A0V1P773/321-614 OS Trichinella sp. T8 #=GS A0A0V1P773/321-614 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1P773/321-614 DR GENE3D; aaad722bb7d6a37e6035b785099be5cf/321-614; #=GS A0A0V1P773/321-614 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella sp. T8; #=GS A0A091U4S4/14-313 AC A0A091U4S4 #=GS A0A091U4S4/14-313 OS Phoenicopterus ruber ruber #=GS A0A091U4S4/14-313 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091U4S4/14-313 DR GENE3D; ab1c6a21c61a4bd815fd865eedbbb982/14-313; #=GS A0A091U4S4/14-313 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Phoenicopteriformes; Phoenicopteridae; Phoenicopterus; Phoenicopterus ruber; Phoenicopterus ruber ruber; #=GS A0A093IU65/14-313 AC A0A093IU65 #=GS A0A093IU65/14-313 OS Fulmarus glacialis #=GS A0A093IU65/14-313 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A093IU65/14-313 DR GENE3D; ab1c6a21c61a4bd815fd865eedbbb982/14-313; #=GS A0A093IU65/14-313 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Procellariiformes; Procellariidae; Fulmarus; Fulmarus glacialis; #=GS A0A091TJG5/14-313 AC A0A091TJG5 #=GS A0A091TJG5/14-313 OS Phaethon lepturus #=GS A0A091TJG5/14-313 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091TJG5/14-313 DR GENE3D; ab1c6a21c61a4bd815fd865eedbbb982/14-313; #=GS A0A091TJG5/14-313 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Pelecaniformes; Phaethontidae; Phaethon; Phaethon lepturus; #=GS A0A087RJC6/14-313 AC A0A087RJC6 #=GS A0A087RJC6/14-313 OS Aptenodytes forsteri #=GS A0A087RJC6/14-313 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A087RJC6/14-313 DR GENE3D; ab1c6a21c61a4bd815fd865eedbbb982/14-313; #=GS A0A087RJC6/14-313 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Sphenisciformes; Spheniscidae; Aptenodytes; Aptenodytes forsteri; #=GS A0A093NM48/14-313 AC A0A093NM48 #=GS A0A093NM48/14-313 OS Pygoscelis adeliae #=GS A0A093NM48/14-313 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A093NM48/14-313 DR GENE3D; ab1c6a21c61a4bd815fd865eedbbb982/14-313; #=GS A0A093NM48/14-313 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Sphenisciformes; Spheniscidae; Pygoscelis; Pygoscelis adeliae; #=GS A0A091MEV8/14-313 AC A0A091MEV8 #=GS A0A091MEV8/14-313 OS Cariama cristata #=GS A0A091MEV8/14-313 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091MEV8/14-313 DR GENE3D; ab1c6a21c61a4bd815fd865eedbbb982/14-313; #=GS A0A091MEV8/14-313 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Cariamiformes; Cariamidae; Cariama; Cariama cristata; #=GS A0A093FJ68/14-313 AC A0A093FJ68 #=GS A0A093FJ68/14-313 OS Gavia stellata #=GS A0A093FJ68/14-313 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A093FJ68/14-313 DR GENE3D; ab1c6a21c61a4bd815fd865eedbbb982/14-313; #=GS A0A093FJ68/14-313 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Gaviiformes; Gaviidae; Gavia; Gavia stellata; #=GS D4A944/101-400 AC D4A944 #=GS D4A944/101-400 OS Rattus norvegicus #=GS D4A944/101-400 DE Small nuclear ribonucleoprotein U5 subunit 40 #=GS D4A944/101-400 DR GENE3D; abeb49c7f9729325067743544ec85dbe/101-400; #=GS D4A944/101-400 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Rattus; Rattus norvegicus; #=GS A0A077YUQ7/362-661 AC A0A077YUQ7 #=GS A0A077YUQ7/362-661 OS Trichuris trichiura #=GS A0A077YUQ7/362-661 DE U5 small nuclear ribonucleoprotein 40 kDa #=GS A0A077YUQ7/362-661 DR GENE3D; ac451c17127efc4fa4847c25fc999967/362-661; #=GS A0A077YUQ7/362-661 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichuridae; Trichuris; Trichuris trichiura; #=GS R7TUX4/48-347 AC R7TUX4 #=GS R7TUX4/48-347 OS Capitella teleta #=GS R7TUX4/48-347 DE Uncharacterized protein #=GS R7TUX4/48-347 DR GENE3D; ad55933c4161488da1c9e5d97a038c84/48-347; #=GS R7TUX4/48-347 DR ORG; Eukaryota; Metazoa; Annelida; Polychaeta; Scolecida; Capitellida; Capitellidae; Capitella; Capitella teleta; #=GS H3DHW0/48-347 AC H3DHW0 #=GS H3DHW0/48-347 OS Tetraodon nigroviridis #=GS H3DHW0/48-347 DE Uncharacterized protein #=GS H3DHW0/48-347 DR GENE3D; aea4b3fff12c21abf5770e29652b5d55/48-347; #=GS H3DHW0/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Tetraodon; Tetraodon nigroviridis; #=GS E3M2W3/30-329 AC E3M2W3 #=GS E3M2W3/30-329 OS Caenorhabditis remanei #=GS E3M2W3/30-329 DE Putative uncharacterized protein #=GS E3M2W3/30-329 DR GENE3D; aed0432194ef0eaf66313030a7510e1c/30-329; #=GS E3M2W3/30-329 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis remanei; #=GS A0A0V1D1B6/321-611 AC A0A0V1D1B6 #=GS A0A0V1D1B6/321-611 OS Trichinella britovi #=GS A0A0V1D1B6/321-611 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1D1B6/321-611 DR GENE3D; af1a876f4907829be19483e889b6c49a/321-611; #=GS A0A0V1D1B6/321-611 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella britovi; #=GS A0A093CHR7/11-310 AC A0A093CHR7 #=GS A0A093CHR7/11-310 OS Pterocles gutturalis #=GS A0A093CHR7/11-310 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A093CHR7/11-310 DR GENE3D; b01dc0994465f9a1a33dbe80110c40e6/11-310; #=GS A0A093CHR7/11-310 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Ciconiiformes; Pteroclidae; Pterocles; Pterocles gutturalis; #=GS A0A091JP43/11-310 AC A0A091JP43 #=GS A0A091JP43/11-310 OS Egretta garzetta #=GS A0A091JP43/11-310 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091JP43/11-310 DR GENE3D; b01dc0994465f9a1a33dbe80110c40e6/11-310; #=GS A0A091JP43/11-310 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Pelecaniformes; Ardeidae; Egretta; Egretta garzetta; #=GS A0A093Q8P7/20-319 AC A0A093Q8P7 #=GS A0A093Q8P7/20-319 OS Phalacrocorax carbo #=GS A0A093Q8P7/20-319 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A093Q8P7/20-319 DR GENE3D; b14cb26156fb68c2ab255fcac643cf77/20-319; #=GS A0A093Q8P7/20-319 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Pelecaniformes; Phalacrocoracidae; Phalacrocorax; Phalacrocorax carbo; #=GS A0A0B7NWX3/57-353 AC A0A0B7NWX3 #=GS A0A0B7NWX3/57-353 OS Parasitella parasitica #=GS A0A0B7NWX3/57-353 DE Uncharacterized protein #=GS A0A0B7NWX3/57-353 DR GENE3D; b3761fcbc4b33caff4f6cf3e711fb256/57-353; #=GS A0A0B7NWX3/57-353 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Mucorineae; Mucoraceae; Parasitella; Parasitella parasitica; #=GS A0A087TYJ8/43-342 AC A0A087TYJ8 #=GS A0A087TYJ8/43-342 OS Stegodyphus mimosarum #=GS A0A087TYJ8/43-342 DE U5 small nuclear ribonucleoprotein #=GS A0A087TYJ8/43-342 DR GENE3D; b38b5d26ace0cc9edd5ee5dcfac9ce17/43-342; #=GS A0A087TYJ8/43-342 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Araneae; Araneomorphae; Eresoidea; Eresidae; Stegodyphus; Stegodyphus mimosarum; #=GS U4UA05/1037-1332 AC U4UA05 #=GS U4UA05/1037-1332 OS Dendroctonus ponderosae #=GS U4UA05/1037-1332 DE Uncharacterized protein #=GS U4UA05/1037-1332 DR GENE3D; b4440461c7f85903f35022aaa14d23a1/1037-1332; #=GS U4UA05/1037-1332 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Cucujiformia; Curculionoidea; Curculionidae; Scolytinae; Dendroctonus; Dendroctonus ponderosae; #=GS U6NM29/38-337 AC U6NM29 #=GS U6NM29/38-337 OS Haemonchus contortus #=GS U6NM29/38-337 DE WD40 repeat domain containing protein #=GS U6NM29/38-337 DR GENE3D; b44c2b1e628252442c8350bd545e2478/38-337; #=GS U6NM29/38-337 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Trichostrongyloidea; Haemonchidae; Haemonchinae; Haemonchus; Haemonchus contortus; #=GS K3XX44/128-426 AC K3XX44 #=GS K3XX44/128-426 OS Setaria italica #=GS K3XX44/128-426 DE Uncharacterized protein #=GS K3XX44/128-426 DR GENE3D; b4b2eebf202308b1cc4749e1f0883534/128-426; #=GS K3XX44/128-426 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Panicoideae; Paniceae; Cenchrinae; Setaria; Setaria italica; #=GS A0A0C7B9C4/58-357 AC A0A0C7B9C4 #=GS A0A0C7B9C4/58-357 OS Rhizopus microsporus #=GS A0A0C7B9C4/58-357 DE Uncharacterized protein #=GS A0A0C7B9C4/58-357 DR GENE3D; b6c2213d73aef38652c1a338e77e0d42/58-357; #=GS A0A0C7B9C4/58-357 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Mucorineae; Rhizopodaceae; Rhizopus; Rhizopus microsporus; #=GS A0A183SIA7/61-361 AC A0A183SIA7 #=GS A0A183SIA7/61-361 OS Schistocephalus solidus #=GS A0A183SIA7/61-361 DE Uncharacterized protein #=GS A0A183SIA7/61-361 DR GENE3D; b6f9315e51ff3478574dcb6b8eb3ad5e/61-361; #=GS A0A183SIA7/61-361 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Cestoda; Eucestoda; Diphyllobothriidea; Diphyllobothriidae; Schistocephalus; Schistocephalus solidus; #=GS A0A195D4D9/50-348 AC A0A195D4D9 #=GS A0A195D4D9/50-348 OS Cyphomyrmex costatus #=GS A0A195D4D9/50-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A195D4D9/50-348 DR GENE3D; b835fc2ad0c10f08b6b5c6d0082c720b/50-348; #=GS A0A195D4D9/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Myrmicinae; Attini; Cyphomyrmex; Cyphomyrmex costatus; #=GS A0A1D6SFB2/48-347 AC A0A1D6SFB2 #=GS A0A1D6SFB2/48-347 OS Triticum aestivum #=GS A0A1D6SFB2/48-347 DE Uncharacterized protein #=GS A0A1D6SFB2/48-347 DR GENE3D; b86c67246c00d5e0a144012feadf7947/48-347; #=GS A0A1D6SFB2/48-347 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Pooideae; Triticeae; Triticinae; Triticum; Triticum aestivum; #=GS A0A0V1D175/321-611 AC A0A0V1D175 #=GS A0A0V1D175/321-611 OS Trichinella britovi #=GS A0A0V1D175/321-611 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1D175/321-611 DR GENE3D; b90e8a45e311e626a5370457bc2484b7/321-611; #=GS A0A0V1D175/321-611 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella britovi; #=GS F2E6G5/48-346 AC F2E6G5 #=GS F2E6G5/48-346 OS Hordeum vulgare subsp. vulgare #=GS F2E6G5/48-346 DE Predicted protein #=GS F2E6G5/48-346 DR GENE3D; b95b629486f7106281d504d718854aa4/48-346; #=GS F2E6G5/48-346 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Pooideae; Triticeae; Hordeinae; Hordeum; Hordeum vulgare; Hordeum vulgare subsp. vulgare; #=GS A0A0C9S2Z0/52-351 AC A0A0C9S2Z0 #=GS A0A0C9S2Z0/52-351 OS Wollemia nobilis #=GS A0A0C9S2Z0/52-351 DE TSA: Wollemia nobilis Ref_Wollemi_Transcript_16228_1267 transcribed RNA sequence #=GS A0A0C9S2Z0/52-351 DR GENE3D; b9d0310b0ec2f95978e1686465ad3b36/52-351; #=GS A0A0C9S2Z0/52-351 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Pinidae; Araucariales; Araucariaceae; Wollemia; Wollemia nobilis; #=GS A0A1I8MK54/1-255 AC A0A1I8MK54 #=GS A0A1I8MK54/1-255 OS Musca domestica #=GS A0A1I8MK54/1-255 DE Uncharacterized protein #=GS A0A1I8MK54/1-255 DR GENE3D; b9fd9eeebcff6bebda6a65cb870bc126/1-255; #=GS A0A1I8MK54/1-255 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Muscoidea; Muscidae; Muscinae; Muscini; Musca; Musca; Musca domestica; #=GS A0A1J1J6V1/51-351 AC A0A1J1J6V1 #=GS A0A1J1J6V1/51-351 OS Clunio marinus #=GS A0A1J1J6V1/51-351 DE CLUMA_CG020481, isoform A #=GS A0A1J1J6V1/51-351 DR GENE3D; bb8fd178dd2e0fea29146b39ba338fdd/51-351; #=GS A0A1J1J6V1/51-351 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Chironomoidea; Chironomidae; Orthocladiinae; Clunio; Clunio marinus; #=GS A0A0L0H858/53-351 AC A0A0L0H858 #=GS A0A0L0H858/53-351 OS Spizellomyces punctatus DAOM BR117 #=GS A0A0L0H858/53-351 DE Uncharacterized protein #=GS A0A0L0H858/53-351 DR GENE3D; bbdfcb0620abc5e37755e4ab00aeb7dd/53-351; #=GS A0A0L0H858/53-351 DR ORG; Eukaryota; Fungi; Chytridiomycota; Chytridiomycetes; Spizellomycetales; Spizellomycetaceae; Spizellomyces; Spizellomyces punctatus; #=GS I1N8B6/47-345 AC I1N8B6 #=GS I1N8B6/47-345 OS Glycine max #=GS I1N8B6/47-345 DE Uncharacterized protein #=GS I1N8B6/47-345 DR GENE3D; bc162df88e75d9b315dee59a5795d4e1/47-345; #=GS I1N8B6/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Fabales; Fabaceae; Papilionoideae; Phaseoleae; Glycine; Soja; Glycine max; #=GS W2TKJ6/46-335 AC W2TKJ6 #=GS W2TKJ6/46-335 OS Necator americanus #=GS W2TKJ6/46-335 DE Uncharacterized protein #=GS W2TKJ6/46-335 DR GENE3D; bd9ee1564d7df31c3080b3504cc27d5e/46-335; #=GS W2TKJ6/46-335 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Ancylostomatoidea; Ancylostomatidae; Bunostominae; Necator; Necator americanus; #=GS G0M6M9/30-329 AC G0M6M9 #=GS G0M6M9/30-329 OS Caenorhabditis brenneri #=GS G0M6M9/30-329 DE Putative uncharacterized protein #=GS G0M6M9/30-329 DR GENE3D; bf40cfacc4236187cfaf2a91febc31a5/30-329; #=GS G0M6M9/30-329 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis brenneri; #=GS Q5RF51/58-357 AC Q5RF51 #=GS Q5RF51/58-357 OS Pongo abelii #=GS Q5RF51/58-357 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS Q5RF51/58-357 DR GENE3D; bf8bdcd82513ceeb0345b33030872288/58-357; #=GS Q5RF51/58-357 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Ponginae; Pongo; Pongo abelii; #=GS Q2HJH6/59-358 AC Q2HJH6 #=GS Q2HJH6/59-358 OS Bos taurus #=GS Q2HJH6/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS Q2HJH6/59-358 DR GENE3D; bfe2e93a095b5e7c4bb4788855e9c487/59-358; #=GS Q2HJH6/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS A0A1E5UYX5/29-327 AC A0A1E5UYX5 #=GS A0A1E5UYX5/29-327 OS Dichanthelium oligosanthes #=GS A0A1E5UYX5/29-327 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A1E5UYX5/29-327 DR GENE3D; bffa1eaf208e2f60703d94930807cf9c/29-327; #=GS A0A1E5UYX5/29-327 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Panicoideae; Paniceae; Dichantheliinae; Dichanthelium; Dichanthelium oligosanthes; #=GS J3JZ11/50-349 AC J3JZ11 #=GS J3JZ11/50-349 OS Dendroctonus ponderosae #=GS J3JZ11/50-349 DE Uncharacterized protein #=GS J3JZ11/50-349 DR GENE3D; c14bc1205eab98595898e4587b9e31cc/50-349; #=GS J3JZ11/50-349 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Cucujiformia; Curculionoidea; Curculionidae; Scolytinae; Dendroctonus; Dendroctonus ponderosae; #=GS A0A068XZ51/61-361 AC A0A068XZ51 #=GS A0A068XZ51/61-361 OS Echinococcus multilocularis #=GS A0A068XZ51/61-361 DE U5 small nuclear ribonucleoprotein 40 kDa #=GS A0A068XZ51/61-361 DR GENE3D; c17c26702eb1cad7c5dbf4d2da06718e/61-361; #=GS A0A068XZ51/61-361 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Cestoda; Eucestoda; Cyclophyllidea; Taeniidae; Echinococcus; Echinococcus multilocularis; #=GS A0A0R3UP15/61-361 AC A0A0R3UP15 #=GS A0A0R3UP15/61-361 OS Mesocestoides corti #=GS A0A0R3UP15/61-361 DE Uncharacterized protein #=GS A0A0R3UP15/61-361 DR GENE3D; c2fa20ebf31121d1242cef603d3c62d8/61-361; #=GS A0A0R3UP15/61-361 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Cestoda; Eucestoda; Cyclophyllidea; Mesocestoididae; Mesocestoides; Mesocestoides corti; #=GS B4JB76/47-346 AC B4JB76 #=GS B4JB76/47-346 OS Drosophila grimshawi #=GS B4JB76/47-346 DE GH11537 #=GS B4JB76/47-346 DR GENE3D; c461e4f633661b6918677026e6b9661e/47-346; #=GS B4JB76/47-346 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 A0A0B2VLY1/368-667 AC A0A0B2VLY1 #=GS A0A0B2VLY1/368-667 OS Toxocara canis #=GS A0A0B2VLY1/368-667 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0B2VLY1/368-667 DR GENE3D; c4d7fea93aa53ca55dd8b86c297b3174/368-667; #=GS A0A0B2VLY1/368-667 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Ascaridida; Ascaridoidea; Toxocaridae; Toxocara; Toxocara canis; #=GS G1QLC2/114-413 AC G1QLC2 #=GS G1QLC2/114-413 OS Nomascus leucogenys #=GS G1QLC2/114-413 DE Uncharacterized protein #=GS G1QLC2/114-413 DR GENE3D; c7db32bd80825b68a7a6529aef68480e/114-413; #=GS G1QLC2/114-413 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hylobatidae; Nomascus; Nomascus leucogenys; #=GS W5NUF6/59-361 AC W5NUF6 #=GS W5NUF6/59-361 OS Ovis aries #=GS W5NUF6/59-361 DE Uncharacterized protein #=GS W5NUF6/59-361 DR GENE3D; c854c2adbdd1ea9da3c67d40ce2995c4/59-361; #=GS W5NUF6/59-361 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Caprinae; Ovis; Ovis aries; #=GS W5LN00/48-347 AC W5LN00 #=GS W5LN00/48-347 OS Astyanax mexicanus #=GS W5LN00/48-347 DE Uncharacterized protein #=GS W5LN00/48-347 DR GENE3D; c8e29e5f8fbaa2a70ff1d17fd2ab137c/48-347; #=GS W5LN00/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Characiphysae; Characiformes; Characoidei; Characidae; Astyanax; Astyanax mexicanus; #=GS A0A0R3SW26/59-359 AC A0A0R3SW26 #=GS A0A0R3SW26/59-359 OS Hymenolepis diminuta #=GS A0A0R3SW26/59-359 DE Uncharacterized protein #=GS A0A0R3SW26/59-359 DR GENE3D; c914ccdd9bc4797bb1cd54393f2578ab/59-359; #=GS A0A0R3SW26/59-359 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Cestoda; Eucestoda; Cyclophyllidea; Hymenolepididae; Hymenolepis; Hymenolepis diminuta; #=GS D8UH05/49-351 AC D8UH05 #=GS D8UH05/49-351 OS Volvox carteri f. nagariensis #=GS D8UH05/49-351 DE WDR57f #=GS D8UH05/49-351 DR GENE3D; c98ce2fe237c2d7abbdd12ff595bb662/49-351; #=GS D8UH05/49-351 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Chlorophyceae; Chlamydomonadales; Volvocaceae; Volvox; Volvox carteri; Volvox carteri f. nagariensis; #=GS H3BBM0/51-350 AC H3BBM0 #=GS H3BBM0/51-350 OS Latimeria chalumnae #=GS H3BBM0/51-350 DE Uncharacterized protein #=GS H3BBM0/51-350 DR GENE3D; ca3c63968245715f60d724fbda552733/51-350; #=GS H3BBM0/51-350 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Coelacanthiformes; Coelacanthidae; Latimeria; Latimeria chalumnae; #=GS G7L0J5/47-345 AC G7L0J5 #=GS G7L0J5/47-345 OS Medicago truncatula #=GS G7L0J5/47-345 DE U5 small nuclear ribonucleoprotein 40 kDa-like protein #=GS G7L0J5/47-345 DR GENE3D; cace97a5c3f4b2776ac249e59084ed7b/47-345; #=GS G7L0J5/47-345 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Fabales; Fabaceae; Papilionoideae; Trifolieae; Medicago; Medicago truncatula; #=GS M3ZL90/48-347 AC M3ZL90 #=GS M3ZL90/48-347 OS Xiphophorus maculatus #=GS M3ZL90/48-347 DE Uncharacterized protein #=GS M3ZL90/48-347 DR GENE3D; cb61079f9cfba292a38e7cee5938f9c9/48-347; #=GS M3ZL90/48-347 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus maculatus; #=GS A0A0V1HCB1/35-319 AC A0A0V1HCB1 #=GS A0A0V1HCB1/35-319 OS Trichinella zimbabwensis #=GS A0A0V1HCB1/35-319 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1HCB1/35-319 DR GENE3D; cbba8b08f80669d205db2c0f9dd2bcb6/35-319; #=GS A0A0V1HCB1/35-319 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella zimbabwensis; #=GS A0A026WBK9/50-348 AC A0A026WBK9 #=GS A0A026WBK9/50-348 OS Cerapachys biroi #=GS A0A026WBK9/50-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A026WBK9/50-348 DR GENE3D; cbf74d00c24827aaab2f7fef088ce5e6/50-348; #=GS A0A026WBK9/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Cerapachyinae; Cerapachyini; Cerapachys; Cerapachys biroi; #=GS A0A1D5QE20/53-328 AC A0A1D5QE20 #=GS A0A1D5QE20/53-328 OS Macaca mulatta #=GS A0A1D5QE20/53-328 DE Uncharacterized protein #=GS A0A1D5QE20/53-328 DR GENE3D; ccd02036538f7b04e8acfbe75aa65f9d/53-328; #=GS A0A1D5QE20/53-328 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS B0W5S6/52-352 AC B0W5S6 #=GS B0W5S6/52-352 OS Culex quinquefasciatus #=GS B0W5S6/52-352 DE WD repeat protein 57 #=GS B0W5S6/52-352 DR GENE3D; cdf3133e6b86ecc2acb775a26ff3a38c/52-352; #=GS B0W5S6/52-352 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Culicinae; Culicini; Culex; Culex; Culex quinquefasciatus; #=GS M4CGQ4/38-336 AC M4CGQ4 #=GS M4CGQ4/38-336 OS Brassica rapa subsp. pekinensis #=GS M4CGQ4/38-336 DE Uncharacterized protein #=GS M4CGQ4/38-336 DR GENE3D; ce45d2e63098e266b2d78d67530686ff/38-336; #=GS M4CGQ4/38-336 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Brassiceae; Brassica; Brassica rapa; Brassica rapa subsp. pekinensis; #=GS E2AJJ7/50-348 AC E2AJJ7 #=GS E2AJJ7/50-348 OS Camponotus floridanus #=GS E2AJJ7/50-348 DE WD repeat-containing protein 57 #=GS E2AJJ7/50-348 DR GENE3D; ceb9f2e838b42479523cfd454607c134/50-348; #=GS E2AJJ7/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Formicinae; Camponotini; Camponotus; Camponotus floridanus; #=GS V4LW52/38-336 AC V4LW52 #=GS V4LW52/38-336 OS Eutrema salsugineum #=GS V4LW52/38-336 DE Uncharacterized protein #=GS V4LW52/38-336 DR GENE3D; cf19a8ff2aa443fdf164599f8d6b1d00/38-336; #=GS V4LW52/38-336 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Eutremeae; Eutrema; Eutrema salsugineum; #=GS E2R016/59-358 AC E2R016 #=GS E2R016/59-358 OS Canis lupus familiaris #=GS E2R016/59-358 DE Uncharacterized protein #=GS E2R016/59-358 DR GENE3D; cf7577a882aad02619aca6e262cf1685/59-358; #=GS E2R016/59-358 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Carnivora; Caniformia; Canidae; Canis; Canis lupus; Canis lupus familiaris; #=GS E5S7V5/328-621 AC E5S7V5 #=GS E5S7V5/328-621 OS Trichinella spiralis #=GS E5S7V5/328-621 DE WD repeat-containing protein 57 #=GS E5S7V5/328-621 DR GENE3D; cfa013540d9438a01b960856ea5272ae/328-621; #=GS E5S7V5/328-621 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella spiralis; #=GS R0FZU2/45-343 AC R0FZU2 #=GS R0FZU2/45-343 OS Capsella rubella #=GS R0FZU2/45-343 DE Uncharacterized protein #=GS R0FZU2/45-343 DR GENE3D; d0ef3cfc0427327345eaa106e8f44326/45-343; #=GS R0FZU2/45-343 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Camelineae; Capsella; Capsella rubella; #=GS G7NWW5/58-357 AC G7NWW5 #=GS G7NWW5/58-357 OS Macaca fascicularis #=GS G7NWW5/58-357 DE Putative uncharacterized protein #=GS G7NWW5/58-357 DR GENE3D; d11c710a973118587545c72708887fe2/58-357; #=GS G7NWW5/58-357 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca fascicularis; #=GS K7C924/58-357 AC K7C924 #=GS K7C924/58-357 OS Pan troglodytes #=GS K7C924/58-357 DE Small nuclear ribonucleoprotein 40kDa (U5) #=GS K7C924/58-357 DR GENE3D; d11c710a973118587545c72708887fe2/58-357; #=GS K7C924/58-357 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS A0A096MXB3/58-357 AC A0A096MXB3 #=GS A0A096MXB3/58-357 OS Papio anubis #=GS A0A096MXB3/58-357 DE Uncharacterized protein #=GS A0A096MXB3/58-357 DR GENE3D; d11c710a973118587545c72708887fe2/58-357; #=GS A0A096MXB3/58-357 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Papio; Papio anubis; #=GS H2N881/58-357 AC H2N881 #=GS H2N881/58-357 OS Pongo abelii #=GS H2N881/58-357 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS H2N881/58-357 DR GENE3D; d11c710a973118587545c72708887fe2/58-357; #=GS H2N881/58-357 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Ponginae; Pongo; Pongo abelii; #=GS H9G208/58-357 AC H9G208 #=GS H9G208/58-357 OS Macaca mulatta #=GS H9G208/58-357 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS H9G208/58-357 DR GENE3D; d11c710a973118587545c72708887fe2/58-357; #=GS H9G208/58-357 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A0D9S7Z2/58-357 AC A0A0D9S7Z2 #=GS A0A0D9S7Z2/58-357 OS Chlorocebus sabaeus #=GS A0A0D9S7Z2/58-357 DE Uncharacterized protein #=GS A0A0D9S7Z2/58-357 DR GENE3D; d11c710a973118587545c72708887fe2/58-357; #=GS A0A0D9S7Z2/58-357 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Chlorocebus; Chlorocebus sabaeus; #=GS H2VGG3/1-298 AC H2VGG3 #=GS H2VGG3/1-298 OS Caenorhabditis japonica #=GS H2VGG3/1-298 DE Uncharacterized protein #=GS H2VGG3/1-298 DR GENE3D; d2a7c3747dcc08421575ffbf76075272/1-298; #=GS H2VGG3/1-298 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis japonica; #=GS A0A0E0E4K5/28-326 AC A0A0E0E4K5 #=GS A0A0E0E4K5/28-326 OS Oryza meridionalis #=GS A0A0E0E4K5/28-326 DE Uncharacterized protein #=GS A0A0E0E4K5/28-326 DR GENE3D; d2d1ec6139ad86c65db5355dc5873ae8/28-326; #=GS A0A0E0E4K5/28-326 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza meridionalis; #=GS K3X9U2/62-361 AC K3X9U2 #=GS K3X9U2/62-361 OS Pythium ultimum DAOM BR144 #=GS K3X9U2/62-361 DE Uncharacterized protein #=GS K3X9U2/62-361 DR GENE3D; d40bf2fd48df4fd85671ab8a5534fce9/62-361; #=GS K3X9U2/62-361 DR ORG; Eukaryota; Oomycetes; Pythiales; Pythiaceae; Pythium; Pythium ultimum; #=GS A0A0A1N1Q3/58-357 AC A0A0A1N1Q3 #=GS A0A0A1N1Q3/58-357 OS Rhizopus microsporus #=GS A0A0A1N1Q3/58-357 DE Uncharacterized protein #=GS A0A0A1N1Q3/58-357 DR GENE3D; d62f4f34a753a7f86094b7228cecf303/58-357; #=GS A0A0A1N1Q3/58-357 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Mucorineae; Rhizopodaceae; Rhizopus; Rhizopus microsporus; #=GS V9EAA6/59-358 AC V9EAA6 #=GS V9EAA6/59-358 OS Phytophthora parasitica P1569 #=GS V9EAA6/59-358 DE Uncharacterized protein #=GS V9EAA6/59-358 DR GENE3D; d6d4bc824e4d1113db89abb10d6648cf/59-358; #=GS V9EAA6/59-358 DR ORG; Eukaryota; Oomycetes; Peronosporales; Phytophthora; Phytophthora parasitica; #=GS T1HYR4/34-333 AC T1HYR4 #=GS T1HYR4/34-333 OS Rhodnius prolixus #=GS T1HYR4/34-333 DE Uncharacterized protein #=GS T1HYR4/34-333 DR GENE3D; d7530a6a5d1b523797f8f4ce0e504669/34-333; #=GS T1HYR4/34-333 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Reduvioidea; Reduviidae; Triatominae; Rhodnius; Rhodnius prolixus; #=GS A0A068SGF1/61-360 AC A0A068SGF1 #=GS A0A068SGF1/61-360 OS Lichtheimia corymbifera JMRC:FSU:9682 #=GS A0A068SGF1/61-360 DE U5 small nuclear ribonucleoprotein 40 kdaprotein #=GS A0A068SGF1/61-360 DR GENE3D; d75b4e1640ac0c2849bd0d7ed658456c/61-360; #=GS A0A068SGF1/61-360 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Lichtheimiaceae; Lichtheimia; Lichtheimia corymbifera; #=GS A0A0C9SDU0/1-277 AC A0A0C9SDU0 #=GS A0A0C9SDU0/1-277 OS Amblyomma americanum #=GS A0A0C9SDU0/1-277 DE Putative u5 snrnp-specific protein-like factor #=GS A0A0C9SDU0/1-277 DR GENE3D; d8f0a4d21ffa39ad7ab85414765c2403/1-277; #=GS A0A0C9SDU0/1-277 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Parasitiformes; Ixodida; Ixodoidea; Ixodidae; Amblyomminae; Amblyomma; Amblyomma americanum; #=GS A0A183P5A7/64-363 AC A0A183P5A7 #=GS A0A183P5A7/64-363 OS Schistosoma mattheei #=GS A0A183P5A7/64-363 DE Uncharacterized protein #=GS A0A183P5A7/64-363 DR GENE3D; da98ff365aee3c750050eb75c3780429/64-363; #=GS A0A183P5A7/64-363 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Trematoda; Digenea; Strigeidida; Schistosomatoidea; Schistosomatidae; Schistosoma; Schistosoma mattheei; #=GS A0A163MWV5/58-357 AC A0A163MWV5 #=GS A0A163MWV5/58-357 OS Absidia glauca #=GS A0A163MWV5/58-357 DE Uncharacterized protein #=GS A0A163MWV5/58-357 DR GENE3D; daa26ed38fb2fbe94bfc097d8f8d1d96/58-357; #=GS A0A163MWV5/58-357 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Cunninghamellaceae; Absidia; Absidia glauca; #=GS F6PW34/51-351 AC F6PW34 #=GS F6PW34/51-351 OS Ciona intestinalis #=GS F6PW34/51-351 DE Uncharacterized protein #=GS F6PW34/51-351 DR GENE3D; dcdc16330a744cdb403c7006ff433e45/51-351; #=GS F6PW34/51-351 DR ORG; Eukaryota; Metazoa; Chordata; Tunicata; Ascidiacea; Enterogona; Phlebobranchia; Cionidae; Ciona; Ciona intestinalis; #=GS A0A087SRR8/59-358 AC A0A087SRR8 #=GS A0A087SRR8/59-358 OS Auxenochlorella protothecoides #=GS A0A087SRR8/59-358 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A087SRR8/59-358 DR GENE3D; dd60577e61be066935b7cea2285a7351/59-358; #=GS A0A087SRR8/59-358 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Trebouxiophyceae; Chlorellales; Chlorellaceae; Auxenochlorella; Auxenochlorella protothecoides; #=GS A0A067DRF8/49-347 AC A0A067DRF8 #=GS A0A067DRF8/49-347 OS Citrus sinensis #=GS A0A067DRF8/49-347 DE Uncharacterized protein #=GS A0A067DRF8/49-347 DR GENE3D; de458c01a703e9738000f5de2dd02b2d/49-347; #=GS A0A067DRF8/49-347 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Sapindales; Rutaceae; Aurantioideae; Citrus; Citrus sinensis; #=GS M5XPY8/46-344 AC M5XPY8 #=GS M5XPY8/46-344 OS Prunus persica #=GS M5XPY8/46-344 DE Uncharacterized protein #=GS M5XPY8/46-344 DR GENE3D; de5eb19cae04993c15dab62ff834a9c5/46-344; #=GS M5XPY8/46-344 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Rosales; Rosaceae; Maloideae; Amygdaleae; Prunus; Prunus persica; #=GS A0A183ITN8/254-540 AC A0A183ITN8 #=GS A0A183ITN8/254-540 OS Soboliphyme baturini #=GS A0A183ITN8/254-540 DE Uncharacterized protein #=GS A0A183ITN8/254-540 DR GENE3D; dee6765833f066ece3d8afcab00ddcae/254-540; #=GS A0A183ITN8/254-540 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Dioctophymatoidea; Soboliphymatidae; Soboliphyme; Soboliphyme baturini; #=GS A0A0V1HC77/321-604 AC A0A0V1HC77 #=GS A0A0V1HC77/321-604 OS Trichinella zimbabwensis #=GS A0A0V1HC77/321-604 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1HC77/321-604 DR GENE3D; df669e32af6249a0da683aa60c47fe71/321-604; #=GS A0A0V1HC77/321-604 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella zimbabwensis; #=GS A0A182X7L8/50-349 AC A0A182X7L8 #=GS A0A182X7L8/50-349 OS Anopheles quadriannulatus #=GS A0A182X7L8/50-349 DE Uncharacterized protein #=GS A0A182X7L8/50-349 DR GENE3D; df8a1de939c5d3843f02d83ee5520e5f/50-349; #=GS A0A182X7L8/50-349 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles quadriannulatus; #=GS A0A182U516/50-349 AC A0A182U516 #=GS A0A182U516/50-349 OS Anopheles melas #=GS A0A182U516/50-349 DE Uncharacterized protein #=GS A0A182U516/50-349 DR GENE3D; df8a1de939c5d3843f02d83ee5520e5f/50-349; #=GS A0A182U516/50-349 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles melas; #=GS A0A0B1TD74/106-409 AC A0A0B1TD74 #=GS A0A0B1TD74/106-409 OS Oesophagostomum dentatum #=GS A0A0B1TD74/106-409 DE WD domain, G-beta repeat protein #=GS A0A0B1TD74/106-409 DR GENE3D; e0de09eed20e282b3028b82b1bec0110/106-409; #=GS A0A0B1TD74/106-409 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Strongyloidea; Cloacinidae; Oesophagostomum; Oesophagostomum dentatum; #=GS A0A0A1WHJ8/47-347 AC A0A0A1WHJ8 #=GS A0A0A1WHJ8/47-347 OS Bactrocera cucurbitae #=GS A0A0A1WHJ8/47-347 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0A1WHJ8/47-347 DR GENE3D; e333e6070d25f24a0f96474944dbb7e9/47-347; #=GS A0A0A1WHJ8/47-347 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Tephritoidea; Tephritidae; Dacinae; Dacini; Bactrocera; Zeugodacus; Bactrocera cucurbitae; #=GS A0A0R3TSN9/59-359 AC A0A0R3TSN9 #=GS A0A0R3TSN9/59-359 OS Hymenolepis nana #=GS A0A0R3TSN9/59-359 DE Uncharacterized protein #=GS A0A0R3TSN9/59-359 DR GENE3D; e4ad3e6534a52b1ada032e1daf63e40c/59-359; #=GS A0A0R3TSN9/59-359 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Cestoda; Eucestoda; Cyclophyllidea; Hymenolepididae; Hymenolepis; Hymenolepis nana; #=GS A0A078BT66/61-359 AC A0A078BT66 #=GS A0A078BT66/61-359 OS Brassica napus #=GS A0A078BT66/61-359 DE BnaA07g18500D protein #=GS A0A078BT66/61-359 DR GENE3D; e506919edb55e75727b7c21322012b3f/61-359; #=GS A0A078BT66/61-359 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Brassiceae; Brassica; Brassica napus; #=GS A0A086TJR1/54-354 AC A0A086TJR1 #=GS A0A086TJR1/54-354 OS Mortierella verticillata NRRL 6337 #=GS A0A086TJR1/54-354 DE Uncharacterized protein #=GS A0A086TJR1/54-354 DR GENE3D; e53c294caae13f5504da968f3e80a534/54-354; #=GS A0A086TJR1/54-354 DR ORG; Eukaryota; Fungi; Mucoromycota; Mortierellomycotina; Mortierellales; Mortierellaceae; Mortierella; Mortierella verticillata; #=GS A0A0B6ZFJ0/51-350 AC A0A0B6ZFJ0 #=GS A0A0B6ZFJ0/51-350 OS Arion vulgaris #=GS A0A0B6ZFJ0/51-350 DE Uncharacterized protein #=GS A0A0B6ZFJ0/51-350 DR GENE3D; e5dd99e250eb2a5586f46ba5266780d4/51-350; #=GS A0A0B6ZFJ0/51-350 DR ORG; Eukaryota; Metazoa; Mollusca; Gastropoda; Stylommatophora; Arionoidea; Arionidae; Arion; Arion vulgaris; #=GS A0A068URY2/39-337 AC A0A068URY2 #=GS A0A068URY2/39-337 OS Coffea canephora #=GS A0A068URY2/39-337 DE Uncharacterized protein #=GS A0A068URY2/39-337 DR GENE3D; e6a026a356eef0a10d0a00ad1be869a9/39-337; #=GS A0A068URY2/39-337 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; asterids; Gentianales; Rubiaceae; Ixoroideae; Coffeeae; Coffea; Coffea canephora; #=GS A0A0V1IYF4/36-335 AC A0A0V1IYF4 #=GS A0A0V1IYF4/36-335 OS Trichinella pseudospiralis #=GS A0A0V1IYF4/36-335 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1IYF4/36-335 DR GENE3D; e70ce23440be8227f51ea3dda9b7f97b/36-335; #=GS A0A0V1IYF4/36-335 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella pseudospiralis; #=GS A0A016VWW0/35-334 AC A0A016VWW0 #=GS A0A016VWW0/35-334 OS Ancylostoma ceylanicum #=GS A0A016VWW0/35-334 DE Uncharacterized protein #=GS A0A016VWW0/35-334 DR GENE3D; e78028a8d0d55ae72b66c9ee28bd4bd0/35-334; #=GS A0A016VWW0/35-334 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Strongylida; Ancylostomatoidea; Ancylostomatidae; Ancylostomatinae; Ancylostoma; Ancylostoma ceylanicum; #=GS A0A137NZN9/60-361 AC A0A137NZN9 #=GS A0A137NZN9/60-361 OS Conidiobolus coronatus NRRL 28638 #=GS A0A137NZN9/60-361 DE WD40 repeat-like protein #=GS A0A137NZN9/60-361 DR GENE3D; e795b7e0befa1e0540f0dd7c229a5e56/60-361; #=GS A0A137NZN9/60-361 DR ORG; Eukaryota; Fungi; Zoopagomycota; Entomophthoromycotina; Entomophthoromycetes; Entomophthorales; Ancylistaceae; Conidiobolus; Conidiobolus coronatus; #=GS A0A0J7KG09/50-348 AC A0A0J7KG09 #=GS A0A0J7KG09/50-348 OS Lasius niger #=GS A0A0J7KG09/50-348 DE U5 small nuclear ribonucleoprotein 40 kDa #=GS A0A0J7KG09/50-348 DR GENE3D; e844ddb2433939b1954efa9852d7de09/50-348; #=GS A0A0J7KG09/50-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Vespoidea; Formicidae; Formicinae; Lasiini; Lasius; Lasius; Lasius niger; #=GS H2U965/60-359 AC H2U965 #=GS H2U965/60-359 OS Takifugu rubripes #=GS H2U965/60-359 DE Uncharacterized protein #=GS H2U965/60-359 DR GENE3D; e86430dd7f270ba7ed2aa4affacf36fc/60-359; #=GS H2U965/60-359 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Takifugu; Takifugu rubripes; #=GS A0A0W4ZC78/51-350 AC A0A0W4ZC78 #=GS A0A0W4ZC78/51-350 OS Pneumocystis carinii B80 #=GS A0A0W4ZC78/51-350 DE Uncharacterized protein #=GS A0A0W4ZC78/51-350 DR GENE3D; e9cd58f7fa01f686ade49a3105f3a06e/51-350; #=GS A0A0W4ZC78/51-350 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Taphrinomycotina; Pneumocystidomycetes; Pneumocystidales; Pneumocystidaceae; Pneumocystis; Pneumocystis carinii; #=GS B4G8F5/47-346 AC B4G8F5 #=GS B4G8F5/47-346 OS Drosophila persimilis #=GS B4G8F5/47-346 DE GL18847 #=GS B4G8F5/47-346 DR GENE3D; eb856182a4c67c21053e9ce0bb1c420c/47-346; #=GS B4G8F5/47-346 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 Q29N00/47-346 AC Q29N00 #=GS Q29N00/47-346 OS Drosophila pseudoobscura pseudoobscura #=GS Q29N00/47-346 DE Uncharacterized protein #=GS Q29N00/47-346 DR GENE3D; eb856182a4c67c21053e9ce0bb1c420c/47-346; #=GS Q29N00/47-346 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 A0A0C9MDG5/58-357 AC A0A0C9MDG5 #=GS A0A0C9MDG5/58-357 OS Mucor ambiguus #=GS A0A0C9MDG5/58-357 DE WD-repeat protein #=GS A0A0C9MDG5/58-357 DR GENE3D; eb9f2b31b34db47e807a9c893b7bb10e/58-357; #=GS A0A0C9MDG5/58-357 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Mucorineae; Mucoraceae; Mucor; Mucor ambiguus; #=GS A0A103XHU3/40-338 AC A0A103XHU3 #=GS A0A103XHU3/40-338 OS Cynara cardunculus var. scolymus #=GS A0A103XHU3/40-338 DE G-protein beta WD-40 repeat-containing protein #=GS A0A103XHU3/40-338 DR GENE3D; ebe538b7c1fb23994477157dc3edd55f/40-338; #=GS A0A103XHU3/40-338 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; asterids; Asterales; Asteraceae; Carduoideae; Cardueae; Carduinae; Cynara; Cynara cardunculus; Cynara cardunculus subsp. cardunculus; Cynara cardunculus var. scolymus; #=GS A0A154P0N6/49-348 AC A0A154P0N6 #=GS A0A154P0N6/49-348 OS Dufourea novaeangliae #=GS A0A154P0N6/49-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A154P0N6/49-348 DR GENE3D; ed3e33e49cb4275ba24ad89c1409665b/49-348; #=GS A0A154P0N6/49-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Apoidea; Halictidae; Rophitinae; Dufourea; Dufourea novaeangliae; #=GS A0A194R570/49-348 AC A0A194R570 #=GS A0A194R570/49-348 OS Papilio machaon #=GS A0A194R570/49-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A194R570/49-348 DR GENE3D; ed96e498485d2433278cf44315e86441/49-348; #=GS A0A194R570/49-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Lepidoptera; Glossata; Neolepidoptera; Heteroneura; Papilionoidea; Papilionidae; Papilioninae; Papilionini; Papilio; Papilio machaon; #=GS A0A078EBJ8/145-443 AC A0A078EBJ8 #=GS A0A078EBJ8/145-443 OS Brassica napus #=GS A0A078EBJ8/145-443 DE BnaC06g17530D protein #=GS A0A078EBJ8/145-443 DR GENE3D; ee8c3642f9942c04d857c075bf42b5e0/145-443; #=GS A0A078EBJ8/145-443 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Brassiceae; Brassica; Brassica napus; #=GS B4LU69/47-346 AC B4LU69 #=GS B4LU69/47-346 OS Drosophila virilis #=GS B4LU69/47-346 DE Uncharacterized protein #=GS B4LU69/47-346 DR GENE3D; eedfea814cd87a2d3d757799abfbfa50/47-346; #=GS B4LU69/47-346 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilinae; Drosophilini; Drosophila; Drosophila; virilis group; Drosophila virilis; #=GS A0A0V1MVH8/321-604 AC A0A0V1MVH8 #=GS A0A0V1MVH8/321-604 OS Trichinella papuae #=GS A0A0V1MVH8/321-604 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A0V1MVH8/321-604 DR GENE3D; efa265eaaa9d0f9f88b1778fedd379b9/321-604; #=GS A0A0V1MVH8/321-604 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichinellidae; Trichinella; Trichinella papuae; #=GS A0A168GMB7/1-298 AC A0A168GMB7 #=GS A0A168GMB7/1-298 OS Mucor circinelloides f. lusitanicus CBS 277.49 #=GS A0A168GMB7/1-298 DE Uncharacterized protein #=GS A0A168GMB7/1-298 DR GENE3D; efa985e06b3a4bfeeeee3ee5fa957de8/1-298; #=GS A0A168GMB7/1-298 DR ORG; Eukaryota; Fungi; Mucoromycota; Mucoromycotina; Mucorales; Mucorineae; Mucoraceae; Mucor; Mucor circinelloides; Mucor circinelloides f. lusitanicus; #=GS A0A194QG98/49-348 AC A0A194QG98 #=GS A0A194QG98/49-348 OS Papilio xuthus #=GS A0A194QG98/49-348 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A194QG98/49-348 DR GENE3D; f016842e5b3e64c2208abadbc8b7f573/49-348; #=GS A0A194QG98/49-348 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Lepidoptera; Glossata; Neolepidoptera; Heteroneura; Papilionoidea; Papilionidae; Papilioninae; Papilionini; Papilio; Papilio xuthus; #=GS A0A091NAC5/11-298 AC A0A091NAC5 #=GS A0A091NAC5/11-298 OS Apaloderma vittatum #=GS A0A091NAC5/11-298 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A091NAC5/11-298 DR GENE3D; f4219babbac9407ea4c8942965d97be7/11-298; #=GS A0A091NAC5/11-298 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Trogoniformes; Trogonidae; Apaloderma; Apaloderma vittatum; #=GS A0A0J8BC44/48-346 AC A0A0J8BC44 #=GS A0A0J8BC44/48-346 OS Beta vulgaris subsp. vulgaris #=GS A0A0J8BC44/48-346 DE Uncharacterized protein #=GS A0A0J8BC44/48-346 DR GENE3D; f42bf6c0db5d7ec396d6b77b8c31c144/48-346; #=GS A0A0J8BC44/48-346 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Caryophyllales; Chenopodiaceae; Betoideae; Beta; Beta vulgaris; Beta vulgaris subsp. vulgaris; #=GS A0A1D6C6U9/1-210 AC A0A1D6C6U9 #=GS A0A1D6C6U9/1-210 OS Triticum aestivum #=GS A0A1D6C6U9/1-210 DE Uncharacterized protein #=GS A0A1D6C6U9/1-210 DR GENE3D; f4fa3a3e7d6fd942641515df3e4a6576/1-210; #=GS A0A1D6C6U9/1-210 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Liliopsida; Petrosaviidae; Poales; Poaceae; Pooideae; Triticeae; Triticinae; Triticum; Triticum aestivum; #=GS A0A0D2USM2/44-342 AC A0A0D2USM2 #=GS A0A0D2USM2/44-342 OS Gossypium raimondii #=GS A0A0D2USM2/44-342 DE Uncharacterized protein #=GS A0A0D2USM2/44-342 DR GENE3D; f6491c858d28dcedb274bfd17f8e9afb/44-342; #=GS A0A0D2USM2/44-342 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Malvales; Malvaceae; Malvoideae; Gossypium; Gossypium raimondii; #=GS A0A1I7T0S0/30-329 AC A0A1I7T0S0 #=GS A0A1I7T0S0/30-329 OS Caenorhabditis tropicalis #=GS A0A1I7T0S0/30-329 DE Uncharacterized protein #=GS A0A1I7T0S0/30-329 DR GENE3D; f661683c8b38d6a1e11673a119f302b8/30-329; #=GS A0A1I7T0S0/30-329 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis tropicalis; #=GS G5BF61/59-349 AC G5BF61 #=GS G5BF61/59-349 OS Heterocephalus glaber #=GS G5BF61/59-349 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS G5BF61/59-349 DR GENE3D; f8a56107119df4ac78f57a4a03018e47/59-349; #=GS G5BF61/59-349 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Hystricomorpha; Bathyergidae; Heterocephalus; Heterocephalus glaber; #=GS G3MLA1/51-350 AC G3MLA1 #=GS G3MLA1/51-350 OS Amblyomma maculatum #=GS G3MLA1/51-350 DE Uncharacterized protein #=GS G3MLA1/51-350 DR GENE3D; f936efc4e13cdc671c17f2318acee3c1/51-350; #=GS G3MLA1/51-350 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Parasitiformes; Ixodida; Ixodoidea; Ixodidae; Amblyomminae; Amblyomma; Amblyomma maculatum; #=GS Q4RNL6/11-305 AC Q4RNL6 #=GS Q4RNL6/11-305 OS Tetraodon nigroviridis #=GS Q4RNL6/11-305 DE Chromosome 21 SCAF15012, whole genome shotgun sequence #=GS Q4RNL6/11-305 DR GENE3D; fc70e7b8bb9c3a5f580857869717d7f2/11-305; #=GS Q4RNL6/11-305 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Tetraodon; Tetraodon nigroviridis; #=GS A0A093PG11/15-314 AC A0A093PG11 #=GS A0A093PG11/15-314 OS Manacus vitellinus #=GS A0A093PG11/15-314 DE U5 small nuclear ribonucleoprotein 40 kDa protein #=GS A0A093PG11/15-314 DR GENE3D; fd985b21fa91051e7cddd4006a49617a/15-314; #=GS A0A093PG11/15-314 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Passeriformes; Pipridae; Manacus; Manacus vitellinus; #=GS A0A0N5DHG0/273-572 AC A0A0N5DHG0 #=GS A0A0N5DHG0/273-572 OS Trichuris muris #=GS A0A0N5DHG0/273-572 DE Uncharacterized protein #=GS A0A0N5DHG0/273-572 DR GENE3D; fefc38cbb3793c279fda48767c06ca4a/273-572; #=GS A0A0N5DHG0/273-572 DR ORG; Eukaryota; Metazoa; Nematoda; Enoplea; Dorylaimia; Trichocephalida; Trichuridae; Trichuris; Trichuris muris; #=GF TC 10.5 2.7E-03 #=GF SQ 410 3jb9L00/42-340 PNLQMFGHTAEVLVARFDP-SGSYFASGGMDRQI--LLWNVFG-D-V-KNY-GVLN-GCKGAITDLQWSRDSRVVYCSSSDTHLMSWDAVSGQKIRKHKGHAGVVNA--LDVLKVGSELLTSVSDDCTMK--------------VWDSRSK--DCIKTIE--EKYPLTAVAIAQQGTQVFIG----GIDGAIK------------IWDLRN-N-----HCSHVLKGHKDIITSLAISKD--GSSLLSNSMDNT----------------------VRIFDVKPFAS-A-QRQLQIFEGAIHGQEHNLLGVAWSRNSRF---VGAGSSDKN--VYVWSA-TGDLRYVLPGHEGSVNH--VDFHP--HQDI---ILSCS---SDRTIFLGELN E0VDW2/48-347 PIMLMEGHLGEIFTVGFHP-EGQYLASAGFDRQI--FLWNVYG-E-C-ENI-SLML-GHSGAIMELHFSTDGNSIFTASTDQTVGIWDIESGTRIKRLKGHTSFVNS--CQSARRGPTQIVSGSDDCSIK--------------VWDPRKK--GQCVTLN--NIYQVTSVTFNDTAEQVISG----GIDNDLK------------VWDLRK-N-----SILYELKGHTDTITGISLSPD--GSYILSNAMDNS----------------------LRIWDVRAFAP-Q-ERCVKIFTGHQHNFEKNLLRCCWSPDGSK---ISAGSADRF--VYIWDTTSRRILYKLPGHNGSVND--VKFHP--KEPI---ILSCS---SDKQLYMGEIE A0A0B2RQU6/47-345 PIMLLSGHQSAIYTMKFNP-AGSVIASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGTQIVSASPDKTVRAWDVETGKQIKKMVEHLSYVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GSIQTFP--DKYQITAVGFSDASDKIFTG----GIDNDVK------------IWDLRK-G-----EVTMTLQGHQDMITAMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKVLEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHNGSVNE--CVFHP--NEPI---IGSCS---SDKQIYLGEI- Q96DI7/58-357 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ O94620/42-340 PNLQMFGHTAEVLVARFDP-SGSYFASGGMDRQI--LLWNVFG-D-V-KNY-GVLN-GCKGAITDLQWSRDSRVVYCSSSDTHLMSWDAVSGQKIRKHKGHAGVVNA--LDVLKVGSELLTSVSDDCTMK--------------VWDSRSK--DCIKTIE--EKYPLTAVAIAQQGTQVFIG----GIDGAIK------------IWDLRN-N-----HCSHVLKGHKDIITSLAISKD--GSSLLSNSMDNT----------------------VRIFDVKPFAS-A-QRQLQIFEGAIHGQEHNLLGVAWSRNSRF---VGAGSSDKN--VYVWSA-TGDLRYVLPGHEGSVNH--VDFHP--HQDI---ILSCS---SDRTIFLGELN Q9VPL0/47-346 PIMQLEGHEGEIFTAEFHP-EGELLLSSGFDRQI--YIWQVYE-D-C-ENV-MAMS-GHSGAVMEAHFTPDGSHIFTCSTDKTLAFWDIATGQRQRRFKGHGNFVNS--VQGSRRGQQLLCSGSDDRTIK--------------IWDARKK--HAAHTLE--SPFQVTAVCFGDTGEQVISG----GIDNEVK------------IWDIRK-Q-----AVLHHLRGHSDTITGMSLSPE--GDFILTNAMDNT----------------------LRVWDVRPYAP-G-ERCVKVFQGHQHNFEKNLLRCAWSPGSDK---ITSGSADRH--VYIWDVNTRRILYKLPGHNGSVNA--VDFSP--KEPL---ILSGS---SDKTLYLGEID Q6PE01/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRVLYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0MNP2/58-357 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ O22826/45-343 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PTMVLLGHEGEIYTGAFSP-DGTCLATSGYDQKI--FFWNVYG-E-C-ENF-STIK-GHSGAVMDLKFTTDSSSLVSCGTDKSVRVWDMETGTCARRFRTHTDFVNA--VHPSRRGVTLVASASDDGTCR--------------VHDMRTK--EPVKTYT--NRYQQTAVTFNDSSDQVISG----GIDNVLK------------VWDMRR-D-----EITYTLTGHRDTITGISLSPS--GKFIISNSMDCT----------------------VRQWDIRPFVP-G-QRSVGVFAGHNHNFEKNLLKCSWSPCERF---ITAGSSDRF--LYVWETLSKKIVYKLPGHMGSVNC--TDFHP--KEPI---MLSCG---SDKRVFLGEID Q55AR8/54-354 PIMQLIGHKGEIYSCKFNS-YGTALASGGSDKEI--FLWNVYG-E-C-INY-SVLK-GHKGTILELHWSTDSNEIYTACTDKSIGVWDSNKGELIKRIREHSGVVNS--CCPARRGPPLVASGSDDRSAR--------------IFDTRSK--GSTHLFQ--HKYPVTSVCFSDASDQLITG----GIDNVIR------------VWDIRN-Q--E--DPLYTLASHQDTITSTSVSKD--GAYLLSNSMDNS----------------------CKIWDIRPYAP-P-NRNIKTFNGAQNNFEKNLIKSSWSIDGRR---IGCGSSDRQ--VYIWDTNTKQLQYCLPGHSGTVNE--VTFHP--NEPI---IASCS---SDKTIYLGEIK T1FN91/50-349 PIMLLTGHESEIYCCKFSP-NGKFLASAGTDRMI--LLWNVYG-A-C-DNI-ATLK-GHSNAIMDLHFTTDGCQMVTCSVDKTLSLWDAECATRIRKYKGHQTFVNA--CDVSRRGPQYLCSGSDDGTVR--------------IWDSRRK--TSIQTLQ--STFQVTSVCFSDTSEQVISG----GIDNDLK------------VWDLRK-N-----DVVYAMKGHMDTVTGLRLSPD--GSYLLSTAMDNT----------------------VRIWDVRPYAP-Q-ERCVKIFQGNQHTFEKNLLRVSWSPDGTK---IAAGSGDRM--VYIWDTTTRRILYKFPGHGGSVNE--VDFHP--FEPI---ICSGS---SDKQIYLGEIE G4VPH0/64-363 PNMLLNGHESEVYCGKFSS-DGSFLASAGFDRRI--LLWETYG-E-C-ENI-ATMM-GHGGAILDLVLSSDDSVIYTASSDKSIALWDTESAQRIKKFRGHENIVNS--CAVARRGPQHVCSGSDDGTIR--------------LWDRRQK--ACVQTFQ--NTYQVLSVTFSDTSEMIFSG----GIDNVVK------------GWDLRK-L-----EASMLLSGHTDTVTGLSVSPD--GSFLLSNSMDNT----------------------LRMWDIRPFAP-A-DRCTKIFTGHQHTFEKNLLRCAWSIDNRR---ITSGSGDRY--VHVWDVNTRQLVYKLPGHTASVNE--TAFHP--TEPI---LLSVG---SDKKIFLGEIL A7RQB4/50-349 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PIMLLTGHEGDIFTAKFSP-DGQMLASGGFDRLI--YFWNVYG-E-C-DNF-HVLK-GHSGAIMELQFSTDSSNLFTASTDKIVAVWDVEVGVRIRKLKSHQTFVNS--VNPARRGPQLLCSGSDDGTIK--------------LWDARKK--GVIQTFQ--NTYQVTSTCFNDTAEQIFSA----GIDNDIK------------VWDLRK-N-----NVLYKMRGHLDTPTGMELSPD--GSYLLSNSMDNT----------------------LRVWDVRPFAP-Q-ERCVKILQGHQHTFEKNLLHCSWSADGSK---VGAGSGDRF--VYVWDTTTRRVLYKLPGHAGSVNE--VDFHP--FEPI---VLSCS---SDKKIYLGEIE A9SF78/11-310 PIMLLSGHGGAVYTMKFNP-QGTAIASGSHDKDI--FLWNVQG-D-C-DNY-MVLK-GHRNAVLDLVWTTDGQHIISASPDKTVRAWDAVTGKQVKKMAEHSSFVNS--CCAARRGPPLIISGSDDGTAK--------------LWDMRHR--GCIQTFP--DKYQVTAVAFSEGADKIFSG----GIDNDIK------------VWDLRK-N-----EVAMKLQGHTETITSMQLSPD--GSYLLTNSMDCT----------------------LRVWDMRPYAP-Q-NRCVKIFTGHQHNFEKNLLRCNWSPDGQK---VTSGSADRM--VYIWDTTSRRILYKLPGHSGCVNE--AVLHP--REPI---IGSCG---SDKQIYIGEID F6HB26/46-344 PIMLLAGHQSAIYTMKFNP-TGTVIASGSHEREI--FLWYVHG-D-C-KNF-MVLK-GHKNAILDLQWTTDGTQIISASPDKTLRAWDVETGKQIKKMAEHSSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIFTG----GIDNDVK------------VWDLRR-N-----EVTMTLQGHQDMITGMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLKCSWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHTGSVNE--CVFHP--SEPI---VGSCS---SDKQIYLGEI- D6WYC4/48-347 PIMLLEGHEGEIFTVEFHP-EGQYVASSGFDRRI--FVWSVYG-E-C-ENL-SVMS-GHTGAVMELHFTTDGTNIFTASTDHTLGLWDLPTSQRIKKYKGHTTFVNS--VQGARRGPQMLVSGSDDTTIK--------------LWDIRKK--QSVTTFN--SNYQVTAVEFNDTAEQIFSG----GIDNDIK------------VWDIRN-H-----EIIYTLKGHTDTVTGLALSPD--GSYLLSNSMDNS----------------------LRIWDVRPYAP-Q-ERCVKVFTGHQHNFEKNLLRCAWSKDGSK---VSSGSADRF--LYIWDTTSRRIIYKLPGHNGSVND--VDFHP--NEPI---VVSGA---SDKQIYLGEID K4BGV7/28-326 PIMLLSGHQSAVYTMKFNP-AGTIIASGSHDKEI--FLWNVRG-D-C-KNF-MVLK-GHKNAVLDVQWTTDGSTIVSASPDKTVRAWDVETGKQIKKMAEHSSFVNS--CCPARRGPPLIVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKFQITAVSFSDASDKICTG----GIDNDVK------------LWDLRR-C-----EVTMTLQGHQDTITGMQLSPD--GSYLLTNAMDCT----------------------LRIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLKCSWSPDGSK---VTGGSSDRM--VYVWDTTSRRILYKLPGHTGCVNE--CVFHP--NEPI---VGSCS---SDKHMYLGEI- B3RP89/1-298 --MLLTGHEGEIYTAKFHP-DGEVLASASFERKI--FLWNIYG-E-C-ENY-AILE-GHKGAVLDLHFSTDGSQLFSASTDKTAAIWDFESGQRTKKFKGHTGIVNS--CHPSRRGTQMLVTGSDDCTAK--------------LWDVRRR--EPVHSFQ--SNYQVTAVSFNDTGDQIISG----GLDNVIR------------VWDLRK-N-----NIMYSMSGHLDTITSLSVSPD--GCYVMSNAMDNS----------------------VRIWDIRPYVP-G-DRCLKIFTGAQHNFEKNLLKCSWSPDGKK---IAAGSADRF--VYVWDTATRRILYKLPGHDGSVND--VQFHP--IEPI---VMSCG---SDKKIYLGELE A9STI4/56-355 PIMLLTGHGGAVYTMKFNP-QGTAIASGSHDKDI--FLWNVQG-D-C-DNY-MVLK-GHRNAVLDLCWTSDGQHIISASPDKTVRAWDAVTGKQIKKMAEHSLYVNS--CSAARRGPPLIVSGSDDGTAK--------------LWDMRHR--GCIQTFP--DKYQVTAVAFSDGADKIFSG----GIDNDIK------------VWDLRK-N-----EVAMKLQGHTETITSMQLSPD--GSYLLTNSMDCT----------------------LRIWDMRPYAP-Q-NRCVKIFTGHQHNFEKNLLRCNWSPDGQK---VTSGSADRM--VYVWDTTSRRILYKLPGHSGSVNE--AVFHP--KEPI---IGSCG---SDKQIYLGEID T1JD28/48-347 PIMLLCGHPGEIFTAKFHP-EGQFLASSGFDRLI--FLWNVYG-E-C-ENF-AMMT-GHSGAVMDLHFSTDGSTIFTASTDKTLGIWDSETGTRIKKLKGHTTFVNC--CHPTRRGPQMLCSGSDDTTIK--------------LWDTRRK--AAVQTFQ--NTYQVTAITFNDTSEQIVSG----GIDNELK------------VWDLRK-N-----NVLYKMRGHMDTVTGLALSPD--GSYIVSNSMDNT----------------------LRIWDIRPFAP-Q-ERCVKILQGHQHNFEKNLLRCGWSSDGSK---VTAGSADRY--VYVWDTTSRRILYKLPGHTGSVND--VNFHP--KEPI---IASCS---SDKQIYLGEIE A8HY75/25-329 PIIQLSGHAGEVFSMRFSP-DGQCIASGSFDKTI--FLWRTYD-E-N-ENY-NVIA-GHRNAVLEVHWFTDGEALLSCSADKTARCWDAETGAPIKKMGEHTAVVNS--CCPLRRGAKVFVTGADDSTVK--------------VWDMRVK--KSVHTLR--SEFPVCAVAFADAGDQVYSG----GVDNAIK------------VWDLRR-GGGADVEPSMLLKGHSDSVTGLRVSPD--GGHLLSNAMDNT----------------------LREWDVRPYAP-P-NRCTKVFTGHMHNFEKNLLRCDYAADGSK---VACGSADRM--VYIWDTSTRKLLYKLPGHSGSVNE--VVFHS--KEPI---VASAS---SDKTIFLGELT A0A088A190/49-348 PIMLLEGHQGDIFSLEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-SVMT-GHSGAIMELHFSPDGNHLYTASTDMTLGLWDIAVGTRIKKLKGHTSFVNS--VSGARRGLTQLCSGSDDSTIR--------------VWDPRKR--GQCYTLN--NTYQLTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----SILYKLKGHSDTITGLSLSPD--GSYILSNAMDNT----------------------LRIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSLDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE W4Z7Y6/50-349 AIMLLTGHEGEIFSARFHP-NGQSLASASFDRSI--LLWNVYG-E-C-ENY-GVLK-GHQGAVMELHYNTDGSQIVSCATDKMVCLWDTETGARVKRMRGHTSFVNS--CYYARRGPSLVTSGSDDGTIK--------------IWDTRKR--GCAQTFQ--STYQVLAVSFNDTSDQIISG----GIDNDMK------------VWDLRK-N-----GLLYKMSGHSDSVTGIELSPD--GSYIVSNSMDNT----------------------LRIWDVRPFAS-P-ERCVKIFQGHQHNFEKNLLRCSWSPDGSK---VAAGSADRH--VYVWDTTSRRILYKLPGHVGSVNQ--VDFHP--HEPI---ILSCS---SDKQIYLGEIL U5DDF4/37-336 PIMLLSGHQSAIYTMKFNP-TGTVIASGSHDKDI--FLWNVQG-E-C-KNF-LVLK-GHKNAILDLQWTTDGTQIISASPDKTLRAWDVEVGKQVKKMSEHSSFVNA--CCPARRGPPLVVSGSDDGTAK--------------LWDLRQR--GAVQTFP--DKYQITAVSFADASDKIYTG----GIDNDVK------------VWDLRR-G-----EVTMNLQGHSDMITGMQLSPD--GSYLLTNAMDCS----------------------LRIWDMRPYAP-Q-NRCVKIFSGHQHNFEKNLLKCGWAPDGSK---VTAGSSDYM--VYIWDTTSRRIVYKLPGHNGSVNE--CVFHP--TEPV---IGSCG---SDKKIYLGEIE E9GI96/37-336 PIMLLAGHPGDIFSLKFHP-DGQFLVSTGFDRQI--FLWNVYG-E-C-ENF-AVLS-GHTGAVMDLQLSTDGDTIYTASTDKTICLWDTRTGAKIKKLKGHSSFVNA--IHPARRGPPLLCSASDDCNIK--------------VWDPRKR--TETVSLD--NSYQATSVTFNDTAEQVISA----GIDNDVK------------VWDLRK-N-----ALLYSLKGHSDTVTGLTLSPD--GSYVLSNSMDNS----------------------LRVWDVRPFAP-Q-ERCIKMMVGHAHNFEKNLLRCSWSPDGTK---VSAGSADRF--VYIWDTTSRRIIYKLPGHNGSVND--VVFHP--KEPI---VASGA---SDKLIYLGEID Q7QG51/50-349 PIMLLEGHGGEIFSTEFHP-EGEHLLSTGFDRQI--FLWKVYD-E-C-ENV-GVLS-GHSGAVMEAHFSPDGSNIYTCATDKVVGVWDVPTCTRIRKLKGHTHFVNS--CSGARRGPTLIVSGSDDASIK--------------IWDARKR--HVVSTFD--NTYQVTAVCFNDTAEQVVSG----GIDNEIK------------VWDIRK-K-----EILYRLRGHTDTVTGLSLSPD--GSYVLSNSMDNT----------------------LRIWDIRPYVP-A-ERCVKVFTGHQHNFEKNLLRCAWSPDGLK---ISAGSADRF--VYIWDTTSRRILYKLPGHNGSVND--IDFHP--TEPI---IVSGS---SDKTLYLGEIE T1K8X8/51-350 PIMQLSGHQGEVYSCKFHP-DGRVIASAGYDRQL--YLWNVFG-E-C-ENL-AALQ-AHKGAILDVQYSVDGTNIFTASTDKTIIMWDSKTMTRVKKMKGHSSIVNS--CHASRRGPQLLVSAGDDCNIK--------------IWDLRDR--KCSQTYK--DKYQNLAVTFNENSDQVIFG----GIDNLVK------------VYDMRK-G-----EILYSMVGHFDSITGLSLSPD--GSFVLSNAMDNT----------------------LCIWDIRPFAS-K-ERCTKTLQGHQHNAEKNLLRCSWSPDGTK---VSAGSADRH--VYIWDTHYRRILYKLPGHHGAVTE--VVFHP--SEPI---VLSGS---IDKELYLGEIE A0A067R8E6/46-345 PIMLLEGHQGEIFTVEFHP-EGQYLASAGFDRQI--YIWNVYG-E-C-ENI-SLMT-GHTGAIMELHFSTDGNTLFSASTDNTLGMWDIETGIRVKKLKGHTTFVNS--CHPARRGPQLVCSGSDDCSIK--------------LWDPRKR--GQAVTLN--NTYQVTAVTFSDTAEQVLSG----GIDNDIK------------VWDLRK-N-----ALLYRLKGHGDTVTGLSLSPD--GSYVLSNAMDNT----------------------VRIWDVRPFAP-Q-ERCVKILTGHQHNFEKNLLRCAWAPDGSK---VSAGSADRF--VYLWDTTSRRILYKLPGHNGSVND--VDFHP--KEPI---IMSGS---SDKLVYIGEIE B9SFU6/47-345 TIMLLTGHQSAVYTMKFNP-AGNLIASGSHDKDI--FLWYVHG-E-C-KNF-MVLK-GHKNAVLDLHWTTDGSQIISASPDKTVRAWDIETGKQIKKMAEHSSFVNS--CCPTRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIFTG----GIDNEVK------------VWDLRK-G-----EVTMKLEGHQDMITGMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLKCNWSPDGTK---VTAGSSDRM--VYIWDTTSRRILYKLPGHTGSVNE--CVFHP--HEPI---IGSCS---SDKQIYLGEI- A0A0B2SJ77/47-345 PIMLLSGHQSAIYTMKFNP-AGSVIASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGTQIVSASPDKTVRAWDVETGKQIKKMVEHLSYVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GSIQTFP--DKYQITAVGFSDASDKIFTG----GIDNDVK------------IWDLRK-G-----EVTMTLQGHQDMITDMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKVLEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHNGSVNE--CVFHP--NEPI---IGSCS---SDKQIYLGEI- C6TJP9/47-345 PIMLLSGHQSAIYTMKFNP-AGSVIASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGTQIVSASPDKTVRAWDVETGKQIKKMVEHLSYVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GSIQTFP--DKYQITAVGFSDASDKIFTG----GIDNDVK------------IWDLRK-G-----EVTMTLQGHQDMITDMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKVLEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHNGSVNE--CVFHP--NEPI---IGSCS---SDKQIYLGEI- A0A0D2MII0/13-313 PIMQLHGHQGEVYALQFSP-EGDVVASAGFDKTI--LLWRTYGEE-C-ENY-MLIR-GHKNAILQLAWFPSGEHIVTASADKSVRCWDADTGMQVKRQSEHTAVVNS--VCPMHRGPGLFVSGSDDGSVK--------------LWDVRSK--RSSHTFA--GKFPVTSVAWSEAGDQVYSG----GIDNQVH------------IWELRK-G-----VVSTSMAGHTDTITGMSLSPD--GNFLLSNAMDNT----------------------LRVWDVRPYAP-A-DRCVKVLTGHQHTFERLLLRCAWSPGGKR---VAAGSADRI--VYVWDVDTLRLEYALPGHKGSVNE--VAFHP--KEPI---VGSAS---SDRTIYLGEIA B7QLK2/51-350 PIMLLTGHLGELYCGKFHP-DGTYLATSGFDRQI--FFWNTLG-E-C-ENF-AVLS-GHTGAVLDMHFSTDGGLLFTASTDKTLGVWDTRVGVRIKRLRGHSLYVNC--CHPARRGPQLLCSGGDDSTLK--------------LWDTRKR--TPAHSFQ--ESYQITAVSFNDTAEQVLSG----GIDNLIK------------VWDLRK-N-----AVLYRMAGHLDTVTGMSLSPD--GSYLLSNSMDNT----------------------LRIWDVRPFAP-Q-ERCVKILQGHQHNFEKNLLRCGWSPDGAQ---VVAGSADRC--VHVWDTTSRRLLYKLPGHKGSVNE--VSFHP--KEPI---VLSVS---SDKQVFLGEID D0N7P8/59-358 PTMLLSGHSAAVYSLKFSP-SGQHVASCSFDRSI--LLWDVYG-E-C-RNY-NVLS-GHKNAVLEVQWTYDSAQVVSASADKTVGLWDGESGTRIKKFAGHSSIVNS--CCPVTSGPTLIVSGSDDCTTK--------------IWDVRSK--RAVKSFE--NKFQVTAVCFSGDNSQVITG----GLDGDIK------------MWDLRK-D-----EVSTVLQGHADIVTGVSLSPD--GNYLLSNAMDST----------------------VRKWDVRPFVK-G-ERLKTTYMGAKHSFDRTLIRCGWSSDMRF---VASGSADRY--VYIWDAETGNLRYHLPGHTGSVNE--ATFHP--TEPI---VGSCS---SDKTIYLGELA B9FQ97/28-326 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPV---IGSCG---SDKQIYLGEL- L1JBT6/38-337 PIMLLQGHGGEVLTVRFDP-TGKYLASAGHDKDI--FLWEVYG-D-C-VNY-GVLK-GHKQAVLQLQWSFDGSNLWSCAADKMVMFWDAETGKRIKKFSGHSSFVNS--CCCTRRGVLIGASASDDGTIK--------------VWDPRVR--NAVTSLE--ESYQVTAVELSDDGNRVFSG----GLDNEIK------------IWDLRK-E-----EIELTMSGHTDTLTGLRLSPD--GQMLLSNAMDNT----------------------VRVWDTRPFVE-G-SRCKLVMGGHMHNYEKNLIRCAWSPDAAR---VGSGSADKM--VYVWDAEHGKLQYKLPGHAGCVNE--VDFHP--FEPI---IASAS---SDKKIYLGELE Q67WC9/45-343 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPV---IGSCG---SDKQIYLGEL- G3NQ98/78-377 PIMLMSGHEGEVYCCKFHP-NGATLASSGFDRLI--LMWNVYG-D-C-DNY-ATMK-GHSGAVMELHYNTDGSMLFSASTDKTVGVWDSETGERIKRLKGHTSFVNT--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--GAIHTFQ--NTYQVLAATFNDTSDQILSG----GIDNDIK------------VWDLRQ-N-----KLIYNMHGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VAFHP--EEPI---VLSGA---SDKRLYMGEIQ A0A0P1B1U5/59-358 PTMLLSGHSAAVYSLKFSP-TGQHAATGSFDRSI--LLWDVYG-E-C-RNY-SMLS-GHKNAVLEVQWTYDGTQVVSASADKMVGLWDAESGRRIKKFTGHSSVVNS--CCPVNSGPTLIVSSSDDCSFK--------------VWDVRYK--RAVKTFE--NKFQVTAVCFSGDNSHIIAG----GLDGDIK------------IWDLRN-D-----DISTVLQGHVDIVTSVSLSPD--GTHLLSNAMDST----------------------VRKWDVRPFVT-G-ERLKTTFMGAKHSFDRTLIRCGWSADMRF---VSSGSADRY--VYIWDAESGNLRYKLPGHTGSVNE--ATFHP--TEPI---VGSCS---SDKNVYLGELT V4L5U7/45-343 PIMLLTGHPSAVYTMKFNP-AGTLIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTSDGSLIVSASPDKTVRAWDVETGKQVKKMAEHSSFVNS--CCPTRRGPPLIISGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDAADKIFTG----GVDNDVK------------VWDLRK-G-----EATMTLEGHQDTITGMSLSPD--GSYLLTNGMDSK----------------------LCVWDMRPYAP-Q-NRCIKIFEGHQHNFEKNLLKCSWSPDGTK---VTAGSADRM--VHIWDTTTRRILYKLPGHKGSVNE--CVFHP--TEPI---IGSCS---SDKDIYLGEI- K7GG47/29-328 PIMLLSGHEGEVYCCKFHP-NGATLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VAFHP--EEPI---ILSAS---SDKRLYMGEIQ D3BVR5/57-357 PIMQLSGHKGEVFTVKFNS-TGTAIASGSFDKEI--FLWGVYE-D-C-INY-QVLK-GHKGSVTELHWDRDGEQLYSVCTDKSVGIWDVKEGRLIKRIREHHAFVNS--CCPVRRGPPLVATASDDCSAR--------------VFDTRKR--HSVQTFQ--HKYPVTAVCFSDASDQVITG----GIDNVVR------------VYDIRN-N--E--SELMILQGHSDTVTGLSVSPD--GSHLLSNSMDNT----------------------LKVWDIRPFAP-N-NRCVKSLIGAQHGIDKNLLKCAWSPDGSK---VTAGSSDSL--VYVWDVSSGKILYRLPGHTGVVNQ--VEFHP--NEPI---IASCS---ADKTIFLGEIK D9CJ45/47-349 PILQLSGHVGEVLSLRFSP-DGQCLASASLDKDI--FCWRIYE-D-S-MNR-MVLK-GHRNAVLEVHWFADGLALLSCAADKTTRCWDAESGLQIKKLGEHTGIVNS--CCPVRGGTNMFVTGADDATSK--------------VWDMRAK--RSVYTLR--SGFPVCAVAFADAGDQIYSG----GIDNIIK------------VWDLRR-GSGS--DPALLLKGHSDTVTGLRLSPD--GSHLLSNGMDNT----------------------LREWDVRPYAP-Q-SRCTKVFTGHVHNFEKNLLRCDYSPDGSK---VACGSTDRM--VYIWDAYTRKVLYALPGHTGSVNE--VIFHP--QELI---IGSAS---SDTTIFLGELV V7CX72/47-345 PIMLLSGHQSVIYTMKFNP-AGSVVASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGTQIVSASPDKTVRAWDVETGKQIKKMVEHLSYVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GSIQTFP--DKYQITAVGFSDASDKIFTG----GIDNDVK------------IWDLRK-G-----EVTMTLQGHQDMITSMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKVFEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHNGSVNE--CVFHP--NEPI---VGSCS---SDKQIYLGEI- V4TPR1/49-347 PIMLLTGHQSAVYTMKVNP-AGTVIASGSHDRDI--FLWHVHG-D-C-KNF-MVLK-GHKNAILDLHWTTDGSQIISASPDKTLRAWDVETGKQIKKMAEHNSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIYTG----GIDNDVK------------VWDLRK-G-----EVSMTLQGHQDMITGMSLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKILEGHQHNFEKTLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHTGSVNE--SVFHP--TEPV---IGSCS---SDKQIYLGEI- A0A1L1RQD6/1-287 --MLLSGHEGEVYCCKFHP-GGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---SNLCI-------------- A0A091H679/10-293 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNF-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---------------------- A0A068XGG6/59-359 PNMLLTGHESEVFCVKFVPSDGNYVVSAGFDRQV--FVWETYG-E-C-ANV-AVMP-GHGGAILDLALSTDGELLYSASSDKTVAIWDLNVCQRVKKIRGHQNIVNS--VSIARRGPQMIVSGSDDGTVR--------------LWDRRQK--TEVQNFQ--NTYQVLSVTFNDTAELIFSG----GIDNIIK------------GWDLRK-L-----DVAMRLNGHTDTVTGLALSPD--GNFLLSNSMDNT----------------------LRIWDVRPYAP-P-ERCTKILYGHMHTYEKNLLRCAWSTDGQY---VTCGSGDRY--VHVWDVKTRNLIYKLPGHSASVNE--TAFHP--LEPI---LVSAG---SDKKIFLGELE A0A0N4Y701/24-317 PIMLLTGHEEEIFTGRFST-DGTCIATAGFDQKI--FLWNVYG-E-C-ENF-SVLR-GHTGAIMDVHFNTDSSLLVTAATDKTVRVWDMETGACRRKFKSHVDIVNA--CHPSRRGPQLICSAGDDGLVK--------------VHDVRQK--DAVKTYE--NRFQQLAVTFNDSTDEIFAG----CIDGDVY------------CWDMRR-D-----DISYVMQGHKDIITGLALSPN--GNYVLSNSMDCS----------------------AKMWDVRSFAP-Q-ERCIKSFYGHQHNFEKNLLKCGWSGDGKR---VTAGSSDRF--VYVWDVSSRHILYKLPGHLGSVNA--TDLHP--TEPICKCLLSRT------------VS S4RGQ6/49-348 PIMLLTGHEGEVYCCKFHP-NGNTLASAGFDRTI--LMWNVYG-D-C-DNY-AHLK-GHTGAILDIHYSTDGSTIFTSSTDKTVGLWDSETGERIKRLKGHTSFVNA--CFPARRGPQMVCTASDDGTVK--------------LWDTRKK--GSVHSFQ--NTYQCLSVTFNDTSDQILSG----GIDNVIK------------VWDLRQ-N-----KLIYTMKGHNDSVTGLSLSPD--GSYLLSNAMDNS----------------------VRIWDIRPFAP-M-ERCVKIFQGNVHNFEKNLLKCSWSHDGSK---VSAGSADRF--VYIWDTTSRRILYKLPGHAGSVND--VAFHP--EEPI---VLSCA---NDKRLYLGEIQ A0A091MIK0/20-319 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNF-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A0Q3U4F1/25-185_217-341 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHXGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPX---SK----------------- L7MRW5/1-217 -------------------------------------------------------------------------------------------GERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KPTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSLDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A0K0DGM3/25-324 PILLLTGHEDEIFAARFSS-DGTCIATAGFDQKI--FLWNVYG-E-C-ENF-SVLR-GHTGAIMDVHFNTDSSLLITAATDKTVRVWDMGTGVCRRKFKSHIDIVNA--CHPSRRGPQLVCSAGDDGLVK--------------VHDVRHK--DAVKTYE--NRFQQLAVTFNDTTDEIFAG----SIDGDIY------------CWDMRR-D-----DISYVMHGHKDIITGLSLSPN--GNHVLSNSMDCS----------------------AKMWDVRPFAP-P-ERCVKSFYGHQHNFEKNLLKCGWSGDGKR---VTAGSSDRF--VYVWDVSSRHILYKLPGHLGSVNA--TDLHP--TEPI---LLSAG---SDKRIFLGEIP A0A0V0YHM2/319-608 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLN-GHSGAIMELHFSADNDVLFTCSTDKTVRLWDMETGACLRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDKRQK--KCIFSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---MWLSK---S---------- U6PA40/38-337 PIMLLTGHEEEIFAARFST-DGTCLATAGFDQKI--FLWNVYG-D-C-ENF-SVIR-GHTGAIMDVHFNTDSSLLVSAATDKTVRVWDMETGACRRKFKSHIDIVNA--CHPSRRGPQLICSAGDDGLVK--------------VHDVRQK--NAVKTYE--NRFQQLAISFNDTTDEIFVG----SIDSDIY------------CWDMRR-D-----DISYVMHGHKDIITGLALSPN--GNFLLSNSMDCS----------------------AKMWDVRPFAP-Q-ERCVKSFYGHQHNFEKNLLKCGWSGDGKR---VTAGSSDRF--AYVWDASSRYILYKLPGHLGSVNA--SDLHP--TEPI---LLSAG---SDKRIFLGEIP J9PAP8/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A091LHR8/5-304 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A087VGM8/5-304 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A0M9A986/49-342 PIMLLEGHQGDIFSLEFHP-EGQYLASSGFDRQI--FIWNVYG-E-C-ENI-SVLT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTSFVNS--VSGARRGITQLCSGSDDSTIR--------------VWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----SILYKLKGHSDSITGLSLSPD--GSYILSNAIDNT----------------------LRIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---GNTYK---TNVVI------ A0A0N4TWZ0/367-650 PIMLLSGHDGEIYTAKFSP-DGDCLASAGFDMTV--FLWNVYG-E-C-ENF-STLK-GHSGAIMDLHFSTDASYLFTASTDKTVRIWDMDTGTCIRKFRSHKDIVNS--CHPARRGPQLIASGSDDCTIL--------------IHDIRRR--DPVTTLQ--NAYQITAVTFNDTAEQVIGG----GIDNDIK------------VWDLRR-N-----ELAYVMRGHTDTITGLSLSPE--GTHVLSNAMDCS----------------------SKIWDIRPFAP-E-QRCVKSFAGHQHNFEKNLLKCAWSPDNHR---ISCGSSDRY--LYVWDVSSRRVLYKLPGHQGSVNA--TDFHP--KEPI---------------------- A0A0D6LXV4/36-325 PIMLLTGHEEEIFAARFST-DGTCLATAGFDQKI--FLWNVYG-E-C-ENF-SLLR-GHTGAIMDVHFNTDSSLLVSAATDKTVRVWDMETGACRRKFKSHVDIVNA--CHPSRRGPQLVCSAGDDGLVK--------------VHDVRLK--DAVKTYE--NRFQQLAVTFNDTSDEIFVG----SIDSDIY------------CWDMRR-D-----DISYVMQGHKDIITGLSLSPN--GNYLLSNSMDCS----------------------AKMWDVRPFAP-Q-ERCLKSFYGHQHNFEKNLLKCGWSGDGKR---ITAGSSDRF--AYVWDVSSRHILYKLPGHLGSVNA--TDLHP--MEPI---------------YHMCDI- A0A093GSD8/14-295 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-ENF-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYSMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRL--LLPCLTPLSLSL----------------------SPS---VLSAS---SDKRLYMGEIQ G1MQ22/40-339 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ K1RHY3/47-346 PIMQLSGHEGEIYTAKFSP-DGQMIASSGFDRLI--LFWTVYG-E-C-ENF-AVLK-GHTGAVMELQFSTDGNSLVTASTDKTVAFWDVEVGERIKKLKGHTTFVNS--CQIARRGPQLICSGSDDGTIK--------------LWDARKK--GCQQTFQ--STYQVTAVSFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----DILYRLRGHTDTVTGLQLSPD--GSYLLSNSMDNT----------------------VRIWDVRPFAP-Q-ERCVKVFQGHQHTFEKNLLRCAWSPDGSK---ISAGSGDRY--LYIWDTTSRRILYKLPGHAGSVND--VGFHP--TEPI---VMSCS---SDKKIYLGEIE C5Z768/45-343 PIMLLTGHQSAIYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-E-C-KNF-MVLR-GHKNAILDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- A0A1D2N6S0/45-328 PIMLLEGHAAEILCARFSP-KGDVLASAGSERCV--YLWQTYG-E-C-DSA-IMQP-PHGGTICDLRFNFDGTALYTASVDKTVGVWDVSTGSRIKRLKGHTNFVNA--VGEAKTGPPLVVSGSDDAQVR--------------VWDIRRR--GSVVNLN--SVYQVTAVSFGESAQQIVSG----GIDNEIK------------VWDLRK-A-----EIAFTLKGHTDTITCLDLSPD--GSYVLSNSMDGT----------------------MRIWDIRPFAP-R-ERCMKVFQGHSHGFEKYLLKCAWSKDGQR---VASGSSDRY--VYVWDSNSRQIQYQLPGHEGSVVG--VDFHP--DEPI---------------------- A0A0V0ZWJ3/43-342 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VLSAG---SDKKIFLGELQ A0A091SWS9/16-315 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A091DVB0/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---VLSAS---SDKRLYMGEIQ A0A0W8DS86/1-298 --MLLSGHSAAVYSLKFSP-SGQHVASCSFDRSI--LLWDVYG-E-C-RNY-NVFN-GHKNAVLEVQWTYDSAQVVSASADKTVGLWDAESGSRIKKFAGHSSIVNS--CCPVTSGPTLIVSGSDDCTTK--------------IWDVRSK--RAVKSFE--NKFQVTAVCFSGDNSQVITG----GLDGDIK------------MWDLRK-D-----EVSTVLQGHADIVTGVSLSPD--GSYLLSNAMDST----------------------VRKWDVRPFVK-G-ERLKTTFMGAKHSFDRTLIRCGWSSDMRF---VASGSADRY--VYIWDAETGNLRYHLPGHTGSVNE--ATFHP--TEPI---VGSCS---SDKTIYLGELA H2KT16/62-361 PNMLLNGHDSEIYCGKFSS-DGTFLVSAGFDRRI--LIWETYG-E-C-ENI-SVMT-GHGGAILDVSLSSDDSIIYTASSDKSIALWDTESGQRIKKFRGHQNIVNA--CGVARRGPQIICSGSDDGTVR--------------LWDRRQK--THAQSFQ--NTYQVLAVTFSDTAEMIFSG----GIDNVVK------------GWDLRK-L-----DASMLLTGHTDTVTGLSVSPD--GSYLLSNAMDNT----------------------LRMWDVRPFAP-A-ERCSKVFVGHQHTFEKNLLRCAWSADGRR---ITCGSGDRY--VHVWDTNTRQLIYKLPGHTASVNE--TALHP--TEPI---LLSVG---SDKKIFLGEIL A0A084VPG8/50-349 PIMLLEGHGGEIFSTEFHP-EGEHLMSTGFDRQI--FLWKVYD-E-C-ENV-GVLS-GHSGAVMEAHFSPDGSNIYTCATDKVVGVWDVPTCTRVRKLKGHTHFVNS--CSGARRGPTLIVSGSDDSSIK--------------IWDARKR--HVISTFD--NGYQVTAVCFNDTAEQVISG----GIDNEIK------------IWDIRK-K-----EILYRLRGHSDTVTGLSLSPD--GSYVLSNSMDNT----------------------LRIWDIRPYVP-G-ERCVKIFSGHQHNFEKNLLRCAWSPDGLR---ISAGSADRF--VYIWDTTSRRILYKLPGHNGSVND--VDFHP--TEPI---IVSGS---SDKTLYLGEID A0A151XFA3/50-348 -IMLLEGHQGDIFSLEFHP-EGQYLASTGFDRQI--FLWNVYG-E-C-ENI-GIMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNT----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE A0A151PGU9/66-365 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VAFHP--EEPI---ILSAS---SDKRLYMGEIQ G3QFE7/58-315 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI---------------------------------------MLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IETGF-------------H A0A182PD85/22-289 ----------------------------SIDR-------FVYD-E-C-ENV-GVLS-GHSGAVMEAHFSPDGSNIYTCATDKVVGVWDVPTCTRIRKLKGHTHFVNS--CSGARRGPTLIVSGSDDASIK--------------IWDARKR--HVVSTFD--NTYQVTAVCFNDTAEQVISG----GIDNEIK------------VWDIRK-K-----EILYRLRGHTDTVTGLSLSPD--GSYVLSNSMDNT----------------------LRIWDIRPYVP-G-ERCVKVFTGHQHNFEKNLLRCAWSPDGLK---ISAGSADRY--VYIWDTTSRCILYKLPGHNGSVND--IDFHP--TEPI---IVSGS---SDKTLYLGEIE E2CA00/50-348 -IMLLEGHQGDIFSLEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-AVMS-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTLFVNS--VSGARRGPTLLCSGSDDSTIR--------------VWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYVLSNAMDNT----------------------LKIWDVRPFAP-F-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE H2M7K0/57-356 PIMLMSGHEGEVYCCKFHP-NGATLASSGFDRLI--FLWNVFG-E-C-ENY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVGIWDSETGERIKRLKGHTSFVNT--CYPARRGPQLVCTGSDDGTIK--------------LWDIRKK--AAIHTFQ--NTYQVLAVTFNDTSDQILSG----GIDNDIK------------VWDLRQ-N-----KLIYNMHGHSDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VVFHP--EEPV---VLSGS---SDKRLYMGEIQ A0A091QSX9/11-310 PIMLLSGHEGEVYCCKFHP-GGSTLASAGFDRLI--LLWNVYG-D-C-ENF-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYSMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKVFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ F6W7C5/38-339 PIMLLSGHEGEVYCCKFHP-NGVTLSSAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVAIWDCETGERVKRLKGHTSFVNS--CYPARRGPQLICTGSDDGTVK--------------LWDFRKK--AAVQTFQ--NTYQVLSVTFNDTSDQIISG----GIDNDIKA----------TVWDLRQ-N-----KLMYTMRGHGDSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSADGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VAFHP--EEPI---ILSAA---SDKRLYMGEIQ H0WQ43/59-358 PIMLLSGHEGEVYCCKFHP-SGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A0P6J8T4/87-369 -----------------XX-XGQFLVSAGFDRQI--FLWNVYG-E-C-ENF-AVLS-GHTGAIMDLQLSTDGDTIYTASTDKTICLWDTRTGAKIKKLKGHSSFVNA--IHPARRGPPLLCSASDDCNIK--------------VWDPRKR--TETVSLD--NSYQVASVTFNDTAEQVISA----GIDNDVK------------VWDLRK-N-----ALLYSLKGHSDTVTGLALSPD--GSYVLSNSMDNS----------------------LRVWDIRPFAP-Q-ERCIKMMVGHAHNFEKNLLRCSWSPDGNK---ISAGSADRF--VYIWDTTSRRIIYKLPGHNGSVND--VVFHP--KEPI---VASGA---SDKLIYLGEIE H9JD02/49-348 PIMLLEGHQGEIFTGKFHP-EGKHLASAGFDRQI--LIWNVYG-Q-C-ENV-MVMK-GHTGAIMQLCFSPDGSHLYTGATDNTVAVWDVPTGTRIKKLKGHANFVNS--VSGARRGPELLVSASDDNTIK--------------LWDARKR--NPVASFD--SSYPVTSVLFNDTAEKILSS----GVDNVIK------------MWDIRN-N-----QISLKIKGHTDTVTGLSLSWD--GAYLLSNSMDNT----------------------LRIWDVRPFAP-T-ERCVKLMSGHQHNFEKNLLRCAWSQDGSK---VSAGSSDRF--LYVWDTTSRRVLYKLPGHIGSVND--VDFHP--NEPI---VLSVS---SDKQIYLGEIE B3N784/47-346 PIMQLEGHEGEIFTAEFHP-EGELLLSSGFDRQI--YIWQVYD-D-C-ENV-MAMS-GHSGAVMEAHFTPDGSHIFTCSTDKTLAIWDIATGQRQRRFKGHGNFVNS--VQGSRRGQQLLCSGSDDRTIK--------------IWDARKK--HAAHTLE--SPFQVTAVCFGDTGEQVISG----GIDNEVK------------IWDIRK-Q-----AVLHHLRGHSDTITGMSLSPE--GDFILTNAMDNT----------------------LRVWDVRPYAP-G-ERCVKVFQGHQHNFEKNLLRCAWSPGSDK---ITSGSADRH--VYIWDVNTRRILYKLPGHNGSVNA--VDFSP--KEPL---ILSGS---SDKTLYLGEID A0A1C7N2V6/57-356 PVMQLTGHNGEIYTCQFDP-SGEYIASAGFDRQI--LLWNTYG-E-V-KNY-GILK-GHTNAIMELHWSRDGSQIFSCSADKTVGIFDAKTGERVRRWRGHSAVVNS--CQVVRRGPELVVSGSDDRTVK--------------IWDHRTK--EAVHTFD--HDYPITSVSFSDAGDMVFAG----GLDNEIH------------AWDVRK-H-----QSVYSLKGHADTVTGMALSPD--GSHLLTNAMDNT----------------------VRVWDIKPFAP-T-DRCLKIFEGAPHGYEKNLIRPCWSTDGSQ---IACGSADRT--VVIWQVENRKILYKLPGHKGCVND--VDWHP--KEPI---VMSAS---TDKTMFLGEVK A0A0P5K0P1/37-336 PIMLLAGHPGDIFSLKFHP-DGQFLVSAGFDRQI--FLWNVYG-E-C-ENF-AVLS-GHTGAIMDLQLSTDGDTIYTASTDKTICLWDTRTGAKIKKLKGHSSFVNA--IHPARRGPPLLCSASDDCNIK--------------VWDPRKR--TETVSLD--NSYQVASVTFNDTAEQVISA----GIDNDVK------------VWDLRK-N-----ALLYSLKGHSDTVTGLALSPD--GSYVLSNSMDNS----------------------LRVWDIRPFAP-Q-ERCIKMMVGHAHNFEKNLLRCSWSPDGNK---ISAGSADRF--VYIWDTTSRRIIYKLPGHNGSVND--VVFHP--KEPI---VASGA---SDKLIYLGEIE A0A044S800/321-620 PIMLLSGHDGEIYTAKFSP-DGSCLASAGFDMTV--FLWNVYG-E-C-ENF-SILK-GHAGAIMDLHFSTDGSYLFTASTDKTVRVWDMDTGACMRKFKSHKDIVNS--CHPARRGPQLVASGSDDCTVL--------------VHDIRKR--DPVTTLQ--NAYQITAVTFNDTAEQVIGG----GIDNDIK------------VWDLRR-N-----ELIYVMRGHTDTVTGLSLSPE--GTHILSNAMDCS----------------------SKIWDIRPFAP-E-QRCVKSFAGHQHNFEKNLLKCAWSPDNHR---ISCGSSDHY--VYVWDVSSRRVLYKLPGHQGSVNA--TDFHP--KEPI---LLSAG---SDKKIYLGEID A0A058ZW78/53-319 ---LESGHQSAIYTM----------------KEI--FLWNVHG-D-C-KNF-MVLK-GHKNAILDLQWTTDGSQIISASPDKTLRAWDVETGKQIKKMVKHSSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIYTG----GIDNDVK------------VWDIRK-G-----EVTMTLQGHQDTITGMQLSPD--GSNLLTNAMDCK----------------------LCIWDMRPYTP-Q-NRCVKIMEGHQHNFEKNLLKCGWSPDGSK---VTAGSADRM----------------LPGHMGSVNE--TVFHP--TEPI---VGSCS---SDKQIYLGEI- A0A1I8BIB3/54-355 PIMLLTGHEGEIFGAKFSN-DGSILASVGFDMRI--FLWNARG-D-C-ENF-STIN-GHKGAIMDVHFNTDTSYLFTCSTDKTVRVWDMETGVCVRRFRSHTDFVNG--CHPARRGPDLVCSGSDDGTIQ--------------VHDLRKR--KPAIIFENINKYQITTVTFNDTAELVVSG----GIDNSLR------------VWDIRK-N-----SLLHSMNGHSDTITGLCLSPD--GSYILSNAMDCT----------------------ARIWDIRPYST-S-QRCVKTMSGHQHNFEKNLLRCAWSPDSHR---ISCGSSDRF--VYIWDVGSRNIAYKLPGHQGSVNA--VDFHP--TEPI---ILSAG---SDKRIFLGELT A0A0V1LC21/324-614 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---SN--------- A0A1B0C6H0/47-346 PILLLEGHQGEIYTTEFHP-KGEMLLSSGYDRQI--FIWNVYG-E-S-ENI-MVMS-GHTGAILEAHFNTDGSQIFTCSTDKTLAMWDIVTSQRIRRLKGHSNFVNT--VHGTRRGMQMLCSGADDRTVR--------------LWDTRKK--LSVNTLE--ASYQVTSVTFNDIGDQIISG----GIDNSIK------------VWDIRK-Q-----EILHHLKGHADTITGISLSPD--GSYILSNSMDNT----------------------CRIWDIRPYVP-G-ERCVKIFQGHQHNFEKNLLRCAWSPDGSK---ISSGSADRF--VYIWDTTSRRILYKLPGHSGSVND--VDFSS--KEPL---ILSGS---SDKTLYLGEIE I0Z2J2/50-349 PIMLLTGHAGEVFTCKFNP-AGDVVASGSHDKHI--FLWRTYG-E-C-ENY-MMLQ-GHKNAVLELHWTSDGERIVSASPDKSVRAWDAVTGEQVKKMSEHDSFVNS--CCPLKRGPPLLVSGSDDGTAK--------------LWDLRSK--RSVHTLS--EQYQVLAVAFGEEGDQVYTG----GIDNSIK------------VWDLRK-V-----EVSMSLKGHSDTVTGLRVSPD--GTHLLSNAMDNT----------------------LRAWDMRPYAP-A-NRCVKVFTGHSHSFEKNPLKCDWSPDGTK---VTCGSADRM--VCIWDVATRRLLYKLPGHNGSVNE--ATFHP--LEPI---VASAS---SDKQLYLGELV F1MLP7/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ F1SVA6/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ L5JU74/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A061EI20/44-342 PIMLLTGHQSAIYTMKFNP-TGTVVASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGSQIISASPDKTLRAWDVETGKQIKKMAEHSSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIFTG----GIDNDVK------------LWDLRK-G-----EVTMTLQGHQDMITGMSLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTTRRILYKLPGHAGSVNE--SVFHP--NEPI---IGSCS---SDKQIYLGEI- A0A1I8I3Y1/59-358 PIMLLTGHEGEIYCGKFSP-TGSILATAGYERKI--FLWTVYD-E-C-ENL-AVLT-GHGGAILELKFTTDGETLVSAASDKTAALWDLEAGLRIKRLKGHEKLINS--VDVVRRGPQLLCTGSDDGTIR--------------LWDRRVR--GHTHSFD--SGNAVTSVAFGDTGELVYSG----GIDNSIQ------------AWDLRR-S-----ACTMRLRGHSDTVTGLALSPD--GNYLLSNGMDAS----------------------LRVWDIRPYAS-Q-DRCLKILSGHRHSFEQNLLRCAWQPDGRR---VTCGSSDRF--VYVWDCASRQVVYKLPGHTGSVNE--THFHP--KEPI---IMSVG---SDKKVYLGEIE M3W1R3/59-308 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADR-------------------------------------------------------------- T2M7B4/62-361 PIMLLTGHAGEVFCSRFHP-SGQTLASAGFDRLI--HLWNVYD-D-C-NNF-AILK-GHTGAILDLHYTPDGETLVTCSSDKTIALWDYETGIKVKKYKGHASFVNS--CCPARRGPEIVISGSDDCTIK--------------IWDRRLK--TSVQTFQ--NTYPVTAVCFNDTTSQFMSG----GIDNVIK------------VWDLRK-N-----DIMFKMQGHTDSVTGFRLSPD--GSFLLSNAMDNT----------------------VRVWDIRAFAP-V-ERCLKVFSGITHNFEKNLLKCAWSPDGRY---ISAGSADRF--VYVWDTVTKKILYKLPGHNGSVND--VDFHP--SEPI---LMSCS---SDKQIYLGELF W2YGJ0/59-358 PTMLLSGHSAAVYSLKFSP-SGQHVASCSFDRSI--LLWDVYG-E-C-RNY-NVFN-GHKNAVLEVQWTYDSAQVVSASADKTVGLWDAESGSRIKKFAGHSSIVNS--CCPVTSGPTLIVSGSDDCTTK--------------IWDVRSK--RAVKSFE--NKFQVTAVCFSGDNSQVITG----GLDGDIK------------MWDLRK-D-----EVSTVLQGHADIVTGVSLSPD--GSYLLSNAMDST----------------------VRKWDVRPFVK-G-ERLKTTFMGAKHSFDRTLIRCGWSSDMRF---VASGSADRY--VYIWDAETGNLRYHLPGHTGSVNE--ATFHP--TEPI---VGSCS---SDKTIYLGELA A0A0L8G0E7/46-345 PIMLLTGHEGDIFTGKFSP-DGRFLATSGFDRMI--FFWNVYG-E-C-DNL-GVLR-GHTGAVMELHFSTDGSQLFTASTDKNLAIWDVEAGARIKKLKGHQDFINS--CCPARRGPQLICSGADDGTIK--------------LWDSRKR--GAIQTFQ--NVYQVTSVTFSDTAEQIISG----GIDNDIK------------VWDLRK-N-----DILYRLRGHTDTPTGLELSPD--GSYLLSNGMDGT----------------------VRIWDVRPFAP-Q-ERCLKLFQGHQHSFEKNLLRCSWSTDGRK---ISAGSGDRF--VYIWDTATRQILYKLPGHTGSVNE--VDFHP--HEPI---VMSCS---SDKKIYLGEIA U6CVC3/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ M3YVI1/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A0V1LB66/324-608 PIMSLIGHEGEIYAAAFSY-DGTMLASG--------VLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---SN--------- A0A077W835/61-360 PVMQLIGHEGEIFSSKFDP-SGDHIASVSYDRQI--LLWNTYG-D-C-NNY-GVLR-GHANAILEVHWSRDGSQLFSCSADKTVAIWDATTGERVRRWKGHTLVVNS--CQVARRGPETVVSGSDDGCIK--------------LWDSRSK--EAVQNFQ--DKYQVTSVCFSDAGDMVYTG----GLDNEIK------------VWDIRK-K-----AVAYTLSGHLDTITGIALSPD--GSSLLSNSMDNT----------------------VRIWDVKPFAP-A-DRCTKILEGAPHGFEKNLITPCWSTDGSQ---VACGSADRT--VVIWEANSGKILYKLPGHKGCVND--VDWHP--KEPI---IMSAS---TDKTIMLGEVK A0A0N5CLX3/1-298 --MLLSGHDGEIYTAKFSS-DGSCLASAGFDMIV--FLWNVYG-E-C-ENF-STLR-GHMGAIMDLHFSTDSSYIFTASTDKTVRVWDMDTGLCIRKIKAHKDIVNS--CHPARRGPQLIASGSDDCTVL--------------IHDIRKR--DPVTVLK--SPYQITAVTFNDTAEQVIGG----GIDNDIK------------VWDLRR-N-----DLAYVMRGHTDTVTGLSLSPQ--GTHVLSNAMDCS----------------------AKIWDIRPFAP-E-QRCLKSFAGHQHNFEKNLLKCAWSPDSAR---ITCGSSDRY--VYVWEVLSRRVLYKLPGHQGSVNA--TDFHP--KEPI---VLSAG---SDKKIYLGEIE H2U966/48-347 PIMLMSGHEGEVYCCKFHP-NGATLASSGFDRLI--LLWNVYG-D-C-ENY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVGVWDSETGERIKRLKGHTSFVNT--CYPARRGPQLICTGSDDGTVK--------------LWDIRKK--GAIHTFQ--NTYQVLAVTFNDTSDQIMSG----GIDNDIK------------VWDLRQ-N-----KLIYNMQGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VAFHP--EEPV---VLSGS---SDKRLYMGEIQ W5J9I0/51-350 PIMLLEGHGGEIFSTQFHP-DGDHLLSTGFDRQI--FLWTVYG-E-C-ENV-GVLS-GHSGAVMEAHFSPDGSNVYSCATDKVVAVWDVPTCTRIRKLKGHTHFVNS--CSGARRGPTLIVSGSDDSSIK--------------IWDARKR--HVISTFD--NTYQVTAVCFNDTAEQVISG----GIDNEIK------------VWDIRK-K-----EIVYRLRGHTDTITGLSLSPD--GSYVLSNSMDNT----------------------LRIWDIRPYVP-G-ERCVKVFNGHQHNFEKNLLRCAWSPDGQK---ISAGSSDRY--VYIWDTTSRRILYKLPGHNGSVND--VDFHP--SEPI---IVSGS---SDKTLYLGEID A0A093H0Y7/1-279 ----------------------NTRASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A0N5ADH4/338-651 PIMMLSGHEGEIYTAKFSN-DGTFLASAGFDMTI--FLWNVFG-E-C-ENF-SVLK-GHIGAVMDVHFSTDSGYLFSASTDKTVRVWDMETGACIRKFKSHKDIVNS--CYPARRGPQLICSGSDDGTILASFLFLIALLMLFFIHDIRKR--DPVATFQ--NTYQITAVTFNDTSDQVIGG----GIDNDLK------------LWDLRR-N-----DLLFVMHGHTDTVTGLALSPD--GSYVLSNAMDCT----------------------AMMWDIRPFAP-E-QRCVKTFVGHQHNFEKNLLKCSWAPDGQR---ISAGSSDRF--LYVWDVGSRGIVYKLPGHQGSVNA--TDFHP--KEPI---LLSAG---SDKKIFLGEIE A0A158Q867/394-693 PIMLLSGHDGEIYTAKFSP-DGSCLASAGFDMTV--FLWNVYG-E-C-ENF-STLK-GHAGAIMDLHFSTDATYLFTASTDKTVRVWDMDTGACVRKFKSHKDIVNS--CHPARRGPQLVASGSDDCTVL--------------IHDVRRR--DPIITLH--NPYQITAVTFNDTAEQVIGG----GIDNDIK------------VWDLRR-N-----ELAYVMRGHTDTVTGLSLSPE--GTHVLSNAMDCS----------------------SKIWDIRPFAP-E-QRCVKSFAGHQHNFEKNLLKCAWSPDNHR---ISCGSSDRY--VYVWDVSSRRVLYKLPGHQGSVNA--TDFHP--KEPI---LLSAG---SDKKIYLGEID A0A085MJ90/328-627 PIILLQGHMGEVYTAKFSK-DGTFLASAGFDQKI--LLWNVYG-E-C-DNF-AVLS-GHTGAIMELHFSAESDMLVTCSTDKTIRIWDMETGVCLRKFKGHTSFVNS--CHLARRGPRLICSGSDDGTIK--------------VWDQRKR--DYIHSFD--NKYQVTAVTFNDTTEHVIAG----GIDNDLK------------VWDLRK-G-----VVAYGMFGHVDTVTGLCLSPD--GSHVLSNSMDCT----------------------VRIWDIRPFAP-E-VRCVRVLQGNQHNFEKNLLRCSWSPDGNK---VSAGSSDRY--VYVWDVMSQRILYKLPGHFGSVNE--TDFHP--CEPI---ILSAG---SDKKVYMGELE A0A087XPV1/48-347 PIMLMSGHEGEVYCCKFHP-NGATLASSGFDRLI--LMWNVYG-D-C-ENF-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVGVWDSETGERIKRLKGHTSFVNT--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--GAIHTFQ--NTYQVLAVTFNDTSDQILSG----GIDNDIK------------VWDLRQ-N-----KLIYNMHGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNIHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VVFHP--EEPV---VLSGS---SDKRLYMGEIQ A0A0V0X097/321-605 PIMSLIGHEGEIYAAAFSY-DGTMLASG--------VLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---SN--------- F6SV59/102-401 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ F6WST1/58-359 PIMLLSGHEGEVYCCKFHP-NGVTLSSAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVAIWDCETGERVKRLKGHTSFVNS--CYPARRGPQLICTGSDDGTVK--------------LWDFRKK--AAVQTFQ--NTYQVLSVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLMYTMRGHGDSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSADGSK---IAAGSADRYNCCLWWDTTSRRILYKLPGHAGSVNE--VAFHP--EEPI---ILSAA---SDKRLYMGEIQ A0A091XTP9/14-313 PIMLLSGHEGEVYCCKFHP-SGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---TLSAS---SDKRLYMGEIQ K7ITB8/49-343 PIMLLEGHGGDIFSLEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-SVMT-GHSGAIMELHFSPDGSTLYTASTDMTLGLWDLIAGTRIKKLKGHTSFVNS--VNGARRGLTQLCSGSDDSTIR--------------IWDPRKK--GQCFSLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AILYKMKGHTDSVTGLSLSPD--GSYILSNSMDNS----------------------LRIWDIRPFAP-Y-ERCVKVLSGHQHTFEQNLLRCAWSADGSL---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--VVF-------A---VCSGS---SDKQIYMGEID A0A0D3CUU6/78-376 PIMLLSGHQSAIYTMKFNP-AGTVIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTGDGSQIVSASPDKTVRAWDVETGKQVKKMAEHSSFVNS--CCPSRRGLPLIVSGSDDGTAK--------------LWDMRQR--GAVQTFP--DKYQITAVSFSDPADKIFTG----GVDNDVK------------VWDLRK-G-----EAIMTLEGHQDTITGMSLSPD--GSYLLTNAMDCK----------------------LCVWDMRPYAP-Q-DRCVKIFEGHQHNFEKNLLKCAWSPDGSK---VTAGSADRM--VHIWDTTSRRILYKLPGHNGSVNE--CVFHP--HEPI---IGSCS---SDNLIYLGEI- S2JES3/58-357 PVMQLIGHDGEIYSCNFDQ-SGEYIASAGFDRQI--LLWNTYG-E-V-KNY-GVLK-GHTNAVMEIHWSRDSNQIFSCSADKTVGIFDVKTGTRSRRWRGHTGIVNS--CQVARRGAELVVSGSDDCTVK--------------IWDSRAK--EAVNTFE--NEYQVTSVCFSDAGDMIYSA----GLDNDIK------------VWDVRK-N-----QLAYTMKGHMDTVSGMSLSPD--GNNLLTNSMDNT----------------------VRIWDIKPFAA-A-DRCLKIFEGAPHGFEKNLIKPCWATDGSQ---IACGSADRS--VVIWDVDTRKILYKLPGHKGCVND--VDWHP--KEPI---IMSAS---TDKTLFLGEVK D7LKI4/45-343 PIMLLSGHPSAVYTMKFNP-AGTLIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTSDGSQIVSASPDKTVRAWDVETGKQIKKMAEHSSFVNS--CCPTRRGPPLVISGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDAADKIFTG----GVDNDVK------------VWDLRK-G-----EATMTLEGHQDTITGMSLSPD--GSYLLTNGMDNK----------------------LCVWDMRPYAP-Q-NRCVKIFDGHQHNFEKNLLKCSWSPDGTK---VTAGSSDRM--VHIWDTTSRRIMYKLPGHTGSVNE--CVFHP--TEPI---IGSCS---SDKNIYLGEI- A0A022RDQ0/41-339 PIMLLSGHQSAVYTMKFNP-AGTVIASGSHDRDI--FLWNVNS-D-C-KNF-MVLR-GHKNAVLDLQWNTDGSQIISTSPDKTLRAWDVETGKQIKKMIGHLFVVNS--CCPARRGPPLIVSGSDDGTAK--------------LWDMRQR--GSIQSFP--DKYQITAVGFSDASDKIYTG----GIDNDVK------------VWDLRR-T-----EPVMKLQGHHDMITGMQLSPD--GSYLLTNSMDCT----------------------LRIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLRCSWSPDGSK---VTAGSSDCM--VYVWDTTSRRILYKLPGHTGSVNE--CVFHP--NEPI---IGSCS---SDKQIYLGEI- A0A0P7UFS1/51-326 PIMLLSGHEGEVYCCKFHP-SGSALASAGYDRLI--LMWSVYG-D-C-DNY-ATLK-GHSGAIMELHYNTDGSLLFSASTDKTVAVWDSETGERIKRLKGHTSFVNS--CYPARRGPQVVCTGSDDGTVK--------------LWDIRKK--ASVHTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIKV-----GDPRLMVWDLRQ-N-----KLIYTMQGHGDSLTGLSLSSE--GSYLLSNSMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADSS--VCLQ------------------RQ--AALHG--GDPV---GGA---------------- B4MTV0/47-346 PIMQLEGHEGEIFTTEFHP-EGELLMSSGYDRQI--YIWQVYG-D-C-ENV-MAMS-GHSGAVMEAHFNTDGSHIFTCSTDKTLAIWDIVTGQRVRRLKGHNNFVNS--MQGSRRGQQFLCSGSDDRTIK--------------IWDARKK--HAAHTLE--SPFQVTAVCFSDTGDQVISG----GIDNELK------------IWDIRK-Q-----QVLHHLRGHTDTITGMSLSPE--GDFVLTNSMDNS----------------------LRVWDVRPYAP-G-ERCVKVFQGHQHNFEKNLLRCAWSPGSDK---ISSGSADRH--VYIWDVNTRRILYKLPGHNGSVND--VDFSP--REPL---ILSAS---SDKTLYLGEIE A0A0B0P4Q5/44-342 PIMLLTGHQSSIYTVKFNP-AGTVVASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAILDLHWTTDGSQIVSASPDKTLRAWDVETGKQIKKMAEHSSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIFTG----GIDNDIK------------VWDLRK-G-----EVTMTLQGHQDMITGMSLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKIFEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHTGSVNE--SVFHP--NEPI---IGSCS---SDKQIYLGEI- A0A0P5RBQ7/56-266 -------------------------------------------------------------------------------------------------XXXXXXXVNA--IHPARRGPPLLCSASDDCNIK--------------VWDPRKR--TETVSLD--NSYQVASVTFNDTAEQVISA----GIDNDVK------------VWDLRK-N-----ALLYSLKGHSDTVTGLALSPD--GSYVLSNSMDNS----------------------LRVWDIRPFAP-Q-ERCIKMMVGHAHNFEKNLLRCSWSPDGNK---ISAGSADRF--VYIWDTTSRRIIYKLPGHNGSVND--VVFHP--KEPI---VASGA---SDKLIYLGEIE E3MGH9/1-298 --MVLQGHGGEIYTAQFSR-DGNIIASAGYDQQI--YLWNVFG-E-C-ENF-AVLK-GHKGAVMDLKFSSDSSHLVSCGTDKSVRVWDMETGECVRNFKSHTDIANA--IDVNRRGPEMICSASDDGTTM--------------VHDFRSK--EAAKTFI--DKYQMTAVTFNDSSEEVICG----GISNQIK------------VWDMRR-N-----DVKYTLHGHRDTITSLSVSHN--GNFLLSNSMDCT----------------------LMTWDIRPFVP-A-QRLVGTYKGAVHNFEKNLLKCGWSPSDNY---ITSGSANRF--AFVWDVKSRACVYKLPGHLGSVNS--TALHP--LQPI---LLSAG---SDKTIYLGELD A0A1I7VFB2/57-349 PIMLLSGHDGEIYTAKFSP-DGSCLASAGFDMTV--FLWNVYG-E-C-ENF-STLK-GHAGAIMDLHFSTDAGYLFTASTDKTVRVWDMDTGTCVRKFKSHKDIVNS--CHPARRGPQLVASGSDDCTVL--------------IHDIRRR--DPVITLQ--NAYQITAVTFNDTAEQVIGG----GIDNDIK------------VWDLRR-N-----ELAHVMRGHTDTVTGLSLSPE--GTHVLSNAMDCS----------------------SKIWDIRPFAP-E-QRCVKSFAGHQHNFEKNLLKCTWSPDNNR---ISCGSSDRY--VYVWDVSSRRVLYKLPGHQGSVNA--TDFHP--KEPI---LITLC---LWKD------- M1CHQ5/42-340 PIMLLSGHQSAVYTMKFNP-AGTIIASGSHDKEI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDVQWTTDGSTIVSASPDKTVRAWDVETGKQIKKMAEHSSFVNS--CCPARRGPPLIVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKFQITAVSFSDASDKICTG----GIDNDVK------------LWDLRR-C-----EVTMTLQGHQDTITGMQLSPD--GSYLLTNAMDCT----------------------LRIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLKCSWSPDGSK---VTGGSSDRM--VYVWDTTSRRILYKLPGHTGCVNE--CVFHP--NEPI---VGSCS---SDKQMYLGEI- A0A176W510/54-353 PIMLLTGHGGAVFSLKFNP-QGTVIASGSHDKEI--FLWNVQG-D-C-DNY-MVLK-GHRNAVLDLHWTNDGSQIISASPDKTVRAWDAETGKQIKKMAEHLSFVNS--CCPARRGPPLIVSGSDDGTAK--------------LWDMRHR--GCLQTLP--DKYQITAVGFSDATDKIYTG----GLDNEIK------------VWDLRK-N-----EVSMRLQGHTDTITGMQLSPD--GSYLLTNSMDCT----------------------LRIWDMRPYAP-Q-NRCVKTFTGHQHNFEKNLLKCSWSPDGSK---VTSGSSDRM--VYVWDTTSRRILYKLPGHSGSVNE--SVFHP--KEPI---IGSCG---SDKQIYLGEID I3J1Z0/48-343 PIMLMSGHEGEVYCCKFHP-NGATLASSGFDRLI--LLWNVYG-D-C-ENY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVGVWDSETGERIKRLKGHTSFVNT--CYPARRGPQLICTGSDDGTVK--------------LWDIRKK--GAIHTFQ--NTYQVLAVTFNDTSDQILSG----GIDNDIK------------VWDLRQ-N-----KLIYNMHGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VVFHP--EEPI---VLSGA---SDKRLY----N G3W5B8/62-361 PIMLLSGHEGEVYCSKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERIKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLTVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A0V1P6S7/321-611 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KYIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---SN--------- C1C0Y0/55-354 PIMLLSGHEGEIYSAKFHP-EGNVLASAGFDRQI--FLWNVYG-E-C-ENY-GLIT-GHTGAILDLHFSGDGSYIYTASTDKTVGIFDSTTGQRIKRLKGHTGFVNA--CHPARRGPPLIVSGSDDCTVK--------------TWDQRKR--GCAHSFN--NTFQVTGATYNDTADQIITG----GIDNDLK------------IWDIRK-N-----TTVFTLSGHTDTITGLSLSPD--GSYVLTNSMDNS----------------------LRIWDVRPFVA-G-DRCVKIFNGHKHNFEKNLLRCSWSPDGTM---IAAGSADRF--VYIWDTTSRRIVFKLPGHLGSVNE--VDFHK--LEPI---VLSAS---SDKNIYLGELD A0A015LUW7/43-342 PIMLLLGHQGEIFTVRFNP-SGEHIASGSFDRTI--LLWNTYG-D-C-INY-GVLK-GHNGAIMELQWSRDSSKIFSCATDKTVGVWDVTTGTRIKKFKGHTSFVNS--VSSARRGNEILVSGSDDGTIK--------------IWDLRQK--DAVDTFI--HQYQITATCFSEAGDLVFAG----CLDNDIT------------AWDLRK-K-----AHAYILKGHQDTISGIRLSPD--GSYLLSNAMDNT----------------------VRVWDVKPFAP-T-NRLLKIFEGAPHSFEKNLIRPAWSSDGSQ---IASGSGDRT--VMIWDFSSRKILYKLPGHKGCVNE--VDFHP--KEPI---IVSGS---TDRQIFLGEIN U9TC64/43-342 PIMLLLGHQGEIFTVRFNP-SGEHIASGSFDRTI--LLWNTYG-D-C-INY-GVLK-GHNGAIMELQWSRDSSKIFSCATDKTVGVWDVTTGTRIKKFKGHTSFVNS--VSSARRGNEILVSGSDDGTIK--------------IWDLRQK--DAVDTFI--HQYQITATCFSEAGDLVFAG----CLDNDIT------------AWDLRK-K-----AHAYILKGHQDTISGIRLSPD--GSYLLSNAMDNT----------------------VRVWDVKPFAP-T-NRLLKIFEGAPHSFEKNLIRPAWSSDGSQ---IASGSGDRT--VMIWDFSSRKILYKLPGHKGCVNE--VDFHP--KEPI---IVSGS---TDRQIFLGEIN A0A1B6D8I5/32-331 PIMVLEGHQGEIFSVKFHP-EGQYLASSGFDRQI--FMWNVFG-E-C-ENI-AVMS-GHTGAVMELHFSTDGNTLFTCSTDNTVAMWDLQTCQRIKKLKGHSSFVNS--CHPTRRGTQMIVSGSDDCSIK--------------VWDPRKK--GQSVTLN--NTYQVTSVTFSDTAEQVISA----GIDNDIK------------VWDLRK-N-----SVIQRLRGHSDTVTGLSLSPD--GSYLLSNAMDNS----------------------LRIWDIRPFAP-Q-ERCVKILSGHQHSFEKNLLRCAWSPDGSK---VSAGSADRF--VYIWDTTTRRILYKLPGHNGSVND--VHLHP--KEPI---IVSGS---SDKVVYIGELE G3TCC5/56-355 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ M4CKP8/117-415 PIMLLTGHPSAVYTMKFNP-SGTLIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTSDGSMIVSASPDKTVRAWDVETGKQVKKMAEHSSFVNS--CCPTRRGLPLIISGSDDGTAK--------------LWDLRQR--GAIQTFP--DKYQITAVSFSDAADKIFTG----GVDNDVK------------VWDLRK-G-----EATMTLEGHQDTITGMSLSPD--GSYLLTNGMDNK----------------------LCVWDMRPYAP-Q-NRCVKVFEGHQHNFEKNLLKCSWSPDGTK---VTAGSADRM--VHIWDTTTRRILYKLPGHKGSVNE--CVFHP--SEPI---IGSCS---SDKDIYLGEI- A0A0L0CAU3/46-345 PIMLLEGHQGEIFCTEFHP-DGEMLLSSGFDRQI--YIWNVYG-D-C-ENI-LAMS-GHTGAVLEAHFNTEGSQIFTCSTDKTLAIWDIVTGNRIRRLKGHNNFVNS--VHGTRRGLQMLCSGSDDRTIR--------------IWDARKK--LSVHTLE--APYQVTAVTFNDTAEQVISG----GIDNELK------------VWDIRK-Q-----QVLHSLKGHTDTITGISLSPD--GSYILSNSMDNT----------------------LRIWDIRPYVP-G-ERCVKIFQGHQHNFEKNLLRCAWSPDGSK---ISAGSADRY--VYIWDTTSRKILYKLPGHNGSVND--VDFSG--KEPL---IVSGS---SDKNLYLGEIE C1BSR6/59-358 PIMLLSGHEGEIYSAKFHP-DGNILASSGFDRQI--YLWNVYG-E-C-ENF-AVIS-GHTGAILDLNFSGDGSYLYTSSTDKTVGVFDSTTGQRIKRLKGHTGFVNT--CHPARRGPPLIVSGSDDCTIK--------------TWDQRKR--GCVHSFN--NTFQVTGVTYNDTADQIITG----GIDNDLK------------IWDIRK-N-----NIIYTLSGHTDTITGLSLSPD--GSYALTNSMDNS----------------------LRIWDIRPFVT-G-ERCVKIFSGHKHNFEKNLLRCTWSPDGAM---IAAGSSDRF--VHIWDTTSRRILFKLPGHLGSVNE--IDFHK--LEPI---VLSAS---SDKNIYLGELD A0A0A0B0E5/14-313 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ H2M7K1/48-347 PIMLMSGHEGEVYCCKFHP-NGATLASSGFDRLI--FLWNVFG-E-C-ENY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVGIWDSETGERIKRLKGHTSFVNT--CYPARRGPQLVCTGSDDGTIK--------------LWDIRKK--AAIHTFQ--NTYQVLAVTFNDTSDQILSG----GIDNDIK------------VWDLRQ-N-----KLIYNMHGHSDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VVFHP--EEPV---VLSGS---SDKRLYMGEIQ C3Y8A7/48-347 PIMLLSGHEGEIYAAKFHP-EGNLLASGSFDRNI--FLWNVYG-D-C-ENY-AVLN-GHSGAIMELQFSTDGSTLFSASTDKTVGLFDVETGARIKRLKGHSTFVNS--CHPSRRGPQMVVSGSDDSTIR--------------LWDTRKK--GSAQTFQ--NTYQVTSVSFNDTSDQILSG----GIDNDIK------------CWDLRK-N-----DVIYKMRGHMDTVTGLSLSKD--GSYLLSCAMDNT----------------------VRIWDVRPFAP-Q-ERCVKIFQGNQHSFEKNLIRCNWSPDGSK---ITAGSADRF--VYVWDTTTRRILYKLPGHDGSINE--VDFHP--YEPI---VLSAS---SDKKIYLGEIQ H3BBL9/51-338 PIMLLSGHEGEVYCCKFHP-NGSTLASSGFDRLI--LLWSVFG-D-C-DNY-VTLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERIKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLTVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLIYSMRGHTDSVTGLSLSAE--GSYLLSNAMDNT----------------------VRVWDIRPFAP-K-ERCVKIFQGNMHNFEKNLLRCSWSPDGSK---VTAGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VVFHP--DEPI---CEFA--------------- W5MD75/51-314 PIMLLSGHEGEVYCCKFHP-NGATLASAGYDRLI--LLWSVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVAVWDSETGERIKRLKGHTSFVNS--CYPARRGPQVVCTGSDDGTVK--------------LWDIRKK--AAVHTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLIYTMQGHGDSLTGLSLSSE--GSYLLSNSMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSADGSK---IAAGSADRDSGQLRAD--------------GSTQE--S-------------------------------- A0A0V0X0F2/321-608 PIMSLIGHEGEIYAAAFSY-DGTMLASG--------VLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLKG---------KTIWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---SN--------- A0A0D3BPM2/29-327 PIMLLTGHPSAVYTMKFNP-SGTLIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTSDGSMIVSASPDKTVRAWDVETGKQVKKMAEHSSFVNS--CCPTRRGLPLIISGSDDGTAK--------------LWDLRQR--GAIQTFP--DKYQITAVSFSDAADKIFTG----GVDNDVK------------VWDLRK-G-----EATMTLEGHQDTITGMSLSPD--GSYLLTNGMDNK----------------------LCVWDMRPYAP-Q-NRCVKVFEGHQHNFEKNLLKCSWSPDGTK---VTAGSADRM--VHIWDTTTRRILYKLPGHKGSVNE--CVFHP--TEPI---IGSCS---SDKDIYLGEI- A0A058ZXE8/46-344 PIMLLAGHPSAIYTMKFNP-AGTVIASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAILDLQWTTDGSQIISASPDKTLRAWDVETGKQVKKMVEHSSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIYTG----GIDNDVK------------VWDIRK-G-----EVTMTLQGHQDTITGMQLSPD--GSYLLTNAMDCK----------------------LCIWDMRPYAP-Q-NRCVKMMEGHQHNFEKNLLKCGWSPDGSK---VTAGSADRM--VYIWDTTSRRILYKLPGHTGSVNE--TVFHP--TEPI---IGSCS---SDKQIYLGEI- H2PYI7/58-347 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSPDRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IETGF-------------H A0A1A8QLN7/87-386 PIMLMSGHEGEVYCCKFHP-NGAVLASSGFDRLI--LLWNVYG-D-C-ENY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVGVWDSETGERVKRLKGHTSFVNT--CYPARRGPQLVCTGSDDGTIK--------------LWDIRKK--GAIHTFQ--NTYQVLAVTFNDTSDQILSG----GIDNDIK------------VWDLRQ-N-----KLIYNMHGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---VAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VVFHP--EEPI---VLSGS---SDKRLYMGEIQ I3J1Y9/48-347 PIMLMSGHEGEVYCCKFHP-NGATLASSGFDRLI--LLWNVYG-D-C-ENY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVGVWDSETGERIKRLKGHTSFVNT--CYPARRGPQLICTGSDDGTVK--------------LWDIRKK--GAIHTFQ--NTYQVLAVTFNDTSDQILSG----GIDNDIK------------VWDLRQ-N-----KLIYNMHGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VVFHP--EEPI---VLSGA---SDKRLYMGEIQ A0A0V0RHY8/328-627 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLS-GHNGAVMELHFSADNDVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCTDELFIFGSFS------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---S---------- A0A0V0YIW1/332-621 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLN-GHSGAIMELHFSADNDVLFTCSTDKTVRLWDMETGACLRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDKRQK--KCIFSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---MWLSK---S---------- F7IKF4/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ J3MGE7/136-434 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- A0A0S3RWJ1/47-345 PIMLLSGHQSAIYTMKFNP-AGSVVASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGTQIISASPDKTVRAWDVETGKQIKKMVEHLSYVNA--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GSIQTFP--DKYQITAVGFSDASDKIFTG----GIDNDVK------------IWDLRK-G-----EVTMTLQGHQDMITGMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKVLEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHNGSVNE--CVFHP--NERI---IGSCG---SDKQIYLGEI- A0A0L9U747/47-345 PIMLLSGHQSAIYTMKFNP-AGSVVASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGTQIISASPDKTVRAWDVETGKQIKKMVEHLSYVNA--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GSIQTFP--DKYQITAVGFSDASDKIFTG----GIDNDVK------------IWDLRK-G-----EVTMTLQGHQDMITGMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKVLEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHNGSVNE--CVFHP--NERI---IGSCG---SDKQIYLGEI- W5MD89/51-350 PIMLLSGHEGEVYCCKFHP-NGATLASAGYDRLI--LLWSVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVAVWDSETGERIKRLKGHTSFVNS--CYPARRGPQVVCTGSDDGTVK--------------LWDIRKK--AAVHTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLIYTMQGHGDSLTGLSLSSE--GSYLLSNSMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSADGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VVFHP--EEPV---VLSGS---SDKRLYMGEIQ G1MH69/58-341 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---------------------- A0A0A1N9B9/1-298 --MQLTGHGGEIYSCEFDP-SGEFIASAGFDRQI--FLWNTYG-E-V-KNY-GIIK-GHGNAIMEIHWSRDSKQIFSCSADKSVGIFDVKTGDRVRKWRGHAGIVNS--CQAARRGPEIVVSGSDDCTVK--------------VWDPRSK--DAVSTFE--NEYQVTSVCFSEAGDMVYSA----GIDNTVK------------VWDVRK-N-----QVAYTMEGHLDTVTGMRLSPD--GSYLLTNSMDNT----------------------VRIWDIKPFAP-N-DRCLKVFEGAPHGFEKNLIRPTWSTDGTQ---IACGSADRT--VVIWEVDSKKILYKLPGHKGCVND--VDWHP--REPI---IMSAS---TDKTLFLGEVK A0A1D6BKV2/105-389 --------------LHWXP-AGTVIASGSHDKDI--FLWYVHG-E-C-KNY-MVLR-GHKNAILDLHWTTDGSQIISASPDKTLRVWDVETGKQVKKMAEHSSFVNS--CCPSRKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKFQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTESLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTFTGHQHNFEKTLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- A0A1A7YAM2/48-347 PIMLMSGHEGEVYCCKFHP-NGAVLASSGFDRLI--LLWNVYG-D-C-ENY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVGVWDSETGERVKRLKGHTSFVNT--CYPARRGPQLVCTGSDDGTIK--------------LWDIRKK--GAIHTFQ--NTYQVLAVTFNDTSDQILSG----GIDNDIK------------VWDLRQ-N-----KLIYNMHGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---VAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VVFHP--EEPV---VLSGS---SDKRLYMGEIQ A0A140JWV4/40-340 PNVQLCGHQGEVSSLRFSP-DGQCLATAGSDKAI--FCWRVFH-D-N-ENT-LVIQ-GHTNAVLEVHWFSDGSTLLSSSADKTVRCWDAESGTQVKKVNEHTGIVNS--CCPQRRG-GLFVSGADDGTIK--------------VWDTRVK--RSVHTLR--CGFPVCAVAFADAADQVFSG----GVDNAVK------------VWDLRG-D-SS--SPCLLLKGHSDTVTGLRLSPD--GSHVLSNAMDNT----------------------LREWDIRPYAP-P-NRCTKVFTGHLHSFEKNLLRCDYSADGGK---VTCGSADRM--VNIWDSSSRKLIYKLPGHSGSVNE--VVFHP--KDPV---IASAS---SDKTVFLGELT A0A0A9W2S0/35-334 PIVALEGHGSDVFGCAFHP-EGKYLASAGFDRQV--LLWNVYG-E-C-ENI-SSFT-GHSGAVMDIKFSTDGNTIFTCATDMTVALWDVMAGQRIKKLKGHTGYVNS--VHPTRRGTLLVASGSDDCSIK--------------VWDPRKK--GKCTNLV--NPYQVLTVCFNDTAEQVFSS----GLDNEIK------------IWDLRS-N-----GVVNRLRGHTDTVTGMSLSTD--GSYLLTNSMDNT----------------------LRIWDVRPYAP-P-ERCVKILSGHQHNFEKNLLRCTWSADGSK---VSAGSGDRF--VYVWDTTTRRIMYKLPGHNGSVND--VQFHP--TEPI---IASAS---SDKTIYLGELE A0A151U093/28-326 PIMLLSGHQSAIYTMKFNP-AGSVVASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGTQIVSASPDKTLRAWDVETGKQIKKMVEHLSYVNA--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GSIQTFP--DKYQITAVGFSDASDKIFTG----GIDNDVK------------IWDLRK-G-----EVTMTLQGHQDMITGMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKVLEGHQHNFEKNLLKCSWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHNGSVNE--CVFHP--NEPI---IGSCS---SDKQIYLGEI- I1GVN5/46-344 PIMLLTGHQSAVYCMKFNP-AGTVVASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHRNAILDLQWTTDGTQIISASPDKTLRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DDYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEHLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- S4P792/51-350 PIMLLEGHQGEIFTAKFHP-EGKHLASAGFDRQI--YLWTVYG-Q-C-DNI-MVLK-GHTGAIMELCFSPDGAHMYSGATDNTVAVWDVPTGQRIKKLKGHANFVNS--VSGARRGPELIVSASDDNTIK--------------LWDARKR--NPVASFD--SGFPVTSVLFNDTAEKIISG----GIDNIIK------------VWDIRN-N-----QISYKIKGHTDSITGMSLSYD--GSYLLSNSMDNT----------------------LRIWDVRPFAP-S-ERCVKLMSGHQHNFEKNLLRCAWSPDGSK---VAAGSSDRF--LYIWDTTSRRVLYKLPGHNGSVND--VHFHR--SEPI---VLSAS---SDKQIYLGEID C4WX63/39-340 PIMALEGHEGDIFATKFHP-EGDYLASSGYDRKI--FIWSVYG-E-C-ENL-GVLA-GHSGAVLDMKFSTDGTLIYTSSTDMTVSFWDIYKGQRVKKLKGHTGFVNS--CDSARRGPQMITSASDDCTIK--------------VWDPRKRGGDAVTTFN--NNYQVMSVCFNDTADQVITG----GLDNEIK------------IWDLRK-N-----ALLHRLPGHTDTVTGLELSPD--GCYLLSNAMDNS----------------------LRIWDVRPYAP-A-DRCLKVFSGHTHNFEKNLLRCAWSPDGSK---VSAGSADRY--VYIWDANTRRILYKLPGHNGSVND--VDFHP--KEPI---IMSGS---SDKVVYLGEFD A0A0M4E8Y4/47-346 PIMQLEGHEGEIFTTEFHP-EGEMLLSSGYDRQI--YIWQVYG-D-C-DNI-SAMS-GHTGAVMEAHFTTDGSHIFTCSTDKTLAIWDIVTGQRVRRLKGHTNFVNS--VQGTRRGQQLLCSGSDDRTIK--------------IWDARKK--QAVHTLE--TPFQTTAVCFGDTSEQLISA----GIDNELK------------IWDIRK-Q-----QVLHQLQGHTDTITGVSLSPE--GDFVLSNAMDNT----------------------LRVWDVRPYAP-G-ERCVKVFQGHQHNFEKNLLRCAWSPGGDK---VTCGSADRY--VYVWDVTSRRIMYKLPGHNGSVND--VDFSP--REPL---IVSCS---SDKTLYLGEIE B9IQV9/47-345 PIMLLTGHQSAIYTMKFNP-AGNVIASGSHDKEI--FLWYMHG-E-C-KNF-MVMR-GHKNAVLDLHWTADGSQIISASPDKTVRAWDVETGKQIKKMAEHSSFVNS--CCPSRRGPPLVVSGSDDGTSK--------------LWDLRQK--GAIQTFP--DKYQITAVSFSDASDKIFTG----GIDNDVK------------VWDIRK-G-----EVTMTLEGHQDMITSMQLSPD--GSYLLTNGMDNK----------------------LCIWDMRPYAP-Q-NRCVKIFEGHQHNFEKNLLKCSWSPDGSK---VTAGSADRM--VYIWDTTSRRILYKLPGHAGSVNE--CVFHP--TEPI---IGSCS---SDKQIYLGEI- A0A197K6Y9/1-299 --MLLQGQSAELYTCKFSP-SGEHVASAGAEKSI--YLWNTYG-D-C-TNY-GIIK-GHTGAILELHWSRDGSMIFTASADKSCGVFDVQTGERIKRFKGHTSFVNS--CSPARRGPELLASGSDDGSVK--------------IWDLRAK--NAVESFD--SQYQITSVSFSDAGDLVFAG----GIDNNIA------------AWDMRK-K-----SVSYSLAGHMDTISGLSLSPD--GNQLLSNAMDNT----------------------VRIWDVKPFSATG-NRMLKVFEGAPHGFEKNLIRPAWSKDGAM---IGVGAGDRT--MVIWDTLTRKILYKLPGHKGCVNE--VDFHP--KEPI---VVSCS---TDKTMYLGEIN F4WDB5/50-348 -IMLLEGHQGDIFSIEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-GIMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNT----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE A0A195FX31/50-348 -IMLLEGHQGDIFSIEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-GIMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNT----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE A0A0V0I1R5/1-285 --------------MKFNP-AGTIIASGSHDKEI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDVQWTTDGSTIVSASPDKTVRAWDVETGKQIKKMAEHSSFVNS--CCPARRGPPLIVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKFQITAVSFSDASDKICTG----GIDNDVK------------LWDLRR-C-----EITMTLQGHQDTITGMQLSPD--GSYLLTNAMDCT----------------------LRIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLKCSWSPDGSK---VTGGSSDRM--VYVWDTTSRRILYKLPGHTGCVNE--CVFHP--NEPI---AGSCS---SDKQMYLGEI- F1NUK8/86-385 PIMLLSGHEGEVYCCKFHP-GGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ M8CYH3/85-383 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-E-C-KNY-MVLR-GHKNAILDLHWTTDGSQIISASPDKTLRVWDVETGKQVKKMAEHSSFVNS--CCPSRKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKFQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTESLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTFTGHQHNFEKTLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- L8H8P1/45-344 PIVVLEGHQAEVYTCKFDP-SGKSLASAGFDKRI--FLWQVQE-E-C-ANY-HVFD-GHKNAVQEIHWSTDGERLFSASADKTVMAWDTVVGVRVKKLNEHTSFVNS--CCPSKKG-NLLVSGSDDKAVK--------------LWDLRRK--RSAQTFN--HKYQVTSVAISHNNDQVYFG----GIDGTVH------------VWDLRR-D-----DLAFSVNSHKDIITSIQLSPD--GNFLLSNAMDNS----------------------LHVHDMRPYIP-GDNRLTKVFTGAVHGFDQNLLKVNWSPDGSR---VSAGSADRL--VYIWDSVTRQVIYKLPGHTGTVNE--VAFHP--DEPI---IASCS---SDKKIYLGEIE A0A0P5ZLY2/18-250 ---------------------------------------------------------------------------XXXXXXKTICLWDTRTGAKIKKLKGHSSFVNA--IHPARRGPPLLCSASDDCNIK--------------VWDPRKR--TETVSLD--NSYQVASVTFNDTAEQVISA----GIDNDVK------------VWDLRK-N-----ALLYSLKGHSDTVTGLALSPD--GSYVLSNSMDNS----------------------LRVWDIRPFAP-Q-ERCIKMMVGHAHNFEKNLLRCSWSPDGNK---ISAGSADRF--VYIWDTTSRRIIYKLPGHNGSVND--VVFHP--KEPI---VASGA---SDKLIYLGEIE I1Q478/45-343 PIMLLSGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDIETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPV---IGSCG---SDKQIYLGEL- A0A091IAT6/14-313 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNF-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNIHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A166D1I2/48-346 PIMLLTGHQSAVYTMKFNP-TGNVIASGSHDREI--FLWNVHG-E-C-KNF-MVLK-GHKNAILDLQWTTDGSQIISASADKTLRAWDVETGKQIKRMAEHSFCVNS--CCPSRRGPPLAVSGSDDGTAK--------------LWDLRQR--GAIQTFP--DKYQITAVGFSDASDKIYSG----GIDNNVK------------VWDLRR-N-----EVTMTLEGHQDTITGMQLSPD--GSYLLTNGMDST----------------------LRIWDMRPYAP-Q-NRCVKVMDGHQHNFEQNLLKCGWSPDGSK---VTAGSADRM--VYIWDTTTRRILYKLPGHTGSVNE--CCFHP--NEPI---IGSCG---SDKQIYLGEI- A0A078FYL8/119-417 PIMLLTGHPSAVYTMKFNP-SGTLIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTSDGSMIVSASPDKTVRAWDVETGKQVKKMAEHSSFVNS--CCPTRRGLPLIISGSDDGTAK--------------LWDLRQR--GAIQTFP--DKYQITAVSFSDAADKIFTG----GVDNDVK------------VWDLRK-G-----EATMTLEGHQDTITGMSLSPD--GSYLLTNGMDNK----------------------LCVWDMRPYAP-Q-NRCVKVFEGHQHNFEKNLLKCSWSPDGTK---VTAGSADRM--VHIWDTTTRRILYKLPGHKGSVNE--CVFHP--TEPI---IGSCS---SDKDIYLGEI- A0A1D1VVZ8/59-359 PIMLLTGHGGEIFCCKFHP-DGSALASAGFDRQI--YLWNVFG-E-C-ENY-AILP-GHTGAILDLHFTRDGRKIITSSTDKTIGVFDFMTGARIKRIKGHKQIVNSA-CTSPNAGPDMICSASDDGKVM--------------MWDLRTR--NFVKSFE--SKYPVLSCCFNGVTDVIVSG----GVDNNLK------------VWDLKN-D-----QLHYSLVGHSDSVTGIALDPT--GSYVLSNSMDNT----------------------ARIWDIRPFAP-P-QRCTRLFSGHQHNFEKNLLRCAWSKDGSR---VACGSGDRF--VYIWETVSAKIEYKLPGHNGSVND--VCFHP--REPI---VASAS---SDRQIYLGEIE F7FDZ9/59-352 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVTVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDNGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAACSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS------RFFH---I A0A1D6P5H9/28-326 PIMLLTGHQSAIYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-E-C-KNF-MVLR-GHKNAILDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----ETTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- A0A0V1MV28/321-614 PIMSLIGHEGEIYAAAFSY-DGTMLASG--------VLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDKRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VLSAG---SDKKIFLGELN A0A183KND3/1-254 -----------------------------------------------------MIA-GHGGAILDLVLSSDDSVIYTASSDKSIALWDTESAQRIKKFRGHENIVNS--CAVARRGPQHVCSGSDDGTIR--------------LWDRRQK--ACVQTFQ--NTYQVLSVTFSDTTEMIFSG----GIDNVVK------------GWDLRK-L-----EASMLLNGHTDTVTGLSVSPD--GSFLLSNSMDNT----------------------LRMWDIRPFAP-T-DRCTKIFTGHQHTFEKNLLRCAWSADNRR---ITSGSGDRY--VHVWDVNTRQLVYKLPGHTASVNE--TAFHP--TEPI---LLSVG---SDKKIFLGEIL W9SFC3/47-345 PIMLLTGHQSAIYTMKFNP-AGTVVASGSHDREI--FLWYVHG-E-C-KNF-MVLK-GHKNAVLDLHWTTDGSQIISASPDKTLRAWDVETGKQIKKMAEHSSFVNS--CCPSRRGPPLIVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIYTG----GIDNDVK------------VWDLRK-G-----EVMMTLQGHQDMITGMSLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKILEGQQHNFEKNLLKCSWSPDGSK---VTAGSSDRM--VYMWDTTSRRILYKLPGHTGSVNE--SVFHP--SEPI---IGSCS---SDKQIYLGEI- N6TQB0/1046-1348 PIMVCEGHEGEIFSVDFHP-EGQYFATSGFDRKI--FLWGVYG-E-C-DNI-SVMT-GHTGSITELHFTTDGANIVTASTDYTLGLWDIVTGQRVKRFKGHTAFANC--AQPSRRGPQMIVSGGDDSTVR--------------LWDQRKK--QCAGTMN--SVYQTTAVCFNDTAETVFSG----GVDNDIK------------VWDTRK-K-----EITYAMKGHTDTITGLALSND--GSYLLSNSMDNT----------------------LRIWDVRPFAP-V-ERCVKIFSGHQHNFEKNLLRCAWSPDGNKARPVSGGSADRF--VYIWDTSSRRIIYKLPGHSGCVNS--VAFHP--NEPI---VVSVG---SDKMVYIGEID A0A061S960/46-337 PIMLLEGHDGPVFTLKFNP-EGDVVASGSFDKFI--YLWNVRG-E-C-ENF-MAIK-GHKNAILELHWTPDGEQLLSASPDKTIRAWDAQTGLQVKKMAEHENFVNS--CCPFKRSPPLVVSGSDDGTAK--------------LWDLRVK--RSVRTFN--ENYQVLCVAFSDGGDQIYSA----GIENTIK------------VWDIRK-E-----EVVMSLKGHADSVTGMRLSPD--GTHLLSNSMDNT----------------------LRIWDMRPYAP-E-DRCTKVLTGHQHTFEKNLLKCDWSRDGAK---VTAGSGDRQ--VCVWDAESGRLEYRLPGHTGSVNE--AVFHP--KEPV---IGSCG---SDK-------- A0A0F7VK63/58-357 PIMLLTGHQGDIFTAKFHP-DGTMLASGGFDRQI--FLWNVFG-E-C-ENF-AILT-GHTGAIMELHFSTDGNTLFTASTDKTVALWDVNTGNRIKRLKGHTTFINS--CHVARRGPQLVVSGSDDGTIK--------------LWDSRKK--GTLQTFQ--NTYQVTSVTFNDTAEQIMSG----GIDNDIK------------VWDLRK-N-----DILYKMRGHIDTVTGLALSPD--GSYLLSNAMDNT----------------------ARIWDVRPFAP-Q-ERCVKLFQGHQHNFEKNLLHCCWSTDGSK---ISAGSADRF--VHIWDTTSRRILYKLPGHTGSVNE--IDFHP--KEPI---ILSCS---SDKQIFLGEID R0LFI9/1-253 --------------------------------LV--VLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---------------------- F7ATS4/61-358 PIMLLSGHEGEVYCSKFHP-NGSTLASAGFDRLI-QVSWPRRG-G-W-S---ARVS-THGAAAGPRQDEDGRSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIVSG----GIDNDIK------------VWDLRQ-N-----KLTYTLRGHADSVTGLSLSSE--GSYLLSNAMDNT---------------------AVRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCAWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VAFHP--DEPI---EMPVS---ADKGV-VGEL- E3TE56/48-347 PIMLLSGHEGEVYCCKFHP-NGPMLASAGYDRLI--LLWNVYG-E-C-ENF-ATLK-GHTGAVMELHYNTDGSLLFSASTDKTVCVWDSETGERVKRLKGHTSFVNS--CFPARRGPQLACTGSDDGTVK--------------LWDIRKK--ASIHTFQ--NTYQVLSVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLIYSMQGHGDSVTGLSLSSE--GSYLLSNSMDNS----------------------VRVWDIRPFAP-K-ERCVKIFQGNVHSFEKNLLRCSWSPDGSK---IAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VAFHP--EEPI---VLSGS---SDKRLYMGEIQ E9I8L8/49-332 MTMLLEGHQGDIFAIEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-GIMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNM----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---------------------- A0A0D9WSR6/203-501 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQVISASPDKTLRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- A0A158QNE6/23-322 PIMLLTGHEEEIFAARFST-DGTCLATAGFDQKI--FLWNVYG-D-C-ENF-SVIR-GHTGAIMDVHFNTDSSLLVSAATDKTVRVWDMETGACRRKFKSHIDIVNA--CHPSRRGPQLICSAGDDGLVK--------------VHDVRQK--NAVKTYE--NRFQQLAISFNDTTDEIFVG----SIDSDIY------------CWDMRR-D-----DISYVMHGHKDIITGLALSPN--GNFLLSNSMDCS----------------------AKMWDVRPFAP-Q-ERCVKSFYGHQHNFEKNLLKCGWSGDGKR---VTAGSSDRF--AYVWDASSRYILYKLPGHLGSVNA--SDLHP--TEPI---LLSAG---SDKRIFLGEIP A0A016VZ87/36-335 PIMLLTGHEEEIFAARFST-DGTCLATAGFDQKI--FLWNVYG-E-C-ENF-SLLR-GHTGAIMDVHFNTDSSLLVSAATDKTVRVWDMETGACRRKFKSHVDIVNA--CHPSRRGPQLVCSAGDDGLVK--------------VHDVRLK--DAVKTYE--NRFQQLAVTFNDTSDEIFVG----SIDSDIY------------CWDMRR-D-----DISYVMQGHKDIITGLSLSPN--GNYLLSNSMDCS----------------------AKMWDVRPFAP-Q-ERCLKSFYGHQHNFEKNLLKCGWSGDGKR---ITAGSSDRF--AYVWDVSSRHILYKLPGHLGSVNA--TDLHP--MEPI---LLSAG---SDKRIFLGEIA H3G945/1-298 --MLLSGHSAAVYSLKFSP-SGQHLASSSFDRSI--LLWDVYG-E-C-RNY-NVLR-GHKNAVLEVQWTYDSAQVVSASADKMLGLWDVQSGGRVKKFAGHTSVVNS--CCPVTSGPTLIVSGSDDCTTK--------------LWDVRHK--RAVKSFE--NNFQVTAVCFSGDNSHVIAG----GLDGDIK------------MWDLRK-D-----QVSSVLQGHADIVTGVSLSPD--GNYLLSNAMDST----------------------VRKWDVRPFVK-G-DRLKTTFMGAKHNFDRTLIRCGWSSDMRF---VASGSADRY--VYVWDAETGNLRYHLPGHTGSVNE--AAFHP--TEPI---VGSCS---SDKNIYLGELA A0A074YXG7/62-361 PNMLLNGHDSEIYCGKFSS-DGTFLVSAGFDRRI--LIWETYG-E-C-ENI-SVMT-GHGGAILDVSLSSDDSIIYTASSDKSIALWDTESGQRIKKFRGHQNIVNA--CGVARRGPQIICSGSDDGTVR--------------LWDRRQK--THAQSFQ--NTYQVLAVTFSDTAEIIFSG----GIDNVVK------------GWDLRK-L-----DASMLLTGHTDTVTGLSVSPD--GSYLLSNAMDNT----------------------LRMWDVRPFAP-A-ERCSKVFIGHQHTFEKNLLRCAWSADGRR---ITCGSGDRY--VHVWDTNTRQLIYKLPGHTASVNE--TALHP--TEPI---LLSVG---SDKKIFLGEIL B4K357/6-246 P-----------------------------------------------NNS-VVLA-------------------QDPKRSKSELIAYTNRDKALLEAKGHTNFVNS--VQGSRRGQQLLCSGSDDRTIR--------------IWDARKK--QAAHCLE--SPFQVTAVCFGDTSEQIISG----GIDNELK------------IWDIRK-Q-----QVLHHLRGHTDTITGLSLSPE--GDFVLTNAMDNT----------------------LRVWDVRAYAP-G-ERCVKVFQGHQHNFEKNLLRCAWSPGSDK---ISSGSADRH--VYIWDVNTRRILYKLPGHNGSVND--VDFSP--REPL---ILSAS---SDKTLYLGEIE W6URP5/881-1181 PNMLLTGHESEVFCVKFVPTEGSYLVSAGFDRQI--FVWETYG-Q-C-DNV-AVMA-GHGGAILNLALSSDGELLYSASSDKTVAIWDLNTCQRIKKIRGHQNIVNS--VDIARRGPQVIVSGSDDGTVR--------------LWDRRQK--TEVQNFQ--NTYQVLAVAFSDTAEMIFSG----GIDNIIK------------GWDLRK-L-----DVAMRLTGHTDTVTGLALSPD--GDFLLSNAMDNT----------------------LRVWDVRPYAP-A-ERCTKILQGHVHTFEKNLLRCAWSPDGQY---VTCGSGDRY--VHVWEVKTRNLIYKLPGHSASVNE--TDFHP--LEPI---LLSGG---GDKKIFLGEIE A0A015K3X2/1-245 ---------------------------------------------------------------MELQWSRDSSKIFSCATDKTVGVWDVTTGTRIKKFKGHTSFVNS--VSSARRGNEILVSGSDDGTIK--------------IWDLRQK--DAVDTFI--HQYQITATCFSEAGDLVFAG----CLDNDIT------------AWDLRK-K-----AHAYILKGHQDTISGIRLSPD--GSYLLSNAMDNT----------------------VRVWDVKPFAP-T-NRLLKIFEGAPHSFEKNLIRPAWSSDGSQ---IASGSGDRT--VMIWDFSSRKILYKLPGHKGCVNE--VDFHP--KEPI---IVSGS---TDRQIFLGEIN A0A0L7R5D1/49-348 SIMLLEGHQGDIFSLEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-SVMS-GHSGAIMELHFSPDGNHLYTASTDMTLGLWDIVVGTRIKKLKGHTSFVNS--ISGARRGLTQLCSASDDSTIR--------------VWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----SILYKLKGHSDTITGLSLSPD--GSYILSNAMDNT----------------------LRIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE A0A094ZL65/64-363 PNMLLNGHESEVYCGKFSS-DGSFLASAGFDRRI--LLWETYG-E-C-ENI-ATMM-GHGGAILDLVLSSDDSVIYTASSDKSIALWDTESAQRIKKFRGHENIVNS--CAVARRGPQHVCSGSDDGTIR--------------LWDRRQK--ACVQTFQ--NTYQVLSVTFSDTAEMIFSG----GIDNVVK------------GWDLRK-L-----EASMLLNGHTDTVTGLSVSPD--GSFLLSNSMDNT----------------------LRMWDIRPFAP-T-DRCTKIFTGHQHTFEKNLLRCAWSADNRR---ITSGSGDRY--VHVWDVNTRQLVYKLPGHTASVNE--TAFHP--TEPI---LLSVG---SDKKIFLGEIL C1EHA8/70-370 PIMLLEGHGDAVNSIKFSP-DGATVASCGADKTV--LMWNVRG-D-C-ENY-MMMQ-GHKNSVLELHWTADGDNILTCSPDKTLRLWDATTGESVKCMKGHQSFVNA--CSAAPKGKPLCVSGSDDGTAK--------------LWDFRRK--GEVATFA--DRFQVTAVAFDAEGDRFFSG----GLDNVLK------------CWDIRN-D--A--EPYMVLPGHTDTITGIAVAPD--GSHVLTNAMDCT----------------------LRAWDVRSYAP-E-DRCVKYFVGHQHNFEKGMLKCGWSPDGAK---VTAGSACRN--VFVWDFDSRRVLYKLPGHEGAVNE--VTFHP--TEPI---IGSAG---SDGKIYLGELA A2YFR3/28-326 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPV---IGSCG---SDKQIYLGEL- A0A0E0ACP4/28-326 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPV---IGSCG---SDKQIYLGEL- A0A0E0LE64/28-326 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPV---IGSCG---SDKQIYLGEL- A0A0E0HUE3/28-326 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPV---IGSCG---SDKQIYLGEL- A0A0K9QCM4/47-345 PIMLLTGHQSAVYTMKFNP-EGTVIASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGTQLVSASPDKTVRAWDAETGKQIKKMAEHSSFVNS--CCPARRGPPLVVSGSDDGTAK--------------LWDMRHR--GAIQTFP--DKYQITAVAFSDASDKIYTG----GIDNDVK------------VWDIRK-N-----EVTMTLQGHTDMITGMSLSAD--GSYLLTNGMDCK----------------------LCVWDMRPYAP-Q-NRCVKVLEGHQHNFEKTLLKCAWSPDGSK---VTSGSADRM--VYIWDTTSRRILYKLPGHTGSVNE--CVFHP--REPI---VGSCS---SDKQIYLGEL- B4KHF0/47-346 PIMQLEGHEGEIFTTEFHP-EGEMLLSSGFDRQL--YIWQVYG-D-C-ENI-MAMS-GHSGAVMEAHFTPDGSHIFTCSTDKTLAIWDIVTGQRVRRLKGHTNFVNS--VQGSRRGQQLLCSGSDDRTIR--------------IWDARKK--QPVHVLE--SPYQVTAVCFGDTSEQVISG----GIDNELK------------IWDIRK-Q-----QVLHHLRGHTDTITAVALSPE--GDFVLTNAMDNT----------------------LRVWDVRAYAP-G-ERCVKVFQGHQHNFEKNLLRCAWAPGGDK---ISAGSADRH--VYVWDVNTRRILYKLPGHNGSVND--VDFSP--KEPL---ILSGS---SDKTLYLGEIE H0V391/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A162UIL5/58-357 PVMQLSGHQGEIFACEFDP-SGEHIASASFDRQI--LLWNTYG-E-S-KNY-GVLK-GHTNAVMDVHWSRDASQLFSCSADKTVGIWDAKTGERIRRWKGHSMVVNS--CQVARRGPEMVVSGSDDGCIK--------------LWDSREK--EATQTFE--DKYQVTSVCFSDAGDMVYSG----GLDNEIK------------VWDLRK-R-----AVSYTLSGHIDTISGMSLSHD--GSYLLSNAMDNT----------------------VRIWDVKPFSP-A-DRCIKVFEGAPHGFEKNLIKPCWSTNDTQ---IACGSADRT--AVVWEVDSGKILYKLPGHKGSVND--VDWHP--KEPI---LMSCS---TDKTIFLGEVK G1NTM8/59-356 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---SKSVL-TLGKRKLW----E F1L1D4/49-348 PIMMLSGHDGEIYAAKFSP-DGSCLASAGFDMKI--FLWNVYG-E-C-ENF-SVLK-GHIGAVMDVHFSTDSGYLFSASTDKTVRVWDMETGACVRKFKSHKDIVNS--CHPARRGPQLVCSGSDDGSLI--------------VHDIRKK--DPVAILQ--STYQITAVSFDDTAEQVFGG----GIDNDIK------------VWDLRR-Q-----ALNYVMRGHTDTVTALSLSPS--GTHLLSNAMDCS----------------------AKMWDIRPFAP-E-QRCVKSFGGHQHNFEKNLLKCAWSPDGHM---ITCGSSDRY--LYVWEVSSRRILYKLPGHQGSVNA--TDFHP--TEPI---LLSAG---SDKKIYLGEIE U3IQK3/1-288 ------------XCCKFHP-GGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A091GAA7/13-312 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAIMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A0K9QAG7/90-388 PIMLLTGHQSAVYTMKFNP-EGTVIASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGTQLVSASPDKTVRAWDAETGKQIKKMAEHSSFVNS--CCPARRGPPLVVSGSDDGTAK--------------LWDMRHR--GAIQTFP--DKYQITAVAFSDASDKIYTG----GIDNDVK------------VWDIRK-N-----EVTMTLQGHTDMITGMSLSAD--GSYLLTNGMDCK----------------------LCVWDMRPYAP-Q-NRCVKVLEGHQHNFEKTLLKCAWSPDGSK---VTSGSADRM--VYIWDTTSRRILYKLPGHTGSVNE--CVFHP--REPI---VGSCS---SDKQIYLGEL- V9L0Y0/49-348 PIMLLTGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-E-C-DNF-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERIKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDVRKK--ASIHTFQ--NTYQVLAATFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLIYTMRGHTDSVTGLSLSGD--GSYLLSNSMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSADGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VAFHP--EEPV---ILSAS---SDKRLYIGEIQ A0A1D6LQJ4/28-326 PIMLLTGHQSAIYCMKFNP-AGTVIASGSHDKDI--FLWLAHG-E-C-KNF-MVLR-GHKNAILDLQWTTDGTQIISASPDKTLRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEHLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIFLGEL- A0A091F7Y0/20-319 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNF-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ Q7ZTY9/48-347 PIMLLSGHEGEVYCCKFHP-NGATLASSGYDRLI--LMWNVYG-D-C-ENY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVCVWDSETGERVKRLKGHTSFVNS--CFPARRGPQLACTGSDDGTVK--------------LWDIRKK--ASVHTFQ--NTYQVLSVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLIYSMQGHGDSVTGLSLSAD--GSYLLSNSMDNS----------------------VRVWDIRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSADGSK---IAAGSADRF--VYIWDTTTRRIVYKLPGHAGSVNE--VAFHP--EEPI---VLSGS---SDKRLYIGEIQ A0A0V0ZY16/36-335 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VLSAG---SDKKIFLGELQ W2G206/59-358 PTMLLSGHSAAVYSLKFSP-SGQHVASCSFDRSI--LLWDVYG-E-C-RNY-NVFN-GHKNAVLEVQWTYDSAQVVSASADKTVGLWDAESGSRIKKFAGHSSIVNS--CCPVTSGPTLIVSGSDDCTTK--------------IWDVRSK--RAVKSFE--NKFQVTAVCFSGDNSQVITG----GLDGDIK------------MWDLRK-D-----EVSTVLQGHADIVTGVSLSPD--GSYLLSNAMDST----------------------VRKWDVRPFVK-G-ERLKTTFMGAKHSFDRTLIRCGWSSDMRF---VASGSADRY--VYIWDAETGNLRYHLPGHTGSVNE--ATFHP--TEPI---VGSCS---SDKTIYLGELA W2W5J1/59-358 PTMLLSGHSAAVYSLKFSP-SGQHVASCSFDRSI--LLWDVYG-E-C-RNY-NVFN-GHKNAVLEVQWTYDSAQVVSASADKTVGLWDAESGSRIKKFAGHSSIVNS--CCPVTSGPTLIVSGSDDCTTK--------------IWDVRSK--RAVKSFE--NKFQVTAVCFSGDNSQVITG----GLDGDIK------------MWDLRK-D-----EVSTVLQGHADIVTGVSLSPD--GSYLLSNAMDST----------------------VRKWDVRPFVK-G-ERLKTTFMGAKHSFDRTLIRCGWSSDMRF---VASGSADRY--VYIWDAETGNLRYHLPGHTGSVNE--ATFHP--TEPI---VGSCS---SDKTIYLGELA A0A0W8C750/59-358 PTMLLSGHSAAVYSLKFSP-SGQHVASCSFDRSI--LLWDVYG-E-C-RNY-NVFN-GHKNAVLEVQWTYDSAQVVSASADKTVGLWDAESGSRIKKFAGHSSIVNS--CCPVTSGPTLIVSGSDDCTTK--------------IWDVRSK--RAVKSFE--NKFQVTAVCFSGDNSQVITG----GLDGDIK------------MWDLRK-D-----EVSTVLQGHADIVTGVSLSPD--GSYLLSNAMDST----------------------VRKWDVRPFVK-G-ERLKTTFMGAKHSFDRTLIRCGWSSDMRF---VASGSADRY--VYIWDAETGNLRYHLPGHTGSVNE--ATFHP--TEPI---VGSCS---SDKTIYLGELA W2QZJ9/59-358 PTMLLSGHSAAVYSLKFSP-SGQHVASCSFDRSI--LLWDVYG-E-C-RNY-NVFN-GHKNAVLEVQWTYDSAQVVSASADKTVGLWDAESGSRIKKFAGHSSIVNS--CCPVTSGPTLIVSGSDDCTTK--------------IWDVRSK--RAVKSFE--NKFQVTAVCFSGDNSQVITG----GLDGDIK------------MWDLRK-D-----EVSTVLQGHADIVTGVSLSPD--GSYLLSNAMDST----------------------VRKWDVRPFVK-G-ERLKTTFMGAKHSFDRTLIRCGWSSDMRF---VASGSADRY--VYIWDAETGNLRYHLPGHTGSVNE--ATFHP--TEPI---VGSCS---SDKTIYLGELA A0A080ZDN7/59-358 PTMLLSGHSAAVYSLKFSP-SGQHVASCSFDRSI--LLWDVYG-E-C-RNY-NVFN-GHKNAVLEVQWTYDSAQVVSASADKTVGLWDAESGSRIKKFAGHSSIVNS--CCPVTSGPTLIVSGSDDCTTK--------------IWDVRSK--RAVKSFE--NKFQVTAVCFSGDNSQVITG----GLDGDIK------------MWDLRK-D-----EVSTVLQGHADIVTGVSLSPD--GSYLLSNAMDST----------------------VRKWDVRPFVK-G-ERLKTTFMGAKHSFDRTLIRCGWSSDMRF---VASGSADRY--VYIWDAETGNLRYHLPGHTGSVNE--ATFHP--TEPI---VGSCS---SDKTIYLGELA A0A0E0Q0Z7/110-408 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPV---IGSCG---SDKQIYLGEL- A0A0R3W3I5/61-361 PNMLLTGHESEVYCVKFVPTEGSYLVSAGFDRQI--FVWETYG-Q-C-DNV-AVMA-GHGGAILNLALSSDGELLYSASSDKTVAIWDLNTCQRVKKIRGHQNIVNS--VDIARRGPQMIVSGSDDGTVR--------------LWDRRQK--TEVQNFQ--NTYQVLAVAFSDTAEMIFSG----GIDNIIK------------GWDLRK-L-----DVAMRLTGHTDTVTGLALSPD--GDFLLSNAMDNT----------------------LRVWDVRPYAP-A-ERCTKILQGHVHTFEKNLLRCAWSPDGQY---VTCGSGDRY--VHVWDVKTRNLIYKLPGHSASVNE--TDFHP--LEPI---LLSGG---GDKKIFLGEIE A0A099ZLY9/11-314 PLMLLSGHEGEGYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISGHRCQHFCHTVK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A0F7VHH7/46-345 PIMLLSGHQGEIFCGNFHP-DGAFLASAGFDRDI--YFWNVYG-E-C-DNF-AVLT-GHTGAVLDLKFSTDGSYLFTASTDKTLSIWDTEVGVRIKKLKGHTSYVNS--CCSARRGPQLICSASDDCTIK--------------VWDARKR--GTLHSFQ--DTYQVTAVTFNDTAEQIISG----GIDNVIK------------VWDMRK-N-----GVLYKMVGHSDTITGLALSPD--GSYILSNSMDNT----------------------LRIWDIRPFAP-Q-ERCVKIIQGHQHNFEKNLLKCSWSHDGSK---ITAGSADRF--VYVWDTTSRRILYKLPGHNGSVNE--VNFHP--KEPI---IMSCS---SDKQIYLGEIE E4X2Z4/74-376 PIMLLEGHDGEIYCGKFAK-DGKTFVSAGHDRHI--FYWDVFG-E-C-LNYHQIPN-AHKGSILDLQFGQEGEHFFTASSDNTVGMFDYKAGVRVKRMKGHQGIVNA--VHAARRGDPLVASASDDCSIK--------------IWDTRRK--GHIDDLK--CRYQMTSVTFNDTSDQVICA----GIDNVVK------------IYDRRT-K-----RVCTNMKGHNDTVTSLALSNC--GSYVLSNSMDNT----------------------LRVWDVRPFVP-K-ERMVKMFMGHKHNFEMNLLKCAWSPDDSK---VTCGSADRY--VYVWDVNSRSLQYKLPGHMGSVND--AQFYPNVKEPI---IASVA---SDKAIYLGEIQ A0A1B6H667/68-367 PIMVLEGHQGEIYSVKFHP-EGQYLASSGFDRQI--FLWNVYG-E-C-ENI-AVMT-GHTGAVMDLHFSTDGATLFTCSTDTTVALWDLQTCQRIKKLKGHSSFVNS--CHPTRRGPLMVVSGADDCTIK--------------IWDPRKK--GQAVTLN--NTYQVTAVSFNDTSEQVITG----GIDNDIK------------IWDVRK-N-----GLVQRLRGHTDTVTGLSLSPD--GSYLLSNAMDNT----------------------LRIWDIRPFAP-Q-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSADRF--VYIWDTTSRRILYKLPGHNGSVND--VHLHP--KEPI---IMSGS---SDKVIYLGELE E1ZGD8/1-298 --MLLTGHGDQVFTMRFNA-EGDVIASGSHDKHI--FLWRTYG-E-C-ENF-MMLK-GHKNAVLEVHWTPDGEELISCSPDKTVRVWDAETGTEVKRLQEHKDIVNS--CCPARRGPPLVVSGGDDCQAK--------------LWDLRAR--NSVKTFD--ERYQILSVAFSEAGDQIYTA----GIENVVN------------VWDLRR-E-----EVSVSLAGHSDSITGMRLSPD--GTHLLTNSMDNT----------------------LRVWDMRPYAP-A-NRCTKVFAGHVHTFEKNLLRCDWSPDGEK---VTAGSGDRC--VYIWNTTTRALMYKLPGHSGSVNE--CVFHP--KEPI---IGSAS---SDKTIYLGELA A0A0A0KTB1/46-344 PIMLLSGHQSAIYTLKFNP-DGNVVASGSHDKEI--FLWNVHG-D-C-KNF-MVLR-GHKNAVLDLHWTVDGSQIVSASPDKTLRAWDVETGKQIKKMAEHSSFVNS--CCPTRRGPPLIVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIFTG----GIDNDVK------------VWDLRK-G-----EVMMTLQGHQDMITGMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKIFEGHQHNFEKNLLKCSWSADGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHTGSVNE--CVFHP--SEPI---VASCG---SDKQIYLGEI- S8E8K3/41-339 PIMLLSGHQSAIYTMKFNP-SGTVIASGSHDKDI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDVQWTTDGSQIISASPDKTLRAWDVEAGKQIKKMVGHLFVVNS--CCPARRGPPLIVSGSDDGTAK--------------LWDMRQR--GSVQSFP--DKYQITAVSFSDASDKIYTG----GIDNDVK------------VWDLRK-T-----DPIMKLQGHHDMLTGMQLSPD--GSYLLTNSMDCT----------------------LRIWDMRPYAP-Q-NRCVKIFEGHQHNFEKNLLRCSWSPDGSK---VTAGSSDCM--VHIWDTTSRRILYKLPGHAGSVNE--CGFHP--HEPI---IGSCS---SDKQIYLGEI- A0A061EIG1/27-325 PIMLLTGHQSAIYTMKFNP-TGTVVASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGSQIISASPDKTLRAWDVETGKQIKKMAEHSSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIFTG----GIDNDVK------------LWDLRK-G-----EVTMTLQGHQDMITGMSLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTTRRILYKLPGHAGSVNE--SVFHP--NEPI---IGSCS---SDKQIYLGEI- A0A1I8A4M9/123-423 PIMCLSGHEGELYASRFSS-DGSCLASSGFDQKI--LLWNVYG-E-C-ENF-SHFR-GHTGAVMDLHFNTDDSHLYSCATDKTVRVWDMETGVCQRKFKSHKDIVNA--CFPARRGPELVVSCSDDGVIF--------------VHDVRKR--LPVMEFK--AKYPTTAVTFNDTTEQIISG----GIDNEII------------VWDMRR-K-----EAVYMLSGHQDTVTALSLSPD--GSFLISNSMDCT----------------------VKQWDIRPFCTVP-DRCVSTFVGHQHNFEKNLLKCGWSPDGKR---ITAGSADRF--TYVWDVATRRILYKLPGHHGSVNA--VDFHP--QEPI---LLSAG---SDKRIYLGELE A0A0L7LAP8/24-312 PIMLLEGHQGEIFTAKFHP-EGKHLASAGFDRQI--FLWTVYG-Q-C-ENV-MVMK-GHTGAIMELCFSPDGSHLYTCATDNSVAVWDVPTGTRIKKLKGHASFVNS-------------VNASDDNTIK--------------LWDARKR--NPIASFD--STFPVTSVLFNDTAEKIISG----GVDNVIK------------IWDIRN-N-----QIAYKIKGHTDTVTGLALSND--GSYLLSNSMDST----------------------LRIWDVRPFAP-S-ERCVKLMSGHAHNFEKNLLRCAWSPDGSK---VAAGSSDRH--LYVWDTTSRRVLYKLPGHHGAVND--VHFHH--KEPI---VLSAG---SDKQIYLGEID A0A0L0GAR9/62-360 PTMLLTGHDGVVNCGAFSP-DGSIIATGSQDKQV--FLWQSTG-E-C-ENY-MVLS-GHTNAVMQVDFASGGGELLSCSADKFLALWNVSTGERIKKIRGHTAVVNS--CCPSRVG-TLACSGSDDGTVK--------------LWDFREK--KAVATLS--NRYQVTGVCFSADAQRIYSG----SIENTIK------------CWDLRK-N-----EVEYHMNGHTDTVTGVELSPD--GNHLLSNAMDNS----------------------VRTWDVRPYKA-D-NRLEKIFTGATHNFEKNLLKCSWDPSGKM---VTAGSADRL--VCVWDAKSAKMLYRLPGHTGTVND--VKFHP--REPV---VLSCS---SDKKMFLGELA A0A0T6AWX1/48-316 PIMLLEGHEGDIFTLEFHP-EGQYLASSGFDRRI--FLWSVYG-E-C-ENL-SVMS-GHTGAVMELHFSSDGYHIYTASTDHTLGLWDIPTGQRVKKFKGHTMFVNS--VQGARRGPQLLVSGGDDSTVR--------------LWDIRKK--IPAATMS--TAYQVTTVSFNDTAEQVYTG----GIDNDIK------------VWDLRK-N-----ELLYTMKGHTDTVTGMALSPD--GSYLLTNGMDNT----------------------LRIWDIRPYAP-Q-DRCIKVFTGHQHNFEKNLLRCAWSSDGNK---IGAGSADRF--VYIWDTTSRRVLYKLPGH----------------------------------------- A0A1B0CTK2/47-327 PIMLLEGHQGDIFTCEFHP-EGQIILSSGFDRQI--LIWKVFD-E-C-ENI-GLMT-GHTGSVMEAHFSPDGSNIFTCSTDNTVAIWDVPTCQRIRKLKGHGNFVNS--VQGARRGPQILVSGSDDNTIK--------------LWDSRKR--YATATLE--ATYQVTAVGFNDTAEQIVSG----GIDNDVK------------IWDLRK-N-----EVLHRLRGHTDTITGIALSPD--GSYILTNSMDNT----------------------LRIWDIRPYAP-T-ERCVKIFSGHQHNFEKNLLRCAWSKDGTL---VSCGSADRF--VYIWDTTTRQIKYKLPGHNGSVNDFMVIWH----------------------------- A8XQX7/30-329 PTMLLQGHEGEIYTGVFSP-DGTCLATSGYDQKI--FFWNVYG-E-C-ENF-STIR-GHSGAIMDIKFTTDSGMLASCGTDKSIRLWDMETGACARNFKTHTDFVNA--IHPSRRGVTLIASASDDGTCR--------------VHDLRTK--QPVKTYV--NRYQQTAVTFNDTTDLVICG----GIDNMLK------------VWDMRR-D-----EISYTLPGHRDTITGLSLSPS--GKFIVSNSMDCT----------------------LRQWDIRPFVP-G-SRAVGMFGGHNHNFEKNLLKCAWSPCERF---VTAGSSDRF--VYVWDVATKRIMYKLPGHMGSVNC--TDFHP--TDSI---LLSAG---SDKRVFLGEID A0A1J3J279/42-340 PIMLLTGHPSAVYTMKFNP-AGTLIASGSHDREI--FLWKVHG-D-C-KNF-MVLK-GHKNAILELHWTSDGSQIVSASPDKTVRAWDVETGKQIKKMAEHSSFVNS--CCPTRRGPPLIISGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDAADKIYTG----GVDNVVK------------VWDLRK-G-----ETTMTLEGHQDTITGMSLSPD--GSYLLTNGMDCK----------------------LCVWDMRPYAP-Q-NRCVKIFDGHQHNFEKNLLKCSWSPDGAK---VTAGSADRM--VHIWDTTTRRILYKLPGHTGSVNE--CVFHP--TEPI---IGSCS---SDKNIYLGEI- A0A067KTJ0/47-345 PIMLLTGHQSAVYTMKFNP-AGNLIASGSHDKEI--FLWYVHG-E-C-KNF-MVLK-GHKNAVLDLHWTTDGYQIISASPDKTVRAWDIETGKQIKKMAEHSSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVGFSDASDKIFTG----GIDNNVK------------VWDLRK-N-----EVTMKLEGHQDMITGMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKVLEGHQHNFEKNLLKCSWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHTGSVNE--CVFHP--TEPI---VGSCS---SDKQIYLGEI- G1Q3G9/60-358 -IMLLSGHEGEVYCCKFHP-NGSTLPSAGFDRLI--LLWNVYG-D-C-DNC-ATLK-GHSGAVMELYYNMDGSLLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYLARRGPQPVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VLVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRS--VYVWDTTSRRILYKLPSHAGSINE--VAFHS--DEPI---ILSAS---SDKRLYMGEIQ B3VIY0/1-215 ----------------------------------------------C-KNF-MVMR-GHKNAVLDLHWTADGSQIISASPDKTVRAWDVDTGKQIKKMAEHSSFVNS--CCPSRRGPPLVVSGSDDGTSK--------------LWDLRQK--GAIQTFP--DKYQITAVSFSDASDKIFTG----GIDNDVK------------VWDIRK-G-----EVTMTLEGHQDMITSMQLSPD--GSYLLTNGMDNK----------------------LCIWDMRPYAP-Q-NRCVKIFEGHQHNFEKNLLKCSWSPDGSK---VTAGSADRM--VYIWD------------------------------------------------------ A0A0V1D163/321-605 PIMSLIGHEGEIYAAAFSY-DGTMLASG--------VLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---SN--------- F7E1N4/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ B4P2A3/47-346 PIMQLEGHEGEIFTAEFHP-EGELLLSSGFDRQI--YIWQVYD-D-C-ENV-MAMS-GHSGAVMEAHFTPDGSHIFTCSTDKTLAIWDIATGQRQRRFKGHGNFVNS--VQGSRRGQQLLCSGSDDRTIK--------------IWDARKK--HPAHTLE--SPFQVTAVCFGDTGEQVISG----GIDNEVK------------IWDIRK-Q-----AVLHHLRGHSDTITGMSLSPE--GDFVLTNAMDNT----------------------LRVWDVRPYAP-G-ERCVKVFQGHQHNFEKNLLRCAWSPGSDK---ITSGSADRH--VYIWDVNTRRILYKLPGHNGSVNA--VDFSP--KEPL---ILSGS---SDKTLYLGEID A0A195E265/50-348 -IMLLEGHQGDIFSIEFHP-EGQYLVSTGFDRQI--FIWNVYG-E-C-ENI-GIMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNT----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE G1T7P9/101-400 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A0N4V7K2/376-687 PIMMLSGHEGEIYTAKFSN-DGTFLASAGFDMII--FLWNVYG-D-C-ENF-SVLK-GHNGAVMDVHFSTDSGYLFSASTDKTIRVWDMETGACIRKFKSHKDIVNS--CHPARRGPQLVCSGSDDGSVL--------------VHDIRRR--DPIATFQ--NTYQITAVTFNDTADQVVGG----GIDNDIKAIAFNILSPFLSVWDLRR-N-----EVMYVMRGHTDTVTGLALSPD--GSYVLSNAMDCT----------------------ARMWDIRPFAP-E-QRCHKTFVGHQHNFEKNLLKCSWSPNGQR---VSCGSSDRF--LYVWDVTSRAIVYKLPGHQGSVNA--TDFHP--KEPI---LLSAG---SDKKIFLGEVD A0A0V0U3P1/331-630 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VLSAG---SDKKIFLGELQ A0A0D8XKB2/504-799 -IMLLTGHEDEIFTARFSS-DGTCLASAGLDQKI--FLWNVYG-E-C-ENF-SVLR-GHTGAVMDVHFNTDSSLLITAATDKTVRVWDMETGACRRKFKSHIDIVNA--CHPSRRGPQLVCSAGDDGLVK--------------VYDVRHK--DAVKTYE--NRFQQLAVTFNDTTDEIFVG----SIDSDIY------------CWDMRR-D-----DISYIMHGHKDIITGLSLSPN--GNHVLSNSMDCS----------------------AKMWDIRPFAP-S-ERCIKSFYGHQHNFEKNLLKCGWSGDGRR---VTAGSSDRF--VYVWDVSSRHILYKLPGHLGSVNA--TDLHP--LEPI---LMLYT---TKGRVYVS--- Q171B6/51-350 PIMLLEGHGGEIFSTEFHP-EGQHLVSTGFDRQI--FLWNVYG-E-C-ENV-GMMS-GHSGAVMEVHFSPDGGNLYTCSTDKIVAVWDVPTCTRIRKLKGHSHFVNS--CSGARRGPTLIVSGSDDSTIK--------------IWDARKK--NVLHTFD--NGYQVTAVCFSDTAEQIISG----GIDNEIK------------VWDIRK-K-----DVIYRLRGHTDTITGLSLSPD--GSYILSNSMDNT----------------------LRIWDVRPYAP-A-ERCVKVFNGHQHNFEKNLLRCAWSPDGSK---ISSGSADRF--VYIWDTTSRRILYKLPGHNGSVND--VDFHP--TEPV---IVSAS---SDKTLYLGEVE F7ATA4/61-347 PIMLLSGHEGEVYCSKFHP-NGSTLASAGFDRLI-PLIWADTG-L-CSEKH-GALT-RFRADSSSLQAHQRPSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIVSG----GIDNDIK------------VWDLRQ-N-----KLTYTLRGHADSVTGLSLSSE--GSYLLSNAMDNT---------------------AVRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCAWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VAFHP--DEPI---------------------- A0A158NHG5/50-348 -IMLLEGHQGDIFSIEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-GIMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIIAGTRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNT----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE A0A195AUP8/50-348 -IMLLEGHQGDIFSIEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-GIMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIIAGTRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNT----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE B4ICS9/47-346 PIMQLEGHEGEIFTAEFHP-EGELLLSSGFDRQI--YIWQVYE-D-C-ENV-MAMS-GHSGAVMEAHFTPDGSHIFTCSTDKTLAFWDIATGQRQRRFKGHGNFVNS--VQGSRRGQQLLCSGSDDRTIK--------------IWDARKK--HAAHTLE--SPFQVTAVCFGDTGEQVISG----GIDNEVK------------IWDIRK-Q-----AVLHHLRGHSDTITGMSLSPE--GDFILTNAMDNT----------------------LRVWDVRPYAP-G-ERCVKVFQGHQHNFEKNLLRCAWSPGSDK---ITSGSADRH--VYIWDVNTRRILYKLPGHNGSVNA--VDFSP--KEPL---ILSGS---SDKTLYLGEID B4Q5N3/47-346 PIMQLEGHEGEIFTAEFHP-EGELLLSSGFDRQI--YIWQVYE-D-C-ENV-MAMS-GHSGAVMEAHFTPDGSHIFTCSTDKTLAFWDIATGQRQRRFKGHGNFVNS--VQGSRRGQQLLCSGSDDRTIK--------------IWDARKK--HAAHTLE--SPFQVTAVCFGDTGEQVISG----GIDNEVK------------IWDIRK-Q-----AVLHHLRGHSDTITGMSLSPE--GDFILTNAMDNT----------------------LRVWDVRPYAP-G-ERCVKVFQGHQHNFEKNLLRCAWSPGSDK---ITSGSADRH--VYIWDVNTRRILYKLPGHNGSVNA--VDFSP--KEPL---ILSGS---SDKTLYLGEID F0ZM92/57-357 PIIQLTGHKGEVYTCKFNS-YGTALASGGFDKEI--FLWNVYG-E-C-INY-SVLK-GHKGTILELHWSTDSNEIYSACTDKSIGVWDANKGELIKRIREHTAVVNS--CYPARRGPPLVASGSDDGTAR--------------VFDTRSK--GSTHTLK--HKYPITSVCFSDASDQLISG----GLDNIIR------------IWDLRN-D--E--EPLITMNGHQDTISGMSVSKD--GAYLLSNSMDNT----------------------LRQWDIRPYAP-Q-NRNIKTFIGAQNNFEKNLIKCSFSPDSRR---VATGSSDRQ--VYIWDSNTTKIQYCLPGHNGTVNE--VAFHP--NEPI---IASAS---SDKSIYLGEIK A0A0V1P6V8/321-605 PIMSLIGHEGEIYAAAFSY-DGTMLASG--------VLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KYIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---SN--------- F6VKV2/62-361 PIMLLSGHEGEVYCSKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERIKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLTVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ H9G3W1/59-359 PIMLLSGHEGEVYCCKFHP-NGATLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMEIHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADYNQ-LQISIKI-NVCLLTAHLDFV---------------------LVRIWDVRPFAP-K-ERCVKILQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--ITFHP--EEPI---ILSAS---SDKRLYMGEIQ U3JEN5/90-389 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNF-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYSMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A091KXG3/15-264 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADR-------------------------------------------------------------- A0A199VQI5/28-326 PIMLLTGHQSAIYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNF-MVLR-GHKNAILDLQWTTDGSQIISASPDKTIRAWDVETGKQVKKMAEHSSFVNS--CCISRRGPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTFP--DKYQITAVSFSDAADKIYTG----GLDNDVK------------VWDLRR-N-----EVMMTLQGHGDMITGMQLSPD--GSYLLTNGMDCT----------------------LRIWDMRPYAP-Q-NRCIKIFVGHQHNFEKNLLKCSWSPDGSK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TVFHP--TEPI---IGSCS---SDKQIYLGEI- A0A0V0ZY12/324-623 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VLSAG---SDKKIFLGELQ S7PQR8/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A0K9PZR4/43-341 PIMLLTGHQSGIYTMKFNP-AGTVIASGSHDRDI--FLWYIHG-E-C-KNY-MVLR-GHKNAVLDVQWNTDGTQIISTSADKTLRAWDVDTGKQVKKMVEHAEPVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDLRQR--GSVQTVT--ENYQVTAVCFSDASDKIYSA----GIDNDVK------------VWDLRR-N-----EKIITLQGHSDMMTGMQLSPD--GSYLLTNSMDST----------------------LRIWDMRPYAP-Q-NRCVKIFAGHQHNFEKNLLKCAWSPDGSK---ITAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TVFHP--TEPI---IASCS---SDKQIYLGEI- G3RNR8/58-355 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLIFFFVWLVVG-K-I-DCY-CL-----SSLISFLFFLLLSSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ A0A0D3GJE4/28-326 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDIETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPV---IGSCG---SDKQIYLGEL- A0A1D1Y1W1/51-349 PIMLLTGHQSAIYTVKFNP-TGAVIASGSHDKDI--FLWNTYG-E-C-KNF-MVLR-GHKNAVLDLQWTTDGNQVISASADKTLRAWDVETGKQVKKMTDHIFVVNA--CCTSRRGPPLVASGSDDGTSK--------------LWDLRQR--GSIQNFG--TEHQITAVSFSDASDKIFTG----GVDDVIK------------VWDLRR-I-----EVVDKLQGHSDMITGMQLSPD--GSYLLTNAMDCT----------------------LRIWDMRPYAP-E-NRCVKIFAGHQHNFEKNLLRCSWSPDGSK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--SEPI---IGSCS---SDKQIYLGEI- B3MUC8/47-346 PIMQLEGHEGEIFTTEFHP-EGEMLLSSGFDRQI--HIWQVYG-D-C-ENI-MALS-GHSGAVMEAHFTPDGSHIFSCSTDKTLAIWDIVTGQRQRRFKGHGNFVNS--VQGSRRGQQLLCSGSDDRTIK--------------IWDARKK--HAAHTLE--SPFQVTAVCFSDTGDQVITG----GIDNELK------------IWDIRK-Q-----SVLHHLRGHADTVTGMALSPE--GDFVLTNAMDNT----------------------LRVWDVRPYAP-G-ERCVKVFQGHQHNFEKNLLRCAWSPGSDK---ISCGSADRH--VYIWDVNTRRILYKLPGHNGSVND--VDFSP--KEPL---ILSGS---SDKTLYLGEIE H0YRC3/81-378 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNF-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLT-TPCGHATG-DGLSLSSE--GSYVLSNAMDNT----------------------VRIWDIRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A1A9X086/95-370 FILCL-------------------------RHIL--VIWNVYG-E-C-ENI-MVMS-GHTGAILEAHFNTDGSQIFTCSTDKTLAIWDIVTGQRIRRLKGHSNFVNT--VHGTRRGMQMLCSGADDRTVR--------------LWDSRKK--LSTLTLE--ASYQVTSATFNDIGDQIISG----GIDNGIK------------VWDIRK-Q-----EVLHHLKGHTDTITGISLSPD--GSYILSNSMDNT----------------------LRIWDIRPYVP-G-ERCVKIFQGHQHNFEKNLLRCAWSPDGSK---ISAGSADRF--VYIWDTTSRRILYKLPGHSGSVND--VDFSS--KEPL---ILSGS---SDKTLYLGEIE A0A093D060/1-267 ------------------------------------VLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A091KX54/1-267 ------------------------------------VLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A091P9Z8/1-267 ------------------------------------VLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A091UM61/1-267 ------------------------------------VLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A078CSS9/117-415 PIMLLTGHPSAVYTMKFNP-SGTLIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTSDGSMIVSASPDKTVRAWDVETGKQVKKMAEHSSFVNS--CCPTRRGLPLIISGSDDGTAK--------------LWDLRQR--GAIQTFP--DKYQITAVSFSDAADKIFTG----GVDNDVK------------VWDLRK-G-----EATMTLEGHQDTITGMSLSPD--GSYLLTNGMDNK----------------------LCVWDMRPYAP-Q-NRCVKVFEGHQHNFEKNLLKCSWSPDGTK---VTAGSADRM--VHIWDTTTRRILYKLPGHKGSVNE--CVFHP--SEPI---IGSCS---SDKDIYLGEI- A0A152A2A9/58-361 PIIQLSGHKGEIFTCKFNH-SGTALASGSYDKEI--FLWNIFH-EDC-INY-GVLK-GHKGSVLELHWTTDDSEMVSVSSDKSIGVWDLNQGVLLKRIREHKTFVNS--CSVVRRGPPYLVSASDDCSSR--------------LFDQRTR--GSIQIYK--HQYPVTAVTFSDASDQVITG----SIDNIIR------------CWDLRQ-E--E--EPLMTLTGHQDSITGLSVSNQNGGSYLLSNSMDQT----------------------IRQWDLRPYAP-Q-NRCVKVYQGSQHNHEKNLIKCSWSPDDSR---IASGSSDKL--VYIWDTDTKKLLYRLPGHTGSINE--VVFHP--TEPI---IASCS---ADKTIFLGEIK A0A0V1P773/321-614 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KYIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLKG---------KTIWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---SN--------- A0A091U4S4/14-313 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A093IU65/14-313 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A091TJG5/14-313 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A087RJC6/14-313 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A093NM48/14-313 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A091MEV8/14-313 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A093FJ68/14-313 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ D4A944/101-400 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWSVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A077YUQ7/362-661 PIILLQGHMGEVYTAKFSK-EGTFLASAGFDQKI--LLWNVYG-E-C-DNF-AVLS-GHTGAIMELHFSAESDMLVTCSTDRTIRIWDMETGVCLRKFKGHASFVNS--CHLARRGPRLICSGSDDGTIK--------------VWDQRKR--DYIHSFD--NKYQVTAVTFNDTTEHVIAG----GIDNDLK------------VWDLRK-G-----VVAYGMFGHVDTVTGLCLSPD--GSHVLSNSMDCT----------------------VRIWDIRPFAP-E-VRCVRVLQGNQHNFEKNLLRCSWSPDGNR---VSAGSSDRY--VYVWDVMSQRILYKLPGHFGSVNE--TDFHP--CEPI---ILSAG---SDKKIYMGELE R7TUX4/48-347 PIMLLSGHEGEVFSIKFSP-DGQILSSAGFDRLI--FLWNVYG-E-C-ENL-ATMK-GHSGAVMDLHYSTDGSKLVSCSSDHTVALWDLEVAERMRKFKGHRSFVNS--CDSARRGPHMICSGSDDGTVK--------------YWDARKK--VPLESFQ--STYQVTAVSFNDTAEQIIAG----GIDNEIK------------IFDLRK-N-----EILYRMRGHTDTVTGMKLSPD--GSYLLTTSMDNT----------------------VRIWDVRPYAP-Q-ERCVKIFQGNQHTFEKNLLRVTWAPDGSK---VAAGSGDRF--VYIWDTTTRRIVYKLPGHAGSVND--VDFHP--HEPI---IASGS---SDKNIYLGELE H3DHW0/48-347 PIMLMSGHEGEVYCCKFHP-NGATLASSGFDRLI--LLWNVYG-D-C-ENY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVGVWDSETGERIKRLKGHTSFVNT--CYPARRGPQLICTGSDDGTVK--------------LWDIRKK--GAIHTFQ--NTYQVLAVTFNDTSDQIMSG----GIDNDIK------------VWDLRQ-N-----KLIYNMQGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VTFHP--EKPV---VLSGS---SDKRLYMGEIQ E3M2W3/30-329 PTMVLQGHEGEIYTGVFSP-DGTCLATSGYDQKI--FFWNVYG-E-C-ENF-STIK-GHAGAIMDIKFSTDSGYLVSCGTDKSVRLWDMETGTCARNFKSHTDFVNA--VHPSRRGVTLVASASDDGTCR--------------VHDLRTK--EPVKTYI--NKYQQTAVTFNDTSDQVICG----GIDNVLK------------VWDMRR-D-----EITYTLTGHRDTITSISLSPT--GKYVISNGMDCT----------------------VRQWDIRPFVA-G-QRAVGVFAGHNHNFEKNLLKCAWSPCERY---ITAGSSDRF--VYVWEVLTKQIMYKLPGHMGSVNC--TDFHP--TDSI---LLSAG---SDKRVFLGEID A0A0V1D1B6/321-611 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---SN--------- A0A093CHR7/11-310 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A091JP43/11-310 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A093Q8P7/20-319 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A0B7NWX3/57-353 PVMQLIGHDGEIFSCEFDH-SGEYIASAGFDRQI--LLWNTYG-E-V-KNY-GVLK-GHTNAVMEIHWSRDSNQIFSCSADKTVGIFDIKTGTRTRRWRGHSGIVNS--CQVARRGAELVVSGSDDCTVK--------------IWDNRTK--EAVSTFE--NEYQVTSVCFSDAGDMIYSA----GLDNDVK------------VWDVRK-N-----QLAYTMKGHMDTIAGMSLSPD--GNNLLTNSMDNT----------------------VRIWDIKPFAA-A-DRCLKIFEGAPHGFEKNLIKPCWATDGSQ---IACGSADRS--VVIWDVDTRKILYKLPGHKGCVND--VDWHP--KEPI---IMSAKDSPIKRTV------ A0A087TYJ8/43-342 PIMLLTGHQGEIFCGTFHP-DGTILASAGYERDI--FFWNVYG-E-C-DNF-AVLT-GHTGAVLDLKFSTDGGYLFSASTDKTLSIWDTEVGVRIKKLKSHTSYVNS--CCPARRGPQLICSASDDCTIK--------------VWDARKR--GAVHSFQ--DTYQVTAVTFNDTAEQIISG----GIDNIIK------------VWDMRK-T-----GVLYKMIGHAETITGLSLSPD--GSYILSNAADNL----------------------LRIWDIRPFAP-Q-ERCVKVFTGHQHNFEKNLLKCSWSPDGSK---ITAGSADRF--VYVWDTASRRIMYKLPGHNGSVNE--VNFHP--KEPI---IMSCS---SDKQIYLGEIE U4UA05/1037-1332 PIMVCEGHEGEIFSVDFHP-EGQYFATSGFDRKI--FLWGVYG-E-C-DNI-SVMT-GHTGSITELHFTTDGANIVTASTDYTLGLWDIVTGQRVKRFKGHTAFANC--AQPSRRGPQMIVSGGDDSTVR--------------LWDQRKK--QCAGTMN--SVYQTTAVCFNDTAETVFSG----GVDNDIK------------VWDTRK-K-----EITYAMKGHTDTITGLALSND--GSYLLSNSMDNT----------------------LRIWDVRPFAP-V-ERCVKIFSGHQHNFEKNLLRCAWSPDGNKARPVSGGSADRF--VYIWDTSSRRIIYKLPGHSGCVNS--VAFHP--NEPI---VVSNA---NMSI------- U6NM29/38-337 PIMLLTGHEEEIFAARFST-DGTCLATAGFDQKI--FLWNVYG-D-C-ENF-SVIR-GHTGAIMDVHFNTDSSLLISAATDKTVRVWDMETGACRRKFKSHIDIVNA--CHPSRRGPQLICSAGDDGLVK--------------VHDVRQK--NAVKTYE--NRFQQLAISFNDTTDEIFVG----SIDSDIY------------CWDMRR-D-----DISYVMHGHKDIITGLALSPN--GNFLLSNSMDCS----------------------AKMWDVRPFAP-Q-ERCVKSFYGHQHNFEKNLLKCGWSGDGKR---VTAGSSDRF--AYVWDASSRYILYKLPGHLGSVNA--SDLHP--TEPI---LLSAG---SDKRIFLGEIP K3XX44/128-426 PIMLLTGHQSAIYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-E-C-KNF-MVLR-GHKNAILDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- A0A0C7B9C4/58-357 PVMQLTGHGGEIYSCEFDP-SGEFIASAGFDRQI--YLWNTYG-E-V-KNY-GIIK-GHGNAIMEIHWSRDSKQIFSCSADKSVGIFDVKTGDRVRKWRGHAGIVNS--CQAARRGPEIVVSGSDDCTVK--------------VWDPRSK--DAVSTFE--NEYQVTSVCFSEAGDMVYSA----GIDNTVK------------VWDVRK-N-----QVAYTMEGHLDTVTGMRLSPD--GSYLLTNSMDNT----------------------VRIWDIKPFAP-N-DRCLKVFEGAPHGFEKNLIRPTWSTDGTQ---IACGSADRT--VVIWEVDSKKILYKLPGHKGCVND--VDWHP--REPI---VMSAS---TDKTLFLGEVK A0A183SIA7/61-361 PNMLLTGHDGEVFCAKFVPCEGCYVVSAGFDRQI--FLWETYG-E-C-QNI-AVMT-GHGGAILDLAISSDGELLYSASSDKTLAIWDMETCQRVKRIRGHQNIVNS--VDIARRGPQLICSGSDDGTVR--------------LWDRRVK--KEVQNFQ--NTYQVLSVTFSDTAEMIFSG----GIDNIVK------------GWDLRK-L-----DISMRLNGHTDTVTALSLSPD--GHHLLSNAMDNT----------------------LRMWDVRPYAP-A-ERCTRIFTGHMHTFEKNLLRCAWSPDGRR---VTCGSGDRF--VYVWDTNSRHLIYKLPGHSASVNE--TAFHP--LEPI---LLSCG---SDKKIYLGEVE A0A195D4D9/50-348 -IMLLEGHQGDIFSIEFHP-EGQYLVSTGFDRQI--FIWNVYG-E-C-ENI-GIMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNT----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE A0A1D6SFB2/48-347 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-E-C-KNY-MVLRGGHKNAILDLHWTTDGSQIISASPDKTLRVWDVETGKQVKKMAEHSSFVNS--CCPSRKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKFQITAVSFSETADKVFTG----GLDNDVK------------WWDLRK-N-----EVTESLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTFTGHQHNFEKTLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- A0A0V1D175/321-611 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---SN--------- F2E6G5/48-346 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-E-C-KNY-MVLR-GHKNAILDLHWTTDGSQIISASPDKTLRVWDVETGKQVKKMAEHASFVNS--CCPSRKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKFQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTECLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTFTGHQHNFEKTLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- A0A0C9S2Z0/52-351 PIMVLTGHQGAIYTMKFNP-TGNVIASGSHDKDI--FLWNVHG-D-C-KNF-MVLK-GHKNAILDLHWTTDGSQIISASPDKTLRAWDAETGMQVKKMAEHSSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDLRHR--GAIQTFP--DRYQITAVGFSDSADKIYTG----GIDNEIK------------VWDLRR-N-----EVTMRLQGHTDTITGMQLSPD--GSYLLTNSMDCS----------------------LRIWDMRPYAP-Q-NRCVKILTGHQQNFEKNLLKCSWSLDGSK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--SVFHP--TEPI---VGSCS---SDKQIYLGEIE A0A1I8MK54/1-255 ----------------------------------------------------LAMS-GHTGAVLEAHFNTEGSQVFTCSTDKTLAIWDIGTGQRVRRLKGHTNFVNS--LQGTRRGQQMLCSGSDDRTIR--------------IWDARKK--LSAHMLE--APFQVTSVTFNDTSDQVISG----GIDNEVK------------VWDIRK-Q-----QVLHSLKGHTDTITGLSLSPD--GSYILSNSLDNT----------------------LRIWDIRPYVP-G-ERCVKIFQGHQHNFEKNLLRCAWSPDGSK---ISAGSADRY--VYVWDTTSRRILYKLPGHNGSVND--VDFSP--KEPL---IVSAS---SDKTLYLGEIE A0A1J1J6V1/51-351 PIMKLDGHESDIFTCEFNS-EGDYLASSGFDRKI--FLWSVYGEE-C-QNV-SVMS-GHKGAVMELHFSPSGESIYTCSTDKFVSVWSVETGQRIRKMKGHQNFVNS--IENARRGVETLVSGSDDNMIK--------------LWDARKK--FVCHTLD--NAYQVTAVCLNDTAEQVISG----GIDNDIK------------IWDFRK-N-----EVLYKLKGHTDTITGLALSPC--GSYVLSNSMDST----------------------LRIWDIRPFCP-Q-DRCKAVLQGHSHNFEKNLLRCAWSKDGTL---VSAGSADRF--MYIWDVNSKKIAFKLPGHCGSVND--VDFHP--KEPI---VLSGS---SDKTLYMGELE A0A0L0H858/53-351 PIMLLTGHEGEVLSCKFSP-SGRQLASGSFDQMI--YLWNAFG-E-C-NNY-MALK-GHTGAVLEVQWSHDGRNIYSASTDKTLCIWDTEIGERVKRLRGHTGFVNS--CASTRRGTELVVSGSDDGTAK--------------VWDPRQK--HAVKSFE--NKYAITATAFSQDAGLIFAG----GIDNQIR------------AWDLRK-D-----EVMYSLTGHFDTVTGLRISPD--GDYLLSNAMDNT----------------------VRIWDVKPFAP-TGTRLQKIFEGAPHGFEKNLLRPCWSPDGDY---VATGSGDRS--VVVWDVATQKIVYKLPGHKGVCNE--VDW----TGSI---IASAS---NDRTLFIGELN I1N8B6/47-345 PIMLLSGHQSAIYTMKFNP-AGSVVASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTTDGTQIVSASPDKTVRAWDVETGKQIKKMVEHLSYVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GSIQTFP--DKYQITAVGFSDASDKIFTG----GIDNDVK------------IWDLRK-G-----EVTMTLQGHQDMITAMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKVLEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHNGSVNE--CVFHP--NEPI---IGSCS---SDKQIYLGEI- W2TKJ6/46-335 PIMLLTGHEEEIFAARFST-DGTCLATAGFDQKI--FLWNVYG-E-C-ENF-SLLR-GHTGAVMDVHFNTDSSLLVSAATDKTVRVWDMETGACRRKFKSHIDIVNS--CHPSRRGPQLICSAGDDGLVK--------------VHDIRLK--DAVKTYE--NRFQQLAVTFNDTSDEIFVG----SIDSDIY------------CWDMRR-D-----DISYVMQGHKDIITGLALSPN--GNYLLSNSMDCS----------------------AKMWDVRPFAP-Q-ERCLKSFYGHQHNFEKNLLKCGWSGDGKR---ITAGSSDRF--VYVWDVGSRHILYKLPGHLGSVNA--TDLHP--LEPI---------------YEMCEI- G0M6M9/30-329 PTMVLQGHEGEIYTGVFSP-DGTCLATSGYDQKI--FFWNVYG-E-C-DNF-STIK-GHAGAIMDIKFSTDSGFLMSCGTDKSIRVWDMETGTCARNFKNHTDFVNA--IHPSRRGVTLIASASDDGTCR--------------IHDLRTK--EPVKTYT--NRYQQTAVTFNDTSDQVICG----GIDNVLK------------CWDMRR-D-----EVTYTLSGHRDTITGISLSPS--GNYIISNSMDCS----------------------VRQWDIRPFVP-G-QRFVQGFAGHNHNFEKNLLKCAWSPCERF---ITAGSSDRF--VYVWEVSTRKIVYKLPGHMGSVNC--TDFHP--KESI---LLSCG---SDKRVFLGEID Q5RF51/58-357 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-GNY-ATLK-GYSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRS--VCVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ Q2HJH6/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVRIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ A0A1E5UYX5/29-327 PIMLLSGHQSAIYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-E-C-KNF-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTLRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGHQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCG---SDKQIYLGEL- J3JZ11/50-349 PIMVCEGHEGEIFSVDFHP-EGQYFATSGFDRKI--FLWGVYG-E-C-DNI-SVMS-GHTGSITELHFTTDGANIVTASTDYTLGLWDIVTGQRVKRFKGHTAFANC--AQPSRRGPQMIVSGGDDSTVR--------------LWDQRKK--QCAGTMN--SVYQTTAVCFNDTAETVFSG----GVDNDIK------------VWDTRK-K-----EITYAMKGHTDTITGLALSND--GSYLLSNSMDNT----------------------LRIWDVRPFAP-V-ERCVKIFSGHQHNFEKNLLRCACSPDGNK---VSGGSADRF--VYIWDTSSRRIIYKLPGHSGCVNS--VAFHP--NEPI---VVSVG---SDKMVYIGEID A0A068XZ51/61-361 PNMLLTGHESEVFCVKFVPTEGSYLVSAGFDRQI--FVWETYG-Q-C-DNV-AVMA-GHGGAILNLALSSDGEVLYSASSDKTVAIWDLNTCQRIKKIRGHQNIVNS--VDIARRGPQVIVSGSDDGTVR--------------LWDRRQK--TEVQNFQ--NTYQVLAVAFSDTAEMIFSG----GIDNIIK------------GWDLRK-L-----DVAMRLTGHTDTVTGLALSPD--GDFLLSNAMDNT----------------------LRVWDVRPYAP-A-ERCTKILQGHVHTFEKNLLRCAWSPDGQY---VTCGSGDRY--VHVWEVKTRNLIYKLPGHSASVNE--TDFHP--LEPI---LLSGG---GDKKIFLGEIE A0A0R3UP15/61-361 PNMLLTGHESEVFCAKFVPSEGSYVVSAGFDRQI--FLWETYG-E-C-ENI-AVMS-GHGGAILDLALSSDGELLYSASSDKTLAIWDLTTCQRVKKIRGHQNIVNS--IDIARRGPQMIASGSDDGTVR--------------LWDRRQK--TEVQNFQ--NTYQVLSVAFSDTAEMIFSG----GIDNIIK------------GWDLRK-L-----DVAMRLTGHTDTVTGLALSPD--GNFLLSNAMDNT----------------------LRIWDVKPYAP-T-ERCTKLLQGHVHTFEKNLLRCAWSPDGRY---VTCGSGDRY--VHVWDVTTRHLIYKLPGHSASVNE--TGFHP--LEPI---LLSGG---SDKKIFLGEIE B4JB76/47-346 PIMQLEGHEGEIFTTEFHP-EGEMLLSSGFDRQL--YIWQVYG-E-C-ENI-MAMS-GHTGAVMEAHFTPDGSHIFTCSTDKTLAIWDIVTGQRVRRLKGHTNFVNS--VQGSRRGQQLLCSGSDDRTIR--------------IWDARKK--QAAHCLE--SPFQVTAVCFGDTSEQIISG----GIDNELK------------IWDIRK-Q-----QVLHHLRGHTDTITGLSLSPE--GDFVLTNAMDNT----------------------LRVWDVRAYAP-G-ERCVKVFQGHQHNFEKNLLRCAWSPGSDK---ISSGSADRH--VYIWDVNTRRILYKLPGHNGSVND--VDFSP--REPL---ILSAS---SDKTLYLGEIE A0A0B2VLY1/368-667 PIMMLSGHEGEIYAAKFSP-DGTCIATGGFDMKI--FLWNVYG-N-C-ENF-SVLK-GHIGAVMDVHFSTDSGYLFSASTDKTVRVWDMETGTCVRKFKSHKDIVNS--CHPARRGPQLVCSGSDDGTVI--------------VHDIRKK--DPIAILP--STYQITAVSFDDTAEQVFGG----GIDNDIK------------VWDLRR-Q-----TLSYVMRAHTDTVTALSLSPN--GTHLLSNAMDCS----------------------AKIWDIRPFAP-E-QRCVKSFGGHQHNFEKNLLKCAWSPDGHM---ITCGSSDRY--VYAWEVSSRRILYKLPGHQGSVNA--TDFHP--NEPI---LLSAG---SDKKIYLGEIE G1QLC2/114-413 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ W5NUF6/59-361 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNTE-------------------FAVRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ W5LN00/48-347 PIMLLSGHEGEVYCCKFHP-NGAMLASAGYDRLI--LLWSVYG-D-C-ENF-ATLK-GHSGAVMELHYNTDGSLLYSASTDKTVCVWDSETGERVKRLKGHTSFVNS--CFPARRGPQLACTGSDDGTVK--------------LWDIRKK--ASVHTFQ--NTYQVLSVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLIYSMQGHGDSVTGLSLSSE--GSYLLSNSMDNS----------------------VRVWDIRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSSDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VAFHP--EEPI---VLSGS---SDKRLYMGEIQ A0A0R3SW26/59-359 PNMLLTGHESEVFCVKFVPLDGNYVVSAGFDRQV--FVWETYG-E-C-DNV-AVMP-GHGGAILDLAVSTDGELLYSASSDKTVAIWDLNVCQRVKKIRGHQNIVNS--VDIARRGPQMIVSGSDDGTVR--------------LWDRRQK--TEVQNFQ--NTYQVLSVTFNDTAEMIFSG----GIDNIIK------------GWDLRK-L-----DVAMRLSGHTDTVTGLALSPD--GNFLLSNAMDNT----------------------LRIWDVRPYAP-P-ERCTKILYGHMHTYEKNLLRCAWSADGQY---VTCGSGDRY--VHVWDTKTRNLIYKLPGHSASVNE--TAFHP--REPI---LVSAG---SDKKIFLGELE D8UH05/49-351 PILQLSGHAGEVLSLRFSP-DGQYLASASFDKDI--FCWRVYD-G-T-DNF-MVLK-GHRNAVLEVHWFTGGEMLLSCAADKTARCWDVESGLQVKKLGEHTGIVNS--CCPLRHGAKMFVTGADDTTVK--------------VWDMRVK--KSVLTVR--DGFPVCAVAFADTDDQVYTG----GVDNVIK------------AWDLRK-GSGS--DPALLLKGHSDTVTGLRLSPD--GSHLLSNSMDNT----------------------LREWDVRPYAP-Q-SRCTKVFTGHLHNFEKNLLRCDYSSDGSR---VACGSADRK--VYIWDTNLRKVLYALPGHTGSVNE--VVFHP--KEPI---IGSAS---SDMTIFLGELV H3BBM0/51-350 PIMLLSGHEGEVYCCKFHP-NGSTLASSGFDRLI--LLWSVFG-D-C-DNY-VTLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERIKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLTVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLIYSMRGHTDSVTGLSLSAE--GSYLLSNAMDNT----------------------VRVWDIRPFAP-K-ERCVKIFQGNMHNFEKNLLRCSWSPDGSK---VTAGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VVFHP--DEPI---LLSAS---SDRRLYMGEIQ G7L0J5/47-345 PIMLLTGHQSAVYTMKFNP-TGSVVASGSHDKEI--FLWNVHG-D-C-KNF-MVLK-GHKNAVLDLHWTSDGTQIISASPDKTLRLWDTETGKQIKKMVEHLSYVNS--CCPTRRGPPLVVSGSDDGTAK--------------LWDMRQR--GSIQTFP--DKYQITAVSFSDASDKIYTG----GIDNDVK------------IWDLRK-G-----EVTMTLQGHQDMITSMQLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHNGSVNE--CVFHP--NEPI---VGSCS---SDKQIYLGEI- M3ZL90/48-347 PIMLMSGHEGEVYCCKFHP-NGATLTSSGFDRLI--LMWNVYG-D-C-ENF-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVGVWDSETGERIKRLKGHTSFVNT--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--GAIHTFQ--NTYQVLAVTFNDTSDQILSG----GIDNDIK------------VWDLRQ-N-----KLIYNMHGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VVFHP--EEPV---VLSGS---SDKRLYMGEIQ A0A0V1HCB1/35-319 PIMSLIGHEGEIYAAAFSY-DGTMLASG--------VLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDKRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---ST--------- A0A026WBK9/50-348 -IMLLEGHQGDIFSLEFHP-EGQYLASTGFDRQI--FLWNVYG-E-C-ENI-GAMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGVRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCYTLN--NTYQVTAVTFNDTAEQVITG----GIDNDVK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNT----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE A0A1D5QE20/53-328 PIMLLSGHEGEVYFFKFHP-NGSTYPSAGFDRLI--LSWNVYG-D-C-DNS-AILK-GHSGAVMELHNNTDGRMLFSASTDKTVAVWDSETGKRVKRLKGHTSFVNS--CYLASLFALAVTM-----AVK--------------FWDVWKK--AAIQTFR--NMYQVLAVTPSDPSDQIISY----GIDNDIK------------VWDLHQ-N-----KLMYTMTGHADSVTGLSLSSE--GSCLLSNAMDNT----------------------VLVWDVWPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAASSADRF--VYVWDTTSRRILYKLPGHAGSISE--VAFHP--D------------------------- B0W5S6/52-352 PIMLLEGHGGEIFSTEFHP-EGQHLVSTGFDRQI--YLWNVYG-EQC-DNV-GMMN-GHTGAVMEVHFSPDGGNLYTCSTDKMVAVWDVPTCTRIRKMKGHANFVNS--CQGARRGPTLICSGSDDSTIK--------------VWDARKK--HVIHTFD--SEFMVTAVCFNDTAEQIISG----GIDNEIK------------IWDIRK-R-----DVIYRLRGHTDTITGLALSPD--GSYVLSNSMDNT----------------------LRIWDVRPYAP-M-ERCVKVLTGHQHNFEKNLLRCAWSPDGSR---ISAGSADRF--VYVWDTTSRRIMYKLPGHNGSVND--VDFHP--TEPV---IVSGS---SDKTLYLGELD M4CGQ4/38-336 PIMLLSGHQSAIYTMQFNP-AGTVIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTSDGLQIVSASPDKTLRAWDVETGKQVKKMAEHSSFVNS--CCPSRRGLPLIVSGSDDGTAK--------------LWDMRQR--GAVQTFP--DKYQITAVSFSDAADKIFTG----GVDNDVK------------VWDLRK-G-----EAIMTLEGHQDTITGMSLSPD--GSYLLTNAMDCK----------------------LCVWDMRPYAP-Q-NRCVKIFEGHQHNFEKNLLKCAWSPDGSK---VTAGSADRM--VHIWDTTSRRILYKLPGHNGSVNE--CVFHP--HEPI---IGSCS---SDKLIYLGEI- E2AJJ7/50-348 -IMLLEGHQGDIFSLEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-GIMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCHTLN--NTYQVTAVTFNDTAEQVISG----GIDNDVK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNT----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYMGEIE V4LW52/38-336 PIMLLSGHQSAIYTMKFNP-AGTVIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAVLDLHWTSDGSQIVSASPDKTVRAWDVETGKQVKKMAEHSSFVNS--CCPSRRGVPLIVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDAADKIFTG----GVDNDVK------------VWDLRK-G-----EVIMTLEGHQDTITGMSLSPD--GSYLLTNAMDSK----------------------LFVWDMRPYAP-Q-NRGVKIFEGHQHNFEKNLLKCAWSPDGSK---VTAGSADRM--VHIWDTASRRILYKLPGHNGSVNE--SVFHP--HEPI---IGSCG---GDKQIYLGEI- E2R016/59-358 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVQLFFQNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ILSAS---SDKRLYMGEIQ E5S7V5/328-621 PIMSLIGHEGEIYAAAFSY-DGTMLASG--------VLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNDVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDRRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VLSAG---SDKKIFLGELQ R0FZU2/45-343 PIMLLSGHPSAVYTMKFNP-AGTLIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTSDGSQIVSASPDKTVRAWDVETGKQIKKMAEHSSFVNS--CCPTRRGPPLIISGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDAADKIFTG----GVDNDVK------------VWDLRK-G-----EATMTLEGHEDTITGMSLSPD--GSYLLTNGMDNK----------------------LCVWDMRPYAP-Q-NRCVKIFDGHHHNFEKNLLKCSWSPDGTK---VTAGSADRM--VHIWDTTSRRILYKLPGHTGSVNE--CVFHP--TEPI---IGSCS---SDKNIYLGEI- G7NWW5/58-357 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ K7C924/58-357 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ A0A096MXB3/58-357 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ H2N881/58-357 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ H9G208/58-357 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ A0A0D9S7Z2/58-357 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---IISAS---SDKRLYMGEIQ H2VGG3/1-298 --MVLQGHEGEIYTGTFSP-DGTCLATSGYDQKI--FLWNVYG-E-C-ENF-SVIS-GHSGAIMDLKFNTDAGYLMSCGTDKSIRVWDMATGACARRFKSHTDFVNA--IHPSRRGVSLVASVSDDGTCR--------------VHDLRSK--EPVKTYT--NKYQQTAVTFNDTTDQVICG----GIDNVLK------------VWDMRR-D-----EITYTLTGHRDTITGISLSPS--GKFVISNAMDCT----------------------VRQWDIRPFVP-G-QRSVGVFTGHNHNFEKNLLRCAWSPCERF---ITAGSSDRF--CYVWETVAKRIAYKLPGHMGSVNC--TDFHP--KEPI---LLSVG---SDKRVFLGEID A0A0E0E4K5/28-326 PIMLLTGHQSAVYCMKFNP-AGTVIASGSHDKDI--FLWYVHG-D-C-KNY-MVLR-GHKNAVLDLQWTTDGTQIISASPDKTVRVWDVETGKQVKKMAEHSSFVNS--CCPARKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKYQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTEYLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTLTGLQHNFEKNLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPV---IGSCG---SDKQIYLGEL- K3X9U2/62-361 PTMLLTGHSAAVYSLKFDP-SGQHAASSSFDRSI--LLWDVYG-E-C-RNY-NMLS-GHKNAVLEVQWTYDSAQIVSASADKTVGVWDAQTGHRVKKFLGHTSVVNS--CCPVTKGPTLVVSGSDDSTIK--------------LWDIRHK--RAVKTFE--SNYQVTAVCFSADNGQVIAG----GLDGDIK------------MWDLRK-D-----EVSTVLQGHTDIVTSLSLSPD--GNYLLSNAMDST----------------------VRKWDLRPFVT-G-PRLKTTYLGAKHGFERTLIRAGWSADMRY---VASGSADRY--VYIWDAETGNLRYHLPGHTGSVNE--VAFHP--KEPI---VGSCG---SDKNIYFGELM A0A0A1N1Q3/58-357 PVMQLTGHGGEIYSCEFDP-SGEFIASAGFDRQI--YLWNTYG-E-V-KNY-GIIK-GHGNAIMEIHWSRDSKQIFSCSADKSVGIFDVKTGDRVRKWRGHAGIVNS--CQAARRGPEIVVSGSDDYTVK--------------VWDPRSK--DAVSTFE--NEYQVTSVCFSEAGDMVYSA----GIDNTVK------------VWDVRK-N-----QVAYTMEGHLDTVTGMRLSPD--GSYLLTNSMDNT----------------------VRIWDIKPFAP-N-DRCLKVFEGAPHGFEKNLIRPTWSTDGTQ---IACGSADRT--VVIWEVDSKKILYKLPGHKGCVND--VDWHP--REPI---VMSAS---TDKTLFLGEVK V9EAA6/59-358 PTMLLSGHSAAVYSLKFSP-SGQHVASCSFDRSI--LLWNVYG-E-C-RNY-NVFN-GHKNAVLEVQWTYDSAQVVSASADKTVGLWDAESGSRIKKFAGHSSIVNS--CCPVTSGPTLIVSGSDDCTTK--------------IWDVRSK--RAVKSFE--NKFQVTAVCFSGDNSQVITG----GLDGDIK------------MWDLRK-D-----EVSTVLQGHADIVTGVSLSPD--GSYLLSNAMDST----------------------VRKWDVRPFVK-G-ERLKTTFMGAKHSFDRTLIRCGWSSDMRF---VASGSADRY--VYIWDAETGNLRYHLPGHTGSVNE--ATFHP--TEPI---VGSCS---SDKTIYLGELA T1HYR4/34-333 PIVALEGHQGDIFSVAFHP-EGKYLASTGFDRQI--YIWNVYG-E-C-ENI-STLT-GHSGAIMDLHFSTDGNTIFTCSTDNTVAMWDLIAGQRIKKLKGHTGFVNS--CYPTRRGTQLIVSGSDDCSIK--------------VWDPRKK--GKATTLV--NPYQVLTVSFNDTAEQVFSS----GIDNDIK------------IWDLRN-N-----AIVNKLRGHTDSVTGMALSSD--GSYLLTNSMDNN----------------------LRIWDVRPFAP-Q-ERCVKILSGHQHNFEKNLLRCSWSPDGSK---VSAGSGDRF--VYVWDTTTRRIMYKLPGHNGSVND--VQFHP--SEPI---IASGS---SDKTVYLGELE A0A068SGF1/61-360 PVMQLIGHEGEIFSSKFDP-SGDHIASVSYDRQI--LLWNTYG-D-C-NNY-GVLR-GHANAILEVHWSRDGSQLFSCSADKTVAIWDATTGERVRRWKGHTLVVNS--CQVARRGPETVVSGSDDGCIK--------------LWDSRSK--DAVQNFQ--DKYQVTSVCFSDAGDMVYTG----GLDNEIK------------VWDIRK-K-----AVAYTLSGHLDTITGIALSPD--GSSLLSNSMDNT----------------------VRIWDVKPFAP-A-DRCTKVLEGAPHGFEKNLITPCWSTDGSQ---VACGSADRT--VVIWEANSGKILYKLPGHKGCVND--VDWHP--MEPI---IMSAS---TDKTIMLGEVK A0A0C9SDU0/1-277 ------------------------LATSGFDRQI--FFWNTLG-E-C-ENF-GVLT-GHTGAVLDMHFSTDGSLLFTASTDKTLGVWDTHVGVRIKRLRGHTLYVNA--CHPARRGPQLICSGSDDSTLK--------------LWDTRKR--TPAHSYQ--ESYQITAVSFNDTAEQVLSA----GIDNQIK------------VWDLRK-N-----AVLYKMVGHLDTITGLSLSPD--GSYILSNSMDNT----------------------LRIWDVRPFAP-Q-ERCVKILQGHMHNFEKNLLRCAWSSDGSK---VTAGSADRY--VHIWDTTSRRLLCKLPGHNGSVND--VQFHP--KEPI---VLSVA---SDKQVYLGEID A0A183P5A7/64-363 PNMLLNGHESEVYCGKFSS-DGSFLASAGFDRRI--LLWETYG-E-C-ENI-ATMM-GHGGAILDLVLSSDDSVIYTASSDKSIALWDTESAQRIKKFRGHENIVNS--CAVARRGPQHVCSGSDDGTIR--------------LWDRRQK--ACVQTFQ--NTYQVLSVTFSDTAEMIFSG----GIDNVVK------------GWDLRK-L-----EASMLLNGHTDTVTGLSVSPD--GSFLLSNSMDNT----------------------LRMWDIRPFAP-T-DRCTKIFTGHQHTFEKNLLRCAWSADNRR---ITSGSGDRY--VHVWDVNTRQLVYKLPGHTASVNE--TAFHP--TEPI---LLSVG---SDKKIFLGEIL A0A163MWV5/58-357 PVMQLTGHEGEVYSTKFDP-SGQHIASGSYDRRI--LLWNTYG-D-C-ENY-GVLK-GHTNAVMEVHWSRDASQLYSCSADKTVCVWDANNGERIRRWKGHEGVVNS--CQVARRGPEMVVSGSDDGCVK--------------VWDQREK--YATQNLE--NKYQVTAVCYSDAGDMVYSA----GIDNEIK------------VWDLRK-K-----EVLYTLAGHLDTVTGLTLSPD--GDYLLSNSMDNT----------------------VQMWDIKPFAA-G-GRCLKVFEGAPHGFEKNLIRPTWSTDGTQ---VACGSADRS--VVIWEVSTAKILYKLPGHKGCVND--VDWHP--KEPI---VMTGS---TDKSIFLGEVK F6PW34/51-351 PIMLLTGHEGEIYSSKFHP-EGNMIASTGFERLI--YLWNVYG-E-C-DNF-HVIKGGHKGAVLDLQFNTDGSNIITASTDKTVGLFDSETGERIKRMKGHNGIVNT--CTTARRGDPLVASGSDDCTVK--------------IWDTRRK--GAIKSIQ--LTYQITAVSFNDTSESVITG----GIDNVIK------------VWDIRS-E-----KSYIELQGHADTVTGLTVSKD--GSFVLSNSMDCT----------------------MRKWDIRPFAP-Q-QRCTNLYMGHKHNFEKNLLRCSWSPDDSK---IAAGSSDRD--VCVWNATNQQLIYKLPGHDGSVND--VQFHP--FQPI---VMSCS---SDKQIYLGEIQ A0A087SRR8/59-358 PTMLLTGHADQVFTLKFNP-DGDVLATGSYDKTI--LLYRTYG-E-C-ENF-LQIK-GHKNGILELHWTPDGLNLVSCSPDRTVRAWDASTGQQVKKMSEHGDIVNS--CCPLKRGSPLLVSGSDDGTAK--------------VWDLRSK--RSVATFT--EKYQVLAVAWSEAGDAVYTG----GIENVVR------------AWDLRR-G-----APSLTLAGHADTVTGLAPSPD--GAHLLSNSMDGT----------------------LRVWDVRPYAA-Q-DRCQRVLTGHVHNFERNLLRCAWSPDGER---VTAGSADRM--VYVWRSADGAVQYALPGHGGSVNE--VVFHP--TEPI---VASAS---SDKTVYMGELA A0A067DRF8/49-347 PIMLLTGHQSAVYTMKFNP-AGTVIASGSHDRDI--FLWHVHG-D-C-KNF-MVLK-GHKNAILDLHWTTDGSQIISASPDKTLRAWDVETGKQIKKMAEHNSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIYTG----GIDNDVK------------VWDLRK-G-----EVSMTLQGHQDMITGMSLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHTGSVNE--SVFHA--TEPV---IGSCS---SDKQIYLGEI- M5XPY8/46-344 PIMLLTGHQSAIYTMKFNP-AGTVVASGSHDKEI--FLWNVHG-E-C-KNF-MVLK-GHKNAVLDLHWTTDGSQIISASPDKTVGAWDVETGKRIKKMAEHSSFVNS--CHPARRGPPLIVSGSDDGTAK--------------LWDMRLR--GAIQTFP--DKYQITAVSFSDASDKIFTG----GIDNDIK------------VWDLRK-A-----EVMMTLQGHQDMITGMSLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKIMEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYVWDTTSRRILYMLPGHTGSVNE--SVFHP--NEPI---IGSCG---SDKQIYLGEI- A0A183ITN8/254-540 PIVVLQGHGGEIYSAKFSN-GGDFLASAGFEHKI--FLWNVYG-E-C-ENF-AVLR-GHSGAVMELHFSADSDVLFTCSTDKTIRLWDLETGICRRKFKGHASFVNS--CFPARRGPEIVCSGSDDGTIK--------------LWDSRKK--DPVQSFE--NYYQVTTVTFNDTAEQIVSG----GIDNDIK------------VWDLRK-T-----DLAYQMRGHTDTVTGLELSPD--GTHVLSNSMDCT----------------------VRAWDIRPFAP-E-MRCTKVFLGVQHNFEKNLLRCCWSPNGSR---VSAGSADRF--VYIWDVPSRRILYKLPGHLGSVNE--TDFHP--TENI-------------SKC------ A0A0V1HC77/321-604 PIMSLIGHEGEIYAAAFSY-DGTMLASG--------VLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDKRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---S---------- A0A182X7L8/50-349 PIMLLEGHGGEIFSTEFHP-EGEHLLSTGFDRQI--FLWKVYD-E-C-ENV-GVLS-GHSGAVMEAHFSPDGSNIYTCATDKVVGVWDVPTCTRIRKLKGHTHFVNS--CSGARRGPTLIVSGSDDASIK--------------IWDARKR--HVVSTFD--NTYQVTAVCFNDTAEQVVSG----GIDNEIK------------VWDIRK-K-----EILYRLRGHTDTVTGLSLSPD--GSYVLSNSMDNT----------------------LRIWDIRPYVP-A-ERCVKVFTGHQHNFEKNLLRCAWSPDGLK---ISAGSADRF--VYIWDTTSRRILYKLPGHNGSVND--IDFHP--TEPI---IVSGS---SDKTLYLGEIE A0A182U516/50-349 PIMLLEGHGGEIFSTEFHP-EGEHLLSTGFDRQI--FLWKVYD-E-C-ENV-GVLS-GHSGAVMEAHFSPDGSNIYTCATDKVVGVWDVPTCTRIRKLKGHTHFVNS--CSGARRGPTLIVSGSDDASIK--------------IWDARKR--HVVSTFD--NTYQVTAVCFNDTAEQVVSG----GIDNEIK------------VWDIRK-K-----EILYRLRGHTDTVTGLSLSPD--GSYVLSNSMDNT----------------------LRIWDIRPYVP-A-ERCVKVFTGHQHNFEKNLLRCAWSPDGLK---ISAGSADRF--VYIWDTTSRRILYKLPGHNGSVND--IDFHP--TEPI---IVSGS---SDKTLYLGEIE A0A0B1TD74/106-409 ------------------T-DGTCLATAGFDQKI--FLWNVYG-E-C-ENF-SLLR-GHTGAVMDVHFNTDSSLLISAATDKTVRVWDMETGACRRKFKSHIDIVNA--CHPSRRGPQLVCSAGDDGLVK--------------VHDVRLK--DAVKTYE--NRFQQLAITFNDTSDEIFVG----SIDSDIY------------CWDMRR-D-----DISYVLQGHKDIITGLSLSPN--GNYLLSNSMDCSGNVFILISLKVFDIYSEQPCIAAKMWDVRPFAP-Q-ERCLKSFYGHQHNFEKNLLKCGWSGDGKR---ITAGSSDRF--VYIWDVSSRHILYKLPGHLGSVNA--TDLHP--LEPI---ILSAG---SDKRIFLGEIA A0A0A1WHJ8/47-347 PIMLLEGHEGEIFTTEFHP-DGDLLLSSGFDRQI--YIWNVYG-E-C-ENV-MVMS-GHSGAVLEAHFSTDGSNIYTCATDKTVAIWDIVTGQRVRKLKGHTNFVNT--VHRTRRGLQMLCSGSDDRTIR--------------IWDARKK--NAVHTLE--SPFQVTAACFNDIGDQVISG----GIDNEIK------------IWDIRKQQ-----QVLHRLRGHTDTITGISLSPD--GSYLLSNSMDNT----------------------LRIWDVRPYAP-A-ERCVKIFQGHQHNFEKNLLRCSWSPDGSK---ISAGSADRY--VYIWDTTSRRIIYKLPGHNGSVND--VDFHT--KEPL---ILSAS---SDKTLYLGEIE A0A0R3TSN9/59-359 PNMLLTGHESEVFCVKFVPSDGNYVVSAGFDRQV--FVWETYG-E-C-DNI-AVMP-GHGGAILDLALSTDGEFLYSASSDKTVAIWDLNVCQRVKKIRGHQNIVNS--VGIARRGPQMVVSGSDDGTVR--------------LWDRRQK--TEVQNFQ--NTYQVLSVTFNDTAELIFSG----GIDNIIK------------GWDLRK-L-----DVAMRLNGHTDTVTGLALSPD--GNFLLSNSMDNT----------------------LRIWDVRPYAP-P-ERCTKILYGHMHTYEKNLLRCAWSADGQY---VTCGSGDRY--VHVWDVKTRNLIYKLPGHSASVNE--TAFHP--REPI---LASAG---SDKKIFLGELE A0A078BT66/61-359 PIMLLSGHQSAIYTMKFNP-AGTVIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTSDGLQIVSASPDKTLRAWDVETGKQVKKMAEHSSFVNS--CCPSRRGLPLIVSGSDDGTAK--------------LWDLRQR--GAVQTFP--DKYQITAVSFSDAADKIFTG----GVDNDVK------------VWDLRK-G-----EAIMTLEGHQDTITGMSLSPD--GSYLLTNAMDCK----------------------LCVWDMRPYAP-Q-NRCVKIFEGHQHNFEKNLLKCAWSPDGSK---VTAGSADRM--VHIWDTTSRRILYKLPGHNGSVNE--CVFHP--HEPI---IGSCS---SDKLIYLGEI- A0A086TJR1/54-354 PIMLLQGQTAELYSCKFSP-SGEHVASAGAEKSI--YLWNTYG-D-C-DNF-GVIK-GHIGTILELHWSRDGSMIFTASADKTCGVFDVQTGERIKRFKGHTSFVNS--CSPARRGPELLASGSDDGSVK--------------IWDLRAK--NAVESFD--SQYQITSVSFSDAGDLVFAG----GIDNNIA------------AWDMRK-K-----TVSYSLTGHMDTVSGMALSPD--GNQLLSNGMDNT----------------------VRIWDVKPFSATG-NRLLKTLEGAPHGFEKNLIRPAWSKDGGM---VGVGAGDRT--MVIWDTVTQKILYKLPGHKGCVNE--VDFHP--KEPI---VVSCS---TDKTMFLGEIN A0A0B6ZFJ0/51-350 PIMLLTGHEGDIFCGKFSP-DGQLVASAGFDRLI--YFWTVYG-E-C-ENF-AMLK-GHTGAVMELQFSTDGSMLFTASTDKTIAVWDIATGERTRKLKGHQTFVNA--VSPARRGPQLLCSGSDDGTVK--------------TWDARKK--GTINTFQ--CTYQVTAVTFNDTAEQIICG----GIDNELK------------VWDLRK-N-----AILHKMRGHSDTVTGLELSPE--GSYLLSNSMDNT----------------------LRIWDVRPFAP-Q-ERCVKIMSGHQHTFEKNLLRCAWSPDGSR---VAAGSGDRF--VYVWDTTSRRVVYKLPGHAGSVNE--VDFHP--LQPI---VLSCS---SDKKLYLGELD A0A068URY2/39-337 PIMLLTGHQSAIYTMKFNP-AGNIIASGSHDKEI--FLWNVHG-D-C-KNY-MVLK-GHKNAVLDVQWTTDGLTIVSASPDKTIRAWDVETGKQIKKMAEHSSFVNS--CCPARRGPPLIVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIYSG----GIDNDVK------------VWDLRR-N-----EVTMTLQGHQDMITGMQLSPD--GSYLLTNGMDCT----------------------LRIWDMRPYAP-Q-NRCVKILEGHQHNFEKNLLKCSWSSDGSK---VTAGSSDRM--VYVWDTTSRRILYKLPGHTGSINE--CVFHP--SEPV---IGSCS---SDKQIYLGEI- A0A0V1IYF4/36-335 PIMSLIGHEGEIYAAAFSY-DGTMLASGGFDQKI--FLWNVYG-E-C-ENF-ALLN-GHSGAIMELHFSADNDVLFTCSTDKTVRLWDMETGACLRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDKRQK--KCIFSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---ILSAG---SDKKIFLGELN A0A016VWW0/35-334 PIMLLTGHEEEIFAARFST-DGTCLATAGFDQKI--FLWNVYG-E-C-ENF-SLLR-GHTGAIMDVHFNTDSSLLVSAATDKTVRVWDMETGACRRKFKSHVDIVNA--CHPSRRGPQLVCSAGDDGLVK--------------VHDVRLK--DAVKTYE--NRFQQLAVTFNDTSDEIFVG----SIDSDIY------------CWDMRR-D-----DISYVMQGHKDIITGLSLSPN--GNYLLSNSMDCS----------------------AKMWDVRPFAP-Q-ERCLKSFYGHQHNFEKNLLKCGWSGDGKR---ITAGSSDRF--AYVWDVSSRHILYKLPGHLGSVNA--TDLHP--MEPI---LLSAG---SDKRIFLGEIA A0A137NZN9/60-361 PIIQLTGHSGEVFTCRFNS-TGEYIASGSFDKNI--FLWKTYQ-E-N-KNY-GVLS-GHKGAVLELDWSPDSSQLYSCGSDRTIAVWDHETGNKIKKFAEHSNIVNSVNCQKKFSGSGILVSGSDDRTVK--------------IWDLRRK--QSVETFE--QDYQITSVCFSDAGDMVFAG----SLDNSIH------------AIDLKQ-N-----TVAYTLTGHLDTITGLKLSPD--GNFLLSNAMDNT----------------------VRIWDVRPFVP-N-ERLVNIYEGAPHGFEKNLIKPSWSSDGSQ---IACGSSDRS--VTIWDVDTKDILYKLPGHKGCVNQ--VDFHP--QEPI---IVTGS---TDRTLYLGEVL A0A0J7KG09/50-348 -IMLLEGHQGDIFSLEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-GIMT-GHSGAVMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTSFVNS--VSGARRGPTLLCSGSDDSTIR--------------IWDPRKR--GQCHTLN--NTYQVTAVTFNDTAEQVISG----GIDNDVK------------VWDLRK-N-----AVLYKLKGHTDTITGLSLSPD--GSYILSNAMDNM----------------------LKIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQIYLGEIE H2U965/60-359 PIMLMSGHEGEVYCCKFHP-NGATLASSGFDRLI--LLWNVYG-D-C-ENY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVGVWDSETGERIKRLKGHTSFVNT--CYPARRGPQLICTGSDDGTVK--------------LWDIRKK--GAIHTFQ--NTYQVLAVTFNDTSDQIMSG----GIDNDIK------------VWDLRQ-N-----KLIYNMQGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYIWDTTSRRILYKLPGHAGSVNE--VAFHP--EEPV---VLSGS---SDKRLYMGEIQ A0A0W4ZC78/51-350 PIMQLTGHQGEVFSCKFDL-SGRYIASGSFDQLI--LLWNTYG-D-C-SNF-GQLK-GHKRAILDLQWSRDSRVIYSASADQTVGTWDLETGQRLRKHTGHEDIINC--IATIRRGTEFFATGSDDTTIS--------------LWDGRQK--NAVDYFD--AAYAVTAVAFNEDGSQLFSG----GLDNDIK------------VWDLRK-R-----SIIYKIVGHADTITSLQISPD--NNYLLSNAMDNT----------------------VRIFDIRPFVP-S-SRQVKVLKGALHGIEKNLIRASWSYDGLR---VAAGSADRT--VIIWDVSSAKLTYKLPGHKASVNA--VDLHP--HEPI---ILSAS---SDRSLFLGELA B4G8F5/47-346 PIMQLEGHEGEIFTTEFHP-EGELLLSSGFDRQL--YIWQVYD-D-C-ENV-MAMS-GHTGAVMEAHFTPDGSHIFTCSTDKTLAIWDIVTGQRLRRFKGHTSFVNS--VQGTRRGQQLLCSGSDDRGIR--------------IWDARKK--HAVQTLE--SPYQVTSVCFGDTGEQVITG----GIDNELK------------IWDIRK-Q-----EVLHHLRGHTDTITGMSLSPE--GDFILTNSMDNT----------------------LRVWDVRPYAP-G-ERCVKVFQGHQHNFEKNLLRCAWAPGSDK---VSAGSADRQ--VYIWDVNTRRILYKLPGHNGSVND--VDFSP--KEPL---ILSAS---SDKTLYLGEIE Q29N00/47-346 PIMQLEGHEGEIFTTEFHP-EGELLLSSGFDRQL--YIWQVYD-D-C-ENV-MAMS-GHTGAVMEAHFTPDGSHIFTCSTDKTLAIWDIVTGQRLRRFKGHTSFVNS--VQGTRRGQQLLCSGSDDRGIR--------------IWDARKK--HAVQTLE--SPYQVTSVCFGDTGEQVITG----GIDNELK------------IWDIRK-Q-----EVLHHLRGHTDTITGMSLSPE--GDFILTNSMDNT----------------------LRVWDVRPYAP-G-ERCVKVFQGHQHNFEKNLLRCAWAPGSDK---VSAGSADRQ--VYIWDVNTRRILYKLPGHNGSVND--VDFSP--KEPL---ILSAS---SDKTLYLGEIE A0A0C9MDG5/58-357 PVMQLIGHDGEIYSCEFDQ-SGEYIASAGFDRQI--LLWNTYG-E-V-KNY-GVLK-GHTNAVMEIHWSRDSNQIFSCSADKTVGIFDVKAGTRTRRWRGHTGIVNS--CQVARRGAELVVSGSDDCTVK--------------IWDSRTK--EAVNTFE--SDYQVTSVCFSDAGDMIYSA----GLDNDIK------------VWDVRK-N-----QLAYTMKGHMDTVSGMSLSPD--GNNLLTNAMDNT----------------------VRIWDIKPFAA-A-DRCLKVFEGAPHGFEKNLIKPCWATDGSQ---IACGSADRS--VVIWDVDTRKILYKLPGHKGCVND--VDWHP--KEPI---IMSAS---TDKTLFLGEVK A0A103XHU3/40-338 PIMLLTGHQSAVYTMKFNP-AGTMIASGSHDREI--FVWHVSG-E-C-KNF-MVLK-GHKNAVLDLEWTSDGSQIISASPDKTLRAWDVETGKQIKKMAEHSSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYXVXXVGFSDASDKIYSG----GIDNDVK------------VWDLRR-N-----EVTMTLQGHQNMITGMQLSPD--GSYLLTNGMDCT----------------------LRIWDMRPYAP-Q-NRCVKIMEGHQHNVEQNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHSGSVNE--CVFHP--SQPI---IGSCS---SDKQIYLGEI- A0A154P0N6/49-348 PIMLLEGHQGDIFSLEFHP-EGQYLASTGFDRQI--FIWNVYG-E-C-ENI-SVMS-GHSGAIMELHFSPDGNHLYTASTDMTLGLWDIVAGTRIKKLKGHTSFVNS--ISGARRGLTQLCSGSDDSTIR--------------VWDPRKR--GQCYTLN--NTYQVIAVTFNDTAEQVISG----GIDNDIK------------VWDLRK-N-----AVLYKLKGHSDTITGLSLSPD--GSYILSNAMDNT----------------------LRIWDVRPFAP-Y-ERCVKILSGHQHNFEKNLLRCAWSPDGSK---VSAGSSDRF--HYIWDTTSRRILYKLPGHNGSVND--IDFHP--KEPI---VCSGS---SDKQLYLGEIE A0A194R570/49-348 PIMLLEGHQGEIFTAKFHP-EGKHLASAGFDRQI--FLWNVYG-Q-C-ENV-MVMK-GHTGAIMELCFSPDGSHLYTCATDNTVAVWDVPTGTRIKKLKGHSNFVNS--VSGARRGPELLVSASDDNTIK--------------LWDARKR--NPIASFD--NGYPVTSVLFNDTAEKIISG----GLDNVVK------------VWDIRS-N-----QISYKIKGHTDTITGLSLSYD--GSYLLSNAMDGT----------------------IRIWDVRPFAP-A-ERCVKLMSGHQHNFERNLLRCAWSSDGSK---VAAGSSDRF--LYIWDTTSRRVLYKLPGHNGSVNA--VDFHQ--TEPI---VLSAS---SDKQIYLGEID A0A078EBJ8/145-443 PIMLLSGHQSAIYTMKFNP-AGTVIASGSHDREI--FLWRVHG-D-C-KNF-MVLK-GHKNAILDLHWTGDGSQIVSASPDKTVRAWDVETGKQVKKMAEHSSFVNS--CCPSRRGLPLIVSGSDDGTAK--------------LWDMRQR--GAVQTFP--DKYQITAVSFSDPADKIFTG----GVDNDVK------------VWDLRK-G-----EAIMTLEGHQDTITGMSLSPD--GSYLLTNAMDCK----------------------LCVWDMRPYAP-Q-DRCVKIFEGHQHNFEKNLLKCAWSPDGSK---VTAGSADRM--VHIWDTTSRRILYKLPGHNGSVNE--CVFHP--HEPI---IGSCS---SDNLIYLGEI- B4LU69/47-346 PIMQLEGHEGEIFTTEFHP-EGEMLLSSGFDRQL--YIWQVYG-D-C-ENI-MAMS-GHSGAVMEAHFTPDGSHIFTCSTDKTLAIWDIVTGQRVRRLKGHSNFVNS--VQGSRRGQQLLCSGSDDRTIR--------------IWDARKK--QAAHVLE--SPYQLTAVCFGDTSEQVISG----GIDNELK------------IWDIRK-Q-----QVLHHLRGHTDTITAVALSPE--GDFVLTNAMDNT----------------------LRVWDVRAYAP-G-ERCVKVFQGHQHNFEKNLLRCAWAPGGDK---ISAGSADRH--VYVWDVNTRRILYKLPGHNGSVND--VDFSP--REPL---ILSGS---SDKTLYLGEIE A0A0V1MVH8/321-604 PIMSLIGHEGEIYAAAFSY-DGTMLASG--------VLWNVYG-E-C-ENF-ALLS-GHNGAIMELHFSADNNVLFTCSTDKTVRLWDMETGVCIRNFKGHTSFVNS--CHPARRGPQLVCSGSDDGTIK--------------VWDKRQK--KCIYSFE--NVYQVTAVTFNDTAEQIVSG----GIENDLK------------IWDIRK-E-----SPMFTLRGHGDTVTGLSLSPD--GSHVLSNAMDCT----------------------VRIWDIRPFAP-V-NRCVAVLQGAQHNFEKNLLRCAWSPDGMK---ASSGSADRF--VYIWDLNSRRVQYKLPGHFGSVNV--TAFHP--CEPI---VWLSK---S---------- A0A168GMB7/1-298 --MQLIGHDGEIYSCKFDQ-SGEYIASAGFDRQI--LLWNTYG-E-V-KNY-GVLK-GHTNAVMEIHWSRDSNQIFSCSADKTVGIFDVKAGTRTRRWRGHTGIVNS--CQVARRGAELVVSGSDDCTVK--------------IWDSRTK--EAVNTFE--SDYQVTSVCFSDAGDMIYSA----GLDNDIK------------VWDVRK-N-----QLAYTMKGHMDTVSGMSLSPD--GNNLLTNSMDNT----------------------VRIWDIKPFAA-A-DRCLKIFEGAPHGFEKNLIKPCWATDGSQ---IACGSADRS--VVIWDVDTRKILYKLPGHKGCVND--VDWHP--KEPI---IMSAS---TDKTLFLGEVK A0A194QG98/49-348 PIMLLEGHQGEIFTAKFHP-EGKHLASAGFDRQI--FLWNVYG-Q-C-ENV-MVMK-GHTGAIMELCFSPDGSHLYTCATDNTVAVWDVPTGTRIKKLKGHANFVNS--VSGARRGPELLVSASDDNTIK--------------LWDARKR--NPIASFD--NGYPVTSVLFNDTAEKIISG----GLDNVVK------------VWDIRN-N-----QISYKIKGHTDTITGLSLSYD--GSYLLSNSMDGT----------------------IRIWDVRPFAP-A-ERCVKLMSGHQHNFERNLLRCAWSADGSK---VAAGSSDRF--LYIWDTTSRRVLYKLPGHNGSVNA--VDFHQ--TEPI---VLSAS---SDKQIYLGEID A0A091NAC5/11-298 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---SKSS--------------- A0A0J8BC44/48-346 PIMLLAGHQSAIYTMKFNP-EGTVVASGSHDREI--FLWNVHG-D-C-KNF-LVLK-GHKNAVLDLHWTTDGTQIVSASPDKTVRAWDVETGKQIKKMAEHSSFVNS--CCPARRGPPLIVSGSDDGTAK--------------LWDMRHR--GAIQTFP--DKYQITAVCFSDASDKIYTG----GIDNDIK------------VWDVRK-N-----EVTMTLQGHQDMITGMSLSAD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKVLEGHQHNFEKNLLKCGWSPDGSK---VTSGSADRM--VYIWDTTSRRILYKLPGHTGSVNE--CVFHP--REPI---IGSCS---SDKQIYLGEL- A0A1D6C6U9/1-210 -------------------------------------------------------------------------------------------------MAEHSSFVNS--CCPSRKWPPLVVSGSDDGTAK--------------LWDLRQR--GAIQTLP--DKFQITAVSFSEAADKVFTG----GLDNDVK------------WWDLRK-N-----EVTESLKGHQDMITGMQLSPD--GSYLLTNAMDNE----------------------LKIWDLRPYAP-E-NRNIKTFTGHQHNFEKTLLKCSWSPDNRK---VTAGSADRM--VYIWDTTSRRILYKLPGHNGSVNE--TAFHP--TEPI---IGSCS---SDKQIYLGEL- A0A0D2USM2/44-342 PIMLLTGHQSSIYTVKFNP-AGTVVASGSHDREI--FLWNVHG-D-C-KNF-MVLK-GHKNAILDLHWTTDGSQIISASPDKTLRAWDVETGKQIKKMAEHSSFVNS--CCPSRRGPPLVVSGSDDGTAK--------------LWDMRQR--GAIQTFP--DKYQITAVSFSDASDKIFTG----GIDNDIK------------VWDLRK-G-----EVTMTLQGHQDMITGMSLSPD--GSYLLTNGMDCK----------------------LCIWDMRPYAP-Q-NRCVKIFEGHQHNFEKNLLKCGWSPDGSK---VTAGSSDRM--VYIWDTTSRRILYKLPGHTGSVNE--SVFHP--NEPI---IGSCS---SDKQIYLGEI- A0A1I7T0S0/30-329 PTMVLQGHEGEIYTGVFSP-DGTCLATSGYDQKI--FFWNVYG-E-C-ENF-STIK-GHSGAIMDVKFTTDSGFLMSCGTDKSIRVWDMETGACARNFKSHTDFVNA--IHPSRRGVTLVASASDDGTCR--------------VHDLRSK--EPVKTYM--NKYQQTAVTFNDTSDQVICG----GIDNVLK------------VWDMRR-D-----EITYTLTGHRDTITGLSLSPS--GKFVVSNSMDCT----------------------LRQWDIRPFVA-A-NRDVGLFGGHNHNFEKNLLKCAWSPCEKF---VTAGSSDRF--VYVWEVSTKKIMYKLPGHMGSVNC--TDFHP--KESI---LLSCG---SDKRVYLGEID G5BF61/59-349 PIMLLSGHEGEVYCCKFHP-NGSTLASAGFDRLI--LLWNVYG-D-C-DNY-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAIQTFQ--NTYEVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRVWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSINE--VAFHP--DEPI---ISQAG------------FE G3MLA1/51-350 PIMLLTGHLGEIYCGKFHP-DGTYLATAGFDRQI--FFWNTLG-E-C-ENF-GVLT-GHTGAILDMHFSTDGSLLFTASTDKTLGIWDTHVGVRIKRLRGHTLYVNA--CHPARRGPQLICSGSDDSTIK--------------LWDTRKR--TPAHSYQ--ESYQITAVSFNDTAEQVLSA----GIDNQIK------------VWDMRK-N-----AVLYKMVGHLDTITGLSLSPD--GSYILSNSMDNT----------------------LRIWDVRPFAP-Q-ERCVKILQGHVHNFEKNLLRCAWSSDGSK---VTAGSADRY--VHIWDTTSRRLLYKLPGHNGSVND--VQFHP--KEPI---VLSVA---SDKQVYLGEID Q4RNL6/11-305 PIMLMSGHEGEVYCCKFHP-NGATLASSGFDRLI--LLWNVYG-D-C-ENY-ATLK-GHSGAVMELHYNTDGSLLFSASTDKTVGVWDSETGERIKRLKGHTSFVNT--CYPARRGPQLICTGSDDGTVK--------------LWDIRKK--GAIHTFQ--NTYQVLAVTFNDTSDQIMSG----GIDNDIK------------VWDLRQ-N-----KLIYNMQGHGDSVTGLSLSSE--GSYLLSNSMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSTDGSK---IAAGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--VTFHP--EKPC---FLGPV---IKDSTW----- A0A093PG11/15-314 PIMLLSGHEGEVYCCKFHP-NGNTLASAGFDRLI--LLWNVYG-D-C-DNF-ATLK-GHSGAVMELHYNTDGSMLFSASTDKTVAVWDSETGERVKRLKGHTSFVNS--CYPARRGPQLVCTGSDDGTVK--------------LWDIRKK--AAVQTFQ--NTYQVLAVTFNDTSDQIISG----GIDNDIK------------VWDLRQ-N-----KLTYTMRGHADSVTGLSLSSE--GSYLLSNAMDNT----------------------VRIWDVRPFAP-K-ERCVKIFQGNVHNFEKNLLRCSWSPDGSK---IAGGSADRF--VYVWDTTSRRILYKLPGHAGSVNE--LAFHP--EEPI---ILSAS---SDKRLYMGEIQ A0A0N5DHG0/273-572 PIILLQGHMGEVYTAKFSK-DGSFLASAGFDQKI--LLWNVYG-E-C-ENF-AALS-GHTGAIMELHFSAESDLLVTCSTDKTIRIWDMETGTCLRKFKGHTSFVNS--CHLARRGPRVICSGSDDGTIK--------------VWDQRKR--DYVHSFD--NKYQVTAVTFNDTTEQVIAG----GIDNDLK------------VWDLRK-G-----VVAYGMFGHLDTVTGLSLSPD--GSHVLSNSMDCS----------------------VRIWDVRPFAP-E-VRCVRVFQGNQHNFEKNLLRCAWSPDGTK---VSAGSSDRY--VYVWDVISQRILYKLPGHFGSVNE--TDFHP--CETI---ILSAG---SDKKVYMGELE #=GC scorecons 6675737745566435745037335674557537005685667060705850446408846866666444864365657587764588456735676556845689700645687864764678885757000000000000006793857004454664005488657858676565755800008788667000000000000588686040000045444648938578865886600867686858956000000000000000000000066689688777030596675649548788888877588686460006558868840077688556766587888838788500447780038870005374500067634556652 #=GC scorecons_70 *_*_*_**____*___*____*___**___*__*___**_***_*_*__*____*__**__******___*_______*_****__**__**___**___*__****__*___****_*__*****_*_*_______________**_*_*______**_____***_**_*_*__*_*__*____****_**_____________****_____________*_**_*_****_****__*******_**_________________________*_********____****_*_*__**********_*****_____*__*****___*****__****_******_****_____***___***_____*_____***____**__ #=GC scorecons_80 __*_*_**________*____*____*___*__*____*___*___*__*_______**__*________*_______*_***___**___*___*____*___***______***__*___****_*_*_______________**_*_*_____________**__**_*_*_______*____****__*_____________**_*_______________**_*__**__**____*___*_*_**___________________________**_*****____*__*___*__*_********_**_*_________**_**___**_**___*___******_****_____***___***_____*________________ #=GC scorecons_90 ______________________________________*__________*_______**___________*_________*_____**____________*___**_______*_*_______***____________________*_*_______________**___*_*_________*____*_**________________**_*_______________**_*__**__**____*___*_*_**___________________________**_**_______*______*__*_*****____**___________**_**______**_______*_****_*__*_______*___**_______________________ //