# STOCKHOLM 1.0 #=GF ID 3.40.50.300/FF/623897 #=GF DE V-type ATP synthase alpha chain #=GF AC 3.40.50.300/FF/623897 #=GF TP FunFam #=GF DR CATH: 4.2 #=GF DR DOPS: 96.068 #=GS 3gqbA02/72-114_182-429 AC Q56403 #=GS 3gqbA02/72-114_182-429 OS Thermus thermophilus HB8 #=GS 3gqbA02/72-114_182-429 DE V-type ATP synthase alpha chain #=GS 3gqbA02/72-114_182-429 DR CATH; 3gqb; A:72-114; A:182-429; #=GS 3gqbA02/72-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS 3gqbA02/72-114_182-429 DR GO; GO:0005515; #=GS 3gqbA02/72-114_182-429 DR EC; 3.6.3.14; #=GS 3vr2A02/79-122_193-442 AC Q08636 #=GS 3vr2A02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr2A02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr2A02/79-122_193-442 DR CATH; 3vr2; A:72-115; A:186-435; #=GS 3vr2A02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr2A02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS Q8RI78/1-226 AC Q8RI78 #=GS Q8RI78/1-226 OS Fusobacterium nucleatum subsp. nucleatum ATCC 25586 #=GS Q8RI78/1-226 DE V-type sodium ATP synthase subunit A #=GS Q8RI78/1-226 DR GENE3D; ce730c5c7979c5e55ff37417232d3f8b/1-226; #=GS Q8RI78/1-226 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Fusobacteriaceae; Fusobacterium; Fusobacterium nucleatum; Fusobacterium nucleatum subsp. nucleatum; #=GS Q8RI78/1-226 DR EC; 3.6.3.15; #=GS A5AAF1/81-124_198-449 AC A5AAF1 #=GS A5AAF1/81-124_198-449 OS Aspergillus niger CBS 513.88 #=GS A5AAF1/81-124_198-449 DE Aspergillus niger contig An02c0310, genomic contig #=GS A5AAF1/81-124_198-449 DR GENE3D; 833f23a6cf08ded727163a8e59932942/81-124_198-449; #=GS A5AAF1/81-124_198-449 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Eurotiomycetes; Eurotiomycetidae; Eurotiales; Aspergillaceae; Aspergillus; Aspergillus niger; #=GS A5AAF1/81-124_198-449 DR EC; 3.6.3.14; 3.6.3.6; #=GS A0A170XL21/2-4_77-271 AC A0A170XL21 #=GS A0A170XL21/2-4_77-271 OS Triatoma infestans #=GS A0A170XL21/2-4_77-271 DE V-type proton atpase catalytic subunit a #=GS A0A170XL21/2-4_77-271 DR GENE3D; d7fe324ba6afe8889adfa55b5304a6da/2-4_77-271; #=GS A0A170XL21/2-4_77-271 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Reduvioidea; Reduviidae; Triatominae; Triatoma; Triatoma infestans; #=GS A0A170XL21/2-4_77-271 DR EC; 3.6.1.15; 3.6.1.3; #=GS Q9AVU8/90-133_206-458 AC Q9AVU8 #=GS Q9AVU8/90-133_206-458 OS Mesembryanthemum crystallinum #=GS Q9AVU8/90-133_206-458 DE Putative vacuolar ATP Synthase subunit A #=GS Q9AVU8/90-133_206-458 DR GENE3D; 0218673483b8e25a36f3f85749b21309/90-133_206-458; #=GS Q9AVU8/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Caryophyllales; Aizoaceae; Mesembryanthemum; Cryophytum; Mesembryanthemum crystallinum; #=GS Q9AVU8/90-133_206-458 DR EC; 3.6.1.34; #=GS B6HJ23/78-121_195-446 AC B6HJ23 #=GS B6HJ23/78-121_195-446 OS Penicillium rubens Wisconsin 54-1255 #=GS B6HJ23/78-121_195-446 DE Pc21g15100 protein #=GS B6HJ23/78-121_195-446 DR GENE3D; 0932a671b69a4f37fc9e9fed5fc1dd31/78-121_195-446; #=GS B6HJ23/78-121_195-446 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Eurotiomycetes; Eurotiomycetidae; Eurotiales; Aspergillaceae; Penicillium; Penicillium rubens; #=GS B6HJ23/78-121_195-446 DR EC; 3.6.3.6; #=GS G8HI88/1-185 AC G8HI88 #=GS G8HI88/1-185 OS Citrus maxima #=GS G8HI88/1-185 DE Vacuolar H+-ATPase #=GS G8HI88/1-185 DR GENE3D; 147b96696d3ecf0d4bd061a08ea089a0/1-185; #=GS G8HI88/1-185 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Sapindales; Rutaceae; Aurantioideae; Citrus; Citrus maxima; #=GS G8HI88/1-185 DR EC; 3.6.1.3; #=GS P92128/79-121_208-433 AC P92128 #=GS P92128/79-121_208-433 OS Giardia intestinalis #=GS P92128/79-121_208-433 DE Vacuolar-ATPase catalytic subunit-A #=GS P92128/79-121_208-433 DR GENE3D; f8d11b8b42836bc2db1723fc0cc41256/79-121_208-433; #=GS P92128/79-121_208-433 DR ORG; Eukaryota; Hexamitidae; Giardiinae; Giardia; Giardia intestinalis; #=GS P92128/79-121_208-433 DR EC; 3.6.1.35; #=GS O23654/90-133_206-458 AC O23654 #=GS O23654/90-133_206-458 OS Arabidopsis thaliana #=GS O23654/90-133_206-458 DE V-type proton ATPase catalytic subunit A #=GS O23654/90-133_206-458 DR GENE3D; 4073c5f5f754b028f150669f5ed87729/90-133_206-458; #=GS O23654/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Camelineae; Arabidopsis; Arabidopsis thaliana; #=GS O23654/90-133_206-458 DR GO; GO:0000325; GO:0002020; GO:0005618; GO:0005773; GO:0005774; GO:0005794; GO:0005886; GO:0007030; GO:0009506; GO:0009507; GO:0009555; GO:0009651; GO:0009941; GO:0016020; GO:0048046; #=GS O23654/90-133_206-458 DR EC; 3.6.3.14; #=GS P38606/87-130_204-455 AC P38606 #=GS P38606/87-130_204-455 OS Homo sapiens #=GS P38606/87-130_204-455 DE V-type proton ATPase catalytic subunit A #=GS P38606/87-130_204-455 DR GENE3D; c9d141f61bc4f7db503959f21ac389b5/87-130_204-455; #=GS P38606/87-130_204-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS P38606/87-130_204-455 DR GO; GO:0005765; GO:0005829; GO:0005886; GO:0005887; GO:0006810; GO:0008286; GO:0016241; GO:0016469; GO:0033572; GO:0034220; GO:0070062; GO:0090383; #=GS P38606/87-130_204-455 DR EC; 3.6.3.14; #=GS P50516/87-130_204-455 AC P50516 #=GS P50516/87-130_204-455 OS Mus musculus #=GS P50516/87-130_204-455 DE V-type proton ATPase catalytic subunit A #=GS P50516/87-130_204-455 DR GENE3D; a8278886dc3b316e83d9e85d3179a733/87-130_204-455; #=GS P50516/87-130_204-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Mus; Mus; Mus musculus; #=GS P50516/87-130_204-455 DR GO; GO:0005739; GO:0005765; GO:0005829; GO:0005886; GO:0005902; GO:0016324; GO:0043209; GO:0070062; #=GS P50516/87-130_204-455 DR EC; 3.6.3.14; #=GS Q27331/85-128_201-452 AC Q27331 #=GS Q27331/85-128_201-452 OS Drosophila melanogaster #=GS Q27331/85-128_201-452 DE V-type proton ATPase catalytic subunit A isoform 2 #=GS Q27331/85-128_201-452 DR GENE3D; b4e33b325474dd19b6960db5cb951524/85-128_201-452; #=GS Q27331/85-128_201-452 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 Q27331/85-128_201-452 DR GO; GO:0000221; GO:0005886; GO:0007446; GO:0015991; GO:0016197; GO:0033181; GO:0035149; GO:0048388; #=GS Q27331/85-128_201-452 DR EC; 3.6.3.14; #=GS P17255/730-916 AC P17255 #=GS P17255/730-916 OS Saccharomyces cerevisiae S288C #=GS P17255/730-916 DE V-type proton ATPase catalytic subunit A #=GS P17255/730-916 DR GENE3D; 5143558b4e6eebed2336b6aa005373d8/730-916; #=GS P17255/730-916 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Saccharomycotina; Saccharomycetes; Saccharomycetales; Saccharomycetaceae; Saccharomyces; Saccharomyces cerevisiae; #=GS P17255/730-916 DR GO; GO:0000221; GO:0000329; GO:0005515; GO:0007035; GO:0044267; GO:0046961; #=GS P17255/730-916 DR EC; 3.6.3.14; #=GS P48602/85-128_201-452 AC P48602 #=GS P48602/85-128_201-452 OS Drosophila melanogaster #=GS P48602/85-128_201-452 DE V-type proton ATPase catalytic subunit A isoform 1 #=GS P48602/85-128_201-452 DR GENE3D; b4a21d8f78c3f883c15905556ffbdc2b/85-128_201-452; #=GS P48602/85-128_201-452 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 P48602/85-128_201-452 DR GO; GO:0000221; GO:0005886; GO:0007035; GO:0008593; GO:0033176; GO:0071456; #=GS P48602/85-128_201-452 DR EC; 3.6.3.14; #=GS P31406/94-137_212-463 AC P31406 #=GS P31406/94-137_212-463 OS Schizosaccharomyces pombe 972h- #=GS P31406/94-137_212-463 DE V-type proton ATPase catalytic subunit A #=GS P31406/94-137_212-463 DR GENE3D; 45b4eff1bf682f1e3f07e52117b9b02b/94-137_212-463; #=GS P31406/94-137_212-463 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Taphrinomycotina; Schizosaccharomycetes; Schizosaccharomycetales; Schizosaccharomycetaceae; Schizosaccharomyces; Schizosaccharomyces pombe; #=GS P31406/94-137_212-463 DR GO; GO:0000221; GO:0005829; GO:0090463; GO:0090464; GO:0090465; #=GS P31406/94-137_212-463 DR EC; 3.6.3.14; #=GS Q76NM6/80-123_198-449 AC Q76NM6 #=GS Q76NM6/80-123_198-449 OS Plasmodium falciparum 3D7 #=GS Q76NM6/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS Q76NM6/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS Q76NM6/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS Q76NM6/80-123_198-449 DR GO; GO:0000221; GO:0007035; GO:0015991; GO:0020020; #=GS Q76NM6/80-123_198-449 DR EC; 3.6.3.14; #=GS Q9VK47/209-252_326-577 AC Q9VK47 #=GS Q9VK47/209-252_326-577 OS Drosophila melanogaster #=GS Q9VK47/209-252_326-577 DE AT09773p #=GS Q9VK47/209-252_326-577 DR GENE3D; 05bfa160ceb049f3d47fc25a67723024/209-252_326-577; #=GS Q9VK47/209-252_326-577 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 Q9VK47/209-252_326-577 DR GO; GO:0015991; GO:0033176; #=GS Q9VK47/209-252_326-577 DR EC; 3.6.3.14; #=GS Q0WLF6/90-133_206-458 AC Q0WLF6 #=GS Q0WLF6/90-133_206-458 OS Arabidopsis thaliana #=GS Q0WLF6/90-133_206-458 DE AT1G78900 protein #=GS Q0WLF6/90-133_206-458 DR GENE3D; 4073c5f5f754b028f150669f5ed87729/90-133_206-458; #=GS Q0WLF6/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Camelineae; Arabidopsis; Arabidopsis thaliana; #=GS Q0WLF6/90-133_206-458 DR EC; 3.6.3.14; #=GS Q9XW92/76-119_193-444 AC Q9XW92 #=GS Q9XW92/76-119_193-444 OS Caenorhabditis elegans #=GS Q9XW92/76-119_193-444 DE V-type proton ATPase catalytic subunit A #=GS Q9XW92/76-119_193-444 DR GENE3D; 487b8b636726b1d0025e409d88caed24/76-119_193-444; #=GS Q9XW92/76-119_193-444 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Rhabditida; Rhabditoidea; Rhabditidae; Peloderinae; Caenorhabditis; Caenorhabditis elegans; #=GS Q9XW92/76-119_193-444 DR EC; 3.6.3.14; #=GS M9PD18/85-128_201-452 AC M9PD18 #=GS M9PD18/85-128_201-452 OS Drosophila melanogaster #=GS M9PD18/85-128_201-452 DE Vacuolar H[+] ATPase 68kD subunit 1, isoform B #=GS M9PD18/85-128_201-452 DR GENE3D; b4a21d8f78c3f883c15905556ffbdc2b/85-128_201-452; #=GS M9PD18/85-128_201-452 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 M9PD18/85-128_201-452 DR EC; 3.6.3.14; #=GS A4V0N4/85-128_201-452 AC A4V0N4 #=GS A4V0N4/85-128_201-452 OS Drosophila melanogaster #=GS A4V0N4/85-128_201-452 DE MIP16230p #=GS A4V0N4/85-128_201-452 DR GENE3D; b4e33b325474dd19b6960db5cb951524/85-128_201-452; #=GS A4V0N4/85-128_201-452 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 A4V0N4/85-128_201-452 DR EC; 3.6.3.14; #=GS Q8T464/27-70_144-395 AC Q8T464 #=GS Q8T464/27-70_144-395 OS Drosophila melanogaster #=GS Q8T464/27-70_144-395 DE AT13860p #=GS Q8T464/27-70_144-395 DR GENE3D; 2ef6ba98e53b1671ad91cad2260d74c7/27-70_144-395; #=GS Q8T464/27-70_144-395 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 Q8T464/27-70_144-395 DR GO; GO:0015991; GO:0033176; #=GS B9DHY6/46-298 AC B9DHY6 #=GS B9DHY6/46-298 OS Arabidopsis thaliana #=GS B9DHY6/46-298 DE AT1G78900 protein #=GS B9DHY6/46-298 DR GENE3D; f3439295a325de9f5b97510e5e20e42d/46-298; #=GS B9DHY6/46-298 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Brassicales; Brassicaceae; Camelineae; Arabidopsis; Arabidopsis thaliana; #=GS 3w3aA02/72-114_182-429 AC Q56403 #=GS 3w3aA02/72-114_182-429 OS Thermus thermophilus HB8 #=GS 3w3aA02/72-114_182-429 DE V-type ATP synthase alpha chain #=GS 3w3aA02/72-114_182-429 DR CATH; 3w3a; A:72-114; A:182-429; #=GS 3w3aA02/72-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS 3w3aA02/72-114_182-429 DR GO; GO:0005515; #=GS 3w3aA02/72-114_182-429 DR EC; 3.6.3.14; #=GS 1vdzA01/60-115_191-437 AC O57728 #=GS 1vdzA01/60-115_191-437 OS Pyrococcus horikoshii OT3 #=GS 1vdzA01/60-115_191-437 DE V-type ATP synthase alpha chain #=GS 1vdzA01/60-115_191-437 DR CATH; 1vdz; A:60-115; A:191-437; #=GS 1vdzA01/60-115_191-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 1vdzA01/60-115_191-437 DR EC; 3.6.3.14; #=GS 3i4lA01/61-115_191-437 AC O57728 #=GS 3i4lA01/61-115_191-437 OS Pyrococcus horikoshii OT3 #=GS 3i4lA01/61-115_191-437 DE V-type ATP synthase alpha chain #=GS 3i4lA01/61-115_191-437 DR CATH; 3i4l; A:61-115; A:191-437; #=GS 3i4lA01/61-115_191-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3i4lA01/61-115_191-437 DR EC; 3.6.3.14; #=GS 3ikjA01/60-115_191-437 AC O57728 #=GS 3ikjA01/60-115_191-437 OS Pyrococcus horikoshii OT3 #=GS 3ikjA01/60-115_191-437 DE V-type ATP synthase alpha chain #=GS 3ikjA01/60-115_191-437 DR CATH; 3ikj; A:60-115; A:191-437; #=GS 3ikjA01/60-115_191-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3ikjA01/60-115_191-437 DR EC; 3.6.3.14; #=GS 3m4yA02/73-115_188-437 AC O57728 #=GS 3m4yA02/73-115_188-437 OS Pyrococcus horikoshii OT3 #=GS 3m4yA02/73-115_188-437 DE V-type ATP synthase alpha chain #=GS 3m4yA02/73-115_188-437 DR CATH; 3m4y; A:73-115; A:188-437; #=GS 3m4yA02/73-115_188-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3m4yA02/73-115_188-437 DR EC; 3.6.3.14; #=GS 3mfyA01/61-115_191-437 AC O57728 #=GS 3mfyA01/61-115_191-437 OS Pyrococcus horikoshii OT3 #=GS 3mfyA01/61-115_191-437 DE V-type ATP synthase alpha chain #=GS 3mfyA01/61-115_191-437 DR CATH; 3mfy; A:61-115; A:191-437; #=GS 3mfyA01/61-115_191-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3mfyA01/61-115_191-437 DR EC; 3.6.3.14; #=GS 3nd8A01/63-115_191-437 AC O57728 #=GS 3nd8A01/63-115_191-437 OS Pyrococcus horikoshii OT3 #=GS 3nd8A01/63-115_191-437 DE V-type ATP synthase alpha chain #=GS 3nd8A01/63-115_191-437 DR CATH; 3nd8; A:63-115; A:191-437; #=GS 3nd8A01/63-115_191-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3nd8A01/63-115_191-437 DR EC; 3.6.3.14; #=GS 3nd9A01/63-115_191-437 AC O57728 #=GS 3nd9A01/63-115_191-437 OS Pyrococcus horikoshii OT3 #=GS 3nd9A01/63-115_191-437 DE V-type ATP synthase alpha chain #=GS 3nd9A01/63-115_191-437 DR CATH; 3nd9; A:63-115; A:191-437; #=GS 3nd9A01/63-115_191-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3nd9A01/63-115_191-437 DR EC; 3.6.3.14; #=GS 3qg1A02/73-115_188-437 AC O57728 #=GS 3qg1A02/73-115_188-437 OS Pyrococcus horikoshii OT3 #=GS 3qg1A02/73-115_188-437 DE V-type ATP synthase alpha chain #=GS 3qg1A02/73-115_188-437 DR CATH; 3qg1; A:73-115; A:188-437; #=GS 3qg1A02/73-115_188-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3qg1A02/73-115_188-437 DR EC; 3.6.3.14; #=GS 3qiaA02/73-115_188-437 AC O57728 #=GS 3qiaA02/73-115_188-437 OS Pyrococcus horikoshii OT3 #=GS 3qiaA02/73-115_188-437 DE V-type ATP synthase alpha chain #=GS 3qiaA02/73-115_188-437 DR CATH; 3qia; A:73-115; A:188-437; #=GS 3qiaA02/73-115_188-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3qiaA02/73-115_188-437 DR EC; 3.6.3.14; #=GS 3qjyA02/73-115_188-437 AC O57728 #=GS 3qjyA02/73-115_188-437 OS Pyrococcus horikoshii OT3 #=GS 3qjyA02/73-115_188-437 DE V-type ATP synthase alpha chain #=GS 3qjyA02/73-115_188-437 DR CATH; 3qjy; A:73-115; A:188-437; #=GS 3qjyA02/73-115_188-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3qjyA02/73-115_188-437 DR EC; 3.6.3.14; #=GS 3sdzA02/73-115_188-437 AC O57728 #=GS 3sdzA02/73-115_188-437 OS Pyrococcus horikoshii OT3 #=GS 3sdzA02/73-115_188-437 DE V-type ATP synthase alpha chain #=GS 3sdzA02/73-115_188-437 DR CATH; 3sdz; A:73-115; A:188-437; #=GS 3sdzA02/73-115_188-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3sdzA02/73-115_188-437 DR EC; 3.6.3.14; #=GS 5bn3A02/68-111_177-424 AC Q74MJ7 #=GS 5bn3A02/68-111_177-424 OS Nanoarchaeum equitans Kin4-M #=GS 5bn3A02/68-111_177-424 DE V-type ATP synthase alpha chain #=GS 5bn3A02/68-111_177-424 DR CATH; 5bn3; A:68-111; A:177-424; #=GS 5bn3A02/68-111_177-424 DR ORG; Archaea; Nanoarchaeota; Nanoarchaeales; Nanoarchaeaceae; Nanoarchaeum; Nanoarchaeum equitans; #=GS 5bn3A02/68-111_177-424 DR EC; 3.6.3.14; #=GS 3vr2B02/79-122_193-442 AC Q08636 #=GS 3vr2B02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr2B02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr2B02/79-122_193-442 DR CATH; 3vr2; B:72-115; B:186-435; #=GS 3vr2B02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr2B02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr2C02/79-122_193-442 AC Q08636 #=GS 3vr2C02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr2C02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr2C02/79-122_193-442 DR CATH; 3vr2; C:72-115; C:186-435; #=GS 3vr2C02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr2C02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr3A02/79-122_193-442 AC Q08636 #=GS 3vr3A02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr3A02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr3A02/79-122_193-442 DR CATH; 3vr3; A:72-115; A:186-435; #=GS 3vr3A02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr3A02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr3B02/79-122_193-442 AC Q08636 #=GS 3vr3B02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr3B02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr3B02/79-122_193-442 DR CATH; 3vr3; B:72-115; B:186-435; #=GS 3vr3B02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr3B02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr3C02/79-122_193-442 AC Q08636 #=GS 3vr3C02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr3C02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr3C02/79-122_193-442 DR CATH; 3vr3; C:72-115; C:186-435; #=GS 3vr3C02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr3C02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr4A02/79-122_193-442 AC Q08636 #=GS 3vr4A02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr4A02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr4A02/79-122_193-442 DR CATH; 3vr4; A:72-115; A:186-435; #=GS 3vr4A02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr4A02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr4B02/79-122_193-442 AC Q08636 #=GS 3vr4B02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr4B02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr4B02/79-122_193-442 DR CATH; 3vr4; B:72-115; B:186-435; #=GS 3vr4B02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr4B02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr4C02/79-122_193-442 AC Q08636 #=GS 3vr4C02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr4C02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr4C02/79-122_193-442 DR CATH; 3vr4; C:72-115; C:186-435; #=GS 3vr4C02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr4C02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr5A02/79-122_193-442 AC Q08636 #=GS 3vr5A02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr5A02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr5A02/79-122_193-442 DR CATH; 3vr5; A:72-115; A:186-435; #=GS 3vr5A02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr5A02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr5B02/79-122_193-442 AC Q08636 #=GS 3vr5B02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr5B02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr5B02/79-122_193-442 DR CATH; 3vr5; B:72-115; B:186-435; #=GS 3vr5B02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr5B02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr5C02/79-122_193-442 AC Q08636 #=GS 3vr5C02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr5C02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr5C02/79-122_193-442 DR CATH; 3vr5; C:72-115; C:186-435; #=GS 3vr5C02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr5C02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr6A02/79-122_193-442 AC Q08636 #=GS 3vr6A02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr6A02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr6A02/79-122_193-442 DR CATH; 3vr6; A:72-115; A:186-435; #=GS 3vr6A02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr6A02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS P54647/89-131_205-456 AC P54647 #=GS P54647/89-131_205-456 OS Dictyostelium discoideum #=GS P54647/89-131_205-456 DE V-type proton ATPase catalytic subunit A #=GS P54647/89-131_205-456 DR GENE3D; 2606d6b27cd56a24e73dd5cbe287fbe1/89-131_205-456; #=GS P54647/89-131_205-456 DR ORG; Eukaryota; Dictyosteliida; Dictyostelium; Dictyostelium discoideum; #=GS P54647/89-131_205-456 DR GO; GO:0000331; GO:0005515; GO:0009617; GO:0032403; GO:0045335; #=GS P54647/89-131_205-456 DR EC; 3.6.3.14; #=GS F5HL05/85-128_201-452 AC F5HL05 #=GS F5HL05/85-128_201-452 OS Anopheles gambiae #=GS F5HL05/85-128_201-452 DE AGAP003153-PB #=GS F5HL05/85-128_201-452 DR GENE3D; 022d89f8f6bdd720be79af769fd56146/85-128_201-452; #=GS F5HL05/85-128_201-452 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles gambiae; #=GS F5HL05/85-128_201-452 DR EC; 3.6.3.14; #=GS Q5TTG1/85-128_201-452 AC Q5TTG1 #=GS Q5TTG1/85-128_201-452 OS Anopheles gambiae #=GS Q5TTG1/85-128_201-452 DE V-type proton ATPase catalytic subunit A #=GS Q5TTG1/85-128_201-452 DR GENE3D; 022d89f8f6bdd720be79af769fd56146/85-128_201-452; #=GS Q5TTG1/85-128_201-452 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles gambiae; #=GS Q5TTG1/85-128_201-452 DR EC; 3.6.3.14; #=GS E0VLH6/85-128_188-438 AC E0VLH6 #=GS E0VLH6/85-128_188-438 OS Pediculus humanus corporis #=GS E0VLH6/85-128_188-438 DE Vacuolar ATP synthase catalytic subunit A, osteoclast isoform, putative #=GS E0VLH6/85-128_188-438 DR GENE3D; e8a8554e344104ec6d74313f3549533a/85-128_188-438; #=GS E0VLH6/85-128_188-438 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Psocodea; Phthiraptera; Anoplura; Pediculidae; Pediculus; Pediculus humanus; Pediculus humanus corporis; #=GS E0VLH6/85-128_188-438 DR EC; 3.6.3.15; #=GS A8I164/82-124_197-449 AC A8I164 #=GS A8I164/82-124_197-449 OS Chlamydomonas reinhardtii #=GS A8I164/82-124_197-449 DE Vacuolar ATP synthase, subunit A #=GS A8I164/82-124_197-449 DR GENE3D; 155b9e66d57769838e78db5b2cc320fa/82-124_197-449; #=GS A8I164/82-124_197-449 DR ORG; Eukaryota; Viridiplantae; Chlorophyta; Chlorophyceae; Chlamydomonadales; Chlamydomonadaceae; Chlamydomonas; Chlamydomonas reinhardtii; #=GS A7SRN1/86-129_202-453 AC A7SRN1 #=GS A7SRN1/86-129_202-453 OS Nematostella vectensis #=GS A7SRN1/86-129_202-453 DE Predicted protein #=GS A7SRN1/86-129_202-453 DR GENE3D; 1bc8b8f7f5314dc461a4a6347cc5d348/86-129_202-453; #=GS A7SRN1/86-129_202-453 DR ORG; Eukaryota; Metazoa; Cnidaria; Anthozoa; Hexacorallia; Actiniaria; Edwardsiidae; Nematostella; Nematostella vectensis; #=GS F6H3B6/90-133_206-458 AC F6H3B6 #=GS F6H3B6/90-133_206-458 OS Vitis vinifera #=GS F6H3B6/90-133_206-458 DE Putative uncharacterized protein #=GS F6H3B6/90-133_206-458 DR GENE3D; 24f46e63e3bdce32c3ce453820e3a1e1/90-133_206-458; #=GS F6H3B6/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Vitales; Vitaceae; Vitis; Vitis vinifera; #=GS D8R3X7/54-97_170-424 AC D8R3X7 #=GS D8R3X7/54-97_170-424 OS Selaginella moellendorffii #=GS D8R3X7/54-97_170-424 DE Putative uncharacterized protein #=GS D8R3X7/54-97_170-424 DR GENE3D; 2ab99c73d9d35ef15dd7cd0ffacdfa1e/54-97_170-424; #=GS D8R3X7/54-97_170-424 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Lycopodiopsida; Selaginellales; Selaginellaceae; Selaginella; Selaginella moellendorffii; #=GS A9RGW5/90-133_206-458 AC A9RGW5 #=GS A9RGW5/90-133_206-458 OS Physcomitrella patens #=GS A9RGW5/90-133_206-458 DE Predicted protein #=GS A9RGW5/90-133_206-458 DR GENE3D; 2e0b279cb5ea35564d24a0b78050b4f0/90-133_206-458; #=GS A9RGW5/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Bryopsida; Funariidae; Funariales; Funariaceae; Physcomitrella; Physcomitrella patens; #=GS D7SS06/90-133_206-458 AC D7SS06 #=GS D7SS06/90-133_206-458 OS Vitis vinifera #=GS D7SS06/90-133_206-458 DE Putative uncharacterized protein #=GS D7SS06/90-133_206-458 DR GENE3D; 3967ea43767552d8baeb14c7dbd57b53/90-133_206-458; #=GS D7SS06/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Vitales; Vitaceae; Vitis; Vitis vinifera; #=GS A9RHN4/90-133_206-458 AC A9RHN4 #=GS A9RHN4/90-133_206-458 OS Physcomitrella patens #=GS A9RHN4/90-133_206-458 DE Predicted protein #=GS A9RHN4/90-133_206-458 DR GENE3D; 3bd111a6269de6f4dc799ea34d20dbaf/90-133_206-458; #=GS A9RHN4/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Bryopsida; Funariidae; Funariales; Funariaceae; Physcomitrella; Physcomitrella patens; #=GS A0A067RPA9/128-171_244-495 AC A0A067RPA9 #=GS A0A067RPA9/128-171_244-495 OS Zootermopsis nevadensis #=GS A0A067RPA9/128-171_244-495 DE V-type proton ATPase catalytic subunit A #=GS A0A067RPA9/128-171_244-495 DR GENE3D; 44a2fedb92ef73abc670c3c9abfa6b70/128-171_244-495; #=GS A0A067RPA9/128-171_244-495 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Polyneoptera; Blattodea; Blattoidea; Termopsidae; Termopsinae; Termopsini; Zootermopsis; Zootermopsis nevadensis; #=GS V4AX81/92-135_208-459 AC V4AX81 #=GS V4AX81/92-135_208-459 OS Lottia gigantea #=GS V4AX81/92-135_208-459 DE Uncharacterized protein #=GS V4AX81/92-135_208-459 DR GENE3D; 57e1d570e2915379d67d7d5f8d56d93f/92-135_208-459; #=GS V4AX81/92-135_208-459 DR ORG; Eukaryota; Metazoa; Mollusca; Gastropoda; Lottioidea; Lottiidae; Lottia; Lottia gigantea; #=GS B3RW75/71-111_184-435 AC B3RW75 #=GS B3RW75/71-111_184-435 OS Trichoplax adhaerens #=GS B3RW75/71-111_184-435 DE Putative uncharacterized protein #=GS B3RW75/71-111_184-435 DR GENE3D; 6223ad0fe85be9d133e7c960756c422a/71-111_184-435; #=GS B3RW75/71-111_184-435 DR ORG; Eukaryota; Metazoa; Placozoa; Trichoplax; Trichoplax adhaerens; #=GS A0A0K0JP76/85-128_202-453 AC A0A0K0JP76 #=GS A0A0K0JP76/85-128_202-453 OS Brugia malayi #=GS A0A0K0JP76/85-128_202-453 DE BMA-VHA-13 #=GS A0A0K0JP76/85-128_202-453 DR GENE3D; 6d44756d9c349e167250251eb0e1348e/85-128_202-453; #=GS A0A0K0JP76/85-128_202-453 DR ORG; Eukaryota; Metazoa; Nematoda; Chromadorea; Spirurida; Filarioidea; Onchocercidae; Brugia; Brugia malayi; #=GS A5BYV7/90-133_206-458 AC A5BYV7 #=GS A5BYV7/90-133_206-458 OS Vitis vinifera #=GS A5BYV7/90-133_206-458 DE Putative uncharacterized protein #=GS A5BYV7/90-133_206-458 DR GENE3D; 7205f04f5b71756c13927e044511b9c5/90-133_206-458; #=GS A5BYV7/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Vitales; Vitaceae; Vitis; Vitis vinifera; #=GS W1PX33/90-133_206-458 AC W1PX33 #=GS W1PX33/90-133_206-458 OS Amborella trichopoda #=GS W1PX33/90-133_206-458 DE Uncharacterized protein #=GS W1PX33/90-133_206-458 DR GENE3D; 72b1792407466d1523231e3b411ec7ea/90-133_206-458; #=GS W1PX33/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Amborellales; Amborellaceae; Amborella; Amborella trichopoda; #=GS T1EMC4/81-124_198-404 AC T1EMC4 #=GS T1EMC4/81-124_198-404 OS Helobdella robusta #=GS T1EMC4/81-124_198-404 DE Uncharacterized protein #=GS T1EMC4/81-124_198-404 DR GENE3D; 79d57d89f1909e5a05ca5c100e113864/81-124_198-404; #=GS T1EMC4/81-124_198-404 DR ORG; Eukaryota; Metazoa; Annelida; Clitellata; Hirudinea; Rhynchobdellida; Glossiphoniidae; Helobdella; Helobdella robusta; #=GS K4C764/90-133_206-458 AC K4C764 #=GS K4C764/90-133_206-458 OS Solanum lycopersicum #=GS K4C764/90-133_206-458 DE Uncharacterized protein #=GS K4C764/90-133_206-458 DR GENE3D; 81489653af6c378c4ae2410723459574/90-133_206-458; #=GS K4C764/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; asterids; Solanales; Solanaceae; Solanoideae; Solaneae; Solanum; Lycopersicon; Solanum lycopersicum; #=GS T1KDT6/92-135_208-459 AC T1KDT6 #=GS T1KDT6/92-135_208-459 OS Tetranychus urticae #=GS T1KDT6/92-135_208-459 DE Uncharacterized protein #=GS T1KDT6/92-135_208-459 DR GENE3D; 88fd8b1d16dad86eba71dd27e89b6c7e/92-135_208-459; #=GS T1KDT6/92-135_208-459 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Acariformes; Prostigmata; Eleutherengona; Tetranychoidea; Tetranychidae; Tetranychus; Tetranychus urticae; #=GS T1II23/105-148_221-466 AC T1II23 #=GS T1II23/105-148_221-466 OS Strigamia maritima #=GS T1II23/105-148_221-466 DE Uncharacterized protein #=GS T1II23/105-148_221-466 DR GENE3D; 9000a05b6d48d1892ba18cade0362ffd/105-148_221-466; #=GS T1II23/105-148_221-466 DR ORG; Eukaryota; Metazoa; Arthropoda; Myriapoda; Chilopoda; Pleurostigmophora; Geophilomorpha; Linotaeniidae; Strigamia; Strigamia maritima; #=GS D8RAI7/85-128_201-455 AC D8RAI7 #=GS D8RAI7/85-128_201-455 OS Selaginella moellendorffii #=GS D8RAI7/85-128_201-455 DE Putative uncharacterized protein #=GS D8RAI7/85-128_201-455 DR GENE3D; a2ae18f9d4efd59450fe81e5481ba01a/85-128_201-455; #=GS D8RAI7/85-128_201-455 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Lycopodiopsida; Selaginellales; Selaginellaceae; Selaginella; Selaginella moellendorffii; #=GS I1FHW5/84-127_201-452 AC I1FHW5 #=GS I1FHW5/84-127_201-452 OS Amphimedon queenslandica #=GS I1FHW5/84-127_201-452 DE Uncharacterized protein #=GS I1FHW5/84-127_201-452 DR GENE3D; a4a251c1f7a005c9469b7acb28c2e49f/84-127_201-452; #=GS I1FHW5/84-127_201-452 DR ORG; Eukaryota; Metazoa; Porifera; Demospongiae; Heteroscleromorpha; Haplosclerida; Niphatidae; Amphimedon; Amphimedon queenslandica; #=GS E9FSB2/92-135_208-459 AC E9FSB2 #=GS E9FSB2/92-135_208-459 OS Daphnia pulex #=GS E9FSB2/92-135_208-459 DE Putative uncharacterized protein #=GS E9FSB2/92-135_208-459 DR GENE3D; b5879fe4aff8a9866d4d79e1d408f328/92-135_208-459; #=GS E9FSB2/92-135_208-459 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia pulex; #=GS G4VKT8/91-134_214-466 AC G4VKT8 #=GS G4VKT8/91-134_214-466 OS Schistosoma mansoni #=GS G4VKT8/91-134_214-466 DE Putative atp synthase alpha subunit vacuolar #=GS G4VKT8/91-134_214-466 DR GENE3D; b8cd2addad7fa2e2b8a1bb4b717dafcd/91-134_214-466; #=GS G4VKT8/91-134_214-466 DR ORG; Eukaryota; Metazoa; Platyhelminthes; Trematoda; Digenea; Strigeidida; Schistosomatoidea; Schistosomatidae; Schistosoma; Schistosoma mansoni; #=GS K4DFR1/90-133_206-458 AC K4DFR1 #=GS K4DFR1/90-133_206-458 OS Solanum lycopersicum #=GS K4DFR1/90-133_206-458 DE Uncharacterized protein #=GS K4DFR1/90-133_206-458 DR GENE3D; ba8a20f5ff6ec1c0acaf6568702d43cc/90-133_206-458; #=GS K4DFR1/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; asterids; Solanales; Solanaceae; Solanoideae; Solaneae; Solanum; Lycopersicon; Solanum lycopersicum; #=GS D2A198/85-128_201-452 AC D2A198 #=GS D2A198/85-128_201-452 OS Tribolium castaneum #=GS D2A198/85-128_201-452 DE NtpA #=GS D2A198/85-128_201-452 DR GENE3D; ce4ec598863562e95441322c982e7888/85-128_201-452; #=GS D2A198/85-128_201-452 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Coleoptera; Polyphaga; Cucujiformia; Tenebrionoidea; Tenebrionidae; Tribolium; Tribolium castaneum; #=GS A0A088ANZ0/87-130_203-454 AC A0A088ANZ0 #=GS A0A088ANZ0/87-130_203-454 OS Apis mellifera #=GS A0A088ANZ0/87-130_203-454 DE Uncharacterized protein #=GS A0A088ANZ0/87-130_203-454 DR GENE3D; d52a6b675a43c6f28729dbbcef3dbd63/87-130_203-454; #=GS A0A088ANZ0/87-130_203-454 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Hymenoptera; Apocrita; Aculeata; Apoidea; Apidae; Apinae; Apini; Apis; Apis mellifera; #=GS 3gqbC02/72-114_182-429 AC Q56403 #=GS 3gqbC02/72-114_182-429 OS Thermus thermophilus HB8 #=GS 3gqbC02/72-114_182-429 DE V-type ATP synthase alpha chain #=GS 3gqbC02/72-114_182-429 DR CATH; 3gqb; C:72-114; C:182-429; #=GS 3gqbC02/72-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS 3gqbC02/72-114_182-429 DR GO; GO:0005515; #=GS 3gqbC02/72-114_182-429 DR EC; 3.6.3.14; #=GS 3w3aB02/72-114_182-429 AC Q56403 #=GS 3w3aB02/72-114_182-429 OS Thermus thermophilus HB8 #=GS 3w3aB02/72-114_182-429 DE V-type ATP synthase alpha chain #=GS 3w3aB02/72-114_182-429 DR CATH; 3w3a; B:72-114; B:182-429; #=GS 3w3aB02/72-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS 3w3aB02/72-114_182-429 DR GO; GO:0005515; #=GS 3w3aB02/72-114_182-429 DR EC; 3.6.3.14; #=GS 3w3aC02/72-114_182-429 AC Q56403 #=GS 3w3aC02/72-114_182-429 OS Thermus thermophilus HB8 #=GS 3w3aC02/72-114_182-429 DE V-type ATP synthase alpha chain #=GS 3w3aC02/72-114_182-429 DR CATH; 3w3a; C:72-114; C:182-429; #=GS 3w3aC02/72-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS 3w3aC02/72-114_182-429 DR GO; GO:0005515; #=GS 3w3aC02/72-114_182-429 DR EC; 3.6.3.14; #=GS 3w3aI02/72-114_182-429 AC Q56403 #=GS 3w3aI02/72-114_182-429 OS Thermus thermophilus HB8 #=GS 3w3aI02/72-114_182-429 DE V-type ATP synthase alpha chain #=GS 3w3aI02/72-114_182-429 DR CATH; 3w3a; I:72-114; I:182-429; #=GS 3w3aI02/72-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS 3w3aI02/72-114_182-429 DR GO; GO:0005515; #=GS 3w3aI02/72-114_182-429 DR EC; 3.6.3.14; #=GS 3w3aJ02/72-114_182-429 AC Q56403 #=GS 3w3aJ02/72-114_182-429 OS Thermus thermophilus HB8 #=GS 3w3aJ02/72-114_182-429 DE V-type ATP synthase alpha chain #=GS 3w3aJ02/72-114_182-429 DR CATH; 3w3a; J:72-114; J:182-429; #=GS 3w3aJ02/72-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS 3w3aJ02/72-114_182-429 DR GO; GO:0005515; #=GS 3w3aJ02/72-114_182-429 DR EC; 3.6.3.14; #=GS 3w3aK02/72-114_182-429 AC Q56403 #=GS 3w3aK02/72-114_182-429 OS Thermus thermophilus HB8 #=GS 3w3aK02/72-114_182-429 DE V-type ATP synthase alpha chain #=GS 3w3aK02/72-114_182-429 DR CATH; 3w3a; K:72-114; K:182-429; #=GS 3w3aK02/72-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS 3w3aK02/72-114_182-429 DR GO; GO:0005515; #=GS 3w3aK02/72-114_182-429 DR EC; 3.6.3.14; #=GS 3i72A01/61-115_191-437 AC O57728 #=GS 3i72A01/61-115_191-437 OS Pyrococcus horikoshii OT3 #=GS 3i72A01/61-115_191-437 DE V-type ATP synthase alpha chain #=GS 3i72A01/61-115_191-437 DR CATH; 3i72; A:61-115; A:191-437; #=GS 3i72A01/61-115_191-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3i72A01/61-115_191-437 DR EC; 3.6.3.14; #=GS 3i73A01/63-115_191-437 AC O57728 #=GS 3i73A01/63-115_191-437 OS Pyrococcus horikoshii OT3 #=GS 3i73A01/63-115_191-437 DE V-type ATP synthase alpha chain #=GS 3i73A01/63-115_191-437 DR CATH; 3i73; A:63-115; A:191-437; #=GS 3i73A01/63-115_191-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3i73A01/63-115_191-437 DR EC; 3.6.3.14; #=GS 3p20A01/62-115_191-437 AC O57728 #=GS 3p20A01/62-115_191-437 OS Pyrococcus horikoshii OT3 #=GS 3p20A01/62-115_191-437 DE V-type ATP synthase alpha chain #=GS 3p20A01/62-115_191-437 DR CATH; 3p20; A:62-115; A:191-437; #=GS 3p20A01/62-115_191-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3p20A01/62-115_191-437 DR EC; 3.6.3.14; #=GS 3se0A01/64-115_191-437 AC O57728 #=GS 3se0A01/64-115_191-437 OS Pyrococcus horikoshii OT3 #=GS 3se0A01/64-115_191-437 DE V-type ATP synthase alpha chain #=GS 3se0A01/64-115_191-437 DR CATH; 3se0; A:64-115; A:191-437; #=GS 3se0A01/64-115_191-437 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS 3se0A01/64-115_191-437 DR EC; 3.6.3.14; #=GS 5bn4A02/68-111_177-424 AC Q74MJ7 #=GS 5bn4A02/68-111_177-424 OS Nanoarchaeum equitans Kin4-M #=GS 5bn4A02/68-111_177-424 DE V-type ATP synthase alpha chain #=GS 5bn4A02/68-111_177-424 DR CATH; 5bn4; A:68-111; A:177-424; #=GS 5bn4A02/68-111_177-424 DR ORG; Archaea; Nanoarchaeota; Nanoarchaeales; Nanoarchaeaceae; Nanoarchaeum; Nanoarchaeum equitans; #=GS 5bn4A02/68-111_177-424 DR EC; 3.6.3.14; #=GS 5bn5A02/68-111_177-424 AC Q74MJ7 #=GS 5bn5A02/68-111_177-424 OS Nanoarchaeum equitans Kin4-M #=GS 5bn5A02/68-111_177-424 DE V-type ATP synthase alpha chain #=GS 5bn5A02/68-111_177-424 DR CATH; 5bn5; A:68-111; A:177-424; #=GS 5bn5A02/68-111_177-424 DR ORG; Archaea; Nanoarchaeota; Nanoarchaeales; Nanoarchaeaceae; Nanoarchaeum; Nanoarchaeum equitans; #=GS 5bn5A02/68-111_177-424 DR EC; 3.6.3.14; #=GS 3vr6B02/79-122_193-442 AC Q08636 #=GS 3vr6B02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr6B02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr6B02/79-122_193-442 DR CATH; 3vr6; B:72-115; B:186-435; #=GS 3vr6B02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr6B02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 3vr6C02/79-122_193-442 AC Q08636 #=GS 3vr6C02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 3vr6C02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 3vr6C02/79-122_193-442 DR CATH; 3vr6; C:72-115; C:186-435; #=GS 3vr6C02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 3vr6C02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 5knbA02/79-122_193-442 AC Q08636 #=GS 5knbA02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 5knbA02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 5knbA02/79-122_193-442 DR CATH; 5knb; A:72-115; A:186-435; #=GS 5knbA02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 5knbA02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 5knbB02/79-122_193-442 AC Q08636 #=GS 5knbB02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 5knbB02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 5knbB02/79-122_193-442 DR CATH; 5knb; B:72-115; B:186-435; #=GS 5knbB02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 5knbB02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 5knbC02/79-122_193-442 AC Q08636 #=GS 5knbC02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 5knbC02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 5knbC02/79-122_193-442 DR CATH; 5knb; C:72-115; C:186-435; #=GS 5knbC02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 5knbC02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 5kncA02/79-122_193-442 AC Q08636 #=GS 5kncA02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 5kncA02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 5kncA02/79-122_193-442 DR CATH; 5knc; A:72-115; A:186-435; #=GS 5kncA02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 5kncA02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 5kncB02/79-122_193-442 AC Q08636 #=GS 5kncB02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 5kncB02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 5kncB02/79-122_193-442 DR CATH; 5knc; B:72-115; B:186-435; #=GS 5kncB02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 5kncB02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 5kncC02/79-122_193-442 AC Q08636 #=GS 5kncC02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 5kncC02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 5kncC02/79-122_193-442 DR CATH; 5knc; C:72-115; C:186-435; #=GS 5kncC02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 5kncC02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 5kndA02/79-122_193-442 AC Q08636 #=GS 5kndA02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 5kndA02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 5kndA02/79-122_193-442 DR CATH; 5knd; A:72-115; A:186-435; #=GS 5kndA02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 5kndA02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 5kndB02/79-122_193-442 AC Q08636 #=GS 5kndB02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 5kndB02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 5kndB02/79-122_193-442 DR CATH; 5knd; B:72-115; B:186-435; #=GS 5kndB02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 5kndB02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS 5kndC02/79-122_193-442 AC Q08636 #=GS 5kndC02/79-122_193-442 OS Enterococcus hirae ATCC 9790 #=GS 5kndC02/79-122_193-442 DE V-type sodium ATPase catalytic subunit A #=GS 5kndC02/79-122_193-442 DR CATH; 5knd; C:72-115; C:186-435; #=GS 5kndC02/79-122_193-442 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS 5kndC02/79-122_193-442 DR EC; 3.6.3.14; 3.6.3.15; #=GS Q56403/73-114_182-429 AC Q56403 #=GS Q56403/73-114_182-429 OS Thermus thermophilus HB8 #=GS Q56403/73-114_182-429 DE V-type ATP synthase alpha chain #=GS Q56403/73-114_182-429 DR GENE3D; 9486c17a3bc18b183089f2bd9ee07995/73-114_182-429; #=GS Q56403/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS Q56403/73-114_182-429 DR GO; GO:0005515; #=GS Q56403/73-114_182-429 DR EC; 3.6.3.14; #=GS O51121/76-117_191-437 AC O51121 #=GS O51121/76-117_191-437 OS Borrelia burgdorferi B31 #=GS O51121/76-117_191-437 DE V-type ATP synthase alpha chain #=GS O51121/76-117_191-437 DR GENE3D; 231f6aaaaec150fd3539ddd4b2191573/76-117_191-437; #=GS O51121/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borreliella; Borreliella burgdorferi; #=GS O51121/76-117_191-437 DR EC; 3.6.3.14; #=GS O83441/77-118_192-440 AC O83441 #=GS O83441/77-118_192-440 OS Treponema pallidum subsp. pallidum str. Nichols #=GS O83441/77-118_192-440 DE V-type ATP synthase alpha chain 1 #=GS O83441/77-118_192-440 DR GENE3D; 247eb303a21439930ee7ff089ff934ac/77-118_192-440; #=GS O83441/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. pallidum; #=GS O83441/77-118_192-440 DR EC; 3.6.3.14; #=GS R9UVV0/77-118_192-440 AC R9UVV0 #=GS R9UVV0/77-118_192-440 OS Treponema pallidum subsp. pallidum str. Nichols #=GS R9UVV0/77-118_192-440 DE V-type ATP synthase alpha chain #=GS R9UVV0/77-118_192-440 DR GENE3D; 247eb303a21439930ee7ff089ff934ac/77-118_192-440; #=GS R9UVV0/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. pallidum; #=GS R9UVV0/77-118_192-440 DR EC; 3.6.3.14; #=GS Q2FP52/76-117_185-432 AC Q2FP52 #=GS Q2FP52/76-117_185-432 OS Methanospirillum hungatei JF-1 #=GS Q2FP52/76-117_185-432 DE V-type ATP synthase alpha chain 1 #=GS Q2FP52/76-117_185-432 DR GENE3D; 336d388306e3ca0fb6376dc3371666ec/76-117_185-432; #=GS Q2FP52/76-117_185-432 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanospirillaceae; Methanospirillum; Methanospirillum hungatei; #=GS Q2FP52/76-117_185-432 DR EC; 3.6.3.14; #=GS L9UJP9/81-123_192-439 AC L9UJP9 #=GS L9UJP9/81-123_192-439 OS Haloferax volcanii DS2 #=GS L9UJP9/81-123_192-439 DE V-type ATP synthase alpha chain #=GS L9UJP9/81-123_192-439 DR GENE3D; 45b2b279d83abeb9195003afaceaa5fb/81-123_192-439; #=GS L9UJP9/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax volcanii; #=GS L9UJP9/81-123_192-439 DR EC; 3.6.3.14; #=GS Q48332/81-123_192-439 AC Q48332 #=GS Q48332/81-123_192-439 OS Haloferax volcanii DS2 #=GS Q48332/81-123_192-439 DE V-type ATP synthase alpha chain #=GS Q48332/81-123_192-439 DR GENE3D; 45b2b279d83abeb9195003afaceaa5fb/81-123_192-439; #=GS Q48332/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax volcanii; #=GS Q48332/81-123_192-439 DR EC; 3.6.3.14; #=GS B0R755/79-120_189-436 AC B0R755 #=GS B0R755/79-120_189-436 OS Halobacterium salinarum R1 #=GS B0R755/79-120_189-436 DE V-type ATP synthase alpha chain #=GS B0R755/79-120_189-436 DR GENE3D; 5ecaaa19008ef06e6cd09b863315d5d5/79-120_189-436; #=GS B0R755/79-120_189-436 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Halobacterium; Halobacterium salinarum; #=GS B0R755/79-120_189-436 DR EC; 3.6.3.14; #=GS Q3ITC8/81-122_191-438 AC Q3ITC8 #=GS Q3ITC8/81-122_191-438 OS Natronomonas pharaonis DSM 2160 #=GS Q3ITC8/81-122_191-438 DE V-type ATP synthase alpha chain #=GS Q3ITC8/81-122_191-438 DR GENE3D; 66e9ca72e82af03887696dcedd4bb699/81-122_191-438; #=GS Q3ITC8/81-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Natronomonas; Natronomonas pharaonis; #=GS Q3ITC8/81-122_191-438 DR EC; 3.6.3.14; #=GS O84310/83-122_196-443 AC O84310 #=GS O84310/83-122_196-443 OS Chlamydia trachomatis D/UW-3/CX #=GS O84310/83-122_196-443 DE V-type ATP synthase alpha chain #=GS O84310/83-122_196-443 DR GENE3D; 8613744750fdb30a750018fa28c3fce0/83-122_196-443; #=GS O84310/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS O84310/83-122_196-443 DR EC; 3.6.3.14; #=GS Q5UXY8/81-123_192-439 AC Q5UXY8 #=GS Q5UXY8/81-123_192-439 OS Haloarcula marismortui ATCC 43049 #=GS Q5UXY8/81-123_192-439 DE V-type ATP synthase alpha chain #=GS Q5UXY8/81-123_192-439 DR GENE3D; 876a0a1bda9c129da5b213ca634de369/81-123_192-439; #=GS Q5UXY8/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula marismortui; #=GS Q5UXY8/81-123_192-439 DR EC; 3.6.3.14; #=GS O29101/78-119_188-435 AC O29101 #=GS O29101/78-119_188-435 OS Archaeoglobus fulgidus DSM 4304 #=GS O29101/78-119_188-435 DE V-type ATP synthase alpha chain #=GS O29101/78-119_188-435 DR GENE3D; 96363a85ddcb060301ebccdd6ff28b15/78-119_188-435; #=GS O29101/78-119_188-435 DR ORG; Archaea; Euryarchaeota; Archaeoglobi; Archaeoglobales; Archaeoglobaceae; Archaeoglobus; Archaeoglobus fulgidus; #=GS O29101/78-119_188-435 DR EC; 3.6.3.14; #=GS Q8TIJ1/73-114_182-429 AC Q8TIJ1 #=GS Q8TIJ1/73-114_182-429 OS Methanosarcina acetivorans C2A #=GS Q8TIJ1/73-114_182-429 DE V-type ATP synthase alpha chain #=GS Q8TIJ1/73-114_182-429 DR GENE3D; 99ff2b406b5c59dc97d3bc1923c80d2c/73-114_182-429; #=GS Q8TIJ1/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina acetivorans; #=GS Q8TIJ1/73-114_182-429 DR EC; 3.6.3.14; #=GS R9UT80/78-119_196-443 AC R9UT80 #=GS R9UT80/78-119_196-443 OS Treponema pallidum subsp. pallidum str. Nichols #=GS R9UT80/78-119_196-443 DE V-type ATP synthase alpha chain #=GS R9UT80/78-119_196-443 DR GENE3D; a374e345081906c3373af378cc9e972b/78-119_196-443; #=GS R9UT80/78-119_196-443 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. pallidum; #=GS R9UT80/78-119_196-443 DR EC; 3.6.3.14; #=GS O83541/78-119_196-443 AC O83541 #=GS O83541/78-119_196-443 OS Treponema pallidum subsp. pallidum str. Nichols #=GS O83541/78-119_196-443 DE V-type ATP synthase alpha chain 2 #=GS O83541/78-119_196-443 DR GENE3D; a374e345081906c3373af378cc9e972b/78-119_196-443; #=GS O83541/78-119_196-443 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. pallidum; #=GS O83541/78-119_196-443 DR EC; 3.6.3.14; #=GS Q74MJ7/69-111_177-423 AC Q74MJ7 #=GS Q74MJ7/69-111_177-423 OS Nanoarchaeum equitans Kin4-M #=GS Q74MJ7/69-111_177-423 DE V-type ATP synthase alpha chain #=GS Q74MJ7/69-111_177-423 DR GENE3D; c075fa2a3a917a6d117075f2178ddc79/69-111_177-423; #=GS Q74MJ7/69-111_177-423 DR ORG; Archaea; Nanoarchaeota; Nanoarchaeales; Nanoarchaeaceae; Nanoarchaeum; Nanoarchaeum equitans; #=GS Q74MJ7/69-111_177-423 DR EC; 3.6.3.14; #=GS Q2FL43/73-114_181-430 AC Q2FL43 #=GS Q2FL43/73-114_181-430 OS Methanospirillum hungatei JF-1 #=GS Q2FL43/73-114_181-430 DE V-type ATP synthase alpha chain 2 #=GS Q2FL43/73-114_181-430 DR GENE3D; c3ef716e6dac81da0653b601a45560ed/73-114_181-430; #=GS Q2FL43/73-114_181-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanospirillaceae; Methanospirillum; Methanospirillum hungatei; #=GS Q2FL43/73-114_181-430 DR EC; 3.6.3.14; #=GS Q9RWG8/76-117_185-432 AC Q9RWG8 #=GS Q9RWG8/76-117_185-432 OS Deinococcus radiodurans R1 #=GS Q9RWG8/76-117_185-432 DE V-type ATP synthase alpha chain #=GS Q9RWG8/76-117_185-432 DR GENE3D; df696a3a23bb5bc6ea7ae291f3c4f860/76-117_185-432; #=GS Q9RWG8/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus radiodurans; #=GS Q9RWG8/76-117_185-432 DR EC; 3.6.3.14; #=GS Q184E7/72-114_186-435 AC Q184E7 #=GS Q184E7/72-114_186-435 OS Clostridioides difficile 630 #=GS Q184E7/72-114_186-435 DE V-type ATP synthase alpha chain #=GS Q184E7/72-114_186-435 DR GENE3D; 00c6a3443cc8344bcdeb1f72fde03c46/72-114_186-435; #=GS Q184E7/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Clostridioides; Clostridioides difficile; #=GS Q184E7/72-114_186-435 DR EC; 3.6.3.14; #=GS A1RX21/77-117_189-438 AC A1RX21 #=GS A1RX21/77-117_189-438 OS Thermofilum pendens Hrk 5 #=GS A1RX21/77-117_189-438 DE V-type ATP synthase alpha chain #=GS A1RX21/77-117_189-438 DR GENE3D; 04970e83497291d704515cec4b8985eb/77-117_189-438; #=GS A1RX21/77-117_189-438 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermofilaceae; Thermofilum; Thermofilum pendens; #=GS A1RX21/77-117_189-438 DR EC; 3.6.3.14; #=GS B8E138/71-113_185-434 AC B8E138 #=GS B8E138/71-113_185-434 OS Dictyoglomus turgidum DSM 6724 #=GS B8E138/71-113_185-434 DE V-type ATP synthase alpha chain #=GS B8E138/71-113_185-434 DR GENE3D; 0f944d2900d8bf09fa0d7b980433c80a/71-113_185-434; #=GS B8E138/71-113_185-434 DR ORG; Bacteria; Dictyoglomi; Dictyoglomia; Dictyoglomales; Dictyoglomaceae; Dictyoglomus; Dictyoglomus turgidum; #=GS B8E138/71-113_185-434 DR EC; 3.6.3.14; #=GS Q5JIR3/70-112_185-434 AC Q5JIR3 #=GS Q5JIR3/70-112_185-434 OS Thermococcus kodakarensis KOD1 #=GS Q5JIR3/70-112_185-434 DE V-type ATP synthase alpha chain #=GS Q5JIR3/70-112_185-434 DR GENE3D; 205a4ea18fbb3e693ed60fe44d27b5e2/70-112_185-434; #=GS Q5JIR3/70-112_185-434 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus kodakarensis; #=GS Q5JIR3/70-112_185-434 DR EC; 3.6.3.14; #=GS Q2FQE9/74-116_188-437 AC Q2FQE9 #=GS Q2FQE9/74-116_188-437 OS Methanospirillum hungatei JF-1 #=GS Q2FQE9/74-116_188-437 DE V-type ATP synthase alpha chain 3 #=GS Q2FQE9/74-116_188-437 DR GENE3D; 2439e3704cdafebd9fa657c0b0094abd/74-116_188-437; #=GS Q2FQE9/74-116_188-437 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanospirillaceae; Methanospirillum; Methanospirillum hungatei; #=GS Q2FQE9/74-116_188-437 DR EC; 3.6.3.14; #=GS A0RXK1/73-115_188-437 AC A0RXK1 #=GS A0RXK1/73-115_188-437 OS Cenarchaeum symbiosum A #=GS A0RXK1/73-115_188-437 DE V-type ATP synthase alpha chain #=GS A0RXK1/73-115_188-437 DR GENE3D; 274496287966c05c42702c03c56a518f/73-115_188-437; #=GS A0RXK1/73-115_188-437 DR ORG; Archaea; Thaumarchaeota; Cenarchaeales; Cenarchaeaceae; Cenarchaeum; Cenarchaeum symbiosum; #=GS A0RXK1/73-115_188-437 DR EC; 3.6.3.14; #=GS Q6LYE7/72-115_186-435 AC Q6LYE7 #=GS Q6LYE7/72-115_186-435 OS Methanococcus maripaludis S2 #=GS Q6LYE7/72-115_186-435 DE V-type ATP synthase alpha chain #=GS Q6LYE7/72-115_186-435 DR GENE3D; 35c9c0503bb20fd18d4a33650997988a/72-115_186-435; #=GS Q6LYE7/72-115_186-435 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS Q6LYE7/72-115_186-435 DR EC; 3.6.3.14; #=GS Q8ZYR1/72-116_190-439 AC Q8ZYR1 #=GS Q8ZYR1/72-116_190-439 OS Pyrobaculum aerophilum str. IM2 #=GS Q8ZYR1/72-116_190-439 DE V-type ATP synthase alpha chain #=GS Q8ZYR1/72-116_190-439 DR GENE3D; 3a5270a3ec28e897be0f0bd1d25a0730/72-116_190-439; #=GS Q8ZYR1/72-116_190-439 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Pyrobaculum; Pyrobaculum aerophilum; #=GS Q8ZYR1/72-116_190-439 DR EC; 3.6.3.14; #=GS Q97QA8/72-115_187-436 AC Q97QA8 #=GS Q97QA8/72-115_187-436 OS Streptococcus pneumoniae TIGR4 #=GS Q97QA8/72-115_187-436 DE V-type ATP synthase alpha chain #=GS Q97QA8/72-115_187-436 DR GENE3D; 3b95d4ed4cc0650c389c0263f6e67d54/72-115_187-436; #=GS Q97QA8/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus pneumoniae; #=GS Q97QA8/72-115_187-436 DR EC; 3.6.3.14; #=GS D1B9Y8/49-92_163-412 AC D1B9Y8 #=GS D1B9Y8/49-92_163-412 OS Thermanaerovibrio acidaminovorans DSM 6589 #=GS D1B9Y8/49-92_163-412 DE V-type ATP synthase alpha chain #=GS D1B9Y8/49-92_163-412 DR GENE3D; 4d9e963f46da7f9955418ae8689ee99b/49-92_163-412; #=GS D1B9Y8/49-92_163-412 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistaceae; Thermanaerovibrio; Thermanaerovibrio acidaminovorans; #=GS D1B9Y8/49-92_163-412 DR EC; 3.6.3.14; #=GS Q9UWW6/72-115_187-436 AC Q9UWW6 #=GS Q9UWW6/72-115_187-436 OS Sulfolobus solfataricus P2 #=GS Q9UWW6/72-115_187-436 DE V-type ATP synthase alpha chain #=GS Q9UWW6/72-115_187-436 DR GENE3D; 5526d0643696de8f30ac7346918099f8/72-115_187-436; #=GS Q9UWW6/72-115_187-436 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus solfataricus; #=GS Q9UWW6/72-115_187-436 DR EC; 3.6.3.14; #=GS A9A2R0/73-115_188-437 AC A9A2R0 #=GS A9A2R0/73-115_188-437 OS Nitrosopumilus maritimus SCM1 #=GS A9A2R0/73-115_188-437 DE V-type ATP synthase alpha chain #=GS A9A2R0/73-115_188-437 DR GENE3D; 6e9731e0bcd7abcf517aa1b304f54fc2/73-115_188-437; #=GS A9A2R0/73-115_188-437 DR ORG; Archaea; Thaumarchaeota; Nitrosopumilales; Nitrosopumilaceae; Nitrosopumilus; Nitrosopumilus maritimus; #=GS A9A2R0/73-115_188-437 DR EC; 3.6.3.14; #=GS Q8TWL6/75-117_190-439 AC Q8TWL6 #=GS Q8TWL6/75-117_190-439 OS Methanopyrus kandleri AV19 #=GS Q8TWL6/75-117_190-439 DE V-type ATP synthase alpha chain #=GS Q8TWL6/75-117_190-439 DR GENE3D; 717a29ad47a211afc0eabc32d87df231/75-117_190-439; #=GS Q8TWL6/75-117_190-439 DR ORG; Archaea; Euryarchaeota; Methanopyri; Methanopyrales; Methanopyraceae; Methanopyrus; Methanopyrus kandleri; #=GS Q8TWL6/75-117_190-439 DR EC; 3.6.3.14; #=GS K2RBU1/73-115_187-436 AC K2RBU1 #=GS K2RBU1/73-115_187-436 OS Methanobacterium formicicum DSM 3637 #=GS K2RBU1/73-115_187-436 DE V-type ATP synthase alpha chain #=GS K2RBU1/73-115_187-436 DR GENE3D; 7b68584453096cd5d2b5582f85a726ae/73-115_187-436; #=GS K2RBU1/73-115_187-436 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium formicicum; #=GS K2RBU1/73-115_187-436 DR EC; 3.6.3.14; #=GS A5I557/72-114_185-434 AC A5I557 #=GS A5I557/72-114_185-434 OS Clostridium botulinum A str. Hall #=GS A5I557/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A5I557/72-114_185-434 DR GENE3D; 91f4278bf8428d4264465ef5474d13ab/72-114_185-434; #=GS A5I557/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium botulinum; #=GS A5I557/72-114_185-434 DR EC; 3.6.3.14; #=GS Q7MTX7/76-114_188-436 AC Q7MTX7 #=GS Q7MTX7/76-114_188-436 OS Porphyromonas gingivalis W83 #=GS Q7MTX7/76-114_188-436 DE V-type ATP synthase alpha chain #=GS Q7MTX7/76-114_188-436 DR GENE3D; 9f781c8da2eba575b0dfb9417d344c3d/76-114_188-436; #=GS Q7MTX7/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Porphyromonas; Porphyromonas gingivalis; #=GS Q7MTX7/76-114_188-436 DR EC; 3.6.3.14; #=GS Q9P997/403-606 AC Q9P997 #=GS Q9P997/403-606 OS Thermoplasma acidophilum DSM 1728 #=GS Q9P997/403-606 DE V-type ATP synthase alpha chain #=GS Q9P997/403-606 DR GENE3D; b37367450f003dd48632aa6095d8e340/403-606; #=GS Q9P997/403-606 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmataceae; Thermoplasma; Thermoplasma acidophilum; #=GS Q9P997/403-606 DR EC; 3.6.3.14; #=GS Q834X9/72-115_186-435 AC Q834X9 #=GS Q834X9/72-115_186-435 OS Enterococcus faecalis V583 #=GS Q834X9/72-115_186-435 DE V-type ATP synthase alpha chain #=GS Q834X9/72-115_186-435 DR GENE3D; b76ed65113d153caa745b52304bb6ed1/72-115_186-435; #=GS Q834X9/72-115_186-435 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus faecalis; #=GS Q834X9/72-115_186-435 DR EC; 3.6.3.14; #=GS A2BKX6/73-116_190-439 AC A2BKX6 #=GS A2BKX6/73-116_190-439 OS Hyperthermus butylicus DSM 5456 #=GS A2BKX6/73-116_190-439 DE V-type ATP synthase alpha chain #=GS A2BKX6/73-116_190-439 DR GENE3D; b97b7538ab8659d2b6a4938857e8dffe/73-116_190-439; #=GS A2BKX6/73-116_190-439 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Pyrodictiaceae; Hyperthermus; Hyperthermus butylicus; #=GS A2BKX6/73-116_190-439 DR EC; 3.6.3.14; #=GS P11592/84-127_200-451 AC P11592 #=GS P11592/84-127_200-451 OS Neurospora crassa OR74A #=GS P11592/84-127_200-451 DE V-type proton ATPase catalytic subunit A #=GS P11592/84-127_200-451 DR GENE3D; bb8e8cc947ebcfa75f92ca0651e22cef/84-127_200-451; #=GS P11592/84-127_200-451 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Sordariomycetes; Sordariomycetidae; Sordariales; Sordariaceae; Neurospora; Neurospora crassa; #=GS P11592/84-127_200-451 DR EC; 3.6.3.14; #=GS Q8A875/76-114_188-436 AC Q8A875 #=GS Q8A875/76-114_188-436 OS Bacteroides thetaiotaomicron VPI-5482 #=GS Q8A875/76-114_188-436 DE V-type ATP synthase alpha chain #=GS Q8A875/76-114_188-436 DR GENE3D; c4bbd013249191f15cae2b8d2b144264/76-114_188-436; #=GS Q8A875/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides thetaiotaomicron; #=GS Q8A875/76-114_188-436 DR EC; 3.6.3.14; #=GS A5UKB2/73-115_187-436 AC A5UKB2 #=GS A5UKB2/73-115_187-436 OS Methanobrevibacter smithii ATCC 35061 #=GS A5UKB2/73-115_187-436 DE V-type ATP synthase alpha chain #=GS A5UKB2/73-115_187-436 DR GENE3D; d1974081dd2d08f57a4d90a3b15a0821/73-115_187-436; #=GS A5UKB2/73-115_187-436 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter smithii; #=GS A5UKB2/73-115_187-436 DR EC; 3.6.3.14; #=GS O57728/616-813 AC O57728 #=GS O57728/616-813 OS Pyrococcus horikoshii OT3 #=GS O57728/616-813 DE V-type ATP synthase alpha chain #=GS O57728/616-813 DR GENE3D; dc6af73b0c1fa2ba1093c2ddd3aff293/616-813; #=GS O57728/616-813 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS O57728/616-813 DR EC; 3.6.3.14; #=GS D1B900/75-117_190-437 AC D1B900 #=GS D1B900/75-117_190-437 OS Thermanaerovibrio acidaminovorans DSM 6589 #=GS D1B900/75-117_190-437 DE V-type ATP synthase alpha chain #=GS D1B900/75-117_190-437 DR GENE3D; df136ef6831c3fdb0b9d017a2a853231/75-117_190-437; #=GS D1B900/75-117_190-437 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistaceae; Thermanaerovibrio; Thermanaerovibrio acidaminovorans; #=GS D1B900/75-117_190-437 DR EC; 3.6.3.14; #=GS O27036/73-115_187-436 AC O27036 #=GS O27036/73-115_187-436 OS Methanothermobacter thermautotrophicus str. Delta H #=GS O27036/73-115_187-436 DE V-type ATP synthase alpha chain #=GS O27036/73-115_187-436 DR GENE3D; e288067a79c847ab1bd45212f4b861ee/73-115_187-436; #=GS O27036/73-115_187-436 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter thermautotrophicus; #=GS O27036/73-115_187-436 DR EC; 3.6.3.14; #=GS B1L6G7/78-121_193-442 AC B1L6G7 #=GS B1L6G7/78-121_193-442 OS Candidatus Korarchaeum cryptofilum OPF8 #=GS B1L6G7/78-121_193-442 DE V-type ATP synthase alpha chain #=GS B1L6G7/78-121_193-442 DR GENE3D; e351ee3ba3c705d0ee220d6341f1330d/78-121_193-442; #=GS B1L6G7/78-121_193-442 DR ORG; Archaea; Candidatus Korarchaeota; Candidatus Korarchaeum; Candidatus Korarchaeum cryptofilum; #=GS B1L6G7/78-121_193-442 DR EC; 3.6.3.14; #=GS Q57670/73-116_188-437 AC Q57670 #=GS Q57670/73-116_188-437 OS Methanocaldococcus jannaschii DSM 2661 #=GS Q57670/73-116_188-437 DE V-type ATP synthase alpha chain #=GS Q57670/73-116_188-437 DR GENE3D; ea27530efafe5e928da4ab42b9398710/73-116_188-437; #=GS Q57670/73-116_188-437 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus jannaschii; #=GS Q57670/73-116_188-437 DR EC; 3.6.3.14; #=GS Q9YF35/73-122_195-444 AC Q9YF35 #=GS Q9YF35/73-122_195-444 OS Aeropyrum pernix K1 #=GS Q9YF35/73-122_195-444 DE V-type ATP synthase alpha chain #=GS Q9YF35/73-122_195-444 DR GENE3D; fe29b391c54719de4cfca42d2ecfc6e3/73-122_195-444; #=GS Q9YF35/73-122_195-444 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Desulfurococcaceae; Aeropyrum; Aeropyrum pernix; #=GS Q9YF35/73-122_195-444 DR EC; 3.6.3.14; #=GS A8BYU1/79-121_209-434 AC A8BYU1 #=GS A8BYU1/79-121_209-434 OS Giardia lamblia ATCC 50803 #=GS A8BYU1/79-121_209-434 DE Vacuolar ATP synthase catalytic subunit A #=GS A8BYU1/79-121_209-434 DR GENE3D; b4ffd355b86006d5021eedf266b06dd8/79-121_209-434; #=GS A8BYU1/79-121_209-434 DR ORG; Eukaryota; Hexamitidae; Giardiinae; Giardia; Giardia intestinalis; #=GS A8BYU1/79-121_209-434 DR EC; 3.6.3.14; #=GS A0A1M7V397/83-122_196-443 AC A0A1M7V397 #=GS A0A1M7V397/83-122_196-443 OS Chlamydia abortus #=GS A0A1M7V397/83-122_196-443 DE V-type ATP synthase subunit A #=GS A0A1M7V397/83-122_196-443 DR GENE3D; 6b7900a9f0da836c3aa7f7da578d4d07/83-122_196-443; #=GS A0A1M7V397/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia abortus; #=GS A0A1M7V397/83-122_196-443 DR EC; 3.6.3.14; 3.6.3.15; #=GS A0A0E9G1V0/41-288 AC A0A0E9G1V0 #=GS A0A0E9G1V0/41-288 OS Chlamydia trachomatis #=GS A0A0E9G1V0/41-288 DE V-type ATP synthase subunit A #=GS A0A0E9G1V0/41-288 DR GENE3D; 9441dd915216365a5fa1f165b4bc4c2b/41-288; #=GS A0A0E9G1V0/41-288 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS A0A0E9G1V0/41-288 DR EC; 3.6.3.14; 3.6.3.15; #=GS A0A0E9F6X9/1-248 AC A0A0E9F6X9 #=GS A0A0E9F6X9/1-248 OS Chlamydia trachomatis #=GS A0A0E9F6X9/1-248 DE V-type ATP synthase subunit A #=GS A0A0E9F6X9/1-248 DR GENE3D; f24f53046936ee021c1980edd925bc52/1-248; #=GS A0A0E9F6X9/1-248 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS A0A0E9F6X9/1-248 DR EC; 3.6.3.14; 3.6.3.15; #=GS A0A0E2HZ74/72-115_186-435 AC A0A0E2HZ74 #=GS A0A0E2HZ74/72-115_186-435 OS Enterococcus hirae ATCC 9790 #=GS A0A0E2HZ74/72-115_186-435 DE V-type ATP synthase alpha chain #=GS A0A0E2HZ74/72-115_186-435 DR GENE3D; 05823c4ce590ae75876833451d98a09e/72-115_186-435; #=GS A0A0E2HZ74/72-115_186-435 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS A0A0E2HZ74/72-115_186-435 DR EC; 3.6.3.14; 3.6.3.15; #=GS Q08636/72-115_186-435 AC Q08636 #=GS Q08636/72-115_186-435 OS Enterococcus hirae ATCC 9790 #=GS Q08636/72-115_186-435 DE V-type sodium ATPase catalytic subunit A #=GS Q08636/72-115_186-435 DR GENE3D; 05823c4ce590ae75876833451d98a09e/72-115_186-435; #=GS Q08636/72-115_186-435 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus hirae; #=GS Q08636/72-115_186-435 DR EC; 3.6.3.14; 3.6.3.15; #=GS G3Y1B9/81-124_198-449 AC G3Y1B9 #=GS G3Y1B9/81-124_198-449 OS Aspergillus niger ATCC 1015 #=GS G3Y1B9/81-124_198-449 DE Vacuolar membrane ATPase catalytic subunit A #=GS G3Y1B9/81-124_198-449 DR GENE3D; 833f23a6cf08ded727163a8e59932942/81-124_198-449; #=GS G3Y1B9/81-124_198-449 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Eurotiomycetes; Eurotiomycetidae; Eurotiales; Aspergillaceae; Aspergillus; Aspergillus niger; #=GS G3Y1B9/81-124_198-449 DR EC; 3.6.3.14; 3.6.3.6; #=GS Q5AJB1/54-97_171-422 AC Q5AJB1 #=GS Q5AJB1/54-97_171-422 OS Candida albicans SC5314 #=GS Q5AJB1/54-97_171-422 DE V-type proton ATPase catalytic subunit A #=GS Q5AJB1/54-97_171-422 DR GENE3D; 8c4a4f5df5b6da933fa7da04af52f360/54-97_171-422; #=GS Q5AJB1/54-97_171-422 DR ORG; Eukaryota; Fungi; Dikarya; Ascomycota; Saccharomycotina; Saccharomycetes; Saccharomycetales; Debaryomycetaceae; Candida; Candida albicans; #=GS Q5AJB1/54-97_171-422 DR GO; GO:0000329; GO:0005829; GO:0006897; GO:0007035; GO:0009405; GO:0034599; #=GS Q5AJB1/54-97_171-422 DR EC; 3.6.3.14; #=GS P31405/90-133_206-458 AC P31405 #=GS P31405/90-133_206-458 OS Gossypium hirsutum #=GS P31405/90-133_206-458 DE V-type proton ATPase catalytic subunit A #=GS P31405/90-133_206-458 DR GENE3D; b499c1aabd775e599fb5ee7b6af277e0/90-133_206-458; #=GS P31405/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Malvales; Malvaceae; Malvoideae; Gossypium; Gossypium hirsutum; #=GS P31405/90-133_206-458 DR GO; GO:0009705; GO:0016887; GO:0090377; GO:0090378; #=GS P31405/90-133_206-458 DR EC; 3.6.3.14; #=GS P31404/87-130_204-455 AC P31404 #=GS P31404/87-130_204-455 OS Bos taurus #=GS P31404/87-130_204-455 DE V-type proton ATPase catalytic subunit A #=GS P31404/87-130_204-455 DR GENE3D; 2e66a3ed39f73e8462a2730bb2dbfd15/87-130_204-455; #=GS P31404/87-130_204-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS P31404/87-130_204-455 DR GO; GO:0005829; GO:0005886; #=GS P31404/87-130_204-455 DR EC; 3.6.3.14; #=GS Q5R5H2/87-130_204-455 AC Q5R5H2 #=GS Q5R5H2/87-130_204-455 OS Pongo abelii #=GS Q5R5H2/87-130_204-455 DE V-type proton ATPase catalytic subunit A #=GS Q5R5H2/87-130_204-455 DR GENE3D; 4f1879fb9bf93cc9de6261123dc1c9b8/87-130_204-455; #=GS Q5R5H2/87-130_204-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Ponginae; Pongo; Pongo abelii; #=GS Q5R5H2/87-130_204-455 DR GO; GO:0005829; GO:0005886; #=GS Q5R5H2/87-130_204-455 DR EC; 3.6.3.14; #=GS Q29048/87-130_204-455 AC Q29048 #=GS Q29048/87-130_204-455 OS Sus scrofa #=GS Q29048/87-130_204-455 DE V-type proton ATPase catalytic subunit A #=GS Q29048/87-130_204-455 DR GENE3D; e16a9ad2a19f3e3ffc72dfd1312659ed/87-130_204-455; #=GS Q29048/87-130_204-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Mammalia; Laurasiatheria; Suina; Suidae; Sus; Sus scrofa; #=GS Q29048/87-130_204-455 DR GO; GO:0005829; GO:0005886; #=GS Q29048/87-130_204-455 DR EC; 3.6.3.14; #=GS F2KP30/78-119_188-435 AC F2KP30 #=GS F2KP30/78-119_188-435 OS Archaeoglobus veneficus SNP6 #=GS F2KP30/78-119_188-435 DE V-type ATP synthase alpha chain #=GS F2KP30/78-119_188-435 DR GENE3D; 0202788a7125e08421cd76c68c3246a9/78-119_188-435; #=GS F2KP30/78-119_188-435 DR ORG; Archaea; Euryarchaeota; Archaeoglobi; Archaeoglobales; Archaeoglobaceae; Archaeoglobus; Archaeoglobus veneficus; #=GS F2KP30/78-119_188-435 DR EC; 3.6.3.14; #=GS A0A1G1MP71/78-119_193-441 AC A0A1G1MP71 #=GS A0A1G1MP71/78-119_193-441 OS Omnitrophica WOR_2 bacterium RBG_13_44_8b #=GS A0A1G1MP71/78-119_193-441 DE V-type ATP synthase alpha chain #=GS A0A1G1MP71/78-119_193-441 DR GENE3D; 0276e055fbcd36ef166615b086a958da/78-119_193-441; #=GS A0A1G1MP71/78-119_193-441 DR ORG; Bacteria; Candidatus Omnitrophica; Omnitrophica WOR_2 bacterium RBG_13_44_8b; #=GS A0A1G1MP71/78-119_193-441 DR EC; 3.6.3.14; #=GS A0A1F8JW62/79-119_193-439 AC A0A1F8JW62 #=GS A0A1F8JW62/79-119_193-439 OS Chlamydiae bacterium RIFCSPLOWO2_01_FULL_28_7 #=GS A0A1F8JW62/79-119_193-439 DE V-type ATP synthase alpha chain #=GS A0A1F8JW62/79-119_193-439 DR GENE3D; 0320586cf97ef73163dac5189972892c/79-119_193-439; #=GS A0A1F8JW62/79-119_193-439 DR ORG; Bacteria; Chlamydiae; Chlamydiae bacterium RIFCSPLOWO2_01_FULL_28_7; #=GS A0A1F8JW62/79-119_193-439 DR EC; 3.6.3.14; #=GS B8JE35/72-113_181-427 AC B8JE35 #=GS B8JE35/72-113_181-427 OS Anaeromyxobacter dehalogenans 2CP-1 #=GS B8JE35/72-113_181-427 DE V-type ATP synthase alpha chain #=GS B8JE35/72-113_181-427 DR GENE3D; 02fdd17005759077a7d3aced9ed137ea/72-113_181-427; #=GS B8JE35/72-113_181-427 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Cystobacterineae; Anaeromyxobacteraceae; Anaeromyxobacter; Anaeromyxobacter dehalogenans; #=GS B8JE35/72-113_181-427 DR EC; 3.6.3.14; #=GS A0A023X843/88-134_201-449 AC A0A023X843 #=GS A0A023X843/88-134_201-449 OS Rubrobacter radiotolerans #=GS A0A023X843/88-134_201-449 DE V-type ATP synthase alpha chain #=GS A0A023X843/88-134_201-449 DR GENE3D; 0330ced3585fb6e63a025dde9f8e699c/88-134_201-449; #=GS A0A023X843/88-134_201-449 DR ORG; Bacteria; Actinobacteria; Rubrobacteria; Rubrobacterales; Rubrobacteraceae; Rubrobacter; Rubrobacter radiotolerans; #=GS A0A023X843/88-134_201-449 DR EC; 3.6.3.14; #=GS A0A1G1DDS6/75-116_183-431 AC A0A1G1DDS6 #=GS A0A1G1DDS6/75-116_183-431 OS Nitrospinae bacterium RIFCSPLOWO2_02_39_17 #=GS A0A1G1DDS6/75-116_183-431 DE V-type ATP synthase alpha chain #=GS A0A1G1DDS6/75-116_183-431 DR GENE3D; 034fe183ca4b648f306e6481a669697c/75-116_183-431; #=GS A0A1G1DDS6/75-116_183-431 DR ORG; Bacteria; Nitrospinae; Nitrospinae bacterium RIFCSPLOWO2_02_39_17; #=GS A0A1G1DDS6/75-116_183-431 DR EC; 3.6.3.14; #=GS F4BZ02/73-113_182-429 AC F4BZ02 #=GS F4BZ02/73-113_182-429 OS Methanosaeta concilii GP6 #=GS F4BZ02/73-113_182-429 DE V-type ATP synthase alpha chain #=GS F4BZ02/73-113_182-429 DR GENE3D; 04a69b777f2e0eda557a40cf4e1f0a5f/73-113_182-429; #=GS F4BZ02/73-113_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosaetaceae; Methanosaeta; Methanosaeta concilii; #=GS F4BZ02/73-113_182-429 DR EC; 3.6.3.14; #=GS A0A0W8F7M9/73-113_182-429 AC A0A0W8F7M9 #=GS A0A0W8F7M9/73-113_182-429 OS hydrocarbon metagenome #=GS A0A0W8F7M9/73-113_182-429 DE V-type atp synthase subunit a #=GS A0A0W8F7M9/73-113_182-429 DR GENE3D; 04a69b777f2e0eda557a40cf4e1f0a5f/73-113_182-429; #=GS A0A0W8F7M9/73-113_182-429 DR ORG; hydrocarbon metagenome; #=GS A0A0W8F7M9/73-113_182-429 DR EC; 3.6.3.14; #=GS A0A1E9TMY5/72-113_186-433 AC A0A1E9TMY5 #=GS A0A1E9TMY5/72-113_186-433 OS Aerococcus sp. HMSC062A02 #=GS A0A1E9TMY5/72-113_186-433 DE V-type ATP synthase alpha chain #=GS A0A1E9TMY5/72-113_186-433 DR GENE3D; 04e9159e94cd156dd68407766f80efa8/72-113_186-433; #=GS A0A1E9TMY5/72-113_186-433 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Aerococcaceae; Aerococcus; Aerococcus sp. HMSC062A02; #=GS A0A1E9TMY5/72-113_186-433 DR EC; 3.6.3.14; #=GS W9DV38/71-112_180-427 AC W9DV38 #=GS W9DV38/71-112_180-427 OS Methanolobus tindarius DSM 2278 #=GS W9DV38/71-112_180-427 DE V-type ATP synthase alpha chain #=GS W9DV38/71-112_180-427 DR GENE3D; 0809392f192dc157d4200e0de3ae5635/71-112_180-427; #=GS W9DV38/71-112_180-427 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanolobus; Methanolobus tindarius; #=GS W9DV38/71-112_180-427 DR EC; 3.6.3.14; #=GS D2REZ8/78-119_187-434 AC D2REZ8 #=GS D2REZ8/78-119_187-434 OS Archaeoglobus profundus DSM 5631 #=GS D2REZ8/78-119_187-434 DE V-type ATP synthase alpha chain #=GS D2REZ8/78-119_187-434 DR GENE3D; 07d3be36f52689c795846556c63fa329/78-119_187-434; #=GS D2REZ8/78-119_187-434 DR ORG; Archaea; Euryarchaeota; Archaeoglobi; Archaeoglobales; Archaeoglobaceae; Archaeoglobus; Archaeoglobus profundus; #=GS D2REZ8/78-119_187-434 DR EC; 3.6.3.14; #=GS G8N8D9/73-114_182-429 AC G8N8D9 #=GS G8N8D9/73-114_182-429 OS Thermus sp. CCB_US3_UF1 #=GS G8N8D9/73-114_182-429 DE V-type ATP synthase alpha chain #=GS G8N8D9/73-114_182-429 DR GENE3D; 0837af5e443248753f30366921011ac5/73-114_182-429; #=GS G8N8D9/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus sp. CCB_US3_UF1; #=GS G8N8D9/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A017RX54/73-114_186-433 AC A0A017RX54 #=GS A0A017RX54/73-114_186-433 OS Fervidicella metallireducens AeB #=GS A0A017RX54/73-114_186-433 DE V-type ATP synthase alpha chain #=GS A0A017RX54/73-114_186-433 DR GENE3D; 09ed5414a9dab9b0365eafe70e5e6517/73-114_186-433; #=GS A0A017RX54/73-114_186-433 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Fervidicella; Fervidicella metallireducens; #=GS A0A017RX54/73-114_186-433 DR EC; 3.6.3.14; #=GS D2EEE7/72-113_185-432 AC D2EEE7 #=GS D2EEE7/72-113_185-432 OS Candidatus Parvarchaeum acidiphilum ARMAN-4 #=GS D2EEE7/72-113_185-432 DE V-type ATP synthase alpha chain #=GS D2EEE7/72-113_185-432 DR GENE3D; 0a9c77d9010ffc98d18196b3d164b24c/72-113_185-432; #=GS D2EEE7/72-113_185-432 DR ORG; Archaea; Candidatus Parvarchaeota; Candidatus Parvarchaeum; Candidatus Parvarchaeum acidiphilum; #=GS D2EEE7/72-113_185-432 DR EC; 3.6.3.14; #=GS D6PC60/76-117_185-432 AC D6PC60 #=GS D6PC60/76-117_185-432 OS uncultured archaeon MedDCM-OCT-S09-C50 #=GS D6PC60/76-117_185-432 DE V-type ATP synthase alpha chain #=GS D6PC60/76-117_185-432 DR GENE3D; 0ace52971c20a133f190d91f2a6cd615/76-117_185-432; #=GS D6PC60/76-117_185-432 DR ORG; Archaea; uncultured archaeon MedDCM-OCT-S09-C50; #=GS D6PC60/76-117_185-432 DR EC; 3.6.3.14; #=GS A0A0E1C0Q4/76-117_191-436 AC A0A0E1C0Q4 #=GS A0A0E1C0Q4/76-117_191-436 OS Borrelia hermsii MTW #=GS A0A0E1C0Q4/76-117_191-436 DE V-type ATP synthase alpha chain #=GS A0A0E1C0Q4/76-117_191-436 DR GENE3D; 0a9d1478711c40d0edf6544ee58c2a54/76-117_191-436; #=GS A0A0E1C0Q4/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia hermsii; #=GS A0A0E1C0Q4/76-117_191-436 DR EC; 3.6.3.14; #=GS A0A101E1J9/78-119_188-435 AC A0A101E1J9 #=GS A0A101E1J9/78-119_188-435 OS Archaeoglobus fulgidus #=GS A0A101E1J9/78-119_188-435 DE V-type ATP synthase alpha chain #=GS A0A101E1J9/78-119_188-435 DR GENE3D; 0b66bcc664b88d8c47135c30be8b9b4e/78-119_188-435; #=GS A0A101E1J9/78-119_188-435 DR ORG; Archaea; Euryarchaeota; Archaeoglobi; Archaeoglobales; Archaeoglobaceae; Archaeoglobus; Archaeoglobus fulgidus; #=GS A0A101E1J9/78-119_188-435 DR EC; 3.6.3.14; #=GS Q0W363/73-114_183-430 AC Q0W363 #=GS Q0W363/73-114_183-430 OS Methanocella arvoryzae MRE50 #=GS Q0W363/73-114_183-430 DE V-type ATP synthase alpha chain #=GS Q0W363/73-114_183-430 DR GENE3D; 0b53ddda47557621d44980aa98e86236/73-114_183-430; #=GS Q0W363/73-114_183-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanocellales; Methanocellaceae; Methanocella; Methanocella arvoryzae; #=GS Q0W363/73-114_183-430 DR EC; 3.6.3.14; #=GS A0A1G3YST5/73-114_192-439 AC A0A1G3YST5 #=GS A0A1G3YST5/73-114_192-439 OS Treponema sp. GWC1_61_84 #=GS A0A1G3YST5/73-114_192-439 DE V-type ATP synthase alpha chain #=GS A0A1G3YST5/73-114_192-439 DR GENE3D; 0c09ac6e81958456c21ba27c8ebdd38b/73-114_192-439; #=GS A0A1G3YST5/73-114_192-439 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema sp. GWC1_61_84; #=GS A0A1G3YST5/73-114_192-439 DR EC; 3.6.3.14; #=GS A0A0W8FG97/60-101_168-417 AC A0A0W8FG97 #=GS A0A0W8FG97/60-101_168-417 OS hydrocarbon metagenome #=GS A0A0W8FG97/60-101_168-417 DE V-type atp synthase subunit a #=GS A0A0W8FG97/60-101_168-417 DR GENE3D; 0c55a0cdbce78eb48c0b5ab7657fec5c/60-101_168-417; #=GS A0A0W8FG97/60-101_168-417 DR ORG; hydrocarbon metagenome; #=GS A0A0W8FG97/60-101_168-417 DR EC; 3.6.3.14; #=GS G0LN68/80-122_191-438 AC G0LN68 #=GS G0LN68/80-122_191-438 OS Haloquadratum walsbyi C23 #=GS G0LN68/80-122_191-438 DE V-type ATP synthase alpha chain #=GS G0LN68/80-122_191-438 DR GENE3D; 0c6b674870f925b96b815c15fd821677/80-122_191-438; #=GS G0LN68/80-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloquadratum; Haloquadratum walsbyi; #=GS G0LN68/80-122_191-438 DR EC; 3.6.3.14; #=GS A0A1G7RMQ7/82-124_193-440 AC A0A1G7RMQ7 #=GS A0A1G7RMQ7/82-124_193-440 OS Halorubrum xinjiangense #=GS A0A1G7RMQ7/82-124_193-440 DE V-type ATP synthase alpha chain #=GS A0A1G7RMQ7/82-124_193-440 DR GENE3D; 0c9af57fe467f586abdd0707c7b2cfcc/82-124_193-440; #=GS A0A1G7RMQ7/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum xinjiangense; #=GS A0A1G7RMQ7/82-124_193-440 DR EC; 3.6.3.14; #=GS M2Q080/73-113_185-432 AC M2Q080 #=GS M2Q080/73-113_185-432 OS Eggerthia catenaformis OT 569 = DSM 20559 #=GS M2Q080/73-113_185-432 DE V-type ATP synthase alpha chain #=GS M2Q080/73-113_185-432 DR GENE3D; 0d184d214a81590761cca38be04823bd/73-113_185-432; #=GS M2Q080/73-113_185-432 DR ORG; Bacteria; Firmicutes; Erysipelotrichia; Erysipelotrichales; Erysipelotrichaceae; Eggerthia; Eggerthia catenaformis; #=GS M2Q080/73-113_185-432 DR EC; 3.6.3.14; #=GS D8J5X0/83-124_193-440 AC D8J5X0 #=GS D8J5X0/83-124_193-440 OS Halalkalicoccus jeotgali B3 #=GS D8J5X0/83-124_193-440 DE V-type ATP synthase alpha chain #=GS D8J5X0/83-124_193-440 DR GENE3D; 0f0af9ed6d68d3ff6e7cc0e963bece38/83-124_193-440; #=GS D8J5X0/83-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Halalkalicoccus; Halalkalicoccus jeotgali; #=GS D8J5X0/83-124_193-440 DR EC; 3.6.3.14; #=GS F8L954/83-123_197-444 AC F8L954 #=GS F8L954/83-123_197-444 OS Simkania negevensis Z #=GS F8L954/83-123_197-444 DE V-type ATP synthase alpha chain #=GS F8L954/83-123_197-444 DR GENE3D; 0f3900534ba1851177b2b2dbe119edf3/83-123_197-444; #=GS F8L954/83-123_197-444 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Simkaniaceae; Simkania; Simkania negevensis; #=GS F8L954/83-123_197-444 DR EC; 3.6.3.14; #=GS M0L8T9/81-123_192-439 AC M0L8T9 #=GS M0L8T9/81-123_192-439 OS Haloarcula japonica DSM 6131 #=GS M0L8T9/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0L8T9/81-123_192-439 DR GENE3D; 0f4c54ad41a365f09aad9012527ded3c/81-123_192-439; #=GS M0L8T9/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula japonica; #=GS M0L8T9/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A1J4UUU6/71-112_178-426 AC A0A1J4UUU6 #=GS A0A1J4UUU6/71-112_178-426 OS Candidatus Micrarchaeota archaeon CG1_02_55_22 #=GS A0A1J4UUU6/71-112_178-426 DE V-type ATP synthase alpha chain #=GS A0A1J4UUU6/71-112_178-426 DR GENE3D; 113db238daa75e48014c22b3b189d0a6/71-112_178-426; #=GS A0A1J4UUU6/71-112_178-426 DR ORG; Archaea; Candidatus Micrarchaeota; Candidatus Micrarchaeota archaeon CG1_02_55_22; #=GS A0A1J4UUU6/71-112_178-426 DR EC; 3.6.3.14; #=GS M1XNK2/81-122_191-438 AC M1XNK2 #=GS M1XNK2/81-122_191-438 OS Natronomonas moolapensis 8.8.11 #=GS M1XNK2/81-122_191-438 DE V-type ATP synthase alpha chain #=GS M1XNK2/81-122_191-438 DR GENE3D; 126643051c2c22ee6fc279e286e07ff5/81-122_191-438; #=GS M1XNK2/81-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Natronomonas; Natronomonas moolapensis; #=GS M1XNK2/81-122_191-438 DR EC; 3.6.3.14; #=GS F8L1W7/88-128_202-449 AC F8L1W7 #=GS F8L1W7/88-128_202-449 OS Parachlamydia acanthamoebae UV-7 #=GS F8L1W7/88-128_202-449 DE V-type ATP synthase alpha chain #=GS F8L1W7/88-128_202-449 DR GENE3D; 14923d8a8e88680e1e56d94083a0e6dc/88-128_202-449; #=GS F8L1W7/88-128_202-449 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Parachlamydiaceae; Parachlamydia; Parachlamydia acanthamoebae; #=GS F8L1W7/88-128_202-449 DR EC; 3.6.3.14; #=GS G7WRE6/51-91_159-406 AC G7WRE6 #=GS G7WRE6/51-91_159-406 OS Methanosaeta harundinacea 6Ac #=GS G7WRE6/51-91_159-406 DE V-type ATP synthase alpha chain #=GS G7WRE6/51-91_159-406 DR GENE3D; 14327ce7b2b97592ea3612d37de52877/51-91_159-406; #=GS G7WRE6/51-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosaetaceae; Methanosaeta; Methanosaeta harundinacea; #=GS G7WRE6/51-91_159-406 DR EC; 3.6.3.14; #=GS E5KJX0/51-91_159-406 AC E5KJX0 #=GS E5KJX0/51-91_159-406 OS Methanosaeta harundinacea #=GS E5KJX0/51-91_159-406 DE V-type ATP synthase alpha chain #=GS E5KJX0/51-91_159-406 DR GENE3D; 14327ce7b2b97592ea3612d37de52877/51-91_159-406; #=GS E5KJX0/51-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosaetaceae; Methanosaeta; Methanosaeta harundinacea; #=GS E5KJX0/51-91_159-406 DR EC; 3.6.3.14; #=GS S3JRY8/75-115_192-439 AC S3JRY8 #=GS S3JRY8/75-115_192-439 OS Treponema socranskii subsp. paredis ATCC 35535 #=GS S3JRY8/75-115_192-439 DE V-type ATP synthase alpha chain #=GS S3JRY8/75-115_192-439 DR GENE3D; 169370f1116151f620ddbe2fae44890c/75-115_192-439; #=GS S3JRY8/75-115_192-439 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema socranskii; Treponema socranskii subsp. paredis; #=GS S3JRY8/75-115_192-439 DR EC; 3.6.3.14; #=GS A0A124G5P6/60-101_169-416 AC A0A124G5P6 #=GS A0A124G5P6/60-101_169-416 OS Methanomicrobiales archaeon 53_19 #=GS A0A124G5P6/60-101_169-416 DE V-type ATP synthase alpha chain #=GS A0A124G5P6/60-101_169-416 DR GENE3D; 17623fe539e16e8ba6c9698cf5c1f460/60-101_169-416; #=GS A0A124G5P6/60-101_169-416 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiales archaeon 53_19; #=GS A0A124G5P6/60-101_169-416 DR EC; 3.6.3.14; #=GS R9T7U9/76-116_182-428 AC R9T7U9 #=GS R9T7U9/76-116_182-428 OS Candidatus Methanomassiliicoccus intestinalis Issoire-Mx1 #=GS R9T7U9/76-116_182-428 DE V-type ATP synthase alpha chain #=GS R9T7U9/76-116_182-428 DR GENE3D; 198fad53e64b9095ac856dc3ecc9f7a6/76-116_182-428; #=GS R9T7U9/76-116_182-428 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Methanomassiliicoccales; Methanomassiliicoccaceae; Methanomassiliicoccus; Candidatus Methanomassiliicoccus intestinalis; #=GS R9T7U9/76-116_182-428 DR EC; 3.6.3.14; #=GS A0A0N0IQ54/73-114_182-429 AC A0A0N0IQ54 #=GS A0A0N0IQ54/73-114_182-429 OS Thermus scotoductus #=GS A0A0N0IQ54/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0N0IQ54/73-114_182-429 DR GENE3D; 195277eb705b8b383ad486de4f82169a/73-114_182-429; #=GS A0A0N0IQ54/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus scotoductus; #=GS A0A0N0IQ54/73-114_182-429 DR EC; 3.6.3.14; #=GS W2U721/73-114_182-429 AC W2U721 #=GS W2U721/73-114_182-429 OS Thermus sp. NMX2.A1 #=GS W2U721/73-114_182-429 DE V-type ATP synthase alpha chain #=GS W2U721/73-114_182-429 DR GENE3D; 195277eb705b8b383ad486de4f82169a/73-114_182-429; #=GS W2U721/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus sp. NMX2.A1; #=GS W2U721/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0S7AH32/72-112_180-427 AC A0A0S7AH32 #=GS A0A0S7AH32/72-112_180-427 OS Meiothermus ruber H328 #=GS A0A0S7AH32/72-112_180-427 DE V-type ATP synthase alpha chain #=GS A0A0S7AH32/72-112_180-427 DR GENE3D; 199db57fccc9cc4eae8ef7106603be1e/72-112_180-427; #=GS A0A0S7AH32/72-112_180-427 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Meiothermus; Meiothermus ruber; #=GS A0A0S7AH32/72-112_180-427 DR EC; 3.6.3.14; #=GS D3PQJ3/72-112_180-427 AC D3PQJ3 #=GS D3PQJ3/72-112_180-427 OS Meiothermus ruber DSM 1279 #=GS D3PQJ3/72-112_180-427 DE V-type ATP synthase alpha chain #=GS D3PQJ3/72-112_180-427 DR GENE3D; 199db57fccc9cc4eae8ef7106603be1e/72-112_180-427; #=GS D3PQJ3/72-112_180-427 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Meiothermus; Meiothermus ruber; #=GS D3PQJ3/72-112_180-427 DR EC; 3.6.3.14; #=GS A0A140LBZ6/73-114_186-433 AC A0A140LBZ6 #=GS A0A140LBZ6/73-114_186-433 OS Fervidicola ferrireducens #=GS A0A140LBZ6/73-114_186-433 DE V-type ATP synthase alpha chain #=GS A0A140LBZ6/73-114_186-433 DR GENE3D; 19b07ce30e91cbaf3a6ddddeac99be7d/73-114_186-433; #=GS A0A140LBZ6/73-114_186-433 DR ORG; Bacteria; Firmicutes; Clostridia; Thermoanaerobacterales; Thermoanaerobacteraceae; Fervidicola; Fervidicola ferrireducens; #=GS A0A140LBZ6/73-114_186-433 DR EC; 3.6.3.14; #=GS U1NML7/80-122_191-438 AC U1NML7 #=GS U1NML7/80-122_191-438 OS Haloquadratum sp. J07HQX50 #=GS U1NML7/80-122_191-438 DE V-type ATP synthase alpha chain #=GS U1NML7/80-122_191-438 DR GENE3D; 193b9406f8ff1b38c74ace44448c0352/80-122_191-438; #=GS U1NML7/80-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloquadratum; Haloquadratum sp. J07HQX50; #=GS U1NML7/80-122_191-438 DR EC; 3.6.3.14; #=GS F8D5N8/82-124_193-440 AC F8D5N8 #=GS F8D5N8/82-124_193-440 OS Halopiger xanaduensis SH-6 #=GS F8D5N8/82-124_193-440 DE V-type ATP synthase alpha chain #=GS F8D5N8/82-124_193-440 DR GENE3D; 19bfd229181cc1fead1bcd1bfc3c9d07/82-124_193-440; #=GS F8D5N8/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Halopiger; Halopiger xanaduensis; #=GS F8D5N8/82-124_193-440 DR EC; 3.6.3.14; #=GS M0EEB4/82-124_193-440 AC M0EEB4 #=GS M0EEB4/82-124_193-440 OS Halorubrum distributum JCM 9100 #=GS M0EEB4/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0EEB4/82-124_193-440 DR GENE3D; 19d99b7198f4ebdd4626a4936493ee48/82-124_193-440; #=GS M0EEB4/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum distributum; #=GS M0EEB4/82-124_193-440 DR EC; 3.6.3.14; #=GS M0EUQ3/82-124_193-440 AC M0EUQ3 #=GS M0EUQ3/82-124_193-440 OS Halorubrum distributum JCM 10118 #=GS M0EUQ3/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0EUQ3/82-124_193-440 DR GENE3D; 19d99b7198f4ebdd4626a4936493ee48/82-124_193-440; #=GS M0EUQ3/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum distributum; #=GS M0EUQ3/82-124_193-440 DR EC; 3.6.3.14; #=GS E0RT11/75-116_190-435 AC E0RT11 #=GS E0RT11/75-116_190-435 OS Spirochaeta thermophila DSM 6192 #=GS E0RT11/75-116_190-435 DE V-type ATP synthase alpha chain #=GS E0RT11/75-116_190-435 DR GENE3D; 1afb3b5cb352afb2f8909ccb4856f471/75-116_190-435; #=GS E0RT11/75-116_190-435 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Spirochaeta; Spirochaeta thermophila; #=GS E0RT11/75-116_190-435 DR EC; 3.6.3.14; #=GS V4YAW1/80-122_191-437 AC V4YAW1 #=GS V4YAW1/80-122_191-437 OS uncultured archaeon A07HN63 #=GS V4YAW1/80-122_191-437 DE V-type ATP synthase alpha chain #=GS V4YAW1/80-122_191-437 DR GENE3D; 1b051d375696ce09b4d9199f792faefc/80-122_191-437; #=GS V4YAW1/80-122_191-437 DR ORG; Archaea; uncultured archaeon A07HN63; #=GS V4YAW1/80-122_191-437 DR EC; 3.6.3.14; #=GS K7QUG7/73-114_182-429 AC K7QUG7 #=GS K7QUG7/73-114_182-429 OS Thermus oshimai JL-2 #=GS K7QUG7/73-114_182-429 DE V-type ATP synthase alpha chain #=GS K7QUG7/73-114_182-429 DR GENE3D; 1c199afcfb483ee4fe83316eb0e8c539/73-114_182-429; #=GS K7QUG7/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus oshimai; #=GS K7QUG7/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0F8FXH7/73-114_182-429 AC A0A0F8FXH7 #=GS A0A0F8FXH7/73-114_182-429 OS Methanosarcina sp. 2.H.T.1A.15 #=GS A0A0F8FXH7/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0F8FXH7/73-114_182-429 DR GENE3D; 1c243c94d2a269189b9ab55754350187/73-114_182-429; #=GS A0A0F8FXH7/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. 2.H.T.1A.15; #=GS A0A0F8FXH7/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0F8FCD1/73-114_182-429 AC A0A0F8FCD1 #=GS A0A0F8FCD1/73-114_182-429 OS Methanosarcina sp. 2.H.T.1A.8 #=GS A0A0F8FCD1/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0F8FCD1/73-114_182-429 DR GENE3D; 1c243c94d2a269189b9ab55754350187/73-114_182-429; #=GS A0A0F8FCD1/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. 2.H.T.1A.8; #=GS A0A0F8FCD1/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0F8D7E4/73-114_182-429 AC A0A0F8D7E4 #=GS A0A0F8D7E4/73-114_182-429 OS Methanosarcina sp. 2.H.T.1A.6 #=GS A0A0F8D7E4/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0F8D7E4/73-114_182-429 DR GENE3D; 1c243c94d2a269189b9ab55754350187/73-114_182-429; #=GS A0A0F8D7E4/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. 2.H.T.1A.6; #=GS A0A0F8D7E4/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0F8CEG3/73-114_182-429 AC A0A0F8CEG3 #=GS A0A0F8CEG3/73-114_182-429 OS Methanosarcina sp. 2.H.T.1A.3 #=GS A0A0F8CEG3/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0F8CEG3/73-114_182-429 DR GENE3D; 1c243c94d2a269189b9ab55754350187/73-114_182-429; #=GS A0A0F8CEG3/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. 2.H.T.1A.3; #=GS A0A0F8CEG3/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A1J4VEX0/74-115_182-430 AC A0A1J4VEX0 #=GS A0A1J4VEX0/74-115_182-430 OS Candidatus Omnitrophica bacterium CG1_02_41_171 #=GS A0A1J4VEX0/74-115_182-430 DE V-type ATP synthase alpha chain #=GS A0A1J4VEX0/74-115_182-430 DR GENE3D; 1d8f95c5b2401485d8468f779f9a72df/74-115_182-430; #=GS A0A1J4VEX0/74-115_182-430 DR ORG; Bacteria; Candidatus Omnitrophica; Candidatus Omnitrophica bacterium CG1_02_41_171; #=GS A0A1J4VEX0/74-115_182-430 DR EC; 3.6.3.14; #=GS A0A062UWF8/73-114_182-429 AC A0A062UWF8 #=GS A0A062UWF8/73-114_182-429 OS Candidatus Methanoperedens nitroreducens #=GS A0A062UWF8/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A062UWF8/73-114_182-429 DR GENE3D; 1dcfe3fdd6d80150351152f4f8a4134a/73-114_182-429; #=GS A0A062UWF8/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Candidatus Methanoperedenaceae; Candidatus Methanoperedens; Candidatus Methanoperedens nitroreducens; #=GS A0A062UWF8/73-114_182-429 DR EC; 3.6.3.14; #=GS M0GF06/81-123_192-439 AC M0GF06 #=GS M0GF06/81-123_192-439 OS Haloferax lucentense DSM 14919 #=GS M0GF06/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0GF06/81-123_192-439 DR GENE3D; 1e3787671d4b353a5efbf1b539c14f41/81-123_192-439; #=GS M0GF06/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax lucentense; #=GS M0GF06/81-123_192-439 DR EC; 3.6.3.14; #=GS M0I1J4/81-123_192-439 AC M0I1J4 #=GS M0I1J4/81-123_192-439 OS Haloferax alexandrinus JCM 10717 #=GS M0I1J4/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0I1J4/81-123_192-439 DR GENE3D; 1e3787671d4b353a5efbf1b539c14f41/81-123_192-439; #=GS M0I1J4/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax alexandrinus; #=GS M0I1J4/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A0P7GWQ1/81-123_192-439 AC A0A0P7GWQ1 #=GS A0A0P7GWQ1/81-123_192-439 OS Halolamina pelagica #=GS A0A0P7GWQ1/81-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A0P7GWQ1/81-123_192-439 DR GENE3D; 1d2aff4d359c988f1b078db5e83c3982/81-123_192-439; #=GS A0A0P7GWQ1/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halolamina; Halolamina pelagica; #=GS A0A0P7GWQ1/81-123_192-439 DR EC; 3.6.3.14; #=GS D4MLB7/72-112_185-432 AC D4MLB7 #=GS D4MLB7/72-112_185-432 OS [Eubacterium] siraeum V10Sc8a #=GS D4MLB7/72-112_185-432 DE V-type ATP synthase alpha chain #=GS D4MLB7/72-112_185-432 DR GENE3D; 1db11ac589bd1d5dbe6a2ffce1a2aed5/72-112_185-432; #=GS D4MLB7/72-112_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminiclostridium; [Eubacterium] siraeum; #=GS D4MLB7/72-112_185-432 DR EC; 3.6.3.14; #=GS B0MPY1/72-112_185-432 AC B0MPY1 #=GS B0MPY1/72-112_185-432 OS [Eubacterium] siraeum DSM 15702 #=GS B0MPY1/72-112_185-432 DE V-type ATP synthase alpha chain #=GS B0MPY1/72-112_185-432 DR GENE3D; 1ec2f743fb24f7fd82b3562d4f75a660/72-112_185-432; #=GS B0MPY1/72-112_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminiclostridium; [Eubacterium] siraeum; #=GS B0MPY1/72-112_185-432 DR EC; 3.6.3.14; #=GS A0A0U5H5H9/79-120_189-436 AC A0A0U5H5H9 #=GS A0A0U5H5H9/79-120_189-436 OS Halobacterium hubeiense #=GS A0A0U5H5H9/79-120_189-436 DE V-type ATP synthase alpha chain #=GS A0A0U5H5H9/79-120_189-436 DR GENE3D; 1f4cbfb2ef0fb78ae4eee3700d63bf95/79-120_189-436; #=GS A0A0U5H5H9/79-120_189-436 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Halobacterium; Halobacterium hubeiense; #=GS A0A0U5H5H9/79-120_189-436 DR EC; 3.6.3.14; #=GS A0A0U3KBD8/76-117_185-432 AC A0A0U3KBD8 #=GS A0A0U3KBD8/76-117_185-432 OS Deinococcus actinosclerus #=GS A0A0U3KBD8/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A0U3KBD8/76-117_185-432 DR GENE3D; 221a1b6f7a1e4ae622620a9ba397e2c7/76-117_185-432; #=GS A0A0U3KBD8/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus actinosclerus; #=GS A0A0U3KBD8/76-117_185-432 DR EC; 3.6.3.14; #=GS G0GEV8/75-116_190-435 AC G0GEV8 #=GS G0GEV8/75-116_190-435 OS Spirochaeta thermophila DSM 6578 #=GS G0GEV8/75-116_190-435 DE V-type ATP synthase alpha chain #=GS G0GEV8/75-116_190-435 DR GENE3D; 2218cb6b6534685997446433cfa8ed7e/75-116_190-435; #=GS G0GEV8/75-116_190-435 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Spirochaeta; Spirochaeta thermophila; #=GS G0GEV8/75-116_190-435 DR EC; 3.6.3.14; #=GS V4Y6T7/82-124_196-443 AC V4Y6T7 #=GS V4Y6T7/82-124_196-443 OS uncultured archaeon A07HB70 #=GS V4Y6T7/82-124_196-443 DE V-type ATP synthase alpha chain #=GS V4Y6T7/82-124_196-443 DR GENE3D; 23fcd5ffcb447113f03aefd006bb9ec4/82-124_196-443; #=GS V4Y6T7/82-124_196-443 DR ORG; Archaea; uncultured archaeon A07HB70; #=GS V4Y6T7/82-124_196-443 DR EC; 3.6.3.14; #=GS F0RVY9/77-117_192-438 AC F0RVY9 #=GS F0RVY9/77-117_192-438 OS Sphaerochaeta globosa str. Buddy #=GS F0RVY9/77-117_192-438 DE V-type ATP synthase alpha chain #=GS F0RVY9/77-117_192-438 DR GENE3D; 242dd52bed55fe1ea0d865ea001abb21/77-117_192-438; #=GS F0RVY9/77-117_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Sphaerochaeta; Sphaerochaeta globosa; #=GS F0RVY9/77-117_192-438 DR EC; 3.6.3.14; #=GS M0D4U5/80-122_191-438 AC M0D4U5 #=GS M0D4U5/80-122_191-438 OS Halogeometricum pallidum JCM 14848 #=GS M0D4U5/80-122_191-438 DE V-type ATP synthase alpha chain #=GS M0D4U5/80-122_191-438 DR GENE3D; 2461d3609a39edc8ef197f60da642297/80-122_191-438; #=GS M0D4U5/80-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Halogeometricum; Halogeometricum pallidum; #=GS M0D4U5/80-122_191-438 DR EC; 3.6.3.14; #=GS C0AP04/76-117_191-437 AC C0AP04 #=GS C0AP04/76-117_191-437 OS Borreliella finlandensis #=GS C0AP04/76-117_191-437 DE V-type ATP synthase alpha chain #=GS C0AP04/76-117_191-437 DR GENE3D; 231f6aaaaec150fd3539ddd4b2191573/76-117_191-437; #=GS C0AP04/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borreliella; Borreliella finlandensis; #=GS C0AP04/76-117_191-437 DR EC; 3.6.3.14; #=GS E7FVA4/78-119_186-433 AC E7FVA4 #=GS E7FVA4/78-119_186-433 OS Erysipelothrix rhusiopathiae ATCC 19414 #=GS E7FVA4/78-119_186-433 DE V-type ATP synthase alpha chain #=GS E7FVA4/78-119_186-433 DR GENE3D; 23593fc1f147f89c0d1abe2a276e3329/78-119_186-433; #=GS E7FVA4/78-119_186-433 DR ORG; Bacteria; Firmicutes; Erysipelotrichia; Erysipelotrichales; Erysipelotrichaceae; Erysipelothrix; Erysipelothrix rhusiopathiae; #=GS E7FVA4/78-119_186-433 DR EC; 3.6.3.14; #=GS A0A1F3B6E1/74-115_183-432 AC A0A1F3B6E1 #=GS A0A1F3B6E1/74-115_183-432 OS Armatimonadetes bacterium RBG_19FT_COMBO_69_19 #=GS A0A1F3B6E1/74-115_183-432 DE V-type ATP synthase alpha chain #=GS A0A1F3B6E1/74-115_183-432 DR GENE3D; 252e7c3bac5153a99c2de550f61aae79/74-115_183-432; #=GS A0A1F3B6E1/74-115_183-432 DR ORG; Bacteria; Armatimonadetes; Armatimonadetes bacterium RBG_19FT_COMBO_69_19; #=GS A0A1F3B6E1/74-115_183-432 DR EC; 3.6.3.14; #=GS A0A0A7X9S6/77-118_192-440 AC A0A0A7X9S6 #=GS A0A0A7X9S6/77-118_192-440 OS Treponema pallidum subsp. endemicum str. Bosnia A #=GS A0A0A7X9S6/77-118_192-440 DE V-type ATP synthase alpha chain #=GS A0A0A7X9S6/77-118_192-440 DR GENE3D; 247eb303a21439930ee7ff089ff934ac/77-118_192-440; #=GS A0A0A7X9S6/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. endemicum; #=GS A0A0A7X9S6/77-118_192-440 DR EC; 3.6.3.14; #=GS A0A0H3BKJ3/77-118_192-440 AC A0A0H3BKJ3 #=GS A0A0H3BKJ3/77-118_192-440 OS Treponema pallidum subsp. pallidum SS14 #=GS A0A0H3BKJ3/77-118_192-440 DE V-type ATP synthase alpha chain #=GS A0A0H3BKJ3/77-118_192-440 DR GENE3D; 247eb303a21439930ee7ff089ff934ac/77-118_192-440; #=GS A0A0H3BKJ3/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. pallidum; #=GS A0A0H3BKJ3/77-118_192-440 DR EC; 3.6.3.14; #=GS H6KT44/77-118_192-440 AC H6KT44 #=GS H6KT44/77-118_192-440 OS Treponema pallidum subsp. pertenue str. CDC2 #=GS H6KT44/77-118_192-440 DE V-type ATP synthase alpha chain #=GS H6KT44/77-118_192-440 DR GENE3D; 247eb303a21439930ee7ff089ff934ac/77-118_192-440; #=GS H6KT44/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. pertenue; #=GS H6KT44/77-118_192-440 DR EC; 3.6.3.14; #=GS A0A1L7DEJ3/77-118_192-440 AC A0A1L7DEJ3 #=GS A0A1L7DEJ3/77-118_192-440 OS Treponema pallidum subsp. pallidum #=GS A0A1L7DEJ3/77-118_192-440 DE ATP synthase subunit A #=GS A0A1L7DEJ3/77-118_192-440 DR GENE3D; 247eb303a21439930ee7ff089ff934ac/77-118_192-440; #=GS A0A1L7DEJ3/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. pallidum; #=GS A0A1L7DEJ3/77-118_192-440 DR EC; 3.6.3.14; #=GS Q1IWP3/76-117_185-432 AC Q1IWP3 #=GS Q1IWP3/76-117_185-432 OS Deinococcus geothermalis DSM 11300 #=GS Q1IWP3/76-117_185-432 DE V-type ATP synthase alpha chain #=GS Q1IWP3/76-117_185-432 DR GENE3D; 24b57c2ee53e90df0722498f5c1fdf11/76-117_185-432; #=GS Q1IWP3/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus geothermalis; #=GS Q1IWP3/76-117_185-432 DR EC; 3.6.3.14; #=GS F8LEG8/85-125_199-446 AC F8LEG8 #=GS F8LEG8/85-125_199-446 OS Waddlia chondrophila 2032/99 #=GS F8LEG8/85-125_199-446 DE V-type ATP synthase alpha chain #=GS F8LEG8/85-125_199-446 DR GENE3D; 269100c31d43fcae8bc610c89fec6692/85-125_199-446; #=GS F8LEG8/85-125_199-446 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Waddliaceae; Waddlia; Waddlia chondrophila; #=GS F8LEG8/85-125_199-446 DR EC; 3.6.3.14; #=GS D6YV12/85-125_199-446 AC D6YV12 #=GS D6YV12/85-125_199-446 OS Waddlia chondrophila WSU 86-1044 #=GS D6YV12/85-125_199-446 DE V-type ATP synthase alpha chain #=GS D6YV12/85-125_199-446 DR GENE3D; 269100c31d43fcae8bc610c89fec6692/85-125_199-446; #=GS D6YV12/85-125_199-446 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Waddliaceae; Waddlia; Waddlia chondrophila; #=GS D6YV12/85-125_199-446 DR EC; 3.6.3.14; #=GS A0A139CY32/71-112_180-427 AC A0A139CY32 #=GS A0A139CY32/71-112_180-427 OS Methanohalophilus sp. T328-1 #=GS A0A139CY32/71-112_180-427 DE V-type ATP synthase alpha chain #=GS A0A139CY32/71-112_180-427 DR GENE3D; 26ce075ec5f40421367e40b8134f3e5c/71-112_180-427; #=GS A0A139CY32/71-112_180-427 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanohalophilus; Methanohalophilus sp. T328-1; #=GS A0A139CY32/71-112_180-427 DR EC; 3.6.3.14; #=GS A0A1D2V0N4/71-112_180-427 AC A0A1D2V0N4 #=GS A0A1D2V0N4/71-112_180-427 OS Methanohalophilus sp. 2-GBenrich #=GS A0A1D2V0N4/71-112_180-427 DE V-type ATP synthase alpha chain #=GS A0A1D2V0N4/71-112_180-427 DR GENE3D; 26ce075ec5f40421367e40b8134f3e5c/71-112_180-427; #=GS A0A1D2V0N4/71-112_180-427 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanohalophilus; Methanohalophilus sp. 2-GBenrich; #=GS A0A1D2V0N4/71-112_180-427 DR EC; 3.6.3.14; #=GS A0A0E3NS11/50-91_159-406 AC A0A0E3NS11 #=GS A0A0E3NS11/50-91_159-406 OS Methanosarcina sp. WH1 #=GS A0A0E3NS11/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3NS11/50-91_159-406 DR GENE3D; 2710a6f90469d1a69a74af0be3bb9425/50-91_159-406; #=GS A0A0E3NS11/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. WH1; #=GS A0A0E3NS11/50-91_159-406 DR EC; 3.6.3.14; #=GS A0A0E3NL16/50-91_159-406 AC A0A0E3NL16 #=GS A0A0E3NL16/50-91_159-406 OS Methanosarcina sp. WWM596 #=GS A0A0E3NL16/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3NL16/50-91_159-406 DR GENE3D; 2710a6f90469d1a69a74af0be3bb9425/50-91_159-406; #=GS A0A0E3NL16/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. WWM596; #=GS A0A0E3NL16/50-91_159-406 DR EC; 3.6.3.14; #=GS A0A0S6W998/76-117_189-436 AC A0A0S6W998 #=GS A0A0S6W998/76-117_189-436 OS Candidatus Vecturithrix granuli #=GS A0A0S6W998/76-117_189-436 DE V-type ATP synthase alpha chain #=GS A0A0S6W998/76-117_189-436 DR GENE3D; 29315999a04fc31c39e5b27aa0516a9d/76-117_189-436; #=GS A0A0S6W998/76-117_189-436 DR ORG; Bacteria; Candidatus Vecturithrix; Candidatus Vecturithrix granuli; #=GS A0A0S6W998/76-117_189-436 DR EC; 3.6.3.14; #=GS S7J2Q5/83-122_196-443 AC S7J2Q5 #=GS S7J2Q5/83-122_196-443 OS Chlamydia psittaci 10_1398_11 #=GS S7J2Q5/83-122_196-443 DE V-type ATP synthase alpha chain #=GS S7J2Q5/83-122_196-443 DR GENE3D; 29a272a302028763b8f8d53338ff35f1/83-122_196-443; #=GS S7J2Q5/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia psittaci; #=GS S7J2Q5/83-122_196-443 DR EC; 3.6.3.14; #=GS T5K762/83-122_196-443 AC T5K762 #=GS T5K762/83-122_196-443 OS Chlamydia ibidis 10-1398/6 #=GS T5K762/83-122_196-443 DE V-type ATP synthase alpha chain #=GS T5K762/83-122_196-443 DR GENE3D; 29a272a302028763b8f8d53338ff35f1/83-122_196-443; #=GS T5K762/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia ibidis; #=GS T5K762/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A088RZK7/77-118_192-440 AC A0A088RZK7 #=GS A0A088RZK7/77-118_192-440 OS Treponema putidum #=GS A0A088RZK7/77-118_192-440 DE V-type ATP synthase alpha chain #=GS A0A088RZK7/77-118_192-440 DR GENE3D; 292035521a55338db69b6698fa9a5286/77-118_192-440; #=GS A0A088RZK7/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema putidum; #=GS A0A088RZK7/77-118_192-440 DR EC; 3.6.3.14; #=GS A0A090D211/87-127_201-449 AC A0A090D211 #=GS A0A090D211/87-127_201-449 OS Criblamydia sequanensis CRIB-18 #=GS A0A090D211/87-127_201-449 DE V-type ATP synthase alpha chain #=GS A0A090D211/87-127_201-449 DR GENE3D; 280a0a66bc4799190238df75b61011e4/87-127_201-449; #=GS A0A090D211/87-127_201-449 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Criblamydiaceae; Criblamydia; Criblamydia sequanensis; #=GS A0A090D211/87-127_201-449 DR EC; 3.6.3.14; #=GS A0A075I9M4/74-115_183-430 AC A0A075I9M4 #=GS A0A075I9M4/74-115_183-430 OS uncultured marine group II/III euryarchaeote SAT1000_50_G04 #=GS A0A075I9M4/74-115_183-430 DE V-type ATP synthase alpha chain #=GS A0A075I9M4/74-115_183-430 DR GENE3D; 2847a876211096e86af33ed9913579b4/74-115_183-430; #=GS A0A075I9M4/74-115_183-430 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote SAT1000_50_G04; #=GS A0A075I9M4/74-115_183-430 DR EC; 3.6.3.14; #=GS A0A075ICL5/74-115_183-430 AC A0A075ICL5 #=GS A0A075ICL5/74-115_183-430 OS uncultured marine group II/III euryarchaeote SAT1000_33_B09 #=GS A0A075ICL5/74-115_183-430 DE V-type ATP synthase alpha chain #=GS A0A075ICL5/74-115_183-430 DR GENE3D; 2847a876211096e86af33ed9913579b4/74-115_183-430; #=GS A0A075ICL5/74-115_183-430 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote SAT1000_33_B09; #=GS A0A075ICL5/74-115_183-430 DR EC; 3.6.3.14; #=GS A0A0A7GIM3/76-117_185-432 AC A0A0A7GIM3 #=GS A0A0A7GIM3/76-117_185-432 OS Geoglobus acetivorans #=GS A0A0A7GIM3/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A0A7GIM3/76-117_185-432 DR GENE3D; 2a18d9db1e6b0d25702e2c4ac3fcb58f/76-117_185-432; #=GS A0A0A7GIM3/76-117_185-432 DR ORG; Archaea; Euryarchaeota; Archaeoglobi; Archaeoglobales; Archaeoglobaceae; Geoglobus; Geoglobus acetivorans; #=GS A0A0A7GIM3/76-117_185-432 DR EC; 3.6.3.14; #=GS B9LS41/82-124_197-444 AC B9LS41 #=GS B9LS41/82-124_197-444 OS Halorubrum lacusprofundi ATCC 49239 #=GS B9LS41/82-124_197-444 DE V-type ATP synthase alpha chain #=GS B9LS41/82-124_197-444 DR GENE3D; 2a3c086d200e5bf2429dec68946dbbc7/82-124_197-444; #=GS B9LS41/82-124_197-444 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum lacusprofundi; #=GS B9LS41/82-124_197-444 DR EC; 3.6.3.14; #=GS M0KH25/81-123_192-439 AC M0KH25 #=GS M0KH25/81-123_192-439 OS Haloarcula amylolytica JCM 13557 #=GS M0KH25/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0KH25/81-123_192-439 DR GENE3D; 2b2a18556bce2a1d5e85ac06c767eb34/81-123_192-439; #=GS M0KH25/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula amylolytica; #=GS M0KH25/81-123_192-439 DR EC; 3.6.3.14; #=GS E6SQQ2/76-114_188-436 AC E6SQQ2 #=GS E6SQQ2/76-114_188-436 OS Bacteroides helcogenes P 36-108 #=GS E6SQQ2/76-114_188-436 DE V-type ATP synthase alpha chain #=GS E6SQQ2/76-114_188-436 DR GENE3D; 2afaac93f9fcc8987cdcd60f8d8640a1/76-114_188-436; #=GS E6SQQ2/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides helcogenes; #=GS E6SQQ2/76-114_188-436 DR EC; 3.6.3.14; #=GS A7HDG9/72-113_180-427 AC A7HDG9 #=GS A7HDG9/72-113_180-427 OS Anaeromyxobacter sp. Fw109-5 #=GS A7HDG9/72-113_180-427 DE V-type ATP synthase alpha chain #=GS A7HDG9/72-113_180-427 DR GENE3D; 2a6e367328b35c7603fa9d64c179b06c/72-113_180-427; #=GS A7HDG9/72-113_180-427 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Cystobacterineae; Anaeromyxobacteraceae; Anaeromyxobacter; Anaeromyxobacter sp. Fw109-5; #=GS A7HDG9/72-113_180-427 DR EC; 3.6.3.14; #=GS A0A1J5TDR1/73-114_182-429 AC A0A1J5TDR1 #=GS A0A1J5TDR1/73-114_182-429 OS Marine Group III euryarchaeote CG-Bathy1 #=GS A0A1J5TDR1/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A1J5TDR1/73-114_182-429 DR GENE3D; 2a8dbd6cb5b55c2bf3a01b0088f28a20/73-114_182-429; #=GS A0A1J5TDR1/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Marine Group III euryarchaeote CG-Bathy1; #=GS A0A1J5TDR1/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0B5H052/81-123_192-439 AC A0A0B5H052 #=GS A0A0B5H052/81-123_192-439 OS Haloarcula sp. CBA1115 #=GS A0A0B5H052/81-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A0B5H052/81-123_192-439 DR GENE3D; 2add5315113549f4968c0fccf7f79de0/81-123_192-439; #=GS A0A0B5H052/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula sp. CBA1115; #=GS A0A0B5H052/81-123_192-439 DR EC; 3.6.3.14; #=GS C1CXU3/76-117_185-432 AC C1CXU3 #=GS C1CXU3/76-117_185-432 OS Deinococcus deserti VCD115 #=GS C1CXU3/76-117_185-432 DE V-type ATP synthase alpha chain #=GS C1CXU3/76-117_185-432 DR GENE3D; 2afeaa6dba86ede539f24d65bbb58ad4/76-117_185-432; #=GS C1CXU3/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus deserti; #=GS C1CXU3/76-117_185-432 DR EC; 3.6.3.14; #=GS M0IGI5/81-123_192-439 AC M0IGI5 #=GS M0IGI5/81-123_192-439 OS Haloferax mucosum ATCC BAA-1512 #=GS M0IGI5/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0IGI5/81-123_192-439 DR GENE3D; 2d59ac17542cdb4e9a7fd7722864b4b0/81-123_192-439; #=GS M0IGI5/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax mucosum; #=GS M0IGI5/81-123_192-439 DR EC; 3.6.3.14; #=GS Q46FH3/73-114_182-429 AC Q46FH3 #=GS Q46FH3/73-114_182-429 OS Methanosarcina barkeri str. Fusaro #=GS Q46FH3/73-114_182-429 DE V-type ATP synthase alpha chain #=GS Q46FH3/73-114_182-429 DR GENE3D; 2b89089f4e97584595bdc7717741b77d/73-114_182-429; #=GS Q46FH3/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS Q46FH3/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0E3Q8K6/50-91_159-406 AC A0A0E3Q8K6 #=GS A0A0E3Q8K6/50-91_159-406 OS Methanosarcina vacuolata Z-761 #=GS A0A0E3Q8K6/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3Q8K6/50-91_159-406 DR GENE3D; 2e5da6000d45f580b9599b36f26aaed5/50-91_159-406; #=GS A0A0E3Q8K6/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina vacuolata; #=GS A0A0E3Q8K6/50-91_159-406 DR EC; 3.6.3.14; #=GS E1QGX1/76-117_191-439 AC E1QGX1 #=GS E1QGX1/76-117_191-439 OS Desulfarculus baarsii DSM 2075 #=GS E1QGX1/76-117_191-439 DE V-type ATP synthase alpha chain #=GS E1QGX1/76-117_191-439 DR GENE3D; 2ddfa15eb451b377532ef1e080a17bb8/76-117_191-439; #=GS E1QGX1/76-117_191-439 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfarculales; Desulfarculaceae; Desulfarculus; Desulfarculus baarsii; #=GS E1QGX1/76-117_191-439 DR EC; 3.6.3.14; #=GS V5WI08/77-118_192-437 AC V5WI08 #=GS V5WI08/77-118_192-437 OS Salinispira pacifica #=GS V5WI08/77-118_192-437 DE V-type ATP synthase alpha chain #=GS V5WI08/77-118_192-437 DR GENE3D; 2e2edc1406652a68221afc97d0f3f05d/77-118_192-437; #=GS V5WI08/77-118_192-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Salinispira; Salinispira pacifica; #=GS V5WI08/77-118_192-437 DR EC; 3.6.3.14; #=GS A0A0B3ADI6/81-122_190-438 AC A0A0B3ADI6 #=GS A0A0B3ADI6/81-122_190-438 OS archaeon GW2011_AR3 #=GS A0A0B3ADI6/81-122_190-438 DE V-type ATP synthase alpha chain #=GS A0A0B3ADI6/81-122_190-438 DR GENE3D; 2e798f41a2463e0a2c0e76a6d19a36f3/81-122_190-438; #=GS A0A0B3ADI6/81-122_190-438 DR ORG; Archaea; archaeon GW2011_AR3; #=GS A0A0B3ADI6/81-122_190-438 DR EC; 3.6.3.14; #=GS A0A0A7UYZ9/76-117_191-437 AC A0A0A7UYZ9 #=GS A0A0A7UYZ9/76-117_191-437 OS Borreliella chilensis #=GS A0A0A7UYZ9/76-117_191-437 DE V-type ATP synthase alpha chain #=GS A0A0A7UYZ9/76-117_191-437 DR GENE3D; 2ebfc8e9accf3400c53d0fc10a017c35/76-117_191-437; #=GS A0A0A7UYZ9/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borreliella; Borreliella chilensis; #=GS A0A0A7UYZ9/76-117_191-437 DR EC; 3.6.3.14; #=GS A0A0E3QGD0/64-105_173-420 AC A0A0E3QGD0 #=GS A0A0E3QGD0/64-105_173-420 OS Methanosarcina sp. Kolksee #=GS A0A0E3QGD0/64-105_173-420 DE V-type ATP synthase alpha chain #=GS A0A0E3QGD0/64-105_173-420 DR GENE3D; 2e51b8ff825bc725c32f04e997354d82/64-105_173-420; #=GS A0A0E3QGD0/64-105_173-420 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. Kolksee; #=GS A0A0E3QGD0/64-105_173-420 DR EC; 3.6.3.14; #=GS S6A0N7/77-118_192-440 AC S6A0N7 #=GS S6A0N7/77-118_192-440 OS Treponema pedis str. T A4 #=GS S6A0N7/77-118_192-440 DE V-type ATP synthase alpha chain #=GS S6A0N7/77-118_192-440 DR GENE3D; 2e95fb3fc9c7f7c671d1b4beff99d626/77-118_192-440; #=GS S6A0N7/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pedis; #=GS S6A0N7/77-118_192-440 DR EC; 3.6.3.14; #=GS W0JNX4/82-124_193-440 AC W0JNX4 #=GS W0JNX4/82-124_193-440 OS Halostagnicola larsenii XH-48 #=GS W0JNX4/82-124_193-440 DE V-type ATP synthase alpha chain #=GS W0JNX4/82-124_193-440 DR GENE3D; 2d278c266a7f26979abd1d70e10a8222/82-124_193-440; #=GS W0JNX4/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Halostagnicola; Halostagnicola larsenii; #=GS W0JNX4/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1F2WQ90/73-114_182-431 AC A0A1F2WQ90 #=GS A0A1F2WQ90/73-114_182-431 OS Actinobacteria bacterium RBG_13_55_18 #=GS A0A1F2WQ90/73-114_182-431 DE V-type ATP synthase alpha chain #=GS A0A1F2WQ90/73-114_182-431 DR GENE3D; 2f85fbdf88be72aef2c377592ba8b7a2/73-114_182-431; #=GS A0A1F2WQ90/73-114_182-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria bacterium RBG_13_55_18; #=GS A0A1F2WQ90/73-114_182-431 DR EC; 3.6.3.14; #=GS A0A0X3BIK8/79-120_188-435 AC A0A0X3BIK8 #=GS A0A0X3BIK8/79-120_188-435 OS Methanoculleus sp. MAB1 #=GS A0A0X3BIK8/79-120_188-435 DE V-type ATP synthase alpha chain #=GS A0A0X3BIK8/79-120_188-435 DR GENE3D; 2f232038b7a1cf79d8446a94f353f8de/79-120_188-435; #=GS A0A0X3BIK8/79-120_188-435 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus sp. MAB1; #=GS A0A0X3BIK8/79-120_188-435 DR EC; 3.6.3.14; #=GS M0HH26/81-123_192-439 AC M0HH26 #=GS M0HH26/81-123_192-439 OS Haloferax gibbonsii ATCC 33959 #=GS M0HH26/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0HH26/81-123_192-439 DR GENE3D; 2d9fa053729c3b72e88c8bccd212141a/81-123_192-439; #=GS M0HH26/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax gibbonsii; #=GS M0HH26/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A0K1IQ84/81-123_192-439 AC A0A0K1IQ84 #=GS A0A0K1IQ84/81-123_192-439 OS Haloferax gibbonsii #=GS A0A0K1IQ84/81-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A0K1IQ84/81-123_192-439 DR GENE3D; 2d9fa053729c3b72e88c8bccd212141a/81-123_192-439; #=GS A0A0K1IQ84/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax gibbonsii; #=GS A0A0K1IQ84/81-123_192-439 DR EC; 3.6.3.14; #=GS W5SSS6/76-117_191-436 AC W5SSS6 #=GS W5SSS6/76-117_191-436 OS Borrelia coriaceae Co53 #=GS W5SSS6/76-117_191-436 DE V-type ATP synthase alpha chain #=GS W5SSS6/76-117_191-436 DR GENE3D; 30190cd67553cc3cc836f5aa1607343f/76-117_191-436; #=GS W5SSS6/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia coriaceae; #=GS W5SSS6/76-117_191-436 DR EC; 3.6.3.14; #=GS A0A098R4Q8/77-118_192-438 AC A0A098R4Q8 #=GS A0A098R4Q8/77-118_192-438 OS Spirochaeta lutea #=GS A0A098R4Q8/77-118_192-438 DE V-type ATP synthase alpha chain #=GS A0A098R4Q8/77-118_192-438 DR GENE3D; 2ea1c2868c3b5935e5b74f386e4c7434/77-118_192-438; #=GS A0A098R4Q8/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Spirochaeta; Spirochaeta lutea; #=GS A0A098R4Q8/77-118_192-438 DR EC; 3.6.3.14; #=GS R7RTI2/75-116_185-432 AC R7RTI2 #=GS R7RTI2/75-116_185-432 OS Thermobrachium celere DSM 8682 #=GS R7RTI2/75-116_185-432 DE V-type ATP synthase alpha chain #=GS R7RTI2/75-116_185-432 DR GENE3D; 311d74b9eae8c1b97bc317929afbde11/75-116_185-432; #=GS R7RTI2/75-116_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Thermobrachium; Thermobrachium celere; #=GS R7RTI2/75-116_185-432 DR EC; 3.6.3.14; #=GS A0A117LVB3/75-116_183-432 AC A0A117LVB3 #=GS A0A117LVB3/75-116_183-432 OS Methanocalculus sp. 52_23 #=GS A0A117LVB3/75-116_183-432 DE V-type ATP synthase alpha chain #=GS A0A117LVB3/75-116_183-432 DR GENE3D; 307a058b5b26dbbe7a53e58f3a628728/75-116_183-432; #=GS A0A117LVB3/75-116_183-432 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanocalculaceae; Methanocalculus; Methanocalculus sp. 52_23; #=GS A0A117LVB3/75-116_183-432 DR EC; 3.6.3.14; #=GS A0A117MGL6/75-116_183-432 AC A0A117MGL6 #=GS A0A117MGL6/75-116_183-432 OS Methanomicrobiales archaeon 53_19 #=GS A0A117MGL6/75-116_183-432 DE V-type ATP synthase alpha chain #=GS A0A117MGL6/75-116_183-432 DR GENE3D; 307a058b5b26dbbe7a53e58f3a628728/75-116_183-432; #=GS A0A117MGL6/75-116_183-432 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiales archaeon 53_19; #=GS A0A117MGL6/75-116_183-432 DR EC; 3.6.3.14; #=GS S7UQ59/77-118_192-438 AC S7UQ59 #=GS S7UQ59/77-118_192-438 OS Desulfovibrio alkalitolerans DSM 16529 #=GS S7UQ59/77-118_192-438 DE V-type ATP synthase alpha chain #=GS S7UQ59/77-118_192-438 DR GENE3D; 3342ea31027c9406081d242ccaa09b84/77-118_192-438; #=GS S7UQ59/77-118_192-438 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio alkalitolerans; #=GS S7UQ59/77-118_192-438 DR EC; 3.6.3.14; #=GS A0A099SZ81/73-114_182-429 AC A0A099SZ81 #=GS A0A099SZ81/73-114_182-429 OS Methanococcoides methylutens #=GS A0A099SZ81/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A099SZ81/73-114_182-429 DR GENE3D; 3364435a2b50d6a2b5988e4690522274/73-114_182-429; #=GS A0A099SZ81/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanococcoides; Methanococcoides methylutens; #=GS A0A099SZ81/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A150IS80/84-125_194-441 AC A0A150IS80 #=GS A0A150IS80/84-125_194-441 OS Arc I group archaeon B15fssc0709_Meth_Bin003 #=GS A0A150IS80/84-125_194-441 DE V-type ATP synthase alpha chain #=GS A0A150IS80/84-125_194-441 DR GENE3D; 3417365b6171788a0586b2f9013ee439/84-125_194-441; #=GS A0A150IS80/84-125_194-441 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon B15fssc0709_Meth_Bin003; #=GS A0A150IS80/84-125_194-441 DR EC; 3.6.3.14; #=GS A0A150IZ74/84-125_194-441 AC A0A150IZ74 #=GS A0A150IZ74/84-125_194-441 OS Arc I group archaeon BMIXfssc0709_Meth_Bin006 #=GS A0A150IZ74/84-125_194-441 DE V-type ATP synthase alpha chain #=GS A0A150IZ74/84-125_194-441 DR GENE3D; 3417365b6171788a0586b2f9013ee439/84-125_194-441; #=GS A0A150IZ74/84-125_194-441 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon BMIXfssc0709_Meth_Bin006; #=GS A0A150IZ74/84-125_194-441 DR EC; 3.6.3.14; #=GS A0A150ILA7/84-125_194-441 AC A0A150ILA7 #=GS A0A150ILA7/84-125_194-441 OS Arc I group archaeon B03fssc0709_Meth_Bin005 #=GS A0A150ILA7/84-125_194-441 DE V-type ATP synthase alpha chain #=GS A0A150ILA7/84-125_194-441 DR GENE3D; 3417365b6171788a0586b2f9013ee439/84-125_194-441; #=GS A0A150ILA7/84-125_194-441 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon B03fssc0709_Meth_Bin005; #=GS A0A150ILA7/84-125_194-441 DR EC; 3.6.3.14; #=GS A0A172XAJ8/76-117_191-437 AC A0A172XAJ8 #=GS A0A172XAJ8/76-117_191-437 OS Borrelia turicatae #=GS A0A172XAJ8/76-117_191-437 DE V-type ATP synthase alpha chain #=GS A0A172XAJ8/76-117_191-437 DR GENE3D; 34d58393d23490a80d1c3709c3eb010d/76-117_191-437; #=GS A0A172XAJ8/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia turicatae; #=GS A0A172XAJ8/76-117_191-437 DR EC; 3.6.3.14; #=GS H1YZD8/77-118_186-433 AC H1YZD8 #=GS H1YZD8/77-118_186-433 OS Methanoplanus limicola DSM 2279 #=GS H1YZD8/77-118_186-433 DE V-type ATP synthase alpha chain #=GS H1YZD8/77-118_186-433 DR GENE3D; 34e01b89c56af457af4965a97b176d08/77-118_186-433; #=GS H1YZD8/77-118_186-433 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoplanus; Methanoplanus limicola; #=GS H1YZD8/77-118_186-433 DR EC; 3.6.3.14; #=GS N9YXH4/74-115_188-435 AC N9YXH4 #=GS N9YXH4/74-115_188-435 OS [Clostridium] clostridioforme 90A7 #=GS N9YXH4/74-115_188-435 DE V-type ATP synthase alpha chain #=GS N9YXH4/74-115_188-435 DR GENE3D; 36063a8ba17b23017a55c338fd6872da/74-115_188-435; #=GS N9YXH4/74-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] clostridioforme; #=GS N9YXH4/74-115_188-435 DR EC; 3.6.3.14; #=GS A0A180FKH8/76-114_188-436 AC A0A180FKH8 #=GS A0A180FKH8/76-114_188-436 OS Bacteroidales bacterium Barb6 #=GS A0A180FKH8/76-114_188-436 DE V-type ATP synthase alpha chain #=GS A0A180FKH8/76-114_188-436 DR GENE3D; 367ad33b47de44eed065a235d492c6cf/76-114_188-436; #=GS A0A180FKH8/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidales bacterium Barb6; #=GS A0A180FKH8/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A0E3QSR1/50-91_159-406 AC A0A0E3QSR1 #=GS A0A0E3QSR1/50-91_159-406 OS Methanosarcina barkeri MS #=GS A0A0E3QSR1/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3QSR1/50-91_159-406 DR GENE3D; 38069886452320433922885e69a8063a/50-91_159-406; #=GS A0A0E3QSR1/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3QSR1/50-91_159-406 DR EC; 3.6.3.14; #=GS A0A0E3R3K1/50-91_159-406 AC A0A0E3R3K1 #=GS A0A0E3R3K1/50-91_159-406 OS Methanosarcina barkeri 227 #=GS A0A0E3R3K1/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3R3K1/50-91_159-406 DR GENE3D; 38069886452320433922885e69a8063a/50-91_159-406; #=GS A0A0E3R3K1/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3R3K1/50-91_159-406 DR EC; 3.6.3.14; #=GS A0A1G1GAC5/71-112_179-426 AC A0A1G1GAC5 #=GS A0A1G1GAC5/71-112_179-426 OS Nitrospirae bacterium GWC2_56_14 #=GS A0A1G1GAC5/71-112_179-426 DE V-type ATP synthase alpha chain #=GS A0A1G1GAC5/71-112_179-426 DR GENE3D; 3a555347e53128aa7eaa448d4f7157f9/71-112_179-426; #=GS A0A1G1GAC5/71-112_179-426 DR ORG; Bacteria; Nitrospirae; Nitrospirae bacterium GWC2_56_14; #=GS A0A1G1GAC5/71-112_179-426 DR EC; 3.6.3.14; #=GS A0A0C1JKE8/86-126_200-447 AC A0A0C1JKE8 #=GS A0A0C1JKE8/86-126_200-447 OS Candidatus Protochlamydia amoebophila #=GS A0A0C1JKE8/86-126_200-447 DE V-type ATP synthase alpha chain #=GS A0A0C1JKE8/86-126_200-447 DR GENE3D; 3b00c17137124014ef4f2838ddc28188/86-126_200-447; #=GS A0A0C1JKE8/86-126_200-447 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Parachlamydiaceae; Candidatus Protochlamydia; Candidatus Protochlamydia amoebophila; #=GS A0A0C1JKE8/86-126_200-447 DR EC; 3.6.3.14; #=GS B2S1S8/76-117_191-436 AC B2S1S8 #=GS B2S1S8/76-117_191-436 OS Borrelia hermsii DAH #=GS B2S1S8/76-117_191-436 DE V-type ATP synthase alpha chain #=GS B2S1S8/76-117_191-436 DR GENE3D; 3b0efe83486cc4a2d27d3c42341e67a9/76-117_191-436; #=GS B2S1S8/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia hermsii; #=GS B2S1S8/76-117_191-436 DR EC; 3.6.3.14; #=GS A0A142JCA9/76-117_191-436 AC A0A142JCA9 #=GS A0A142JCA9/76-117_191-436 OS Borrelia hermsii #=GS A0A142JCA9/76-117_191-436 DE V-type ATP synthase alpha chain #=GS A0A142JCA9/76-117_191-436 DR GENE3D; 3b0efe83486cc4a2d27d3c42341e67a9/76-117_191-436; #=GS A0A142JCA9/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia hermsii; #=GS A0A142JCA9/76-117_191-436 DR EC; 3.6.3.14; #=GS M2BWD3/77-118_192-438 AC M2BWD3 #=GS M2BWD3/77-118_192-438 OS Treponema denticola ATCC 35404 #=GS M2BWD3/77-118_192-438 DE V-type ATP synthase alpha chain #=GS M2BWD3/77-118_192-438 DR GENE3D; 3b3e48a74455177225287f41fdfd415c/77-118_192-438; #=GS M2BWD3/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema denticola; #=GS M2BWD3/77-118_192-438 DR EC; 3.6.3.14; #=GS Q73M28/77-118_192-438 AC Q73M28 #=GS Q73M28/77-118_192-438 OS Treponema denticola ATCC 35405 #=GS Q73M28/77-118_192-438 DE V-type ATP synthase alpha chain #=GS Q73M28/77-118_192-438 DR GENE3D; 3b3e48a74455177225287f41fdfd415c/77-118_192-438; #=GS Q73M28/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema denticola; #=GS Q73M28/77-118_192-438 DR EC; 3.6.3.14; #=GS E9S574/77-118_192-438 AC E9S574 #=GS E9S574/77-118_192-438 OS Treponema denticola F0402 #=GS E9S574/77-118_192-438 DE V-type ATP synthase alpha chain #=GS E9S574/77-118_192-438 DR GENE3D; 3b3e48a74455177225287f41fdfd415c/77-118_192-438; #=GS E9S574/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema denticola; #=GS E9S574/77-118_192-438 DR EC; 3.6.3.14; #=GS A0A0E2EER2/77-118_192-438 AC A0A0E2EER2 #=GS A0A0E2EER2/77-118_192-438 OS Treponema denticola AL-2 #=GS A0A0E2EER2/77-118_192-438 DE V-type ATP synthase alpha chain #=GS A0A0E2EER2/77-118_192-438 DR GENE3D; 3b3e48a74455177225287f41fdfd415c/77-118_192-438; #=GS A0A0E2EER2/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema denticola; #=GS A0A0E2EER2/77-118_192-438 DR EC; 3.6.3.14; #=GS A0A0E2E878/77-118_192-438 AC A0A0E2E878 #=GS A0A0E2E878/77-118_192-438 OS Treponema denticola H-22 #=GS A0A0E2E878/77-118_192-438 DE V-type ATP synthase alpha chain #=GS A0A0E2E878/77-118_192-438 DR GENE3D; 3b3e48a74455177225287f41fdfd415c/77-118_192-438; #=GS A0A0E2E878/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema denticola; #=GS A0A0E2E878/77-118_192-438 DR EC; 3.6.3.14; #=GS A0A0F6MSK4/77-118_192-438 AC A0A0F6MSK4 #=GS A0A0F6MSK4/77-118_192-438 OS Treponema denticola OTK #=GS A0A0F6MSK4/77-118_192-438 DE V-type ATP synthase alpha chain #=GS A0A0F6MSK4/77-118_192-438 DR GENE3D; 3b3e48a74455177225287f41fdfd415c/77-118_192-438; #=GS A0A0F6MSK4/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema denticola; #=GS A0A0F6MSK4/77-118_192-438 DR EC; 3.6.3.14; #=GS F2NK86/73-114_182-429 AC F2NK86 #=GS F2NK86/73-114_182-429 OS Marinithermus hydrothermalis DSM 14884 #=GS F2NK86/73-114_182-429 DE V-type ATP synthase alpha chain #=GS F2NK86/73-114_182-429 DR GENE3D; 3dab528ee426f8bcba94909666495784/73-114_182-429; #=GS F2NK86/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Marinithermus; Marinithermus hydrothermalis; #=GS F2NK86/73-114_182-429 DR EC; 3.6.3.14; #=GS L0A1W3/78-119_187-434 AC L0A1W3 #=GS L0A1W3/78-119_187-434 OS Deinococcus peraridilitoris DSM 19664 #=GS L0A1W3/78-119_187-434 DE V-type ATP synthase alpha chain #=GS L0A1W3/78-119_187-434 DR GENE3D; 3eac047030829b4611dd449941d61cf0/78-119_187-434; #=GS L0A1W3/78-119_187-434 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus peraridilitoris; #=GS L0A1W3/78-119_187-434 DR EC; 3.6.3.14; #=GS A0A117DPV5/76-117_185-432 AC A0A117DPV5 #=GS A0A117DPV5/76-117_185-432 OS Deinococcus grandis #=GS A0A117DPV5/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A117DPV5/76-117_185-432 DR GENE3D; 3c10f762b3f80e1568db1fa50562307d/76-117_185-432; #=GS A0A117DPV5/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus grandis; #=GS A0A117DPV5/76-117_185-432 DR EC; 3.6.3.14; #=GS A0A1G0ZLU8/78-119_193-439 AC A0A1G0ZLU8 #=GS A0A1G0ZLU8/78-119_193-439 OS Lentisphaerae bacterium GWF2_50_93 #=GS A0A1G0ZLU8/78-119_193-439 DE V-type ATP synthase alpha chain #=GS A0A1G0ZLU8/78-119_193-439 DR GENE3D; 40320aa6c097f19bfb5736ccb2ef1e42/78-119_193-439; #=GS A0A1G0ZLU8/78-119_193-439 DR ORG; Bacteria; Lentisphaerae; Lentisphaerae bacterium GWF2_50_93; #=GS A0A1G0ZLU8/78-119_193-439 DR EC; 3.6.3.14; #=GS A0A0N8W915/79-120_188-435 AC A0A0N8W915 #=GS A0A0N8W915/79-120_188-435 OS Methanolinea sp. SDB #=GS A0A0N8W915/79-120_188-435 DE V-type ATP synthase alpha chain #=GS A0A0N8W915/79-120_188-435 DR GENE3D; 4091cbdb524dd990b35ecf03a9f47457/79-120_188-435; #=GS A0A0N8W915/79-120_188-435 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanolinea; Methanolinea sp. SDB; #=GS A0A0N8W915/79-120_188-435 DR EC; 3.6.3.14; #=GS E4U986/73-114_182-429 AC E4U986 #=GS E4U986/73-114_182-429 OS Oceanithermus profundus DSM 14977 #=GS E4U986/73-114_182-429 DE V-type ATP synthase alpha chain #=GS E4U986/73-114_182-429 DR GENE3D; 3e93f3eb12fa9d68e0e4d20dcfefd3df/73-114_182-429; #=GS E4U986/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Oceanithermus; Oceanithermus profundus; #=GS E4U986/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0C1HL41/89-129_203-450 AC A0A0C1HL41 #=GS A0A0C1HL41/89-129_203-450 OS Neochlamydia sp. TUME1 #=GS A0A0C1HL41/89-129_203-450 DE V-type ATP synthase alpha chain #=GS A0A0C1HL41/89-129_203-450 DR GENE3D; 3fb1d3650d3cf9f9a8abf0a54a410e48/89-129_203-450; #=GS A0A0C1HL41/89-129_203-450 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Parachlamydiaceae; Neochlamydia; Neochlamydia sp. TUME1; #=GS A0A0C1HL41/89-129_203-450 DR EC; 3.6.3.14; #=GS A0A0C1HBE0/89-129_203-450 AC A0A0C1HBE0 #=GS A0A0C1HBE0/89-129_203-450 OS Neochlamydia sp. EPS4 #=GS A0A0C1HBE0/89-129_203-450 DE V-type ATP synthase alpha chain #=GS A0A0C1HBE0/89-129_203-450 DR GENE3D; 3fb1d3650d3cf9f9a8abf0a54a410e48/89-129_203-450; #=GS A0A0C1HBE0/89-129_203-450 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Parachlamydiaceae; Neochlamydia; Neochlamydia sp. EPS4; #=GS A0A0C1HBE0/89-129_203-450 DR EC; 3.6.3.14; #=GS G0AKQ6/76-117_191-437 AC G0AKQ6 #=GS G0AKQ6/76-117_191-437 OS Borreliella bissettii DN127 #=GS G0AKQ6/76-117_191-437 DE V-type ATP synthase alpha chain #=GS G0AKQ6/76-117_191-437 DR GENE3D; 422f0d6938a61ab9ea24a025d5836bcd/76-117_191-437; #=GS G0AKQ6/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borreliella; Borreliella bissettii; #=GS G0AKQ6/76-117_191-437 DR EC; 3.6.3.14; #=GS A0A0S8IMK2/78-119_193-438 AC A0A0S8IMK2 #=GS A0A0S8IMK2/78-119_193-438 OS Omnitrophica WOR_2 bacterium SM23_72 #=GS A0A0S8IMK2/78-119_193-438 DE V-type ATP synthase alpha chain #=GS A0A0S8IMK2/78-119_193-438 DR GENE3D; 40f451599d3759b1cc8c711ab45d472d/78-119_193-438; #=GS A0A0S8IMK2/78-119_193-438 DR ORG; Bacteria; Candidatus Omnitrophica; Omnitrophica WOR_2 bacterium SM23_72; #=GS A0A0S8IMK2/78-119_193-438 DR EC; 3.6.3.14; #=GS A0A063ZBI0/79-120_188-435 AC A0A063ZBI0 #=GS A0A063ZBI0/79-120_188-435 OS Methanoculleus sp. MH98A #=GS A0A063ZBI0/79-120_188-435 DE V-type ATP synthase alpha chain #=GS A0A063ZBI0/79-120_188-435 DR GENE3D; 440fc2543b50f599cfe8ebeed6106d35/79-120_188-435; #=GS A0A063ZBI0/79-120_188-435 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus sp. MH98A; #=GS A0A063ZBI0/79-120_188-435 DR EC; 3.6.3.14; #=GS A0A1A9HXQ7/83-122_196-443 AC A0A1A9HXQ7 #=GS A0A1A9HXQ7/83-122_196-443 OS Chlamydia sp. 2742-308 #=GS A0A1A9HXQ7/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A1A9HXQ7/83-122_196-443 DR GENE3D; 45204a20518fdb489fb9229a35dcc65c/83-122_196-443; #=GS A0A1A9HXQ7/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia sp. 2742-308; #=GS A0A1A9HXQ7/83-122_196-443 DR EC; 3.6.3.14; #=GS F6DHR7/73-114_182-429 AC F6DHR7 #=GS F6DHR7/73-114_182-429 OS Thermus thermophilus SG0.5JP17-16 #=GS F6DHR7/73-114_182-429 DE V-type ATP synthase alpha chain #=GS F6DHR7/73-114_182-429 DR GENE3D; 4693edbeb51d99579c70bedb8b85b047/73-114_182-429; #=GS F6DHR7/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS F6DHR7/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A1G3I9S3/73-109_183-430 AC A0A1G3I9S3 #=GS A0A1G3I9S3/73-109_183-430 OS Rhodospirillales bacterium RIFCSPLOWO2_12_FULL_58_28 #=GS A0A1G3I9S3/73-109_183-430 DE V-type ATP synthase alpha chain #=GS A0A1G3I9S3/73-109_183-430 DR GENE3D; 4455b1637d102b6dadd0eeb37dd0f4e7/73-109_183-430; #=GS A0A1G3I9S3/73-109_183-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillales bacterium RIFCSPLOWO2_12_FULL_58_28; #=GS A0A1G3I9S3/73-109_183-430 DR EC; 3.6.3.14; #=GS D6RWU1/76-117_191-437 AC D6RWU1 #=GS D6RWU1/76-117_191-437 OS Borreliella valaisiana VS116 #=GS D6RWU1/76-117_191-437 DE V-type ATP synthase alpha chain #=GS D6RWU1/76-117_191-437 DR GENE3D; 47690dd321567d4fcf828192584232fc/76-117_191-437; #=GS D6RWU1/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borreliella; Borreliella valaisiana; #=GS D6RWU1/76-117_191-437 DR EC; 3.6.3.14; #=GS M2BJ04/77-118_192-438 AC M2BJ04 #=GS M2BJ04/77-118_192-438 OS Treponema denticola H1-T #=GS M2BJ04/77-118_192-438 DE V-type ATP synthase alpha chain #=GS M2BJ04/77-118_192-438 DR GENE3D; 4720b9b14e1840673337706b837bf171/77-118_192-438; #=GS M2BJ04/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema denticola; #=GS M2BJ04/77-118_192-438 DR EC; 3.6.3.14; #=GS A0A0T6ARV6/74-115_183-432 AC A0A0T6ARV6 #=GS A0A0T6ARV6/74-115_183-432 OS Armatimonadetes bacterium CSP1-3 #=GS A0A0T6ARV6/74-115_183-432 DE V-type ATP synthase alpha chain #=GS A0A0T6ARV6/74-115_183-432 DR GENE3D; 4822e41b602f69269fe69f7433c41a24/74-115_183-432; #=GS A0A0T6ARV6/74-115_183-432 DR ORG; Bacteria; Armatimonadetes; Armatimonadetes bacterium CSP1-3; #=GS A0A0T6ARV6/74-115_183-432 DR EC; 3.6.3.14; #=GS A0A0Q4BI19/74-114_180-426 AC A0A0Q4BI19 #=GS A0A0Q4BI19/74-114_180-426 OS Methanomassiliicoccales archaeon RumEn M1 #=GS A0A0Q4BI19/74-114_180-426 DE V-type ATP synthase alpha chain #=GS A0A0Q4BI19/74-114_180-426 DR GENE3D; 4a1fe03746597618903e1c83e43135d7/74-114_180-426; #=GS A0A0Q4BI19/74-114_180-426 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Methanomassiliicoccales; Methanomassiliicoccales archaeon RumEn M1; #=GS A0A0Q4BI19/74-114_180-426 DR EC; 3.6.3.14; #=GS A0A1F7FVK5/77-118_191-436 AC A0A1F7FVK5 #=GS A0A1F7FVK5/77-118_191-436 OS Candidatus Riflebacteria bacterium GWC2_50_8 #=GS A0A1F7FVK5/77-118_191-436 DE V-type ATP synthase alpha chain #=GS A0A1F7FVK5/77-118_191-436 DR GENE3D; 4a50e5e4e6629be460bc15d5d49119ad/77-118_191-436; #=GS A0A1F7FVK5/77-118_191-436 DR ORG; Bacteria; Candidatus Riflebacteria; Candidatus Riflebacteria bacterium GWC2_50_8; #=GS A0A1F7FVK5/77-118_191-436 DR EC; 3.6.3.14; #=GS A0A1F9ZU82/75-116_183-430 AC A0A1F9ZU82 #=GS A0A1F9ZU82/75-116_183-430 OS Euryarchaeota archaeon RBG_19FT_COMBO_56_21 #=GS A0A1F9ZU82/75-116_183-430 DE V-type ATP synthase alpha chain #=GS A0A1F9ZU82/75-116_183-430 DR GENE3D; 4ad7b9467966d14fe63c053567335843/75-116_183-430; #=GS A0A1F9ZU82/75-116_183-430 DR ORG; Archaea; Euryarchaeota; Euryarchaeota archaeon RBG_19FT_COMBO_56_21; #=GS A0A1F9ZU82/75-116_183-430 DR EC; 3.6.3.14; #=GS D3ST04/82-124_193-440 AC D3ST04 #=GS D3ST04/82-124_193-440 OS Natrialba magadii ATCC 43099 #=GS D3ST04/82-124_193-440 DE V-type ATP synthase alpha chain #=GS D3ST04/82-124_193-440 DR GENE3D; 487dac02d75a3a64089f486d18e1b016/82-124_193-440; #=GS D3ST04/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrialba; Natrialba magadii; #=GS D3ST04/82-124_193-440 DR EC; 3.6.3.14; #=GS M0PNR5/82-124_193-440 AC M0PNR5 #=GS M0PNR5/82-124_193-440 OS Halorubrum arcis JCM 13916 #=GS M0PNR5/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0PNR5/82-124_193-440 DR GENE3D; 4c45efccbf50588095730fa817204574/82-124_193-440; #=GS M0PNR5/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum arcis; #=GS M0PNR5/82-124_193-440 DR EC; 3.6.3.14; #=GS M0DRH3/82-124_193-440 AC M0DRH3 #=GS M0DRH3/82-124_193-440 OS Halorubrum terrestre JCM 10247 #=GS M0DRH3/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0DRH3/82-124_193-440 DR GENE3D; 4c45efccbf50588095730fa817204574/82-124_193-440; #=GS M0DRH3/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum terrestre; #=GS M0DRH3/82-124_193-440 DR EC; 3.6.3.14; #=GS E7NSD4/76-117_194-441 AC E7NSD4 #=GS E7NSD4/76-117_194-441 OS Treponema phagedenis F0421 #=GS E7NSD4/76-117_194-441 DE V-type ATP synthase alpha chain #=GS E7NSD4/76-117_194-441 DR GENE3D; 4d6b7947482eed9eb9fa05fc6571130e/76-117_194-441; #=GS E7NSD4/76-117_194-441 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema phagedenis; #=GS E7NSD4/76-117_194-441 DR EC; 3.6.3.14; #=GS E1RER2/77-118_186-433 AC E1RER2 #=GS E1RER2/77-118_186-433 OS Methanolacinia petrolearia DSM 11571 #=GS E1RER2/77-118_186-433 DE V-type ATP synthase alpha chain #=GS E1RER2/77-118_186-433 DR GENE3D; 4e7c7d73e056244fa0d15ef271861f54/77-118_186-433; #=GS E1RER2/77-118_186-433 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanolacinia; Methanolacinia petrolearia; #=GS E1RER2/77-118_186-433 DR EC; 3.6.3.14; #=GS L9WZA4/82-124_193-440 AC L9WZA4 #=GS L9WZA4/82-124_193-440 OS Natronolimnobius innermongolicus JCM 12255 #=GS L9WZA4/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L9WZA4/82-124_193-440 DR GENE3D; 4e27f721a9218cae50f59e663506d32e/82-124_193-440; #=GS L9WZA4/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natronolimnobius; Natronolimnobius innermongolicus; #=GS L9WZA4/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1G0XYC9/78-119_193-438 AC A0A1G0XYC9 #=GS A0A1G0XYC9/78-119_193-438 OS Lentisphaerae bacterium GWF2_49_21 #=GS A0A1G0XYC9/78-119_193-438 DE V-type ATP synthase alpha chain #=GS A0A1G0XYC9/78-119_193-438 DR GENE3D; 509ca472c427b29a141950dbc8add918/78-119_193-438; #=GS A0A1G0XYC9/78-119_193-438 DR ORG; Bacteria; Lentisphaerae; Lentisphaerae bacterium GWF2_49_21; #=GS A0A1G0XYC9/78-119_193-438 DR EC; 3.6.3.14; #=GS U1NZE7/81-123_192-439 AC U1NZE7 #=GS U1NZE7/81-123_192-439 OS Halorubrum sp. J07HR59 #=GS U1NZE7/81-123_192-439 DE V-type ATP synthase alpha chain #=GS U1NZE7/81-123_192-439 DR GENE3D; 515ae6bbf868b7f3f8e8f3ba0a1a24b9/81-123_192-439; #=GS U1NZE7/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum sp. J07HR59; #=GS U1NZE7/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A117LHU6/74-115_184-433 AC A0A117LHU6 #=GS A0A117LHU6/74-115_184-433 OS Actinobacteria bacterium 66_15 #=GS A0A117LHU6/74-115_184-433 DE V-type ATP synthase alpha chain #=GS A0A117LHU6/74-115_184-433 DR GENE3D; 50788556546f71f1d7379afa54c4f6a1/74-115_184-433; #=GS A0A117LHU6/74-115_184-433 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Actinobacteria bacterium 66_15; #=GS A0A117LHU6/74-115_184-433 DR EC; 3.6.3.14; #=GS A0A174ZCD3/72-112_185-432 AC A0A174ZCD3 #=GS A0A174ZCD3/72-112_185-432 OS [Eubacterium] siraeum #=GS A0A174ZCD3/72-112_185-432 DE V-type ATP synthase alpha chain #=GS A0A174ZCD3/72-112_185-432 DR GENE3D; 51fee6902cc42c98a04412f5618fabcc/72-112_185-432; #=GS A0A174ZCD3/72-112_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminiclostridium; [Eubacterium] siraeum; #=GS A0A174ZCD3/72-112_185-432 DR EC; 3.6.3.14; #=GS M0AZA2/82-124_193-440 AC M0AZA2 #=GS M0AZA2/82-124_193-440 OS Natrialba asiatica DSM 12278 #=GS M0AZA2/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0AZA2/82-124_193-440 DR GENE3D; 50f394de8e7cda7364cbff0af382024b/82-124_193-440; #=GS M0AZA2/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrialba; Natrialba asiatica; #=GS M0AZA2/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1G0WGT1/78-119_193-439 AC A0A1G0WGT1 #=GS A0A1G0WGT1/78-119_193-439 OS Lentisphaerae bacterium GWF2_38_69 #=GS A0A1G0WGT1/78-119_193-439 DE V-type ATP synthase alpha chain #=GS A0A1G0WGT1/78-119_193-439 DR GENE3D; 558acf3f0e874c20560fb7e07e0d1bfb/78-119_193-439; #=GS A0A1G0WGT1/78-119_193-439 DR ORG; Bacteria; Lentisphaerae; Lentisphaerae bacterium GWF2_38_69; #=GS A0A1G0WGT1/78-119_193-439 DR EC; 3.6.3.14; #=GS A0A1G3MRY0/77-118_192-438 AC A0A1G3MRY0 #=GS A0A1G3MRY0/77-118_192-438 OS Spirochaetes bacterium GWC1_61_12 #=GS A0A1G3MRY0/77-118_192-438 DE V-type ATP synthase alpha chain #=GS A0A1G3MRY0/77-118_192-438 DR GENE3D; 530d283fe2927750bdc2f1346dc72dfe/77-118_192-438; #=GS A0A1G3MRY0/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium GWC1_61_12; #=GS A0A1G3MRY0/77-118_192-438 DR EC; 3.6.3.14; #=GS D7CQZ8/74-115_183-430 AC D7CQZ8 #=GS D7CQZ8/74-115_183-430 OS Truepera radiovictrix DSM 17093 #=GS D7CQZ8/74-115_183-430 DE V-type ATP synthase alpha chain #=GS D7CQZ8/74-115_183-430 DR GENE3D; 56461af361aa47898bf4e3a8a24953bf/74-115_183-430; #=GS D7CQZ8/74-115_183-430 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Trueperaceae; Truepera; Truepera radiovictrix; #=GS D7CQZ8/74-115_183-430 DR EC; 3.6.3.14; #=GS A0A0E2IYB4/83-122_196-443 AC A0A0E2IYB4 #=GS A0A0E2IYB4/83-122_196-443 OS Chlamydia psittaci 01DC11 #=GS A0A0E2IYB4/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A0E2IYB4/83-122_196-443 DR GENE3D; 532037937a10eba59ee2deccafb94511/83-122_196-443; #=GS A0A0E2IYB4/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia psittaci; #=GS A0A0E2IYB4/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A1D3CP29/83-122_196-443 AC A0A1D3CP29 #=GS A0A1D3CP29/83-122_196-443 OS Chlamydia psittaci #=GS A0A1D3CP29/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A1D3CP29/83-122_196-443 DR GENE3D; 532037937a10eba59ee2deccafb94511/83-122_196-443; #=GS A0A1D3CP29/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia psittaci; #=GS A0A1D3CP29/83-122_196-443 DR EC; 3.6.3.14; #=GS S7ISY5/83-122_196-443 AC S7ISY5 #=GS S7ISY5/83-122_196-443 OS Chlamydia psittaci C1/97 #=GS S7ISY5/83-122_196-443 DE V-type ATP synthase alpha chain #=GS S7ISY5/83-122_196-443 DR GENE3D; 532037937a10eba59ee2deccafb94511/83-122_196-443; #=GS S7ISY5/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia psittaci; #=GS S7ISY5/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A091AEU8/81-121_196-444 AC A0A091AEU8 #=GS A0A091AEU8/81-121_196-444 OS Smithella sp. F21 #=GS A0A091AEU8/81-121_196-444 DE V-type ATP synthase alpha chain #=GS A0A091AEU8/81-121_196-444 DR GENE3D; 57e3c8fa4476618abb7b94fa9524c2b9/81-121_196-444; #=GS A0A091AEU8/81-121_196-444 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Syntrophobacterales; Syntrophaceae; Smithella; Smithella sp. F21; #=GS A0A091AEU8/81-121_196-444 DR EC; 3.6.3.14; #=GS A0A120I9E8/72-113_186-433 AC A0A120I9E8 #=GS A0A120I9E8/72-113_186-433 OS Aerococcus sanguinicola #=GS A0A120I9E8/72-113_186-433 DE V-type ATP synthase alpha chain #=GS A0A120I9E8/72-113_186-433 DR GENE3D; 5732ef9106ab752f1886fecd1d39d98c/72-113_186-433; #=GS A0A120I9E8/72-113_186-433 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Aerococcaceae; Aerococcus; Aerococcus sanguinicola; #=GS A0A120I9E8/72-113_186-433 DR EC; 3.6.3.14; #=GS A0A0B7GUZ0/76-117_194-441 AC A0A0B7GUZ0 #=GS A0A0B7GUZ0/76-117_194-441 OS Treponema phagedenis #=GS A0A0B7GUZ0/76-117_194-441 DE V-type ATP synthase alpha chain #=GS A0A0B7GUZ0/76-117_194-441 DR GENE3D; 53f2ec933d9498462bc23d2d974aa64a/76-117_194-441; #=GS A0A0B7GUZ0/76-117_194-441 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema phagedenis; #=GS A0A0B7GUZ0/76-117_194-441 DR EC; 3.6.3.14; #=GS M0NCE1/81-122_191-438 AC M0NCE1 #=GS M0NCE1/81-122_191-438 OS Halococcus salifodinae DSM 8989 #=GS M0NCE1/81-122_191-438 DE V-type ATP synthase alpha chain #=GS M0NCE1/81-122_191-438 DR GENE3D; 579bd4b777aa8aaac60078b65ff2fe2a/81-122_191-438; #=GS M0NCE1/81-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halococcaceae; Halococcus; Halococcus salifodinae; #=GS M0NCE1/81-122_191-438 DR EC; 3.6.3.14; #=GS V4XW32/81-123_196-443 AC V4XW32 #=GS V4XW32/81-123_196-443 OS uncultured archaeon A07HR67 #=GS V4XW32/81-123_196-443 DE V-type ATP synthase alpha chain #=GS V4XW32/81-123_196-443 DR GENE3D; 5893208ea78e80d4b29c88698cd22e71/81-123_196-443; #=GS V4XW32/81-123_196-443 DR ORG; Archaea; uncultured archaeon A07HR67; #=GS V4XW32/81-123_196-443 DR EC; 3.6.3.14; #=GS A0A0F7JPA3/76-117_185-432 AC A0A0F7JPA3 #=GS A0A0F7JPA3/76-117_185-432 OS Deinococcus soli Cha et al. 2016 #=GS A0A0F7JPA3/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A0F7JPA3/76-117_185-432 DR GENE3D; 58377975a70264a9c3242f662a2f88d6/76-117_185-432; #=GS A0A0F7JPA3/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus soli Cha et al. 2016; #=GS A0A0F7JPA3/76-117_185-432 DR EC; 3.6.3.14; #=GS A0A1G1PBQ9/63-104_178-424 AC A0A1G1PBQ9 #=GS A0A1G1PBQ9/63-104_178-424 OS Omnitrophica WOR_2 bacterium RIFCSPHIGHO2_02_FULL_50_17 #=GS A0A1G1PBQ9/63-104_178-424 DE V-type ATP synthase alpha chain #=GS A0A1G1PBQ9/63-104_178-424 DR GENE3D; 58a4b92b61c94f4d4cccbe5667b85cf7/63-104_178-424; #=GS A0A1G1PBQ9/63-104_178-424 DR ORG; Bacteria; Candidatus Omnitrophica; Omnitrophica WOR_2 bacterium RIFCSPHIGHO2_02_FULL_50_17; #=GS A0A1G1PBQ9/63-104_178-424 DR EC; 3.6.3.14; #=GS A0A0F8PH53/73-114_182-429 AC A0A0F8PH53 #=GS A0A0F8PH53/73-114_182-429 OS Methanosarcina mazei #=GS A0A0F8PH53/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0F8PH53/73-114_182-429 DR GENE3D; 5a310ceef8e561dca03ee441b11d9974/73-114_182-429; #=GS A0A0F8PH53/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0F8PH53/73-114_182-429 DR EC; 3.6.3.14; #=GS M0DRB9/64-106_179-426 AC M0DRB9 #=GS M0DRB9/64-106_179-426 OS Halorubrum saccharovorum DSM 1137 #=GS M0DRB9/64-106_179-426 DE V-type ATP synthase alpha chain #=GS M0DRB9/64-106_179-426 DR GENE3D; 59887c22ea09755ae05452a64f401d48/64-106_179-426; #=GS M0DRB9/64-106_179-426 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum saccharovorum; #=GS M0DRB9/64-106_179-426 DR EC; 3.6.3.14; #=GS Q18FB7/80-122_191-438 AC Q18FB7 #=GS Q18FB7/80-122_191-438 OS Haloquadratum walsbyi DSM 16790 #=GS Q18FB7/80-122_191-438 DE V-type ATP synthase alpha chain #=GS Q18FB7/80-122_191-438 DR GENE3D; 5645b135532100923e39665db01dd8ef/80-122_191-438; #=GS Q18FB7/80-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloquadratum; Haloquadratum walsbyi; #=GS Q18FB7/80-122_191-438 DR EC; 3.6.3.14; #=GS Q97CQ0/419-618 AC Q97CQ0 #=GS Q97CQ0/419-618 OS Thermoplasma volcanium GSS1 #=GS Q97CQ0/419-618 DE V-type ATP synthase alpha chain #=GS Q97CQ0/419-618 DR GENE3D; 565c49e414770045e2ff9f82885dea6a/419-618; #=GS Q97CQ0/419-618 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmataceae; Thermoplasma; Thermoplasma volcanium; #=GS Q97CQ0/419-618 DR EC; 3.6.3.14; #=GS A0A1G3L8P6/76-117_187-434 AC A0A1G3L8P6 #=GS A0A1G3L8P6/76-117_187-434 OS Spirochaetes bacterium GWB1_27_13 #=GS A0A1G3L8P6/76-117_187-434 DE V-type ATP synthase alpha chain #=GS A0A1G3L8P6/76-117_187-434 DR GENE3D; 5ab711256958adbdd6a940cc26549668/76-117_187-434; #=GS A0A1G3L8P6/76-117_187-434 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium GWB1_27_13; #=GS A0A1G3L8P6/76-117_187-434 DR EC; 3.6.3.14; #=GS A0A0E3WQ13/50-91_159-406 AC A0A0E3WQ13 #=GS A0A0E3WQ13/50-91_159-406 OS Methanosarcina mazei C16 #=GS A0A0E3WQ13/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3WQ13/50-91_159-406 DR GENE3D; 5b3af82be4663012ff027d551b603157/50-91_159-406; #=GS A0A0E3WQ13/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0E3WQ13/50-91_159-406 DR EC; 3.6.3.14; #=GS A0A0E3RHT6/50-91_159-406 AC A0A0E3RHT6 #=GS A0A0E3RHT6/50-91_159-406 OS Methanosarcina mazei S-6 #=GS A0A0E3RHT6/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3RHT6/50-91_159-406 DR GENE3D; 5b3af82be4663012ff027d551b603157/50-91_159-406; #=GS A0A0E3RHT6/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0E3RHT6/50-91_159-406 DR EC; 3.6.3.14; #=GS A0A0E3RM19/50-91_159-406 AC A0A0E3RM19 #=GS A0A0E3RM19/50-91_159-406 OS Methanosarcina mazei LYC #=GS A0A0E3RM19/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3RM19/50-91_159-406 DR GENE3D; 5b3af82be4663012ff027d551b603157/50-91_159-406; #=GS A0A0E3RM19/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0E3RM19/50-91_159-406 DR EC; 3.6.3.14; #=GS A0A0E3PV76/50-91_159-406 AC A0A0E3PV76 #=GS A0A0E3PV76/50-91_159-406 OS Methanosarcina mazei WWM610 #=GS A0A0E3PV76/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3PV76/50-91_159-406 DR GENE3D; 5b3af82be4663012ff027d551b603157/50-91_159-406; #=GS A0A0E3PV76/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0E3PV76/50-91_159-406 DR EC; 3.6.3.14; #=GS M1QGT0/50-91_159-406 AC M1QGT0 #=GS M1QGT0/50-91_159-406 OS Methanosarcina mazei Tuc01 #=GS M1QGT0/50-91_159-406 DE V-type ATP synthase alpha chain #=GS M1QGT0/50-91_159-406 DR GENE3D; 5b3af82be4663012ff027d551b603157/50-91_159-406; #=GS M1QGT0/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS M1QGT0/50-91_159-406 DR EC; 3.6.3.14; #=GS A0A0E3R5R7/50-91_159-406 AC A0A0E3R5R7 #=GS A0A0E3R5R7/50-91_159-406 OS Methanosarcina mazei SarPi #=GS A0A0E3R5R7/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3R5R7/50-91_159-406 DR GENE3D; 5b3af82be4663012ff027d551b603157/50-91_159-406; #=GS A0A0E3R5R7/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0E3R5R7/50-91_159-406 DR EC; 3.6.3.14; #=GS A7IAU8/82-123_191-438 AC A7IAU8 #=GS A7IAU8/82-123_191-438 OS Methanoregula boonei 6A8 #=GS A7IAU8/82-123_191-438 DE V-type ATP synthase alpha chain #=GS A7IAU8/82-123_191-438 DR GENE3D; 5803cffda26e274ac59e3c62414e9836/82-123_191-438; #=GS A7IAU8/82-123_191-438 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanoregula; Methanoregula boonei; #=GS A7IAU8/82-123_191-438 DR EC; 3.6.3.14; #=GS E8WP14/71-112_177-424 AC E8WP14 #=GS E8WP14/71-112_177-424 OS Geobacter sp. M18 #=GS E8WP14/71-112_177-424 DE Sodium-transporting two-sector ATPase #=GS E8WP14/71-112_177-424 DR GENE3D; 584dcfb5c8f16272cf8dbfe7ec39b964/71-112_177-424; #=GS E8WP14/71-112_177-424 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Geobacteraceae; Geobacter; Geobacter sp. M18; #=GS E8WP14/71-112_177-424 DR EC; 3.6.3.15; #=GS F8EZ55/77-118_192-438 AC F8EZ55 #=GS F8EZ55/77-118_192-438 OS Treponema caldarium DSM 7334 #=GS F8EZ55/77-118_192-438 DE V-type ATP synthase alpha chain #=GS F8EZ55/77-118_192-438 DR GENE3D; 5de3852ce116e421c3fa8f89910b3499/77-118_192-438; #=GS F8EZ55/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema caldarium; #=GS F8EZ55/77-118_192-438 DR EC; 3.6.3.14; #=GS A0A011VUT7/72-112_186-433 AC A0A011VUT7 #=GS A0A011VUT7/72-112_186-433 OS Ruminococcus albus SY3 #=GS A0A011VUT7/72-112_186-433 DE V-type ATP synthase alpha chain #=GS A0A011VUT7/72-112_186-433 DR GENE3D; 5d2a7dac4d4f9151264a12e6c417d28f/72-112_186-433; #=GS A0A011VUT7/72-112_186-433 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminococcus; Ruminococcus albus; #=GS A0A011VUT7/72-112_186-433 DR EC; 3.6.3.14; #=GS W0K1Q9/79-120_189-436 AC W0K1Q9 #=GS W0K1Q9/79-120_189-436 OS Halobacterium sp. DL1 #=GS W0K1Q9/79-120_189-436 DE V-type ATP synthase alpha chain #=GS W0K1Q9/79-120_189-436 DR GENE3D; 5dfa333d0d0767c4fdceaf04d2b3edf5/79-120_189-436; #=GS W0K1Q9/79-120_189-436 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Halobacterium; Halobacterium sp. DL1; #=GS W0K1Q9/79-120_189-436 DR EC; 3.6.3.14; #=GS F7XSN6/77-118_192-440 AC F7XSN6 #=GS F7XSN6/77-118_192-440 OS Treponema paraluiscuniculi Cuniculi A #=GS F7XSN6/77-118_192-440 DE V-type ATP synthase alpha chain #=GS F7XSN6/77-118_192-440 DR GENE3D; 5e55e0fea62977d5d16697941dbcd46b/77-118_192-440; #=GS F7XSN6/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema paraluiscuniculi; #=GS F7XSN6/77-118_192-440 DR EC; 3.6.3.14; #=GS I0X7P7/78-118_192-439 AC I0X7P7 #=GS I0X7P7/78-118_192-439 OS Treponema sp. JC4 #=GS I0X7P7/78-118_192-439 DE V-type ATP synthase alpha chain #=GS I0X7P7/78-118_192-439 DR GENE3D; 5f52eb98aae3fb4108a7c59b074d40f5/78-118_192-439; #=GS I0X7P7/78-118_192-439 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema sp. JC4; #=GS I0X7P7/78-118_192-439 DR EC; 3.6.3.14; #=GS M0I921/81-123_192-438 AC M0I921 #=GS M0I921/81-123_192-438 OS Haloferax sulfurifontis ATCC BAA-897 #=GS M0I921/81-123_192-438 DE V-type ATP synthase alpha chain #=GS M0I921/81-123_192-438 DR GENE3D; 6134ca79068f05aa15aee4430c207dba/81-123_192-438; #=GS M0I921/81-123_192-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax sulfurifontis; #=GS M0I921/81-123_192-438 DR EC; 3.6.3.14; #=GS M0HUM0/81-123_192-439 AC M0HUM0 #=GS M0HUM0/81-123_192-439 OS Haloferax elongans ATCC BAA-1513 #=GS M0HUM0/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0HUM0/81-123_192-439 DR GENE3D; 61e0227a243bde44bc7ef47532fe2e1b/81-123_192-439; #=GS M0HUM0/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax elongans; #=GS M0HUM0/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A0E3L9G6/64-105_174-421 AC A0A0E3L9G6 #=GS A0A0E3L9G6/64-105_174-421 OS Methanosarcina siciliae T4/M #=GS A0A0E3L9G6/64-105_174-421 DE V-type ATP synthase alpha chain #=GS A0A0E3L9G6/64-105_174-421 DR GENE3D; 61f23a7ed49ac22eca33b5e3e66fe01b/64-105_174-421; #=GS A0A0E3L9G6/64-105_174-421 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina siciliae; #=GS A0A0E3L9G6/64-105_174-421 DR EC; 3.6.3.14; #=GS Q6MAJ5/86-126_200-447 AC Q6MAJ5 #=GS Q6MAJ5/86-126_200-447 OS Candidatus Protochlamydia amoebophila UWE25 #=GS Q6MAJ5/86-126_200-447 DE V-type ATP synthase alpha chain #=GS Q6MAJ5/86-126_200-447 DR GENE3D; 5df744954e60edf5344413ceb6f3af5e/86-126_200-447; #=GS Q6MAJ5/86-126_200-447 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Parachlamydiaceae; Candidatus Protochlamydia; Candidatus Protochlamydia amoebophila; #=GS Q6MAJ5/86-126_200-447 DR EC; 3.6.3.14; #=GS A0A0M9ANY4/82-124_193-440 AC A0A0M9ANY4 #=GS A0A0M9ANY4/82-124_193-440 OS #=GS A0A0M9ANY4/82-124_193-440 DE V-type ATP synthase alpha chain #=GS A0A0M9ANY4/82-124_193-440 DR GENE3D; 62b631087b537a98aef0b8bc7bffb7f7/82-124_193-440; #=GS A0A0M9ANY4/82-124_193-440 DR ORG; #=GS A0A0M9ANY4/82-124_193-440 DR EC; 3.6.3.14; #=GS E1R3E2/77-118_192-437 AC E1R3E2 #=GS E1R3E2/77-118_192-437 OS Sediminispirochaeta smaragdinae DSM 11293 #=GS E1R3E2/77-118_192-437 DE V-type ATP synthase alpha chain #=GS E1R3E2/77-118_192-437 DR GENE3D; 62bc275d0bc25aa5b2b465cb85e11044/77-118_192-437; #=GS E1R3E2/77-118_192-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Sediminispirochaeta; Sediminispirochaeta smaragdinae; #=GS E1R3E2/77-118_192-437 DR EC; 3.6.3.14; #=GS Q9HNE3/79-120_189-436 AC Q9HNE3 #=GS Q9HNE3/79-120_189-436 OS Halobacterium salinarum NRC-1 #=GS Q9HNE3/79-120_189-436 DE V-type ATP synthase alpha chain #=GS Q9HNE3/79-120_189-436 DR GENE3D; 5ecaaa19008ef06e6cd09b863315d5d5/79-120_189-436; #=GS Q9HNE3/79-120_189-436 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Halobacterium; Halobacterium salinarum; #=GS Q9HNE3/79-120_189-436 DR EC; 3.6.3.14; #=GS A0A1B8X4F2/73-114_182-429 AC A0A1B8X4F2 #=GS A0A1B8X4F2/73-114_182-429 OS Methanohalophilus sp. DAL1 #=GS A0A1B8X4F2/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A1B8X4F2/73-114_182-429 DR GENE3D; 64ace7915fca4d16150b637f4dc82a10/73-114_182-429; #=GS A0A1B8X4F2/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanohalophilus; Methanohalophilus sp. DAL1; #=GS A0A1B8X4F2/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A075GZ78/38-79_147-394 AC A0A075GZ78 #=GS A0A075GZ78/38-79_147-394 OS uncultured marine group II/III euryarchaeote KM3_27_E07 #=GS A0A075GZ78/38-79_147-394 DE V-type ATP synthase alpha chain #=GS A0A075GZ78/38-79_147-394 DR GENE3D; 6547a4a6d2638b83b2d7e09c230641f5/38-79_147-394; #=GS A0A075GZ78/38-79_147-394 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote KM3_27_E07; #=GS A0A075GZ78/38-79_147-394 DR EC; 3.6.3.14; #=GS X5DJF5/78-114_188-436 AC X5DJF5 #=GS X5DJF5/78-114_188-436 OS Draconibacterium orientale #=GS X5DJF5/78-114_188-436 DE V-type ATP synthase alpha chain #=GS X5DJF5/78-114_188-436 DR GENE3D; 63aaeed99e5bd32bb7eaa78519d52bf4/78-114_188-436; #=GS X5DJF5/78-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Marinilabiliales; Prolixibacteraceae; Draconibacterium; Draconibacterium orientale; #=GS X5DJF5/78-114_188-436 DR EC; 3.6.3.14; #=GS M2SIP2/77-118_192-438 AC M2SIP2 #=GS M2SIP2/77-118_192-438 OS Treponema denticola US-Trep #=GS M2SIP2/77-118_192-438 DE V-type ATP synthase alpha chain #=GS M2SIP2/77-118_192-438 DR GENE3D; 658149588eddf39d67a12802d633bdf0/77-118_192-438; #=GS M2SIP2/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema denticola; #=GS M2SIP2/77-118_192-438 DR EC; 3.6.3.14; #=GS A0A101G5P3/78-119_193-438 AC A0A101G5P3 #=GS A0A101G5P3/78-119_193-438 OS Marinimicrobia bacterium 46_47 #=GS A0A101G5P3/78-119_193-438 DE V-type ATP synthase alpha chain #=GS A0A101G5P3/78-119_193-438 DR GENE3D; 665d2079691b635992a8daaeec037fa3/78-119_193-438; #=GS A0A101G5P3/78-119_193-438 DR ORG; Bacteria; Candidatus Marinimicrobia; Marinimicrobia bacterium 46_47; #=GS A0A101G5P3/78-119_193-438 DR EC; 3.6.3.14; #=GS A0A0E9D3G7/83-122_196-443 AC A0A0E9D3G7 #=GS A0A0E9D3G7/83-122_196-443 OS Chlamydia trachomatis #=GS A0A0E9D3G7/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A0E9D3G7/83-122_196-443 DR GENE3D; 666659dc53f6168f6a4ccb285ba238ff/83-122_196-443; #=GS A0A0E9D3G7/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS A0A0E9D3G7/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A1F9YZJ0/75-116_183-430 AC A0A1F9YZJ0 #=GS A0A1F9YZJ0/75-116_183-430 OS Euryarchaeota archaeon RBG_13_57_23 #=GS A0A1F9YZJ0/75-116_183-430 DE V-type ATP synthase alpha chain #=GS A0A1F9YZJ0/75-116_183-430 DR GENE3D; 67559096ad3c2c6bb87e845cf75422df/75-116_183-430; #=GS A0A1F9YZJ0/75-116_183-430 DR ORG; Archaea; Euryarchaeota; Euryarchaeota archaeon RBG_13_57_23; #=GS A0A1F9YZJ0/75-116_183-430 DR EC; 3.6.3.14; #=GS A0A017PL80/83-122_196-443 AC A0A017PL80 #=GS A0A017PL80/83-122_196-443 OS Bacteroides fragilis str. S6L5 #=GS A0A017PL80/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A017PL80/83-122_196-443 DR GENE3D; 698fd1aac0e846c697f954458119e2a1/83-122_196-443; #=GS A0A017PL80/83-122_196-443 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides fragilis; #=GS A0A017PL80/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A173DXY0/83-122_196-443 AC A0A173DXY0 #=GS A0A173DXY0/83-122_196-443 OS Chlamydia gallinacea 08-1274/3 #=GS A0A173DXY0/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A173DXY0/83-122_196-443 DR GENE3D; 698fd1aac0e846c697f954458119e2a1/83-122_196-443; #=GS A0A173DXY0/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia gallinacea; #=GS A0A173DXY0/83-122_196-443 DR EC; 3.6.3.14; #=GS K4MFL2/64-105_173-420 AC K4MFL2 #=GS K4MFL2/64-105_173-420 OS Methanolobus psychrophilus R15 #=GS K4MFL2/64-105_173-420 DE V-type ATP synthase alpha chain #=GS K4MFL2/64-105_173-420 DR GENE3D; 6a33aa5212d7c26e879ddbde3e88cec9/64-105_173-420; #=GS K4MFL2/64-105_173-420 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanolobus; Methanolobus psychrophilus; #=GS K4MFL2/64-105_173-420 DR EC; 3.6.3.14; #=GS A0A0F7IGL3/76-117_185-432 AC A0A0F7IGL3 #=GS A0A0F7IGL3/76-117_185-432 OS Geoglobus ahangari #=GS A0A0F7IGL3/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A0F7IGL3/76-117_185-432 DR GENE3D; 64c349d30b211284cdabdf2f15901a46/76-117_185-432; #=GS A0A0F7IGL3/76-117_185-432 DR ORG; Archaea; Euryarchaeota; Archaeoglobi; Archaeoglobales; Archaeoglobaceae; Geoglobus; Geoglobus ahangari; #=GS A0A0F7IGL3/76-117_185-432 DR EC; 3.6.3.14; #=GS A0A075HB14/75-116_184-431 AC A0A075HB14 #=GS A0A075HB14/75-116_184-431 OS uncultured marine group II/III euryarchaeote KM3_60_A11 #=GS A0A075HB14/75-116_184-431 DE V-type ATP synthase alpha chain #=GS A0A075HB14/75-116_184-431 DR GENE3D; 6aa2c61098fb2ae6d73a5b71e6c313c6/75-116_184-431; #=GS A0A075HB14/75-116_184-431 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote KM3_60_A11; #=GS A0A075HB14/75-116_184-431 DR EC; 3.6.3.14; #=GS M0N8H1/81-122_191-438 AC M0N8H1 #=GS M0N8H1/81-122_191-438 OS Halococcus thailandensis JCM 13552 #=GS M0N8H1/81-122_191-438 DE V-type ATP synthase alpha chain #=GS M0N8H1/81-122_191-438 DR GENE3D; 6b848aa1b5599fd0bdbc98579c51aed0/81-122_191-438; #=GS M0N8H1/81-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halococcaceae; Halococcus; Halococcus thailandensis; #=GS M0N8H1/81-122_191-438 DR EC; 3.6.3.14; #=GS E7QNY4/82-123_192-439 AC E7QNY4 #=GS E7QNY4/82-123_192-439 OS Haladaptatus paucihalophilus DX253 #=GS E7QNY4/82-123_192-439 DE V-type ATP synthase alpha chain #=GS E7QNY4/82-123_192-439 DR GENE3D; 6c31e4e5f0982b338513abf22ceb688f/82-123_192-439; #=GS E7QNY4/82-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Haladaptatus; Haladaptatus paucihalophilus; #=GS E7QNY4/82-123_192-439 DR EC; 3.6.3.14; #=GS A0A165NCH8/81-123_192-439 AC A0A165NCH8 #=GS A0A165NCH8/81-123_192-439 OS Haloarcula sp. K1 #=GS A0A165NCH8/81-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A165NCH8/81-123_192-439 DR GENE3D; 6d663c0da356824a052eb7a4a8170ef4/81-123_192-439; #=GS A0A165NCH8/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula sp. K1; #=GS A0A165NCH8/81-123_192-439 DR EC; 3.6.3.14; #=GS E8UBE7/77-118_186-433 AC E8UBE7 #=GS E8UBE7/77-118_186-433 OS Deinococcus maricopensis DSM 21211 #=GS E8UBE7/77-118_186-433 DE V-type ATP synthase alpha chain #=GS E8UBE7/77-118_186-433 DR GENE3D; 6eb3e61355f37a16b50b2f4cb796b031/77-118_186-433; #=GS E8UBE7/77-118_186-433 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus maricopensis; #=GS E8UBE7/77-118_186-433 DR EC; 3.6.3.14; #=GS Q662R8/76-117_191-437 AC Q662R8 #=GS Q662R8/76-117_191-437 OS Borreliella bavariensis PBi #=GS Q662R8/76-117_191-437 DE V-type ATP synthase alpha chain #=GS Q662R8/76-117_191-437 DR GENE3D; 6af6177255afc1d29cc2d45ece402097/76-117_191-437; #=GS Q662R8/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borreliella; Borreliella bavariensis; #=GS Q662R8/76-117_191-437 DR EC; 3.6.3.14; #=GS U1NEY0/80-122_191-438 AC U1NEY0 #=GS U1NEY0/80-122_191-438 OS Haloquadratum walsbyi J07HQW2 #=GS U1NEY0/80-122_191-438 DE V-type ATP synthase alpha chain #=GS U1NEY0/80-122_191-438 DR GENE3D; 6fd69d504477a12f52321da7e10a324a/80-122_191-438; #=GS U1NEY0/80-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloquadratum; Haloquadratum walsbyi; #=GS U1NEY0/80-122_191-438 DR EC; 3.6.3.14; #=GS A0A0P6VJA7/73-114_182-429 AC A0A0P6VJA7 #=GS A0A0P6VJA7/73-114_182-429 OS Methanosarcina flavescens #=GS A0A0P6VJA7/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0P6VJA7/73-114_182-429 DR GENE3D; 70e5b4b00c1522d8f0e0d6d71812e6ec/73-114_182-429; #=GS A0A0P6VJA7/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina flavescens; #=GS A0A0P6VJA7/73-114_182-429 DR EC; 3.6.3.14; #=GS M0P8W6/64-106_179-411 AC M0P8W6 #=GS M0P8W6/64-106_179-411 OS Halorubrum aidingense JCM 13560 #=GS M0P8W6/64-106_179-411 DE V-type ATP synthase alpha chain #=GS M0P8W6/64-106_179-411 DR GENE3D; 72e07e88f804b42cbd171e12e06e9fd7/64-106_179-411; #=GS M0P8W6/64-106_179-411 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum aidingense; #=GS M0P8W6/64-106_179-411 DR EC; 3.6.3.14; #=GS L5NWL0/81-123_192-439 AC L5NWL0 #=GS L5NWL0/81-123_192-439 OS Haloferax sp. BAB2207 #=GS L5NWL0/81-123_192-439 DE V-type ATP synthase subunit A #=GS L5NWL0/81-123_192-439 DR GENE3D; 6cf5a5aaf441f1ecef7a670b4ca18709/81-123_192-439; #=GS L5NWL0/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax sp. BAB2207; #=GS L5NWL0/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A0U5LTW1/100-137_203-450 AC A0A0U5LTW1 #=GS A0A0U5LTW1/100-137_203-450 OS Streptomyces reticuli #=GS A0A0U5LTW1/100-137_203-450 DE V-type ATP synthase alpha chain #=GS A0A0U5LTW1/100-137_203-450 DR GENE3D; 6eecb7a64e1aba10fa65553b5cb5077b/100-137_203-450; #=GS A0A0U5LTW1/100-137_203-450 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces reticuli; #=GS A0A0U5LTW1/100-137_203-450 DR EC; 3.6.3.14; #=GS A0A1G9BGF8/79-120_188-435 AC A0A1G9BGF8 #=GS A0A1G9BGF8/79-120_188-435 OS Methanoculleus thermophilus #=GS A0A1G9BGF8/79-120_188-435 DE V-type ATP synthase alpha chain #=GS A0A1G9BGF8/79-120_188-435 DR GENE3D; 76c0ffc10c847d70ff15861a75139873/79-120_188-435; #=GS A0A1G9BGF8/79-120_188-435 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus thermophilus; #=GS A0A1G9BGF8/79-120_188-435 DR EC; 3.6.3.14; #=GS L0AI99/82-124_193-440 AC L0AI99 #=GS L0AI99/82-124_193-440 OS Natronobacterium gregoryi SP2 #=GS L0AI99/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L0AI99/82-124_193-440 DR GENE3D; 71534f5706a832e38e3b8be8563661ac/82-124_193-440; #=GS L0AI99/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natronobacterium; Natronobacterium gregoryi; #=GS L0AI99/82-124_193-440 DR EC; 3.6.3.14; #=GS D2RPR5/82-124_193-440 AC D2RPR5 #=GS D2RPR5/82-124_193-440 OS Haloterrigena turkmenica DSM 5511 #=GS D2RPR5/82-124_193-440 DE V-type ATP synthase alpha chain #=GS D2RPR5/82-124_193-440 DR GENE3D; 71c490594f34456db773f93fb75dd3e5/82-124_193-440; #=GS D2RPR5/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Haloterrigena; Haloterrigena turkmenica; #=GS D2RPR5/82-124_193-440 DR EC; 3.6.3.14; #=GS L9WGB0/82-124_193-440 AC L9WGB0 #=GS L9WGB0/82-124_193-440 OS Natronorubrum bangense JCM 10635 #=GS L9WGB0/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L9WGB0/82-124_193-440 DR GENE3D; 785df2c7673134adee9e379a950eac98/82-124_193-440; #=GS L9WGB0/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natronorubrum; Natronorubrum bangense; #=GS L9WGB0/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1J4VNP3/77-118_192-437 AC A0A1J4VNP3 #=GS A0A1J4VNP3/77-118_192-437 OS Candidatus Omnitrophica bacterium CG1_02_49_10 #=GS A0A1J4VNP3/77-118_192-437 DE V-type ATP synthase alpha chain #=GS A0A1J4VNP3/77-118_192-437 DR GENE3D; 7996fd65e99ec9590a343c89f284edba/77-118_192-437; #=GS A0A1J4VNP3/77-118_192-437 DR ORG; Bacteria; Candidatus Omnitrophica; Candidatus Omnitrophica bacterium CG1_02_49_10; #=GS A0A1J4VNP3/77-118_192-437 DR EC; 3.6.3.14; #=GS A0A0W8F3M8/73-114_181-430 AC A0A0W8F3M8 #=GS A0A0W8F3M8/73-114_181-430 OS hydrocarbon metagenome #=GS A0A0W8F3M8/73-114_181-430 DE V-type atp synthase subunit a #=GS A0A0W8F3M8/73-114_181-430 DR GENE3D; 7893c56594c56122fa9f01e3314f44d9/73-114_181-430; #=GS A0A0W8F3M8/73-114_181-430 DR ORG; hydrocarbon metagenome; #=GS A0A0W8F3M8/73-114_181-430 DR EC; 3.6.3.14; #=GS A0A117LR32/74-117_188-436 AC A0A117LR32 #=GS A0A117LR32/74-117_188-436 OS Synergistales bacterium 57_84 #=GS A0A117LR32/74-117_188-436 DE V-type ATP synthase alpha chain #=GS A0A117LR32/74-117_188-436 DR GENE3D; 78ac2fc06d299f3f40445939f18e9b30/74-117_188-436; #=GS A0A117LR32/74-117_188-436 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistales bacterium 57_84; #=GS A0A117LR32/74-117_188-436 DR EC; 3.6.3.14; #=GS A0A101I584/74-117_188-436 AC A0A101I584 #=GS A0A101I584/74-117_188-436 OS Synergistales bacterium 58_81 #=GS A0A101I584/74-117_188-436 DE V-type ATP synthase alpha chain #=GS A0A101I584/74-117_188-436 DR GENE3D; 78ac2fc06d299f3f40445939f18e9b30/74-117_188-436; #=GS A0A101I584/74-117_188-436 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistales bacterium 58_81; #=GS A0A101I584/74-117_188-436 DR EC; 3.6.3.14; #=GS A3CS71/79-120_188-435 AC A3CS71 #=GS A3CS71/79-120_188-435 OS Methanoculleus marisnigri JR1 #=GS A3CS71/79-120_188-435 DE V-type ATP synthase alpha chain #=GS A3CS71/79-120_188-435 DR GENE3D; 73b9bbcd2b3aa40aa0c668ce7bfeb897/79-120_188-435; #=GS A3CS71/79-120_188-435 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus marisnigri; #=GS A3CS71/79-120_188-435 DR EC; 3.6.3.14; #=GS Q72J72/73-114_182-429 AC Q72J72 #=GS Q72J72/73-114_182-429 OS Thermus thermophilus HB27 #=GS Q72J72/73-114_182-429 DE V-type ATP synthase alpha chain #=GS Q72J72/73-114_182-429 DR GENE3D; 75dd11f7c784f4b9b759041dafef99b4/73-114_182-429; #=GS Q72J72/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS Q72J72/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0Q1ACX3/75-115_183-430 AC A0A0Q1ACX3 #=GS A0A0Q1ACX3/75-115_183-430 OS Methanosaeta sp. SDB #=GS A0A0Q1ACX3/75-115_183-430 DE V-type ATP synthase alpha chain #=GS A0A0Q1ACX3/75-115_183-430 DR GENE3D; 769d2f6ca6801e47d34fc85abb5ce988/75-115_183-430; #=GS A0A0Q1ACX3/75-115_183-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosaetaceae; Methanosaeta; Methanosaeta sp. SDB; #=GS A0A0Q1ACX3/75-115_183-430 DR EC; 3.6.3.14; #=GS A0A101FV90/75-115_183-430 AC A0A101FV90 #=GS A0A101FV90/75-115_183-430 OS Methanosaeta harundinacea #=GS A0A101FV90/75-115_183-430 DE V-type ATP synthase alpha chain #=GS A0A101FV90/75-115_183-430 DR GENE3D; 769d2f6ca6801e47d34fc85abb5ce988/75-115_183-430; #=GS A0A101FV90/75-115_183-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosaetaceae; Methanosaeta; Methanosaeta harundinacea; #=GS A0A101FV90/75-115_183-430 DR EC; 3.6.3.14; #=GS S3KU71/77-118_192-438 AC S3KU71 #=GS S3KU71/77-118_192-438 OS Treponema denticola SP23 #=GS S3KU71/77-118_192-438 DE V-type ATP synthase alpha chain #=GS S3KU71/77-118_192-438 DR GENE3D; 7bb48029a6a690f470428f5a8aae3446/77-118_192-438; #=GS S3KU71/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema denticola; #=GS S3KU71/77-118_192-438 DR EC; 3.6.3.14; #=GS C7P2T0/81-123_192-439 AC C7P2T0 #=GS C7P2T0/81-123_192-439 OS Halomicrobium mukohataei DSM 12286 #=GS C7P2T0/81-123_192-439 DE V-type ATP synthase alpha chain #=GS C7P2T0/81-123_192-439 DR GENE3D; 7cd40dec491b3ca3228da34695caaa58/81-123_192-439; #=GS C7P2T0/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Halomicrobium; Halomicrobium mukohataei; #=GS C7P2T0/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A1F6LA71/76-117_191-436 AC A0A1F6LA71 #=GS A0A1F6LA71/76-117_191-436 OS Candidatus Lindowbacteria bacterium RIFCSPLOWO2_12_FULL_62_27 #=GS A0A1F6LA71/76-117_191-436 DE V-type ATP synthase alpha chain #=GS A0A1F6LA71/76-117_191-436 DR GENE3D; 7d9bc6095a0db9840456526b25ceffa2/76-117_191-436; #=GS A0A1F6LA71/76-117_191-436 DR ORG; Bacteria; Candidatus Lindowbacteria; Candidatus Lindowbacteria bacterium RIFCSPLOWO2_12_FULL_62_27; #=GS A0A1F6LA71/76-117_191-436 DR EC; 3.6.3.14; #=GS A0A0F8SQH8/73-114_182-429 AC A0A0F8SQH8 #=GS A0A0F8SQH8/73-114_182-429 OS Methanosarcina sp. 1.H.T.1A.1 #=GS A0A0F8SQH8/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0F8SQH8/73-114_182-429 DR GENE3D; 79165c338daa88ac37631f26b84df174/73-114_182-429; #=GS A0A0F8SQH8/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. 1.H.T.1A.1; #=GS A0A0F8SQH8/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0D6JU72/81-123_192-439 AC A0A0D6JU72 #=GS A0A0D6JU72/81-123_192-439 OS Haloferax massiliensis #=GS A0A0D6JU72/81-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A0D6JU72/81-123_192-439 DR GENE3D; 80cde21cd20a38009ed035607774167b/81-123_192-439; #=GS A0A0D6JU72/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax massiliensis; #=GS A0A0D6JU72/81-123_192-439 DR EC; 3.6.3.14; #=GS J3JFX4/82-124_193-440 AC J3JFX4 #=GS J3JFX4/82-124_193-440 OS Halogranum salarium B-1 #=GS J3JFX4/82-124_193-440 DE V-type ATP synthase alpha chain #=GS J3JFX4/82-124_193-440 DR GENE3D; 7ed16a652e4738f85f58f6d6e93ea282/82-124_193-440; #=GS J3JFX4/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Halogranum; Halogranum salarium; #=GS J3JFX4/82-124_193-440 DR EC; 3.6.3.14; #=GS M0LI62/84-126_195-442 AC M0LI62 #=GS M0LI62/84-126_195-442 OS Halobiforma nitratireducens JCM 10879 #=GS M0LI62/84-126_195-442 DE V-type ATP synthase alpha chain #=GS M0LI62/84-126_195-442 DR GENE3D; 7fd047ac2f899484ac43fca25d3fe830/84-126_195-442; #=GS M0LI62/84-126_195-442 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Halobiforma; Halobiforma nitratireducens; #=GS M0LI62/84-126_195-442 DR EC; 3.6.3.14; #=GS U2KK32/73-114_184-431 AC U2KK32 #=GS U2KK32/73-114_184-431 OS Treponema lecithinolyticum ATCC 700332 #=GS U2KK32/73-114_184-431 DE V-type ATP synthase alpha chain #=GS U2KK32/73-114_184-431 DR GENE3D; 8033f44d920938af51e80b22369657ad/73-114_184-431; #=GS U2KK32/73-114_184-431 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema lecithinolyticum; #=GS U2KK32/73-114_184-431 DR EC; 3.6.3.14; #=GS A0A1G3MDS0/77-118_192-440 AC A0A1G3MDS0 #=GS A0A1G3MDS0/77-118_192-440 OS Spirochaetes bacterium GWB1_59_5 #=GS A0A1G3MDS0/77-118_192-440 DE V-type ATP synthase alpha chain #=GS A0A1G3MDS0/77-118_192-440 DR GENE3D; 833f309fef1b9e462957c405b5439197/77-118_192-440; #=GS A0A1G3MDS0/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium GWB1_59_5; #=GS A0A1G3MDS0/77-118_192-440 DR EC; 3.6.3.14; #=GS A0A081BTD9/76-117_189-436 AC A0A081BTD9 #=GS A0A081BTD9/76-117_189-436 OS Candidatus Moduliflexus flocculans #=GS A0A081BTD9/76-117_189-436 DE V-type ATP synthase alpha chain #=GS A0A081BTD9/76-117_189-436 DR GENE3D; 81194ccabc46ef72df6735bc6b00c78b/76-117_189-436; #=GS A0A081BTD9/76-117_189-436 DR ORG; Bacteria; Candidatus Moduliflexus; Candidatus Moduliflexus flocculans; #=GS A0A081BTD9/76-117_189-436 DR EC; 3.6.3.14; #=GS B4UH39/72-113_181-427 AC B4UH39 #=GS B4UH39/72-113_181-427 OS Anaeromyxobacter sp. K #=GS B4UH39/72-113_181-427 DE V-type ATP synthase alpha chain #=GS B4UH39/72-113_181-427 DR GENE3D; 816e19336d8cd46a8f38c9cc70feb9d1/72-113_181-427; #=GS B4UH39/72-113_181-427 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Cystobacterineae; Anaeromyxobacteraceae; Anaeromyxobacter; Anaeromyxobacter sp. K; #=GS B4UH39/72-113_181-427 DR EC; 3.6.3.14; #=GS M4YJ33/50-91_158-404 AC M4YJ33 #=GS M4YJ33/50-91_158-404 OS Thermoplasmatales archaeon BRNA1 #=GS M4YJ33/50-91_158-404 DE V-type ATP synthase alpha chain #=GS M4YJ33/50-91_158-404 DR GENE3D; 88b36643a68530cc74a28ec36357c76e/50-91_158-404; #=GS M4YJ33/50-91_158-404 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon BRNA1; #=GS M4YJ33/50-91_158-404 DR EC; 3.6.3.14; #=GS A0A1G3QUY4/77-118_192-438 AC A0A1G3QUY4 #=GS A0A1G3QUY4/77-118_192-438 OS Spirochaetes bacterium RBG_16_67_19 #=GS A0A1G3QUY4/77-118_192-438 DE V-type ATP synthase alpha chain #=GS A0A1G3QUY4/77-118_192-438 DR GENE3D; 8a6ccf7cdeec02778d3ad9c7521307a9/77-118_192-438; #=GS A0A1G3QUY4/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium RBG_16_67_19; #=GS A0A1G3QUY4/77-118_192-438 DR EC; 3.6.3.14; #=GS A0A0E3LKP2/50-91_159-406 AC A0A0E3LKP2 #=GS A0A0E3LKP2/50-91_159-406 OS Methanosarcina barkeri str. Wiesmoor #=GS A0A0E3LKP2/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3LKP2/50-91_159-406 DR GENE3D; 8ae13cbceff0baf77f63dfc21b78ae04/50-91_159-406; #=GS A0A0E3LKP2/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3LKP2/50-91_159-406 DR EC; 3.6.3.14; #=GS M0DR71/82-124_197-444 AC M0DR71 #=GS M0DR71/82-124_197-444 OS Halorubrum tebenquichense DSM 14210 #=GS M0DR71/82-124_197-444 DE V-type ATP synthase alpha chain #=GS M0DR71/82-124_197-444 DR GENE3D; 8b14d2eada1d04ed195d874e402be659/82-124_197-444; #=GS M0DR71/82-124_197-444 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum tebenquichense; #=GS M0DR71/82-124_197-444 DR EC; 3.6.3.14; #=GS H7GGU7/73-114_182-429 AC H7GGU7 #=GS H7GGU7/73-114_182-429 OS Thermus parvatiensis #=GS H7GGU7/73-114_182-429 DE V-type ATP synthase alpha chain #=GS H7GGU7/73-114_182-429 DR GENE3D; 8b27c5e89bad0e30f4166386fe007d21/73-114_182-429; #=GS H7GGU7/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus parvatiensis; #=GS H7GGU7/73-114_182-429 DR EC; 3.6.3.14; #=GS Q3KM54/83-122_196-443 AC Q3KM54 #=GS Q3KM54/83-122_196-443 OS Chlamydia trachomatis A/HAR-13 #=GS Q3KM54/83-122_196-443 DE V-type ATP synthase alpha chain #=GS Q3KM54/83-122_196-443 DR GENE3D; 8613744750fdb30a750018fa28c3fce0/83-122_196-443; #=GS Q3KM54/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS Q3KM54/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A0E9CG31/83-122_196-443 AC A0A0E9CG31 #=GS A0A0E9CG31/83-122_196-443 OS Chlamydia trachomatis #=GS A0A0E9CG31/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A0E9CG31/83-122_196-443 DR GENE3D; 8613744750fdb30a750018fa28c3fce0/83-122_196-443; #=GS A0A0E9CG31/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS A0A0E9CG31/83-122_196-443 DR EC; 3.6.3.14; #=GS G4NMF3/83-122_196-443 AC G4NMF3 #=GS G4NMF3/83-122_196-443 OS Chlamydia trachomatis A2497 #=GS G4NMF3/83-122_196-443 DE V-type ATP synthase alpha chain #=GS G4NMF3/83-122_196-443 DR GENE3D; 8613744750fdb30a750018fa28c3fce0/83-122_196-443; #=GS G4NMF3/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS G4NMF3/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A1H8QJR0/82-124_193-439 AC A0A1H8QJR0 #=GS A0A1H8QJR0/82-124_193-439 OS Halogranum amylolyticum #=GS A0A1H8QJR0/82-124_193-439 DE V-type ATP synthase alpha chain #=GS A0A1H8QJR0/82-124_193-439 DR GENE3D; 8e7fe736e04a898a333835dace4365b0/82-124_193-439; #=GS A0A1H8QJR0/82-124_193-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Halogranum; Halogranum amylolyticum; #=GS A0A1H8QJR0/82-124_193-439 DR EC; 3.6.3.14; #=GS D3S1G4/72-113_181-428 AC D3S1G4 #=GS D3S1G4/72-113_181-428 OS Ferroglobus placidus DSM 10642 #=GS D3S1G4/72-113_181-428 DE V-type ATP synthase alpha chain #=GS D3S1G4/72-113_181-428 DR GENE3D; 8f4ae79be3f91b47c1d8cb294956234e/72-113_181-428; #=GS D3S1G4/72-113_181-428 DR ORG; Archaea; Euryarchaeota; Archaeoglobi; Archaeoglobales; Archaeoglobaceae; Ferroglobus; Ferroglobus placidus; #=GS D3S1G4/72-113_181-428 DR EC; 3.6.3.14; #=GS A0A075GRK5/73-114_182-429 AC A0A075GRK5 #=GS A0A075GRK5/73-114_182-429 OS uncultured marine group II/III euryarchaeote KM3_177_A07 #=GS A0A075GRK5/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A075GRK5/73-114_182-429 DR GENE3D; 8e5fc56854f75baea7614c7578f582c4/73-114_182-429; #=GS A0A075GRK5/73-114_182-429 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote KM3_177_A07; #=GS A0A075GRK5/73-114_182-429 DR EC; 3.6.3.14; #=GS M0K923/81-123_192-439 AC M0K923 #=GS M0K923/81-123_192-439 OS Haloarcula californiae ATCC 33799 #=GS M0K923/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0K923/81-123_192-439 DR GENE3D; 876a0a1bda9c129da5b213ca634de369/81-123_192-439; #=GS M0K923/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula californiae; #=GS M0K923/81-123_192-439 DR EC; 3.6.3.14; #=GS M0JUS6/81-123_192-439 AC M0JUS6 #=GS M0JUS6/81-123_192-439 OS Haloarcula sinaiiensis ATCC 33800 #=GS M0JUS6/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0JUS6/81-123_192-439 DR GENE3D; 876a0a1bda9c129da5b213ca634de369/81-123_192-439; #=GS M0JUS6/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula sinaiiensis; #=GS M0JUS6/81-123_192-439 DR EC; 3.6.3.14; #=GS M0KMQ1/81-123_192-439 AC M0KMQ1 #=GS M0KMQ1/81-123_192-439 OS Haloarcula argentinensis DSM 12282 #=GS M0KMQ1/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0KMQ1/81-123_192-439 DR GENE3D; 876a0a1bda9c129da5b213ca634de369/81-123_192-439; #=GS M0KMQ1/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula argentinensis; #=GS M0KMQ1/81-123_192-439 DR EC; 3.6.3.14; #=GS W5SHN0/76-117_191-436 AC W5SHN0 #=GS W5SHN0/76-117_191-436 OS Borrelia crocidurae DOU #=GS W5SHN0/76-117_191-436 DE V-type ATP synthase alpha chain #=GS W5SHN0/76-117_191-436 DR GENE3D; 8f8c3c10a41a6eccee73abdaffc21a26/76-117_191-436; #=GS W5SHN0/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia crocidurae; #=GS W5SHN0/76-117_191-436 DR EC; 3.6.3.14; #=GS C8PMZ2/77-118_192-440 AC C8PMZ2 #=GS C8PMZ2/77-118_192-440 OS Treponema vincentii ATCC 35580 #=GS C8PMZ2/77-118_192-440 DE V-type ATP synthase alpha chain #=GS C8PMZ2/77-118_192-440 DR GENE3D; 88ec4c4869b15af9a3f273a4f1ce2570/77-118_192-440; #=GS C8PMZ2/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema vincentii; #=GS C8PMZ2/77-118_192-440 DR EC; 3.6.3.14; #=GS H7EMM1/78-118_192-440 AC H7EMM1 #=GS H7EMM1/78-118_192-440 OS Treponema saccharophilum DSM 2985 #=GS H7EMM1/78-118_192-440 DE V-type ATP synthase alpha chain #=GS H7EMM1/78-118_192-440 DR GENE3D; 8f74f7f5be39982a81606a6a4c7f826b/78-118_192-440; #=GS H7EMM1/78-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema saccharophilum; #=GS H7EMM1/78-118_192-440 DR EC; 3.6.3.14; #=GS B7J127/76-117_191-437 AC B7J127 #=GS B7J127/76-117_191-437 OS Borrelia burgdorferi ZS7 #=GS B7J127/76-117_191-437 DE V-type ATP synthase alpha chain #=GS B7J127/76-117_191-437 DR GENE3D; 8a10a2b1ce7efe8e101702cc492d6d5d/76-117_191-437; #=GS B7J127/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borreliella; Borreliella burgdorferi; #=GS B7J127/76-117_191-437 DR EC; 3.6.3.14; #=GS A0A0T5XCS3/47-86_156-405 AC A0A0T5XCS3 #=GS A0A0T5XCS3/47-86_156-405 OS Acetomicrobium hydrogeniformans ATCC BAA-1850 #=GS A0A0T5XCS3/47-86_156-405 DE V-type ATP synthase alpha chain #=GS A0A0T5XCS3/47-86_156-405 DR GENE3D; 92a7e547a1115587f13848be3ca95706/47-86_156-405; #=GS A0A0T5XCS3/47-86_156-405 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistaceae; Acetomicrobium; Acetomicrobium hydrogeniformans; #=GS A0A0T5XCS3/47-86_156-405 DR EC; 3.6.3.14; #=GS R7PXI7/73-114_181-428 AC R7PXI7 #=GS R7PXI7/73-114_181-428 OS Methanoculleus sp. CAG:1088 #=GS R7PXI7/73-114_181-428 DE V-type ATP synthase alpha chain #=GS R7PXI7/73-114_181-428 DR GENE3D; 94411a6c4cd628ce017ea71630206035/73-114_181-428; #=GS R7PXI7/73-114_181-428 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus sp. CAG:1088; #=GS R7PXI7/73-114_181-428 DR EC; 3.6.3.14; #=GS M9SET6/73-114_181-428 AC M9SET6 #=GS M9SET6/73-114_181-428 OS Candidatus Methanomethylophilus alvus Mx1201 #=GS M9SET6/73-114_181-428 DE V-type ATP synthase alpha chain #=GS M9SET6/73-114_181-428 DR GENE3D; 94411a6c4cd628ce017ea71630206035/73-114_181-428; #=GS M9SET6/73-114_181-428 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Methanomassiliicoccales; Methanomassiliicoccaceae; Candidatus Methanomethylophilus; Candidatus Methanomethylophilus alvus; #=GS M9SET6/73-114_181-428 DR EC; 3.6.3.14; #=GS F8E6W3/73-112_178-426 AC F8E6W3 #=GS F8E6W3/73-112_178-426 OS Flexistipes sinusarabici DSM 4947 #=GS F8E6W3/73-112_178-426 DE Sodium-transporting two-sector ATPase #=GS F8E6W3/73-112_178-426 DR GENE3D; 94436f4946fccfba55defa479f3c1c33/73-112_178-426; #=GS F8E6W3/73-112_178-426 DR ORG; Bacteria; Deferribacteres; Deferribacteres; Deferribacterales; Deferribacteraceae; Flexistipes; Flexistipes sinusarabici; #=GS F8E6W3/73-112_178-426 DR EC; 3.6.3.15; #=GS A0A1G0AF54/75-116_184-431 AC A0A1G0AF54 #=GS A0A1G0AF54/75-116_184-431 OS Euryarchaeota archaeon RBG_19FT_COMBO_69_17 #=GS A0A1G0AF54/75-116_184-431 DE V-type ATP synthase alpha chain #=GS A0A1G0AF54/75-116_184-431 DR GENE3D; 8d4f5a2b52f0b3d0191c6eb958855706/75-116_184-431; #=GS A0A1G0AF54/75-116_184-431 DR ORG; Archaea; Euryarchaeota; Euryarchaeota archaeon RBG_19FT_COMBO_69_17; #=GS A0A1G0AF54/75-116_184-431 DR EC; 3.6.3.14; #=GS A0A0Q1FC39/77-118_186-433 AC A0A0Q1FC39 #=GS A0A0Q1FC39/77-118_186-433 OS Methanoculleus sp. SDB #=GS A0A0Q1FC39/77-118_186-433 DE V-type ATP synthase alpha chain #=GS A0A0Q1FC39/77-118_186-433 DR GENE3D; 95ecc8aaa32a6d869498c5f7ff1610e3/77-118_186-433; #=GS A0A0Q1FC39/77-118_186-433 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus sp. SDB; #=GS A0A0Q1FC39/77-118_186-433 DR EC; 3.6.3.14; #=GS F4LQ42/73-114_184-431 AC F4LQ42 #=GS F4LQ42/73-114_184-431 OS Treponema brennaborense DSM 12168 #=GS F4LQ42/73-114_184-431 DE V-type ATP synthase alpha chain #=GS F4LQ42/73-114_184-431 DR GENE3D; 945c181f4052a93c50ed005b13eb9f42/73-114_184-431; #=GS F4LQ42/73-114_184-431 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema brennaborense; #=GS F4LQ42/73-114_184-431 DR EC; 3.6.3.14; #=GS E8PNV7/73-114_182-429 AC E8PNV7 #=GS E8PNV7/73-114_182-429 OS Thermus scotoductus SA-01 #=GS E8PNV7/73-114_182-429 DE V-type ATP synthase alpha chain #=GS E8PNV7/73-114_182-429 DR GENE3D; 8e843505f627f191bcd6ea59bc43eb60/73-114_182-429; #=GS E8PNV7/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus scotoductus; #=GS E8PNV7/73-114_182-429 DR EC; 3.6.3.14; #=GS A1QYP3/76-117_191-437 AC A1QYP3 #=GS A1QYP3/76-117_191-437 OS Borrelia turicatae 91E135 #=GS A1QYP3/76-117_191-437 DE V-type ATP synthase alpha chain #=GS A1QYP3/76-117_191-437 DR GENE3D; 901514f8272df5a625f0506b71abb590/76-117_191-437; #=GS A1QYP3/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia turicatae; #=GS A1QYP3/76-117_191-437 DR EC; 3.6.3.14; #=GS A0A063ZM91/82-124_193-440 AC A0A063ZM91 #=GS A0A063ZM91/82-124_193-440 OS Halostagnicola sp. A56 #=GS A0A063ZM91/82-124_193-440 DE V-type ATP synthase alpha chain #=GS A0A063ZM91/82-124_193-440 DR GENE3D; 991e50b7b85d2fe12d1b992bc423ab8a/82-124_193-440; #=GS A0A063ZM91/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Halostagnicola; Halostagnicola sp. A56; #=GS A0A063ZM91/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1J5TI13/73-114_182-429 AC A0A1J5TI13 #=GS A0A1J5TI13/73-114_182-429 OS Marine Group III euryarchaeote CG-Epi1 #=GS A0A1J5TI13/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A1J5TI13/73-114_182-429 DR GENE3D; 90d8030397aa2b4e40f8d76855d68a35/73-114_182-429; #=GS A0A1J5TI13/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Marine Group III euryarchaeote CG-Epi1; #=GS A0A1J5TI13/73-114_182-429 DR EC; 3.6.3.14; #=GS M0CC24/82-124_193-440 AC M0CC24 #=GS M0CC24/82-124_193-440 OS Haloterrigena salina JCM 13891 #=GS M0CC24/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0CC24/82-124_193-440 DR GENE3D; 982c8bbc7d34cef273e9d471de89eda8/82-124_193-440; #=GS M0CC24/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Haloterrigena; Haloterrigena salina; #=GS M0CC24/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1F5RHU7/82-121_195-443 AC A0A1F5RHU7 #=GS A0A1F5RHU7/82-121_195-443 OS Candidatus Edwardsbacteria bacterium GWF2_54_11 #=GS A0A1F5RHU7/82-121_195-443 DE V-type ATP synthase alpha chain #=GS A0A1F5RHU7/82-121_195-443 DR GENE3D; 9a07357e24fe344ef9238d4f8179f269/82-121_195-443; #=GS A0A1F5RHU7/82-121_195-443 DR ORG; Bacteria; Candidatus Edwardsbacteria; Candidatus Edwardsbacteria bacterium GWF2_54_11; #=GS A0A1F5RHU7/82-121_195-443 DR EC; 3.6.3.14; #=GS S3KBH8/77-118_192-440 AC S3KBH8 #=GS S3KBH8/77-118_192-440 OS Treponema medium ATCC 700293 #=GS S3KBH8/77-118_192-440 DE V-type ATP synthase alpha chain #=GS S3KBH8/77-118_192-440 DR GENE3D; 9c2cd7f24950b8f978f9a95eb1e64767/77-118_192-440; #=GS S3KBH8/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema medium; #=GS S3KBH8/77-118_192-440 DR EC; 3.6.3.14; #=GS A0A0E3PSV6/73-114_183-430 AC A0A0E3PSV6 #=GS A0A0E3PSV6/73-114_183-430 OS Methanosarcina siciliae C2J #=GS A0A0E3PSV6/73-114_183-430 DE V-type ATP synthase alpha chain #=GS A0A0E3PSV6/73-114_183-430 DR GENE3D; 9400b3ff8fb094200925add4b50d2d13/73-114_183-430; #=GS A0A0E3PSV6/73-114_183-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina siciliae; #=GS A0A0E3PSV6/73-114_183-430 DR EC; 3.6.3.14; #=GS W5SDY6/76-117_191-436 AC W5SDY6 #=GS W5SDY6/76-117_191-436 OS Borrelia miyamotoi FR64b #=GS W5SDY6/76-117_191-436 DE V-type ATP synthase alpha chain #=GS W5SDY6/76-117_191-436 DR GENE3D; 9bf0532a15824832a98102a8d572bdc8/76-117_191-436; #=GS W5SDY6/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia miyamotoi; #=GS W5SDY6/76-117_191-436 DR EC; 3.6.3.14; #=GS A0A1F6GFK0/77-117_191-437 AC A0A1F6GFK0 #=GS A0A1F6GFK0/77-117_191-437 OS Candidatus Lambdaproteobacteria bacterium RIFOXYD2_FULL_50_16 #=GS A0A1F6GFK0/77-117_191-437 DE V-type ATP synthase alpha chain #=GS A0A1F6GFK0/77-117_191-437 DR GENE3D; 9dd12721b3bdf9efff0666599140f62a/77-117_191-437; #=GS A0A1F6GFK0/77-117_191-437 DR ORG; Bacteria; Proteobacteria; Candidatus Lambdaproteobacteria; Candidatus Lambdaproteobacteria bacterium RIFOXYD2_FULL_50_16; #=GS A0A1F6GFK0/77-117_191-437 DR EC; 3.6.3.14; #=GS A0A1J4M106/82-124_193-440 AC A0A1J4M106 #=GS A0A1J4M106/82-124_193-440 OS Natrialba sp. SSL1 #=GS A0A1J4M106/82-124_193-440 DE V-type ATP synthase alpha chain #=GS A0A1J4M106/82-124_193-440 DR GENE3D; 9e7bb13da392e86efc3d637213f9ea19/82-124_193-440; #=GS A0A1J4M106/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrialba; Natrialba sp. SSL1; #=GS A0A1J4M106/82-124_193-440 DR EC; 3.6.3.14; #=GS M0B3M1/82-124_193-440 AC M0B3M1 #=GS M0B3M1/82-124_193-440 OS Natrialba aegyptia DSM 13077 #=GS M0B3M1/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0B3M1/82-124_193-440 DR GENE3D; 9bf928653ae10ee6735b4b327c511cf1/82-124_193-440; #=GS M0B3M1/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrialba; Natrialba aegyptia; #=GS M0B3M1/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A075WCE2/78-119_188-435 AC A0A075WCE2 #=GS A0A075WCE2/78-119_188-435 OS Archaeoglobus fulgidus DSM 8774 #=GS A0A075WCE2/78-119_188-435 DE V-type ATP synthase alpha chain #=GS A0A075WCE2/78-119_188-435 DR GENE3D; 96363a85ddcb060301ebccdd6ff28b15/78-119_188-435; #=GS A0A075WCE2/78-119_188-435 DR ORG; Archaea; Euryarchaeota; Archaeoglobi; Archaeoglobales; Archaeoglobaceae; Archaeoglobus; Archaeoglobus fulgidus; #=GS A0A075WCE2/78-119_188-435 DR EC; 3.6.3.14; #=GS A0A0W1RAK1/81-123_192-439 AC A0A0W1RAK1 #=GS A0A0W1RAK1/81-123_192-439 OS Haloprofundus marisrubri #=GS A0A0W1RAK1/81-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A0W1RAK1/81-123_192-439 DR GENE3D; 9de8d38fd40fd097e4ba33e29d55f749/81-123_192-439; #=GS A0A0W1RAK1/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloprofundus; Haloprofundus marisrubri; #=GS A0A0W1RAK1/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A0R3JSD6/74-115_186-433 AC A0A0R3JSD6 #=GS A0A0R3JSD6/74-115_186-433 OS Caloramator mitchellensis #=GS A0A0R3JSD6/74-115_186-433 DE V-type ATP synthase alpha chain #=GS A0A0R3JSD6/74-115_186-433 DR GENE3D; 9e14ea6a356090912be7d3ee11c21656/74-115_186-433; #=GS A0A0R3JSD6/74-115_186-433 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Caloramator; Caloramator mitchellensis; #=GS A0A0R3JSD6/74-115_186-433 DR EC; 3.6.3.14; #=GS A0A0B8NNJ9/78-111_179-425 AC A0A0B8NNJ9 #=GS A0A0B8NNJ9/78-111_179-425 OS Nocardia seriolae #=GS A0A0B8NNJ9/78-111_179-425 DE ATPase #=GS A0A0B8NNJ9/78-111_179-425 DR GENE3D; 9692fafe7ace3e364bb5c59c06a58100/78-111_179-425; #=GS A0A0B8NNJ9/78-111_179-425 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Nocardia; Nocardia seriolae; #=GS A0A0B8NNJ9/78-111_179-425 DR EC; 3.6.3.14; #=GS A0A1F8JKM7/80-120_194-441 AC A0A1F8JKM7 #=GS A0A1F8JKM7/80-120_194-441 OS Chlamydiae bacterium RIFCSPHIGHO2_12_FULL_49_32 #=GS A0A1F8JKM7/80-120_194-441 DE V-type ATP synthase alpha chain #=GS A0A1F8JKM7/80-120_194-441 DR GENE3D; a0bcafdb67d6e35637d093a1df419f00/80-120_194-441; #=GS A0A1F8JKM7/80-120_194-441 DR ORG; Bacteria; Chlamydiae; Chlamydiae bacterium RIFCSPHIGHO2_12_FULL_49_32; #=GS A0A1F8JKM7/80-120_194-441 DR EC; 3.6.3.14; #=GS A0A0W8EW28/81-122_190-437 AC A0A0W8EW28 #=GS A0A0W8EW28/81-122_190-437 OS hydrocarbon metagenome #=GS A0A0W8EW28/81-122_190-437 DE V-type atp synthase subunit a #=GS A0A0W8EW28/81-122_190-437 DR GENE3D; 9fa0bb5fb55973d6fe0c3cd4462ed9f1/81-122_190-437; #=GS A0A0W8EW28/81-122_190-437 DR ORG; hydrocarbon metagenome; #=GS A0A0W8EW28/81-122_190-437 DR EC; 3.6.3.14; #=GS A0A075I608/1-31_99-346 AC A0A075I608 #=GS A0A075I608/1-31_99-346 OS uncultured marine group II/III euryarchaeote SAT1000_14_G12 #=GS A0A075I608/1-31_99-346 DE V-type ATP synthase subunit A (ATPVA, ntpA) #=GS A0A075I608/1-31_99-346 DR GENE3D; 9f580edaa3f82f39a01308f0cce78ee2/1-31_99-346; #=GS A0A075I608/1-31_99-346 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote SAT1000_14_G12; #=GS A0A075I608/1-31_99-346 DR EC; 3.6.3.14; #=GS K1L0Q6/75-113_187-435 AC K1L0Q6 #=GS K1L0Q6/75-113_187-435 OS Cecembia lonarensis LW9 #=GS K1L0Q6/75-113_187-435 DE V-type sodium ATPase catalytic subunit A #=GS K1L0Q6/75-113_187-435 DR GENE3D; a1732c299dc0e7b0db80cba58fb062be/75-113_187-435; #=GS K1L0Q6/75-113_187-435 DR ORG; Bacteria; Bacteroidetes; Cytophagia; Cytophagales; Cyclobacteriaceae; Cecembia; Cecembia lonarensis; #=GS K1L0Q6/75-113_187-435 DR EC; 3.6.3.15; #=GS I4BVZ8/75-115_184-433 AC I4BVZ8 #=GS I4BVZ8/75-115_184-433 OS Acetomicrobium mobile DSM 13181 #=GS I4BVZ8/75-115_184-433 DE V-type ATP synthase alpha chain #=GS I4BVZ8/75-115_184-433 DR GENE3D; a5fbbf9493cfc3fc51dc925a73e6c956/75-115_184-433; #=GS I4BVZ8/75-115_184-433 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistaceae; Acetomicrobium; Acetomicrobium mobile; #=GS I4BVZ8/75-115_184-433 DR EC; 3.6.3.14; #=GS Q891P1/79-119_191-438 AC Q891P1 #=GS Q891P1/79-119_191-438 OS Clostridium tetani E88 #=GS Q891P1/79-119_191-438 DE V-type ATP synthase alpha chain 2 #=GS Q891P1/79-119_191-438 DR GENE3D; 9f379758d5a58106947f170f5295e367/79-119_191-438; #=GS Q891P1/79-119_191-438 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium tetani; #=GS Q891P1/79-119_191-438 DR EC; 3.6.3.14; #=GS M0LQZ9/81-122_191-438 AC M0LQZ9 #=GS M0LQZ9/81-122_191-438 OS Halococcus hamelinensis 100A6 #=GS M0LQZ9/81-122_191-438 DE V-type ATP synthase alpha chain #=GS M0LQZ9/81-122_191-438 DR GENE3D; a6602f162f8477688e1378885253256e/81-122_191-438; #=GS M0LQZ9/81-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halococcaceae; Halococcus; Halococcus hamelinensis; #=GS M0LQZ9/81-122_191-438 DR EC; 3.6.3.14; #=GS A0A069ZZH9/83-122_196-443 AC A0A069ZZH9 #=GS A0A069ZZH9/83-122_196-443 OS Chlamydia muridarum #=GS A0A069ZZH9/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A069ZZH9/83-122_196-443 DR GENE3D; 9f84d91b4d40da7fe3eb9e9f1b472b52/83-122_196-443; #=GS A0A069ZZH9/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia muridarum; #=GS A0A069ZZH9/83-122_196-443 DR EC; 3.6.3.14; #=GS Q9PK85/83-122_196-443 AC Q9PK85 #=GS Q9PK85/83-122_196-443 OS Chlamydia muridarum str. Nigg #=GS Q9PK85/83-122_196-443 DE V-type ATP synthase alpha chain #=GS Q9PK85/83-122_196-443 DR GENE3D; 9f84d91b4d40da7fe3eb9e9f1b472b52/83-122_196-443; #=GS Q9PK85/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia muridarum; #=GS Q9PK85/83-122_196-443 DR EC; 3.6.3.14; #=GS F8F3L0/73-114_192-439 AC F8F3L0 #=GS F8F3L0/73-114_192-439 OS Treponema caldarium DSM 7334 #=GS F8F3L0/73-114_192-439 DE V-type ATP synthase alpha chain #=GS F8F3L0/73-114_192-439 DR GENE3D; 9f9827ce9e86daf4fa6b9a33615fe719/73-114_192-439; #=GS F8F3L0/73-114_192-439 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema caldarium; #=GS F8F3L0/73-114_192-439 DR EC; 3.6.3.14; #=GS A0A151AC29/83-124_193-440 AC A0A151AC29 #=GS A0A151AC29/83-124_193-440 OS Halalkalicoccus paucihalophilus #=GS A0A151AC29/83-124_193-440 DE V-type ATP synthase alpha chain #=GS A0A151AC29/83-124_193-440 DR GENE3D; 9fad36f7d36c73aec339e80a49e7ac80/83-124_193-440; #=GS A0A151AC29/83-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Halalkalicoccus; Halalkalicoccus paucihalophilus; #=GS A0A151AC29/83-124_193-440 DR EC; 3.6.3.14; #=GS A0A1J4SLE1/73-114_186-401 AC A0A1J4SLE1 #=GS A0A1J4SLE1/73-114_186-401 OS Candidatus Desantisbacteria bacterium CG1_02_49_89 #=GS A0A1J4SLE1/73-114_186-401 DE V-type ATP synthase alpha chain #=GS A0A1J4SLE1/73-114_186-401 DR GENE3D; a0ecf79e7bb271c70cc08f85beabe674/73-114_186-401; #=GS A0A1J4SLE1/73-114_186-401 DR ORG; Bacteria; Candidatus Desantisbacteria; Candidatus Desantisbacteria bacterium CG1_02_49_89; #=GS A0A1J4SLE1/73-114_186-401 DR EC; 3.6.3.14; #=GS A0A1F5R1Z6/72-113_182-431 AC A0A1F5R1Z6 #=GS A0A1F5R1Z6/72-113_182-431 OS Candidatus Edwardsbacteria bacterium GWF2_54_11 #=GS A0A1F5R1Z6/72-113_182-431 DE V-type ATP synthase alpha chain #=GS A0A1F5R1Z6/72-113_182-431 DR GENE3D; a295c6625079aa9f109ae3ea523a422d/72-113_182-431; #=GS A0A1F5R1Z6/72-113_182-431 DR ORG; Bacteria; Candidatus Edwardsbacteria; Candidatus Edwardsbacteria bacterium GWF2_54_11; #=GS A0A1F5R1Z6/72-113_182-431 DR EC; 3.6.3.14; #=GS E7MPP1/73-113_187-434 AC E7MPP1 #=GS E7MPP1/73-113_187-434 OS Solobacterium moorei F0204 #=GS E7MPP1/73-113_187-434 DE V-type ATP synthase alpha chain #=GS E7MPP1/73-113_187-434 DR GENE3D; ab08ac292f39b754d6b6293d68b473ef/73-113_187-434; #=GS E7MPP1/73-113_187-434 DR ORG; Bacteria; Firmicutes; Erysipelotrichia; Erysipelotrichales; Erysipelotrichaceae; Solobacterium; Solobacterium moorei; #=GS E7MPP1/73-113_187-434 DR EC; 3.6.3.14; #=GS B5RQS2/76-117_191-436 AC B5RQS2 #=GS B5RQS2/76-117_191-436 OS Borrelia recurrentis A1 #=GS B5RQS2/76-117_191-436 DE V-type ATP synthase alpha chain #=GS B5RQS2/76-117_191-436 DR GENE3D; a3254a71ce341e04889abeff3738621f/76-117_191-436; #=GS B5RQS2/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia recurrentis; #=GS B5RQS2/76-117_191-436 DR EC; 3.6.3.14; #=GS A0A1L7DER8/78-119_196-443 AC A0A1L7DER8 #=GS A0A1L7DER8/78-119_196-443 OS Treponema pallidum subsp. pallidum #=GS A0A1L7DER8/78-119_196-443 DE ATP synthase subunit A #=GS A0A1L7DER8/78-119_196-443 DR GENE3D; a374e345081906c3373af378cc9e972b/78-119_196-443; #=GS A0A1L7DER8/78-119_196-443 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. pallidum; #=GS A0A1L7DER8/78-119_196-443 DR EC; 3.6.3.14; #=GS M0EW13/82-124_193-440 AC M0EW13 #=GS M0EW13/82-124_193-440 OS Halorubrum coriense DSM 10284 #=GS M0EW13/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0EW13/82-124_193-440 DR GENE3D; aa9972c4be998f1d543d42581f950403/82-124_193-440; #=GS M0EW13/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum coriense; #=GS M0EW13/82-124_193-440 DR EC; 3.6.3.14; #=GS U6EYM4/76-116_188-435 AC U6EYM4 #=GS U6EYM4/76-116_188-435 OS Clostridium tetani 12124569 #=GS U6EYM4/76-116_188-435 DE V-type ATP synthase alpha chain #=GS U6EYM4/76-116_188-435 DR GENE3D; aaf0b8780552dff02a06c725e5bc696f/76-116_188-435; #=GS U6EYM4/76-116_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium tetani; #=GS U6EYM4/76-116_188-435 DR EC; 3.6.3.14; #=GS H8I4X3/73-114_181-430 AC H8I4X3 #=GS H8I4X3/73-114_181-430 OS Methanocella conradii HZ254 #=GS H8I4X3/73-114_181-430 DE V-type ATP synthase alpha chain #=GS H8I4X3/73-114_181-430 DR GENE3D; aca8a812a728005394df192b4b73a801/73-114_181-430; #=GS H8I4X3/73-114_181-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanocellales; Methanocellaceae; Methanocella; Methanocella conradii; #=GS H8I4X3/73-114_181-430 DR EC; 3.6.3.14; #=GS A0A1F9ZBM9/83-124_192-439 AC A0A1F9ZBM9 #=GS A0A1F9ZBM9/83-124_192-439 OS Euryarchaeota archaeon RBG_16_68_13 #=GS A0A1F9ZBM9/83-124_192-439 DE V-type ATP synthase alpha chain #=GS A0A1F9ZBM9/83-124_192-439 DR GENE3D; ad3804df532ce3d42c3e583ba4e6dd99/83-124_192-439; #=GS A0A1F9ZBM9/83-124_192-439 DR ORG; Archaea; Euryarchaeota; Euryarchaeota archaeon RBG_16_68_13; #=GS A0A1F9ZBM9/83-124_192-439 DR EC; 3.6.3.14; #=GS A0A0B3APE3/1-178 AC A0A0B3APE3 #=GS A0A0B3APE3/1-178 OS archaeon GW2011_AR11 #=GS A0A0B3APE3/1-178 DE V-type H+-transporting ATPase subunit A #=GS A0A0B3APE3/1-178 DR GENE3D; af8aee948c955b05a000afbb2945c81a/1-178; #=GS A0A0B3APE3/1-178 DR ORG; Archaea; archaeon GW2011_AR11; #=GS A0A0B3APE3/1-178 DR EC; 3.6.3.14; #=GS I3R1D1/81-123_192-439 AC I3R1D1 #=GS I3R1D1/81-123_192-439 OS Haloferax mediterranei ATCC 33500 #=GS I3R1D1/81-123_192-439 DE V-type ATP synthase alpha chain #=GS I3R1D1/81-123_192-439 DR GENE3D; aea48798a5342bf39732a87a2c80dc9b/81-123_192-439; #=GS I3R1D1/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax mediterranei; #=GS I3R1D1/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A0P0IWP7/73-114_182-429 AC A0A0P0IWP7 #=GS A0A0P0IWP7/73-114_182-429 OS Methanosarcina sp. 795 #=GS A0A0P0IWP7/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0P0IWP7/73-114_182-429 DR GENE3D; ae3ef2633148e39094094b453f8e7f95/73-114_182-429; #=GS A0A0P0IWP7/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. 795; #=GS A0A0P0IWP7/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A1I6YJU5/73-114_182-429 AC A0A1I6YJU5 #=GS A0A1I6YJU5/73-114_182-429 OS Methanosarcina sp. DSM 11855 #=GS A0A1I6YJU5/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A1I6YJU5/73-114_182-429 DR GENE3D; ae3ef2633148e39094094b453f8e7f95/73-114_182-429; #=GS A0A1I6YJU5/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. DSM 11855; #=GS A0A1I6YJU5/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0E3H9F9/73-114_182-429 AC A0A0E3H9F9 #=GS A0A0E3H9F9/73-114_182-429 OS Methanosarcina thermophila TM-1 #=GS A0A0E3H9F9/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0E3H9F9/73-114_182-429 DR GENE3D; ae3ef2633148e39094094b453f8e7f95/73-114_182-429; #=GS A0A0E3H9F9/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina thermophila; #=GS A0A0E3H9F9/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0E3L0G8/73-114_182-429 AC A0A0E3L0G8 #=GS A0A0E3L0G8/73-114_182-429 OS Methanosarcina thermophila CHTI-55 #=GS A0A0E3L0G8/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0E3L0G8/73-114_182-429 DR GENE3D; ae3ef2633148e39094094b453f8e7f95/73-114_182-429; #=GS A0A0E3L0G8/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina thermophila; #=GS A0A0E3L0G8/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0W7TIE2/73-114_181-428 AC A0A0W7TIE2 #=GS A0A0W7TIE2/73-114_181-428 OS Candidatus Methanomethylophilus sp. 1R26 #=GS A0A0W7TIE2/73-114_181-428 DE V-type ATP synthase alpha chain #=GS A0A0W7TIE2/73-114_181-428 DR GENE3D; b0f61c007e591aa5db046ad952e0983c/73-114_181-428; #=GS A0A0W7TIE2/73-114_181-428 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Methanomassiliicoccales; Methanomassiliicoccaceae; Candidatus Methanomethylophilus; Candidatus Methanomethylophilus sp. 1R26; #=GS A0A0W7TIE2/73-114_181-428 DR EC; 3.6.3.14; #=GS Q12WL1/73-114_182-429 AC Q12WL1 #=GS Q12WL1/73-114_182-429 OS Methanococcoides burtonii DSM 6242 #=GS Q12WL1/73-114_182-429 DE V-type ATP synthase alpha chain #=GS Q12WL1/73-114_182-429 DR GENE3D; a91d6086ef051832cb87b376f1219ee6/73-114_182-429; #=GS Q12WL1/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanococcoides; Methanococcoides burtonii; #=GS Q12WL1/73-114_182-429 DR EC; 3.6.3.14; #=GS C7NNT8/81-123_192-439 AC C7NNT8 #=GS C7NNT8/81-123_192-439 OS Halorhabdus utahensis DSM 12940 #=GS C7NNT8/81-123_192-439 DE V-type ATP synthase alpha chain #=GS C7NNT8/81-123_192-439 DR GENE3D; b7866904bf683188a8af47a42bc5bed3/81-123_192-439; #=GS C7NNT8/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Halorhabdus; Halorhabdus utahensis; #=GS C7NNT8/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A1G0Z486/78-119_193-439 AC A0A1G0Z486 #=GS A0A1G0Z486/78-119_193-439 OS Lentisphaerae bacterium GWF2_52_8 #=GS A0A1G0Z486/78-119_193-439 DE V-type ATP synthase alpha chain #=GS A0A1G0Z486/78-119_193-439 DR GENE3D; b663588c909f58a86d9b53c8b32c0605/78-119_193-439; #=GS A0A1G0Z486/78-119_193-439 DR ORG; Bacteria; Lentisphaerae; Lentisphaerae bacterium GWF2_52_8; #=GS A0A1G0Z486/78-119_193-439 DR EC; 3.6.3.14; #=GS F0RIZ7/76-117_185-432 AC F0RIZ7 #=GS F0RIZ7/76-117_185-432 OS Deinococcus proteolyticus MRP #=GS F0RIZ7/76-117_185-432 DE V-type ATP synthase alpha chain #=GS F0RIZ7/76-117_185-432 DR GENE3D; b6b0ab90818bba0594c10f5a9d3ccdc2/76-117_185-432; #=GS F0RIZ7/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus proteolyticus; #=GS F0RIZ7/76-117_185-432 DR EC; 3.6.3.14; #=GS A0A0A7X3B4/78-119_196-443 AC A0A0A7X3B4 #=GS A0A0A7X3B4/78-119_196-443 OS Treponema pallidum subsp. endemicum str. Bosnia A #=GS A0A0A7X3B4/78-119_196-443 DE V-type ATP synthase alpha chain #=GS A0A0A7X3B4/78-119_196-443 DR GENE3D; ae6bc3310102a4994d802049ffddf112/78-119_196-443; #=GS A0A0A7X3B4/78-119_196-443 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. endemicum; #=GS A0A0A7X3B4/78-119_196-443 DR EC; 3.6.3.14; #=GS A0A0H3BKP3/78-119_196-443 AC A0A0H3BKP3 #=GS A0A0H3BKP3/78-119_196-443 OS Treponema pallidum subsp. pallidum SS14 #=GS A0A0H3BKP3/78-119_196-443 DE V-type ATP synthase alpha chain #=GS A0A0H3BKP3/78-119_196-443 DR GENE3D; ae6bc3310102a4994d802049ffddf112/78-119_196-443; #=GS A0A0H3BKP3/78-119_196-443 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. pallidum; #=GS A0A0H3BKP3/78-119_196-443 DR EC; 3.6.3.14; #=GS G7V9U5/74-115_185-434 AC G7V9U5 #=GS G7V9U5/74-115_185-434 OS Thermovirga lienii DSM 17291 #=GS G7V9U5/74-115_185-434 DE V-type ATP synthase alpha chain #=GS G7V9U5/74-115_185-434 DR GENE3D; b9c66a1c41a0558e4e8b5aa3ad406d3c/74-115_185-434; #=GS G7V9U5/74-115_185-434 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistaceae; Thermovirga; Thermovirga lienii; #=GS G7V9U5/74-115_185-434 DR EC; 3.6.3.14; #=GS B0B7M4/83-122_196-443 AC B0B7M4 #=GS B0B7M4/83-122_196-443 OS Chlamydia trachomatis 434/Bu #=GS B0B7M4/83-122_196-443 DE V-type ATP synthase alpha chain #=GS B0B7M4/83-122_196-443 DR GENE3D; af78aa3bd1843a617584f191f14d90aa/83-122_196-443; #=GS B0B7M4/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS B0B7M4/83-122_196-443 DR EC; 3.6.3.14; #=GS B0BBT9/83-122_196-443 AC B0BBT9 #=GS B0BBT9/83-122_196-443 OS Chlamydia trachomatis L2b/UCH-1/proctitis #=GS B0BBT9/83-122_196-443 DE V-type ATP synthase alpha chain #=GS B0BBT9/83-122_196-443 DR GENE3D; af78aa3bd1843a617584f191f14d90aa/83-122_196-443; #=GS B0BBT9/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS B0BBT9/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A0E9AS97/83-122_196-443 AC A0A0E9AS97 #=GS A0A0E9AS97/83-122_196-443 OS Chlamydia trachomatis #=GS A0A0E9AS97/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A0E9AS97/83-122_196-443 DR GENE3D; af78aa3bd1843a617584f191f14d90aa/83-122_196-443; #=GS A0A0E9AS97/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS A0A0E9AS97/83-122_196-443 DR EC; 3.6.3.14; #=GS B9L760/73-109_173-419 AC B9L760 #=GS B9L760/73-109_173-419 OS Nautilia profundicola AmH #=GS B9L760/73-109_173-419 DE V-type ATP synthase alpha chain #=GS B9L760/73-109_173-419 DR GENE3D; b91d43b0f357705061d16adb3799251f/73-109_173-419; #=GS B9L760/73-109_173-419 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Epsilonproteobacteria; Nautiliales; Nautiliaceae; Nautilia; Nautilia profundicola; #=GS B9L760/73-109_173-419 DR EC; 3.6.3.14; #=GS A0A150JD18/82-123_192-439 AC A0A150JD18 #=GS A0A150JD18/82-123_192-439 OS Arc I group archaeon ADurb1013_Bin02101 #=GS A0A150JD18/82-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A150JD18/82-123_192-439 DR GENE3D; b21c0f4db1ef5f730de13b550460352d/82-123_192-439; #=GS A0A150JD18/82-123_192-439 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon ADurb1013_Bin02101; #=GS A0A150JD18/82-123_192-439 DR EC; 3.6.3.14; #=GS A0A150JJM5/82-123_192-439 AC A0A150JJM5 #=GS A0A150JJM5/82-123_192-439 OS Arc I group archaeon ADurb1113_Bin01801 #=GS A0A150JJM5/82-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A150JJM5/82-123_192-439 DR GENE3D; b21c0f4db1ef5f730de13b550460352d/82-123_192-439; #=GS A0A150JJM5/82-123_192-439 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon ADurb1113_Bin01801; #=GS A0A150JJM5/82-123_192-439 DR EC; 3.6.3.14; #=GS A0A150JLU9/82-123_192-439 AC A0A150JLU9 #=GS A0A150JLU9/82-123_192-439 OS Arc I group archaeon ADurb1213_Bin02801 #=GS A0A150JLU9/82-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A150JLU9/82-123_192-439 DR GENE3D; b21c0f4db1ef5f730de13b550460352d/82-123_192-439; #=GS A0A150JLU9/82-123_192-439 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon ADurb1213_Bin02801; #=GS A0A150JLU9/82-123_192-439 DR EC; 3.6.3.14; #=GS A0A1F6QD71/77-118_192-437 AC A0A1F6QD71 #=GS A0A1F6QD71/77-118_192-437 OS Candidatus Margulisbacteria bacterium GWE2_39_32 #=GS A0A1F6QD71/77-118_192-437 DE V-type ATP synthase alpha chain #=GS A0A1F6QD71/77-118_192-437 DR GENE3D; bb436c1c21fd86fcfc03088fedd97d11/77-118_192-437; #=GS A0A1F6QD71/77-118_192-437 DR ORG; Bacteria; Candidatus Margulisbacteria; Candidatus Margulisbacteria bacterium GWE2_39_32; #=GS A0A1F6QD71/77-118_192-437 DR EC; 3.6.3.14; #=GS A0A0E3S8V9/50-91_159-406 AC A0A0E3S8V9 #=GS A0A0E3S8V9/50-91_159-406 OS Methanosarcina horonobensis HB-1 = JCM 15518 #=GS A0A0E3S8V9/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3S8V9/50-91_159-406 DR GENE3D; bb9d1c5e3d513270b5cdb694e06b70b0/50-91_159-406; #=GS A0A0E3S8V9/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina horonobensis; #=GS A0A0E3S8V9/50-91_159-406 DR EC; 3.6.3.14; #=GS A0A1H5VN78/80-122_195-442 AC A0A1H5VN78 #=GS A0A1H5VN78/80-122_195-442 OS Halobellus limi #=GS A0A1H5VN78/80-122_195-442 DE V-type ATP synthase alpha chain #=GS A0A1H5VN78/80-122_195-442 DR GENE3D; bc297e990d28e5387b07a04228ffb204/80-122_195-442; #=GS A0A1H5VN78/80-122_195-442 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Halobellus; Halobellus limi; #=GS A0A1H5VN78/80-122_195-442 DR EC; 3.6.3.14; #=GS G0QHV7/81-122_190-438 AC G0QHV7 #=GS G0QHV7/81-122_190-438 OS Candidatus Nanosalina sp. J07AB43 #=GS G0QHV7/81-122_190-438 DE V-type ATP synthase alpha chain #=GS G0QHV7/81-122_190-438 DR GENE3D; bf2b5b99ce9d825c52a2f29114373452/81-122_190-438; #=GS G0QHV7/81-122_190-438 DR ORG; Archaea; Candidatus Nanohaloarchaeota; Nanohaloarchaea; Candidatus Nanosalina; Candidatus Nanosalina sp. J07AB43; #=GS G0QHV7/81-122_190-438 DR EC; 3.6.3.14; #=GS A0A0S8D947/83-123_197-444 AC A0A0S8D947 #=GS A0A0S8D947/83-123_197-444 OS Chlamydiae bacterium SM23_39 #=GS A0A0S8D947/83-123_197-444 DE V-type ATP synthase alpha chain #=GS A0A0S8D947/83-123_197-444 DR GENE3D; bd5a17ce563dfdfb91a176b4c8cfcace/83-123_197-444; #=GS A0A0S8D947/83-123_197-444 DR ORG; Bacteria; Chlamydiae; Chlamydiae bacterium SM23_39; #=GS A0A0S8D947/83-123_197-444 DR EC; 3.6.3.14; #=GS A0A1F9ZCM2/401-594 AC A0A1F9ZCM2 #=GS A0A1F9ZCM2/401-594 OS Euryarchaeota archaeon RBG_16_68_12 #=GS A0A1F9ZCM2/401-594 DE V-type ATP synthase alpha chain #=GS A0A1F9ZCM2/401-594 DR GENE3D; c0872dc36e88ccbc5b3098f30ec36e8b/401-594; #=GS A0A1F9ZCM2/401-594 DR ORG; Archaea; Euryarchaeota; Euryarchaeota archaeon RBG_16_68_12; #=GS A0A1F9ZCM2/401-594 DR EC; 3.6.3.14; #=GS M0A871/82-124_193-440 AC M0A871 #=GS M0A871/82-124_193-440 OS Natrialba taiwanensis DSM 12281 #=GS M0A871/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0A871/82-124_193-440 DR GENE3D; c02b6b40ab1fbb28a260a8d2e4e0513b/82-124_193-440; #=GS M0A871/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrialba; Natrialba taiwanensis; #=GS M0A871/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A0D0SHP1/77-118_192-438 AC A0A0D0SHP1 #=GS A0A0D0SHP1/77-118_192-438 OS Lachnospiraceae bacterium TWA4 #=GS A0A0D0SHP1/77-118_192-438 DE V-type ATP synthase alpha chain #=GS A0A0D0SHP1/77-118_192-438 DR GENE3D; b88d3d12f429b0ab292c24e10de1e287/77-118_192-438; #=GS A0A0D0SHP1/77-118_192-438 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnospiraceae bacterium TWA4; #=GS A0A0D0SHP1/77-118_192-438 DR EC; 3.6.3.14; #=GS M0A4I5/82-124_193-440 AC M0A4I5 #=GS M0A4I5/82-124_193-440 OS Natrialba hulunbeirensis JCM 10989 #=GS M0A4I5/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0A4I5/82-124_193-440 DR GENE3D; c3112f630a5acf7499f9661c29dcd589/82-124_193-440; #=GS M0A4I5/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrialba; Natrialba hulunbeirensis; #=GS M0A4I5/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1F6GM84/76-117_191-435 AC A0A1F6GM84 #=GS A0A1F6GM84/76-117_191-435 OS Candidatus Lambdaproteobacteria bacterium RIFOXYD2_FULL_56_26 #=GS A0A1F6GM84/76-117_191-435 DE V-type ATP synthase alpha chain #=GS A0A1F6GM84/76-117_191-435 DR GENE3D; c750820f1133f6e3e3957580b53bf9be/76-117_191-435; #=GS A0A1F6GM84/76-117_191-435 DR ORG; Bacteria; Proteobacteria; Candidatus Lambdaproteobacteria; Candidatus Lambdaproteobacteria bacterium RIFOXYD2_FULL_56_26; #=GS A0A1F6GM84/76-117_191-435 DR EC; 3.6.3.14; #=GS A0A0N9N6U5/78-119_188-435 AC A0A0N9N6U5 #=GS A0A0N9N6U5/78-119_188-435 OS Halanaeroarchaeum sulfurireducens #=GS A0A0N9N6U5/78-119_188-435 DE V-type ATP synthase alpha chain #=GS A0A0N9N6U5/78-119_188-435 DR GENE3D; c7f44119624aa55104bfba117681a725/78-119_188-435; #=GS A0A0N9N6U5/78-119_188-435 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halanaeroarchaeum; Halanaeroarchaeum sulfurireducens; #=GS A0A0N9N6U5/78-119_188-435 DR EC; 3.6.3.14; #=GS M0CI97/82-124_193-440 AC M0CI97 #=GS M0CI97/82-124_193-440 OS Haloterrigena limicola JCM 13563 #=GS M0CI97/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0CI97/82-124_193-440 DR GENE3D; c634a09a5f2cefd02dfd979553e5e81d/82-124_193-440; #=GS M0CI97/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Haloterrigena; Haloterrigena limicola; #=GS M0CI97/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1F2S8M8/76-117_185-432 AC A0A1F2S8M8 #=GS A0A1F2S8M8/76-117_185-432 OS Acidobacteria bacterium RIFCSPLOWO2_02_FULL_68_18 #=GS A0A1F2S8M8/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A1F2S8M8/76-117_185-432 DR GENE3D; c936d628c70d24d972592a9d0f4fab1c/76-117_185-432; #=GS A0A1F2S8M8/76-117_185-432 DR ORG; Bacteria; Acidobacteria; Acidobacteria bacterium RIFCSPLOWO2_02_FULL_68_18; #=GS A0A1F2S8M8/76-117_185-432 DR EC; 3.6.3.14; #=GS A0A172T6Y0/76-117_185-432 AC A0A172T6Y0 #=GS A0A172T6Y0/76-117_185-432 OS Deinococcus puniceus #=GS A0A172T6Y0/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A172T6Y0/76-117_185-432 DR GENE3D; be24d193f57a367613778bc434804dfa/76-117_185-432; #=GS A0A172T6Y0/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus puniceus; #=GS A0A172T6Y0/76-117_185-432 DR EC; 3.6.3.14; #=GS A0A037Z4G6/74-115_187-434 AC A0A037Z4G6 #=GS A0A037Z4G6/74-115_187-434 OS Clostridium tetanomorphum DSM 665 #=GS A0A037Z4G6/74-115_187-434 DE V-type ATP synthase alpha chain #=GS A0A037Z4G6/74-115_187-434 DR GENE3D; c89da069bb196f6aaf549556c93f8f2c/74-115_187-434; #=GS A0A037Z4G6/74-115_187-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium tetanomorphum; #=GS A0A037Z4G6/74-115_187-434 DR EC; 3.6.3.14; #=GS A0A0A7KCP8/76-117_185-432 AC A0A0A7KCP8 #=GS A0A0A7KCP8/76-117_185-432 OS Deinococcus swuensis #=GS A0A0A7KCP8/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A0A7KCP8/76-117_185-432 DR GENE3D; c827ef278ca320b21fbb9aff31dfa9d1/76-117_185-432; #=GS A0A0A7KCP8/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus swuensis; #=GS A0A0A7KCP8/76-117_185-432 DR EC; 3.6.3.14; #=GS A0A150J2T8/80-121_190-437 AC A0A150J2T8 #=GS A0A150J2T8/80-121_190-437 OS Arc I group archaeon U1lsi0528_Bin055 #=GS A0A150J2T8/80-121_190-437 DE V-type ATP synthase alpha chain #=GS A0A150J2T8/80-121_190-437 DR GENE3D; c7f4b14a5abed9e47d72c8ee9b31d0ee/80-121_190-437; #=GS A0A150J2T8/80-121_190-437 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon U1lsi0528_Bin055; #=GS A0A150J2T8/80-121_190-437 DR EC; 3.6.3.14; #=GS A0A0F7WRY5/83-122_196-443 AC A0A0F7WRY5 #=GS A0A0F7WRY5/83-122_196-443 OS Chlamydia pneumoniae #=GS A0A0F7WRY5/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A0F7WRY5/83-122_196-443 DR GENE3D; bfe2f3150725fd1fd6c77363953e29d1/83-122_196-443; #=GS A0A0F7WRY5/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia pneumoniae; #=GS A0A0F7WRY5/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A150J803/73-114_183-430 AC A0A150J803 #=GS A0A150J803/73-114_183-430 OS Arc I group archaeon U1lsi0528_Bin089 #=GS A0A150J803/73-114_183-430 DE V-type ATP synthase alpha chain #=GS A0A150J803/73-114_183-430 DR GENE3D; cb4389ced24471f4e2487c9d281cbe70/73-114_183-430; #=GS A0A150J803/73-114_183-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon U1lsi0528_Bin089; #=GS A0A150J803/73-114_183-430 DR EC; 3.6.3.14; #=GS W5SSP1/76-117_191-437 AC W5SSP1 #=GS W5SSP1/76-117_191-437 OS Borrelia anserina BA2 #=GS W5SSP1/76-117_191-437 DE V-type ATP synthase alpha chain #=GS W5SSP1/76-117_191-437 DR GENE3D; c8b8a5c5b1391ed999dfa633934f8773/76-117_191-437; #=GS W5SSP1/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia anserina; #=GS W5SSP1/76-117_191-437 DR EC; 3.6.3.14; #=GS A0A1L6K6A9/76-117_191-437 AC A0A1L6K6A9 #=GS A0A1L6K6A9/76-117_191-437 OS Borrelia anserina Es #=GS A0A1L6K6A9/76-117_191-437 DE ATP synthase subunit A #=GS A0A1L6K6A9/76-117_191-437 DR GENE3D; c8b8a5c5b1391ed999dfa633934f8773/76-117_191-437; #=GS A0A1L6K6A9/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia anserina; #=GS A0A1L6K6A9/76-117_191-437 DR EC; 3.6.3.14; #=GS A0A0U5JBN1/87-127_201-448 AC A0A0U5JBN1 #=GS A0A0U5JBN1/87-127_201-448 OS Protochlamydia naegleriophila #=GS A0A0U5JBN1/87-127_201-448 DE V-type ATP synthase alpha chain #=GS A0A0U5JBN1/87-127_201-448 DR GENE3D; cb07a79f65574e4174e94c317788a160/87-127_201-448; #=GS A0A0U5JBN1/87-127_201-448 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Parachlamydiaceae; Candidatus Protochlamydia; Protochlamydia naegleriophila; #=GS A0A0U5JBN1/87-127_201-448 DR EC; 3.6.3.14; #=GS A0A0F7WUP9/83-122_196-443 AC A0A0F7WUP9 #=GS A0A0F7WUP9/83-122_196-443 OS Chlamydia pneumoniae #=GS A0A0F7WUP9/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A0F7WUP9/83-122_196-443 DR GENE3D; c2bb8702b268a912ec05c7eb3f113178/83-122_196-443; #=GS A0A0F7WUP9/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia pneumoniae; #=GS A0A0F7WUP9/83-122_196-443 DR EC; 3.6.3.14; #=GS Q9Z993/83-122_196-443 AC Q9Z993 #=GS Q9Z993/83-122_196-443 OS Chlamydia pneumoniae #=GS Q9Z993/83-122_196-443 DE V-type ATP synthase alpha chain #=GS Q9Z993/83-122_196-443 DR GENE3D; c2bb8702b268a912ec05c7eb3f113178/83-122_196-443; #=GS Q9Z993/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia pneumoniae; #=GS Q9Z993/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A0D6QMS9/72-113_181-427 AC A0A0D6QMS9 #=GS A0A0D6QMS9/72-113_181-427 OS Anaeromyxobacter sp. PSR-1 #=GS A0A0D6QMS9/72-113_181-427 DE V-type ATP synthase alpha chain #=GS A0A0D6QMS9/72-113_181-427 DR GENE3D; cb9409b49c69b332eb1f374418b1a118/72-113_181-427; #=GS A0A0D6QMS9/72-113_181-427 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Cystobacterineae; Anaeromyxobacteraceae; Anaeromyxobacter; Anaeromyxobacter sp. PSR-1; #=GS A0A0D6QMS9/72-113_181-427 DR EC; 3.6.3.14; #=GS B5RLG8/76-117_191-436 AC B5RLG8 #=GS B5RLG8/76-117_191-436 OS Borrelia duttonii Ly #=GS B5RLG8/76-117_191-436 DE V-type ATP synthase alpha chain #=GS B5RLG8/76-117_191-436 DR GENE3D; c332fe74d405a9c82be6258a4a770da0/76-117_191-436; #=GS B5RLG8/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia duttonii; #=GS B5RLG8/76-117_191-436 DR EC; 3.6.3.14; #=GS W6TGT6/76-117_191-436 AC W6TGT6 #=GS W6TGT6/76-117_191-436 OS Borrelia duttonii CR2A #=GS W6TGT6/76-117_191-436 DE V-type ATP synthase alpha chain #=GS W6TGT6/76-117_191-436 DR GENE3D; c332fe74d405a9c82be6258a4a770da0/76-117_191-436; #=GS W6TGT6/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia duttonii; #=GS W6TGT6/76-117_191-436 DR EC; 3.6.3.14; #=GS I0FBM2/76-117_191-436 AC I0FBM2 #=GS I0FBM2/76-117_191-436 OS Borrelia crocidurae str. Achema #=GS I0FBM2/76-117_191-436 DE V-type ATP synthase alpha chain #=GS I0FBM2/76-117_191-436 DR GENE3D; c332fe74d405a9c82be6258a4a770da0/76-117_191-436; #=GS I0FBM2/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia crocidurae; #=GS I0FBM2/76-117_191-436 DR EC; 3.6.3.14; #=GS I7J757/82-123_191-438 AC I7J757 #=GS I7J757/82-123_191-438 OS Methanoculleus bourgensis MS2 #=GS I7J757/82-123_191-438 DE V-type ATP synthase alpha chain #=GS I7J757/82-123_191-438 DR GENE3D; cdb157a4fc62c6f7abf25325b108b526/82-123_191-438; #=GS I7J757/82-123_191-438 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus bourgensis; #=GS I7J757/82-123_191-438 DR EC; 3.6.3.14; #=GS Q5L5J0/83-122_196-443 AC Q5L5J0 #=GS Q5L5J0/83-122_196-443 OS Chlamydia abortus S26/3 #=GS Q5L5J0/83-122_196-443 DE V-type ATP synthase alpha chain #=GS Q5L5J0/83-122_196-443 DR GENE3D; c3f065d4518b04178707fcadff901fb2/83-122_196-443; #=GS Q5L5J0/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia abortus; #=GS Q5L5J0/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A1E7GEG4/73-114_182-429 AC A0A1E7GEG4 #=GS A0A1E7GEG4/73-114_182-429 OS Methanosarcina sp. Ant1 #=GS A0A1E7GEG4/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A1E7GEG4/73-114_182-429 DR GENE3D; ce5808553cc4ff7de8d1908f6d3f6d28/73-114_182-429; #=GS A0A1E7GEG4/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. Ant1; #=GS A0A1E7GEG4/73-114_182-429 DR EC; 3.6.3.14; #=GS U1N8T2/80-122_191-438 AC U1N8T2 #=GS U1N8T2/80-122_191-438 OS Haloquadratum walsbyi J07HQW1 #=GS U1N8T2/80-122_191-438 DE V-type ATP synthase alpha chain #=GS U1N8T2/80-122_191-438 DR GENE3D; cc9b3bb955a207396346eb7006d63759/80-122_191-438; #=GS U1N8T2/80-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloquadratum; Haloquadratum walsbyi; #=GS U1N8T2/80-122_191-438 DR EC; 3.6.3.14; #=GS E4NLU7/80-122_191-438 AC E4NLU7 #=GS E4NLU7/80-122_191-438 OS Halogeometricum borinquense DSM 11551 #=GS E4NLU7/80-122_191-438 DE V-type ATP synthase alpha chain #=GS E4NLU7/80-122_191-438 DR GENE3D; cfc49a49ef052bbbd47f795a13e123ec/80-122_191-438; #=GS E4NLU7/80-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Halogeometricum; Halogeometricum borinquense; #=GS E4NLU7/80-122_191-438 DR EC; 3.6.3.14; #=GS A0A016QUS6/68-109_177-424 AC A0A016QUS6 #=GS A0A016QUS6/68-109_177-424 OS Deinococcus phoenicis #=GS A0A016QUS6/68-109_177-424 DE V-type ATP synthase alpha chain #=GS A0A016QUS6/68-109_177-424 DR GENE3D; c54d8b1709c581e6905b9cfcce8b4a5c/68-109_177-424; #=GS A0A016QUS6/68-109_177-424 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus phoenicis; #=GS A0A016QUS6/68-109_177-424 DR EC; 3.6.3.14; #=GS Q1Q3P5/88-128_202-448 AC Q1Q3P5 #=GS Q1Q3P5/88-128_202-448 OS Candidatus Kuenenia stuttgartiensis #=GS Q1Q3P5/88-128_202-448 DE V-type ATP synthase alpha chain #=GS Q1Q3P5/88-128_202-448 DR GENE3D; d11890ea5957b9853edcb00b7e649584/88-128_202-448; #=GS Q1Q3P5/88-128_202-448 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Candidatus Brocadiales; Candidatus Brocadiaceae; Candidatus Kuenenia; Candidatus Kuenenia stuttgartiensis; #=GS Q1Q3P5/88-128_202-448 DR EC; 3.6.3.14; #=GS L9XXZ1/82-124_193-440 AC L9XXZ1 #=GS L9XXZ1/82-124_193-440 OS Natronococcus jeotgali DSM 18795 #=GS L9XXZ1/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L9XXZ1/82-124_193-440 DR GENE3D; d2c05e555101b4951a0c743c6f8455b7/82-124_193-440; #=GS L9XXZ1/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natronococcus; Natronococcus jeotgali; #=GS L9XXZ1/82-124_193-440 DR EC; 3.6.3.14; #=GS F7PNN2/81-123_192-439 AC F7PNN2 #=GS F7PNN2/81-123_192-439 OS Halorhabdus tiamatea SARL4B #=GS F7PNN2/81-123_192-439 DE V-type ATP synthase alpha chain #=GS F7PNN2/81-123_192-439 DR GENE3D; d3092aeb732fade241f7c6f9f6804818/81-123_192-439; #=GS F7PNN2/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Halorhabdus; Halorhabdus tiamatea; #=GS F7PNN2/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A1J4USX1/71-112_179-427 AC A0A1J4USX1 #=GS A0A1J4USX1/71-112_179-427 OS Candidatus Micrarchaeota archaeon CG1_02_60_51 #=GS A0A1J4USX1/71-112_179-427 DE V-type ATP synthase alpha chain #=GS A0A1J4USX1/71-112_179-427 DR GENE3D; d19c589801c415686f9c9183ba313e07/71-112_179-427; #=GS A0A1J4USX1/71-112_179-427 DR ORG; Archaea; Candidatus Micrarchaeota; Candidatus Micrarchaeota archaeon CG1_02_60_51; #=GS A0A1J4USX1/71-112_179-427 DR EC; 3.6.3.14; #=GS Q822J8/83-122_196-443 AC Q822J8 #=GS Q822J8/83-122_196-443 OS Chlamydophila caviae GPIC #=GS Q822J8/83-122_196-443 DE V-type ATP synthase alpha chain #=GS Q822J8/83-122_196-443 DR GENE3D; ca33f19119050ee071278192b210f443/83-122_196-443; #=GS Q822J8/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia caviae; #=GS Q822J8/83-122_196-443 DR EC; 3.6.3.14; #=GS L0JYV6/82-124_193-440 AC L0JYV6 #=GS L0JYV6/82-124_193-440 OS Natronococcus occultus SP4 #=GS L0JYV6/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L0JYV6/82-124_193-440 DR GENE3D; cb5f8390ff18d9b11ee2ca67022ecb64/82-124_193-440; #=GS L0JYV6/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natronococcus; Natronococcus occultus; #=GS L0JYV6/82-124_193-440 DR EC; 3.6.3.14; #=GS L9W9Z2/82-124_193-440 AC L9W9Z2 #=GS L9W9Z2/82-124_193-440 OS Natronorubrum sulfidifaciens JCM 14089 #=GS L9W9Z2/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L9W9Z2/82-124_193-440 DR GENE3D; d6bcc01282c09d29594042cb8bc7385b/82-124_193-440; #=GS L9W9Z2/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natronorubrum; Natronorubrum sulfidifaciens; #=GS L9W9Z2/82-124_193-440 DR EC; 3.6.3.14; #=GS H9ZQR9/73-114_182-429 AC H9ZQR9 #=GS H9ZQR9/73-114_182-429 OS Thermus thermophilus JL-18 #=GS H9ZQR9/73-114_182-429 DE V-type ATP synthase alpha chain #=GS H9ZQR9/73-114_182-429 DR GENE3D; d529291f80b423a663bcd79e2955f92e/73-114_182-429; #=GS H9ZQR9/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS H9ZQR9/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A1G1A4E8/79-119_193-438 AC A0A1G1A4E8 #=GS A0A1G1A4E8/79-119_193-438 OS Lentisphaerae bacterium RIFOXYC12_FULL_60_16 #=GS A0A1G1A4E8/79-119_193-438 DE V-type ATP synthase alpha chain #=GS A0A1G1A4E8/79-119_193-438 DR GENE3D; d8d49657c73abb82838b45dc1f70d5ea/79-119_193-438; #=GS A0A1G1A4E8/79-119_193-438 DR ORG; Bacteria; Lentisphaerae; Lentisphaerae bacterium RIFOXYC12_FULL_60_16; #=GS A0A1G1A4E8/79-119_193-438 DR EC; 3.6.3.14; #=GS V5TIC3/81-123_192-439 AC V5TIC3 #=GS V5TIC3/81-123_192-439 OS Haloarcula hispanica N601 #=GS V5TIC3/81-123_192-439 DE V-type ATP synthase alpha chain #=GS V5TIC3/81-123_192-439 DR GENE3D; d8d7e32e0dd4d466c16e55ef661fd2e8/81-123_192-439; #=GS V5TIC3/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula hispanica; #=GS V5TIC3/81-123_192-439 DR EC; 3.6.3.14; #=GS G0HT31/81-123_192-439 AC G0HT31 #=GS G0HT31/81-123_192-439 OS Haloarcula hispanica ATCC 33960 #=GS G0HT31/81-123_192-439 DE V-type ATP synthase alpha chain #=GS G0HT31/81-123_192-439 DR GENE3D; d8d7e32e0dd4d466c16e55ef661fd2e8/81-123_192-439; #=GS G0HT31/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula hispanica; #=GS G0HT31/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A0B3AHV9/74-115_182-429 AC A0A0B3AHV9 #=GS A0A0B3AHV9/74-115_182-429 OS archaeon GW2011_AR4 #=GS A0A0B3AHV9/74-115_182-429 DE V-type ATP synthase alpha chain #=GS A0A0B3AHV9/74-115_182-429 DR GENE3D; da6b2d1677d4a19ebcdcaff476704ee7/74-115_182-429; #=GS A0A0B3AHV9/74-115_182-429 DR ORG; Archaea; archaeon GW2011_AR4; #=GS A0A0B3AHV9/74-115_182-429 DR EC; 3.6.3.14; #=GS L9Y3W8/82-124_193-440 AC L9Y3W8 #=GS L9Y3W8/82-124_193-440 OS Natrinema versiforme JCM 10478 #=GS L9Y3W8/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L9Y3W8/82-124_193-440 DR GENE3D; db77bff9b2aaff501ef30e46b7503498/82-124_193-440; #=GS L9Y3W8/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrinema; Natrinema versiforme; #=GS L9Y3W8/82-124_193-440 DR EC; 3.6.3.14; #=GS F2NVT2/74-114_192-439 AC F2NVT2 #=GS F2NVT2/74-114_192-439 OS Treponema succinifaciens DSM 2489 #=GS F2NVT2/74-114_192-439 DE V-type ATP synthase alpha chain #=GS F2NVT2/74-114_192-439 DR GENE3D; dd31b09c909cd87c24418de7d9e3a71a/74-114_192-439; #=GS F2NVT2/74-114_192-439 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema succinifaciens; #=GS F2NVT2/74-114_192-439 DR EC; 3.6.3.14; #=GS A0A0F8E8D8/73-114_182-429 AC A0A0F8E8D8 #=GS A0A0F8E8D8/73-114_182-429 OS Methanosarcina sp. 2.H.A.1B.4 #=GS A0A0F8E8D8/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0F8E8D8/73-114_182-429 DR GENE3D; dc639db0f32fb1f869e52245e0ee934e/73-114_182-429; #=GS A0A0F8E8D8/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. 2.H.A.1B.4; #=GS A0A0F8E8D8/73-114_182-429 DR EC; 3.6.3.14; #=GS L0JFM4/82-124_193-440 AC L0JFM4 #=GS L0JFM4/82-124_193-440 OS Natrinema pellirubrum DSM 15624 #=GS L0JFM4/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L0JFM4/82-124_193-440 DR GENE3D; dc143e43ff6f0bd40a9eaed4745fc12f/82-124_193-440; #=GS L0JFM4/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrinema; Natrinema pellirubrum; #=GS L0JFM4/82-124_193-440 DR EC; 3.6.3.14; #=GS R5RXT8/77-117_192-438 AC R5RXT8 #=GS R5RXT8/77-117_192-438 OS Firmicutes bacterium CAG:129 #=GS R5RXT8/77-117_192-438 DE V-type ATP synthase alpha chain #=GS R5RXT8/77-117_192-438 DR GENE3D; daff2eda93019cae6376b2ab3b334738/77-117_192-438; #=GS R5RXT8/77-117_192-438 DR ORG; Bacteria; Firmicutes; Firmicutes bacterium CAG:129; #=GS R5RXT8/77-117_192-438 DR EC; 3.6.3.14; #=GS L0H9H3/81-122_190-437 AC L0H9H3 #=GS L0H9H3/81-122_190-437 OS Methanoregula formicica SMSP #=GS L0H9H3/81-122_190-437 DE V-type ATP synthase alpha chain #=GS L0H9H3/81-122_190-437 DR GENE3D; ddeda7cc420ad6b553bc8d5a46624881/81-122_190-437; #=GS L0H9H3/81-122_190-437 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanoregula; Methanoregula formicica; #=GS L0H9H3/81-122_190-437 DR EC; 3.6.3.14; #=GS A0A1I3AUP7/81-123_196-443 AC A0A1I3AUP7 #=GS A0A1I3AUP7/81-123_196-443 OS Halorubrum aquaticum #=GS A0A1I3AUP7/81-123_196-443 DE V-type ATP synthase alpha chain #=GS A0A1I3AUP7/81-123_196-443 DR GENE3D; dd51717696b29805609788704ce742be/81-123_196-443; #=GS A0A1I3AUP7/81-123_196-443 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum aquaticum; #=GS A0A1I3AUP7/81-123_196-443 DR EC; 3.6.3.14; #=GS M0FH96/82-124_197-444 AC M0FH96 #=GS M0FH96/82-124_197-444 OS Halorubrum hochstenium ATCC 700873 #=GS M0FH96/82-124_197-444 DE V-type ATP synthase alpha chain #=GS M0FH96/82-124_197-444 DR GENE3D; ddd816ca094232304f5ba50cc19a1100/82-124_197-444; #=GS M0FH96/82-124_197-444 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum hochstenium; #=GS M0FH96/82-124_197-444 DR EC; 3.6.3.14; #=GS V8TM40/83-122_196-443 AC V8TM40 #=GS V8TM40/83-122_196-443 OS Chlamydia pecorum DBDeUG #=GS V8TM40/83-122_196-443 DE V-type ATP synthase alpha chain #=GS V8TM40/83-122_196-443 DR GENE3D; e02d2d2171257e2ef6170e70830820d3/83-122_196-443; #=GS V8TM40/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia pecorum; #=GS V8TM40/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A1F6QRN8/76-117_191-435 AC A0A1F6QRN8 #=GS A0A1F6QRN8/76-117_191-435 OS Candidatus Margulisbacteria bacterium GWF2_35_9 #=GS A0A1F6QRN8/76-117_191-435 DE V-type ATP synthase alpha chain #=GS A0A1F6QRN8/76-117_191-435 DR GENE3D; e0410ad0c05776a3803a2d645544edb9/76-117_191-435; #=GS A0A1F6QRN8/76-117_191-435 DR ORG; Bacteria; Candidatus Margulisbacteria; Candidatus Margulisbacteria bacterium GWF2_35_9; #=GS A0A1F6QRN8/76-117_191-435 DR EC; 3.6.3.14; #=GS A0A1G3WM26/74-113_186-433 AC A0A1G3WM26 #=GS A0A1G3WM26/74-113_186-433 OS Tenericutes bacterium GWF2_38_8 #=GS A0A1G3WM26/74-113_186-433 DE V-type ATP synthase alpha chain #=GS A0A1G3WM26/74-113_186-433 DR GENE3D; d56b68c6b95cbbff4afc48a9a3bcf297/74-113_186-433; #=GS A0A1G3WM26/74-113_186-433 DR ORG; Bacteria; Tenericutes; Tenericutes bacterium GWF2_38_8; #=GS A0A1G3WM26/74-113_186-433 DR EC; 3.6.3.14; #=GS A0A1G3VUI7/74-113_186-433 AC A0A1G3VUI7 #=GS A0A1G3VUI7/74-113_186-433 OS Tenericutes bacterium GWD2_38_27 #=GS A0A1G3VUI7/74-113_186-433 DE V-type ATP synthase alpha chain #=GS A0A1G3VUI7/74-113_186-433 DR GENE3D; d56b68c6b95cbbff4afc48a9a3bcf297/74-113_186-433; #=GS A0A1G3VUI7/74-113_186-433 DR ORG; Bacteria; Tenericutes; Tenericutes bacterium GWD2_38_27; #=GS A0A1G3VUI7/74-113_186-433 DR EC; 3.6.3.14; #=GS A0A1J0LQH6/73-114_182-429 AC A0A1J0LQH6 #=GS A0A1J0LQH6/73-114_182-429 OS Thermus brockianus #=GS A0A1J0LQH6/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A1J0LQH6/73-114_182-429 DR GENE3D; e45a4a7f4d2b44126ce54fb984c7dcbe/73-114_182-429; #=GS A0A1J0LQH6/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus brockianus; #=GS A0A1J0LQH6/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A179EF93/82-124_193-440 AC A0A179EF93 #=GS A0A179EF93/82-124_193-440 OS Haloterrigena mahii #=GS A0A179EF93/82-124_193-440 DE V-type ATP synthase alpha chain #=GS A0A179EF93/82-124_193-440 DR GENE3D; e289d609534253f433b23d2d70618877/82-124_193-440; #=GS A0A179EF93/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Haloterrigena; Haloterrigena mahii; #=GS A0A179EF93/82-124_193-440 DR EC; 3.6.3.14; #=GS S7JB92/83-122_196-443 AC S7JB92 #=GS S7JB92/83-122_196-443 OS Chlamydia psittaci 10_743_SC13 #=GS S7JB92/83-122_196-443 DE V-type ATP synthase alpha chain #=GS S7JB92/83-122_196-443 DR GENE3D; e2993c203fe3deeeccd566371caa9924/83-122_196-443; #=GS S7JB92/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia psittaci; #=GS S7JB92/83-122_196-443 DR EC; 3.6.3.14; #=GS W8JFI5/83-122_196-443 AC W8JFI5 #=GS W8JFI5/83-122_196-443 OS Chlamydia avium 10DC88 #=GS W8JFI5/83-122_196-443 DE V-type ATP synthase alpha chain #=GS W8JFI5/83-122_196-443 DR GENE3D; e2993c203fe3deeeccd566371caa9924/83-122_196-443; #=GS W8JFI5/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia avium; #=GS W8JFI5/83-122_196-443 DR EC; 3.6.3.14; #=GS U2N0H2/78-118_192-438 AC U2N0H2 #=GS U2N0H2/78-118_192-438 OS Treponema socranskii subsp. socranskii VPI DR56BR1116 = ATCC 35536 #=GS U2N0H2/78-118_192-438 DE V-type ATP synthase alpha chain #=GS U2N0H2/78-118_192-438 DR GENE3D; e668df59dabff4fcb45bcd71f2f56bc7/78-118_192-438; #=GS U2N0H2/78-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema socranskii; Treponema socranskii subsp. socranskii; #=GS U2N0H2/78-118_192-438 DR EC; 3.6.3.14; #=GS A0A1J5R3V1/98-135_203-449 AC A0A1J5R3V1 #=GS A0A1J5R3V1/98-135_203-449 OS mine drainage metagenome #=GS A0A1J5R3V1/98-135_203-449 DE V-type ATP synthase alpha chain #=GS A0A1J5R3V1/98-135_203-449 DR GENE3D; e4702abbeb74b2e7312436f86d0ac5c4/98-135_203-449; #=GS A0A1J5R3V1/98-135_203-449 DR ORG; mine drainage metagenome; #=GS A0A1J5R3V1/98-135_203-449 DR EC; 3.6.3.14; #=GS A0A075FJA6/73-114_182-429 AC A0A075FJA6 #=GS A0A075FJA6/73-114_182-429 OS uncultured marine group II/III euryarchaeote AD1000_12_B08 #=GS A0A075FJA6/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A075FJA6/73-114_182-429 DR GENE3D; e51d8bbba63ad31747460e80c7be77a2/73-114_182-429; #=GS A0A075FJA6/73-114_182-429 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote AD1000_12_B08; #=GS A0A075FJA6/73-114_182-429 DR EC; 3.6.3.14; #=GS A0B9K2/73-113_182-429 AC A0B9K2 #=GS A0B9K2/73-113_182-429 OS Methanosaeta thermophila PT #=GS A0B9K2/73-113_182-429 DE V-type ATP synthase alpha chain #=GS A0B9K2/73-113_182-429 DR GENE3D; db24516a447629544a79d7ddb2648008/73-113_182-429; #=GS A0B9K2/73-113_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosaetaceae; Methanosaeta; Methanosaeta thermophila; #=GS A0B9K2/73-113_182-429 DR EC; 3.6.3.14; #=GS M0P0D5/64-106_179-426 AC M0P0D5 #=GS M0P0D5/64-106_179-426 OS Halorubrum kocurii JCM 14978 #=GS M0P0D5/64-106_179-426 DE V-type ATP synthase alpha chain #=GS M0P0D5/64-106_179-426 DR GENE3D; e88c505b34e605fbdb5170c17044fa40/64-106_179-426; #=GS M0P0D5/64-106_179-426 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum kocurii; #=GS M0P0D5/64-106_179-426 DR EC; 3.6.3.14; #=GS N0BNC8/74-115_183-430 AC N0BNC8 #=GS N0BNC8/74-115_183-430 OS Archaeoglobus sulfaticallidus PM70-1 #=GS N0BNC8/74-115_183-430 DE V-type ATP synthase alpha chain #=GS N0BNC8/74-115_183-430 DR GENE3D; db49b5c58b9da52b92e5fd1e3f3e92e7/74-115_183-430; #=GS N0BNC8/74-115_183-430 DR ORG; Archaea; Euryarchaeota; Archaeoglobi; Archaeoglobales; Archaeoglobaceae; Archaeoglobus; Archaeoglobus sulfaticallidus; #=GS N0BNC8/74-115_183-430 DR EC; 3.6.3.14; #=GS B7XTI1/76-117_191-437 AC B7XTI1 #=GS B7XTI1/76-117_191-437 OS Borrelia garinii PBr #=GS B7XTI1/76-117_191-437 DE V-type ATP synthase alpha chain #=GS B7XTI1/76-117_191-437 DR GENE3D; e6fe40d06f5dfcbfa4d8866a37482d13/76-117_191-437; #=GS B7XTI1/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borreliella; Borreliella garinii; #=GS B7XTI1/76-117_191-437 DR EC; 3.6.3.14; #=GS A0A1G3B452/73-114_182-431 AC A0A1G3B452 #=GS A0A1G3B452/73-114_182-431 OS Planctomycetes bacterium RIFCSPHIGHO2_02_FULL_52_58 #=GS A0A1G3B452/73-114_182-431 DE V-type ATP synthase alpha chain #=GS A0A1G3B452/73-114_182-431 DR GENE3D; e9130240905d6565b786b4e96a5798ea/73-114_182-431; #=GS A0A1G3B452/73-114_182-431 DR ORG; Bacteria; Planctomycetes; Planctomycetes bacterium RIFCSPHIGHO2_02_FULL_52_58; #=GS A0A1G3B452/73-114_182-431 DR EC; 3.6.3.14; #=GS A0A1G3BGC7/73-114_182-431 AC A0A1G3BGC7 #=GS A0A1G3BGC7/73-114_182-431 OS Planctomycetes bacterium RIFCSPHIGHO2_12_FULL_52_36 #=GS A0A1G3BGC7/73-114_182-431 DE V-type ATP synthase alpha chain #=GS A0A1G3BGC7/73-114_182-431 DR GENE3D; e9130240905d6565b786b4e96a5798ea/73-114_182-431; #=GS A0A1G3BGC7/73-114_182-431 DR ORG; Bacteria; Planctomycetes; Planctomycetes bacterium RIFCSPHIGHO2_12_FULL_52_36; #=GS A0A1G3BGC7/73-114_182-431 DR EC; 3.6.3.14; #=GS H8GUN3/76-117_185-432 AC H8GUN3 #=GS H8GUN3/76-117_185-432 OS Deinococcus gobiensis I-0 #=GS H8GUN3/76-117_185-432 DE V-type ATP synthase alpha chain #=GS H8GUN3/76-117_185-432 DR GENE3D; e7b820c88de3b0ce0a89b072029096da/76-117_185-432; #=GS H8GUN3/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus gobiensis; #=GS H8GUN3/76-117_185-432 DR EC; 3.6.3.14; #=GS U4KN18/74-113_186-433 AC U4KN18 #=GS U4KN18/74-113_186-433 OS Acholeplasma brassicae #=GS U4KN18/74-113_186-433 DE V-type ATP synthase alpha chain #=GS U4KN18/74-113_186-433 DR GENE3D; e9e4a677133065f7172cdf924e475175/74-113_186-433; #=GS U4KN18/74-113_186-433 DR ORG; Bacteria; Tenericutes; Mollicutes; Acholeplasmatales; Acholeplasmataceae; Acholeplasma; Acholeplasma brassicae; #=GS U4KN18/74-113_186-433 DR EC; 3.6.3.14; #=GS S3JPN4/78-118_192-438 AC S3JPN4 #=GS S3JPN4/78-118_192-438 OS Treponema socranskii subsp. paredis ATCC 35535 #=GS S3JPN4/78-118_192-438 DE V-type ATP synthase alpha chain #=GS S3JPN4/78-118_192-438 DR GENE3D; e9545814834bd45cc3ab96087d160de4/78-118_192-438; #=GS S3JPN4/78-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema socranskii; Treponema socranskii subsp. paredis; #=GS S3JPN4/78-118_192-438 DR EC; 3.6.3.14; #=GS H9UJL0/78-119_193-439 AC H9UJL0 #=GS H9UJL0/78-119_193-439 OS Spirochaeta africana DSM 8902 #=GS H9UJL0/78-119_193-439 DE V-type ATP synthase alpha chain #=GS H9UJL0/78-119_193-439 DR GENE3D; e98beaa043d79c58979f7ad432a4f3c6/78-119_193-439; #=GS H9UJL0/78-119_193-439 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Spirochaeta; Spirochaeta africana; #=GS H9UJL0/78-119_193-439 DR EC; 3.6.3.14; #=GS A0A0E3WTC6/50-91_159-406 AC A0A0E3WTC6 #=GS A0A0E3WTC6/50-91_159-406 OS Methanosarcina lacustris Z-7289 #=GS A0A0E3WTC6/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3WTC6/50-91_159-406 DR GENE3D; e840eec7388bc70995107747185eedaf/50-91_159-406; #=GS A0A0E3WTC6/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina lacustris; #=GS A0A0E3WTC6/50-91_159-406 DR EC; 3.6.3.14; #=GS A2SST5/76-117_186-433 AC A2SST5 #=GS A2SST5/76-117_186-433 OS Methanocorpusculum labreanum Z #=GS A2SST5/76-117_186-433 DE V-type ATP synthase alpha chain #=GS A2SST5/76-117_186-433 DR GENE3D; df25f9ff4f56b9831184204fc310e739/76-117_186-433; #=GS A2SST5/76-117_186-433 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanocorpusculaceae; Methanocorpusculum; Methanocorpusculum labreanum; #=GS A2SST5/76-117_186-433 DR EC; 3.6.3.14; #=GS A0A1J0NM10/83-122_196-443 AC A0A1J0NM10 #=GS A0A1J0NM10/83-122_196-443 OS Chlamydia trachomatis #=GS A0A1J0NM10/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A1J0NM10/83-122_196-443 DR GENE3D; ebb09f8997733cd3d943bf38aed9dc86/83-122_196-443; #=GS A0A1J0NM10/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS A0A1J0NM10/83-122_196-443 DR EC; 3.6.3.14; #=GS H8I4H1/73-114_183-430 AC H8I4H1 #=GS H8I4H1/73-114_183-430 OS Methanocella conradii HZ254 #=GS H8I4H1/73-114_183-430 DE V-type ATP synthase alpha chain #=GS H8I4H1/73-114_183-430 DR GENE3D; ecb9d603c1de97c6386341ff76442488/73-114_183-430; #=GS H8I4H1/73-114_183-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanocellales; Methanocellaceae; Methanocella; Methanocella conradii; #=GS H8I4H1/73-114_183-430 DR EC; 3.6.3.14; #=GS F5WTL7/71-112_179-426 AC F5WTL7 #=GS F5WTL7/71-112_179-426 OS Erysipelothrix rhusiopathiae str. Fujisawa #=GS F5WTL7/71-112_179-426 DE V-type ATP synthase alpha chain #=GS F5WTL7/71-112_179-426 DR GENE3D; eed762bfebe1c259ab7f5ab20649d032/71-112_179-426; #=GS F5WTL7/71-112_179-426 DR ORG; Bacteria; Firmicutes; Erysipelotrichia; Erysipelotrichales; Erysipelotrichaceae; Erysipelothrix; Erysipelothrix rhusiopathiae; #=GS F5WTL7/71-112_179-426 DR EC; 3.6.3.14; #=GS R5XXV4/72-113_185-432 AC R5XXV4 #=GS R5XXV4/72-113_185-432 OS Ruminococcus sp. CAG:488 #=GS R5XXV4/72-113_185-432 DE V-type ATP synthase alpha chain #=GS R5XXV4/72-113_185-432 DR GENE3D; e407a06d4a4ac27f9535e7120e1954bb/72-113_185-432; #=GS R5XXV4/72-113_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminococcus; Ruminococcus sp. CAG:488; #=GS R5XXV4/72-113_185-432 DR EC; 3.6.3.14; #=GS V4YAG2/81-123_192-439 AC V4YAG2 #=GS V4YAG2/81-123_192-439 OS uncultured archaeon A07HR60 #=GS V4YAG2/81-123_192-439 DE V-type ATP synthase alpha chain #=GS V4YAG2/81-123_192-439 DR GENE3D; e45fd5768ef0de6c2f499184b3306dcd/81-123_192-439; #=GS V4YAG2/81-123_192-439 DR ORG; Archaea; uncultured archaeon A07HR60; #=GS V4YAG2/81-123_192-439 DR EC; 3.6.3.14; #=GS M0MAT8/81-122_191-438 AC M0MAT8 #=GS M0MAT8/81-122_191-438 OS Halococcus saccharolyticus DSM 5350 #=GS M0MAT8/81-122_191-438 DE V-type ATP synthase alpha chain #=GS M0MAT8/81-122_191-438 DR GENE3D; e4a6e08cc07e44b21f5a9c4cb6ae9632/81-122_191-438; #=GS M0MAT8/81-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halococcaceae; Halococcus; Halococcus saccharolyticus; #=GS M0MAT8/81-122_191-438 DR EC; 3.6.3.14; #=GS A0A1J1EW03/73-114_182-376 AC A0A1J1EW03 #=GS A0A1J1EW03/73-114_182-376 OS Thermus thermophilus #=GS A0A1J1EW03/73-114_182-376 DE A-type ATP synthase subunit A #=GS A0A1J1EW03/73-114_182-376 DR GENE3D; f2fa0f8fea44bd0ee273e9201cd977ec/73-114_182-376; #=GS A0A1J1EW03/73-114_182-376 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus thermophilus; #=GS A0A1J1EW03/73-114_182-376 DR EC; 3.6.3.14; #=GS A0A0F7P7P4/78-119_188-435 AC A0A0F7P7P4 #=GS A0A0F7P7P4/78-119_188-435 OS Halanaeroarchaeum sulfurireducens #=GS A0A0F7P7P4/78-119_188-435 DE V-type ATP synthase alpha chain #=GS A0A0F7P7P4/78-119_188-435 DR GENE3D; f2526536d4bc50cd01a8585c9a670d1b/78-119_188-435; #=GS A0A0F7P7P4/78-119_188-435 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halanaeroarchaeum; Halanaeroarchaeum sulfurireducens; #=GS A0A0F7P7P4/78-119_188-435 DR EC; 3.6.3.14; #=GS A0A0E3PIT0/50-91_160-407 AC A0A0E3PIT0 #=GS A0A0E3PIT0/50-91_160-407 OS Methanosarcina siciliae HI350 #=GS A0A0E3PIT0/50-91_160-407 DE V-type ATP synthase alpha chain #=GS A0A0E3PIT0/50-91_160-407 DR GENE3D; f4249dab09c071ce5e3553822ccce023/50-91_160-407; #=GS A0A0E3PIT0/50-91_160-407 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina siciliae; #=GS A0A0E3PIT0/50-91_160-407 DR EC; 3.6.3.14; #=GS A0A0W1STS2/81-123_192-439 AC A0A0W1STS2 #=GS A0A0W1STS2/81-123_192-439 OS Haloferax sp. SB29 #=GS A0A0W1STS2/81-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A0W1STS2/81-123_192-439 DR GENE3D; f424ed8cc119c7203fd7a14ee4e4cf03/81-123_192-439; #=GS A0A0W1STS2/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax sp. SB29; #=GS A0A0W1STS2/81-123_192-439 DR EC; 3.6.3.14; #=GS L0IE93/82-124_193-440 AC L0IE93 #=GS L0IE93/82-124_193-440 OS Halovivax ruber XH-70 #=GS L0IE93/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L0IE93/82-124_193-440 DR GENE3D; f0fa113114c06a245f61268e073f2f91/82-124_193-440; #=GS L0IE93/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Halovivax; Halovivax ruber; #=GS L0IE93/82-124_193-440 DR EC; 3.6.3.14; #=GS W5ST62/76-117_191-436 AC W5ST62 #=GS W5ST62/76-117_191-436 OS Borrelia parkeri SLO #=GS W5ST62/76-117_191-436 DE V-type ATP synthase alpha chain #=GS W5ST62/76-117_191-436 DR GENE3D; f15b872f36cb33e5b24b99578a99f8f9/76-117_191-436; #=GS W5ST62/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia parkeri; #=GS W5ST62/76-117_191-436 DR EC; 3.6.3.14; #=GS A0A174G9Q3/2-227 AC A0A174G9Q3 #=GS A0A174G9Q3/2-227 OS Dorea longicatena #=GS A0A174G9Q3/2-227 DE V-type ATP synthase alpha chain #=GS A0A174G9Q3/2-227 DR GENE3D; f61e577ad0912784c59e53c76ebdc760/2-227; #=GS A0A174G9Q3/2-227 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Dorea; Dorea longicatena; #=GS A0A174G9Q3/2-227 DR EC; 3.6.3.14; #=GS A0A1G1Q8Q8/63-104_178-423 AC A0A1G1Q8Q8 #=GS A0A1G1Q8Q8/63-104_178-423 OS Omnitrophica WOR_2 bacterium RIFOXYA2_FULL_38_17 #=GS A0A1G1Q8Q8/63-104_178-423 DE V-type ATP synthase alpha chain #=GS A0A1G1Q8Q8/63-104_178-423 DR GENE3D; f36c2d1a935afdf35c32c2a5ebcc04c8/63-104_178-423; #=GS A0A1G1Q8Q8/63-104_178-423 DR ORG; Bacteria; Candidatus Omnitrophica; Omnitrophica WOR_2 bacterium RIFOXYA2_FULL_38_17; #=GS A0A1G1Q8Q8/63-104_178-423 DR EC; 3.6.3.14; #=GS D4JUB4/72-112_185-432 AC D4JUB4 #=GS D4JUB4/72-112_185-432 OS [Eubacterium] siraeum 70/3 #=GS D4JUB4/72-112_185-432 DE V-type ATP synthase alpha chain #=GS D4JUB4/72-112_185-432 DR GENE3D; f4f4585e3da25a021b3aa93b49df1154/72-112_185-432; #=GS D4JUB4/72-112_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminiclostridium; [Eubacterium] siraeum; #=GS D4JUB4/72-112_185-432 DR EC; 3.6.3.14; #=GS P22662/73-114_182-429 AC P22662 #=GS P22662/73-114_182-429 OS Methanosarcina barkeri #=GS P22662/73-114_182-429 DE V-type ATP synthase alpha chain #=GS P22662/73-114_182-429 DR GENE3D; ea608717cd51c7156edf6009f13566a9/73-114_182-429; #=GS P22662/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS P22662/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A1D2X0G8/73-114_182-429 AC A0A1D2X0G8 #=GS A0A1D2X0G8/73-114_182-429 OS Methanosarcina sp. A14 #=GS A0A1D2X0G8/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A1D2X0G8/73-114_182-429 DR GENE3D; ea608717cd51c7156edf6009f13566a9/73-114_182-429; #=GS A0A1D2X0G8/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. A14; #=GS A0A1D2X0G8/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0G3CIZ2/73-114_182-429 AC A0A0G3CIZ2 #=GS A0A0G3CIZ2/73-114_182-429 OS Methanosarcina barkeri CM1 #=GS A0A0G3CIZ2/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0G3CIZ2/73-114_182-429 DR GENE3D; ea608717cd51c7156edf6009f13566a9/73-114_182-429; #=GS A0A0G3CIZ2/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0G3CIZ2/73-114_182-429 DR EC; 3.6.3.14; #=GS R4VVN1/82-124_193-440 AC R4VVN1 #=GS R4VVN1/82-124_193-440 OS Salinarchaeum sp. Harcht-Bsk1 #=GS R4VVN1/82-124_193-440 DE V-type ATP synthase alpha chain #=GS R4VVN1/82-124_193-440 DR GENE3D; f7505f45b7c867ebe8c3cba2684e853e/82-124_193-440; #=GS R4VVN1/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Salinarchaeum; Salinarchaeum sp. Harcht-Bsk1; #=GS R4VVN1/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A075FSN8/74-115_183-430 AC A0A075FSN8 #=GS A0A075FSN8/74-115_183-430 OS uncultured marine group II/III euryarchaeote AD1000_22_H02 #=GS A0A075FSN8/74-115_183-430 DE V-type ATP synthase alpha chain #=GS A0A075FSN8/74-115_183-430 DR GENE3D; f6e7fde547625ff978d69313c25adf91/74-115_183-430; #=GS A0A075FSN8/74-115_183-430 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote AD1000_22_H02; #=GS A0A075FSN8/74-115_183-430 DR EC; 3.6.3.14; #=GS A0A075FPJ4/74-115_183-430 AC A0A075FPJ4 #=GS A0A075FPJ4/74-115_183-430 OS uncultured marine group II/III euryarchaeote AD1000_31_H02 #=GS A0A075FPJ4/74-115_183-430 DE V-type ATP synthase alpha chain #=GS A0A075FPJ4/74-115_183-430 DR GENE3D; f6e7fde547625ff978d69313c25adf91/74-115_183-430; #=GS A0A075FPJ4/74-115_183-430 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote AD1000_31_H02; #=GS A0A075FPJ4/74-115_183-430 DR EC; 3.6.3.14; #=GS L9VW36/82-124_193-440 AC L9VW36 #=GS L9VW36/82-124_193-440 OS Natronorubrum tibetense GA33 #=GS L9VW36/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L9VW36/82-124_193-440 DR GENE3D; fb1871e7da3a178c63b5945d3c3b1d0d/82-124_193-440; #=GS L9VW36/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natronorubrum; Natronorubrum tibetense; #=GS L9VW36/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A0Q0WWL8/76-117_185-432 AC A0A0Q0WWL8 #=GS A0A0Q0WWL8/76-117_185-432 OS Deinococcus sp. UR1 #=GS A0A0Q0WWL8/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A0Q0WWL8/76-117_185-432 DR GENE3D; f9844d9b1a4f5a906db6b590d53d7b8e/76-117_185-432; #=GS A0A0Q0WWL8/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus sp. UR1; #=GS A0A0Q0WWL8/76-117_185-432 DR EC; 3.6.3.14; #=GS A0A0E3NWW9/73-114_182-429 AC A0A0E3NWW9 #=GS A0A0E3NWW9/73-114_182-429 OS Methanosarcina sp. MTP4 #=GS A0A0E3NWW9/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0E3NWW9/73-114_182-429 DR GENE3D; f8758dc34baa012ea230cdf0d3a7c24c/73-114_182-429; #=GS A0A0E3NWW9/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. MTP4; #=GS A0A0E3NWW9/73-114_182-429 DR EC; 3.6.3.14; #=GS F5YFH7/77-118_192-438 AC F5YFH7 #=GS F5YFH7/77-118_192-438 OS Treponema azotonutricium ZAS-9 #=GS F5YFH7/77-118_192-438 DE V-type ATP synthase alpha chain #=GS F5YFH7/77-118_192-438 DR GENE3D; f9181b6645f48071f159182365dbee23/77-118_192-438; #=GS F5YFH7/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema azotonutricium; #=GS F5YFH7/77-118_192-438 DR EC; 3.6.3.14; #=GS A0A0G3EDZ2/77-118_192-438 AC A0A0G3EDZ2 #=GS A0A0G3EDZ2/77-118_192-438 OS Kiritimatiella glycovorans #=GS A0A0G3EDZ2/77-118_192-438 DE V-type ATP synthase alpha chain #=GS A0A0G3EDZ2/77-118_192-438 DR GENE3D; fad5d25a6ac38061dbad494ea3de64c9/77-118_192-438; #=GS A0A0G3EDZ2/77-118_192-438 DR ORG; Bacteria; Kiritimatiellaeota; Kiritimatiellae; Kiritimatiellales; Kiritimatiellaceae; Kiritimatiella; Kiritimatiella glycovorans; #=GS A0A0G3EDZ2/77-118_192-438 DR EC; 3.6.3.14; #=GS M0FE42/81-123_192-439 AC M0FE42 #=GS M0FE42/81-123_192-439 OS Haloferax sp. ATCC BAA-646 #=GS M0FE42/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0FE42/81-123_192-439 DR GENE3D; fb3711c10d479827ce9725f224e2cb82/81-123_192-439; #=GS M0FE42/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax sp. ATCC BAA-646; #=GS M0FE42/81-123_192-439 DR EC; 3.6.3.14; #=GS M0FSS0/81-123_192-439 AC M0FSS0 #=GS M0FSS0/81-123_192-439 OS Haloferax sp. ATCC BAA-645 #=GS M0FSS0/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0FSS0/81-123_192-439 DR GENE3D; fb3711c10d479827ce9725f224e2cb82/81-123_192-439; #=GS M0FSS0/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax sp. ATCC BAA-645; #=GS M0FSS0/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A1J5E7T1/77-118_192-437 AC A0A1J5E7T1 #=GS A0A1J5E7T1/77-118_192-437 OS Fibrobacteres bacterium CG2_30_45_31 #=GS A0A1J5E7T1/77-118_192-437 DE V-type ATP synthase alpha chain #=GS A0A1J5E7T1/77-118_192-437 DR GENE3D; fb425f50740b2e4b3aa4099b46bbdbf0/77-118_192-437; #=GS A0A1J5E7T1/77-118_192-437 DR ORG; Bacteria; Fibrobacteres; Fibrobacteres bacterium CG2_30_45_31; #=GS A0A1J5E7T1/77-118_192-437 DR EC; 3.6.3.14; #=GS A0A1M4MKC4/79-120_188-435 AC A0A1M4MKC4 #=GS A0A1M4MKC4/79-120_188-435 OS Methanoculleus chikugoensis #=GS A0A1M4MKC4/79-120_188-435 DE V-type ATP synthase alpha chain #=GS A0A1M4MKC4/79-120_188-435 DR GENE3D; eeb7b61320ab824aa4fabe58df863d97/79-120_188-435; #=GS A0A1M4MKC4/79-120_188-435 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus chikugoensis; #=GS A0A1M4MKC4/79-120_188-435 DR EC; 3.6.3.14; #=GS Q255D9/83-122_196-443 AC Q255D9 #=GS Q255D9/83-122_196-443 OS Chlamydia felis Fe/C-56 #=GS Q255D9/83-122_196-443 DE V-type ATP synthase alpha chain #=GS Q255D9/83-122_196-443 DR GENE3D; eee153a98d53dd332bd2ab628c372837/83-122_196-443; #=GS Q255D9/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia felis; #=GS Q255D9/83-122_196-443 DR EC; 3.6.3.14; #=GS L9Z256/82-124_193-440 AC L9Z256 #=GS L9Z256/82-124_193-440 OS Natrinema gari JCM 14663 #=GS L9Z256/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L9Z256/82-124_193-440 DR GENE3D; fdd26181118d19e2b6aea84aef10a359/82-124_193-440; #=GS L9Z256/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrinema; Natrinema gari; #=GS L9Z256/82-124_193-440 DR EC; 3.6.3.14; #=GS M0GR69/81-123_192-439 AC M0GR69 #=GS M0GR69/81-123_192-439 OS Haloferax prahovense DSM 18310 #=GS M0GR69/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0GR69/81-123_192-439 DR GENE3D; fc370cee681b3de1063b89f6ca90e085/81-123_192-439; #=GS M0GR69/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax prahovense; #=GS M0GR69/81-123_192-439 DR EC; 3.6.3.14; #=GS D3PVL2/77-111_179-425 AC D3PVL2 #=GS D3PVL2/77-111_179-425 OS Stackebrandtia nassauensis DSM 44728 #=GS D3PVL2/77-111_179-425 DE H(+)-transporting two-sector ATPase #=GS D3PVL2/77-111_179-425 DR GENE3D; efdb2c70a3bf587ff0c44417d20b9197/77-111_179-425; #=GS D3PVL2/77-111_179-425 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Glycomycetales; Glycomycetaceae; Stackebrandtia; Stackebrandtia nassauensis; #=GS D3PVL2/77-111_179-425 DR EC; 3.6.3.14; #=GS C8X3W4/89-130_204-450 AC C8X3W4 #=GS C8X3W4/89-130_204-450 OS Desulfohalobium retbaense DSM 5692 #=GS C8X3W4/89-130_204-450 DE V-type ATP synthase alpha chain #=GS C8X3W4/89-130_204-450 DR GENE3D; ff30ceaaeec017f66182c854e8e774e8/89-130_204-450; #=GS C8X3W4/89-130_204-450 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfohalobiaceae; Desulfohalobium; Desulfohalobium retbaense; #=GS C8X3W4/89-130_204-450 DR EC; 3.6.3.14; #=GS A0A0F7WKG7/83-122_196-443 AC A0A0F7WKG7 #=GS A0A0F7WKG7/83-122_196-443 OS Chlamydia pneumoniae #=GS A0A0F7WKG7/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A0F7WKG7/83-122_196-443 DR GENE3D; 00008705aa941ffeb939236f004f632a/83-122_196-443; #=GS A0A0F7WKG7/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia pneumoniae; #=GS A0A0F7WKG7/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A0X8H1Z5/71-112_179-426 AC A0A0X8H1Z5 #=GS A0A0X8H1Z5/71-112_179-426 OS Erysipelothrix larvae #=GS A0A0X8H1Z5/71-112_179-426 DE V-type ATP synthase alpha chain #=GS A0A0X8H1Z5/71-112_179-426 DR GENE3D; fff7adc9ab6f5bad67e2c1d78cbe8a53/71-112_179-426; #=GS A0A0X8H1Z5/71-112_179-426 DR ORG; Bacteria; Firmicutes; Erysipelotrichia; Erysipelotrichales; Erysipelotrichaceae; Erysipelothrix; Erysipelothrix larvae; #=GS A0A0X8H1Z5/71-112_179-426 DR EC; 3.6.3.14; #=GS V4GVS7/82-124_193-440 AC V4GVS7 #=GS V4GVS7/82-124_193-440 OS Candidatus Halobonum tyrrellensis G22 #=GS V4GVS7/82-124_193-440 DE V-type ATP synthase alpha chain #=GS V4GVS7/82-124_193-440 DR GENE3D; f54f35c44ed92c4f93a490d6efd7107c/82-124_193-440; #=GS V4GVS7/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Candidatus Halobonum; Candidatus Halobonum tyrrellensis; #=GS V4GVS7/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A0A7LD87/73-114_181-427 AC A0A0A7LD87 #=GS A0A0A7LD87/73-114_181-427 OS Candidatus Methanoplasma termitum #=GS A0A0A7LD87/73-114_181-427 DE V-type ATP synthase alpha chain #=GS A0A0A7LD87/73-114_181-427 DR GENE3D; f5ec3689f9940a810222b1345d09bc6a/73-114_181-427; #=GS A0A0A7LD87/73-114_181-427 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Methanomassiliicoccales; Methanomassiliicoccaceae; Candidatus Methanoplasma; Candidatus Methanoplasma termitum; #=GS A0A0A7LD87/73-114_181-427 DR EC; 3.6.3.14; #=GS D5E704/71-112_180-427 AC D5E704 #=GS D5E704/71-112_180-427 OS Methanohalophilus mahii DSM 5219 #=GS D5E704/71-112_180-427 DE V-type ATP synthase alpha chain #=GS D5E704/71-112_180-427 DR GENE3D; 03d94ccfd74adeda5a4823fa7a90f79c/71-112_180-427; #=GS D5E704/71-112_180-427 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanohalophilus; Methanohalophilus mahii; #=GS D5E704/71-112_180-427 DR EC; 3.6.3.14; #=GS A0A0Q5IL02/76-117_185-432 AC A0A0Q5IL02 #=GS A0A0Q5IL02/76-117_185-432 OS Deinococcus sp. Leaf326 #=GS A0A0Q5IL02/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A0Q5IL02/76-117_185-432 DR GENE3D; 061042bbf894216715054910cdf10bc2/76-117_185-432; #=GS A0A0Q5IL02/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus sp. Leaf326; #=GS A0A0Q5IL02/76-117_185-432 DR EC; 3.6.3.14; #=GS Q2IQ95/72-113_181-427 AC Q2IQ95 #=GS Q2IQ95/72-113_181-427 OS Anaeromyxobacter dehalogenans 2CP-C #=GS Q2IQ95/72-113_181-427 DE V-type ATP synthase alpha chain #=GS Q2IQ95/72-113_181-427 DR GENE3D; f8166961d7d574e13c7c701b6324c02a/72-113_181-427; #=GS Q2IQ95/72-113_181-427 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Cystobacterineae; Anaeromyxobacteraceae; Anaeromyxobacter; Anaeromyxobacter dehalogenans; #=GS Q2IQ95/72-113_181-427 DR EC; 3.6.3.14; #=GS A0A0B5I1A9/73-114_184-431 AC A0A0B5I1A9 #=GS A0A0B5I1A9/73-114_184-431 OS archaeon GW2011_AR15 #=GS A0A0B5I1A9/73-114_184-431 DE V-type ATP synthase alpha chain #=GS A0A0B5I1A9/73-114_184-431 DR GENE3D; 05ed2dd65ae43b410c7c75c472bff833/73-114_184-431; #=GS A0A0B5I1A9/73-114_184-431 DR ORG; Archaea; archaeon GW2011_AR15; #=GS A0A0B5I1A9/73-114_184-431 DR EC; 3.6.3.14; #=GS Q60186/73-114_182-429 AC Q60186 #=GS Q60186/73-114_182-429 OS Methanosarcina mazei Go1 #=GS Q60186/73-114_182-429 DE V-type ATP synthase alpha chain #=GS Q60186/73-114_182-429 DR GENE3D; f979e7843ba5c06d14ee0dd77e0ab921/73-114_182-429; #=GS Q60186/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS Q60186/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A0F8P8C6/73-114_182-429 AC A0A0F8P8C6 #=GS A0A0F8P8C6/73-114_182-429 OS Methanosarcina mazei #=GS A0A0F8P8C6/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0F8P8C6/73-114_182-429 DR GENE3D; f979e7843ba5c06d14ee0dd77e0ab921/73-114_182-429; #=GS A0A0F8P8C6/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0F8P8C6/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A1J5T1K6/73-114_182-429 AC A0A1J5T1K6 #=GS A0A1J5T1K6/73-114_182-429 OS Marine Group III euryarchaeote CG-Bathy2 #=GS A0A1J5T1K6/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A1J5T1K6/73-114_182-429 DR GENE3D; fa0c42575f8dfb254f8593a272637874/73-114_182-429; #=GS A0A1J5T1K6/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Marine Group III euryarchaeote CG-Bathy2; #=GS A0A1J5T1K6/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A061AFQ5/72-113_185-432 AC A0A061AFQ5 #=GS A0A061AFQ5/72-113_185-432 OS Acholeplasma oculi #=GS A0A061AFQ5/72-113_185-432 DE V-type ATP synthase alpha chain #=GS A0A061AFQ5/72-113_185-432 DR GENE3D; fbe5829c2baf1a6ebb4fa3d66d92b321/72-113_185-432; #=GS A0A061AFQ5/72-113_185-432 DR ORG; Bacteria; Tenericutes; Mollicutes; Acholeplasmatales; Acholeplasmataceae; Acholeplasma; Acholeplasma oculi; #=GS A0A061AFQ5/72-113_185-432 DR EC; 3.6.3.14; #=GS E7NSP2/77-118_192-440 AC E7NSP2 #=GS E7NSP2/77-118_192-440 OS Treponema phagedenis F0421 #=GS E7NSP2/77-118_192-440 DE V-type ATP synthase alpha chain #=GS E7NSP2/77-118_192-440 DR GENE3D; 0a32bf5646fe686c040d2065298b6adb/77-118_192-440; #=GS E7NSP2/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema phagedenis; #=GS E7NSP2/77-118_192-440 DR EC; 3.6.3.14; #=GS J0S286/68-109_178-425 AC J0S286 #=GS J0S286/68-109_178-425 OS Methanofollis liminatans DSM 4140 #=GS J0S286/68-109_178-425 DE V-type ATP synthase alpha chain #=GS J0S286/68-109_178-425 DR GENE3D; 0dec0951cfe965ab951e617efd448abb/68-109_178-425; #=GS J0S286/68-109_178-425 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanofollis; Methanofollis liminatans; #=GS J0S286/68-109_178-425 DR EC; 3.6.3.14; #=GS A0A0W1RHQ1/81-123_192-439 AC A0A0W1RHQ1 #=GS A0A0W1RHQ1/81-123_192-439 OS Haloferax sp. SB3 #=GS A0A0W1RHQ1/81-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A0W1RHQ1/81-123_192-439 DR GENE3D; feb3cab89cb20be9c010695b877efc02/81-123_192-439; #=GS A0A0W1RHQ1/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax sp. SB3; #=GS A0A0W1RHQ1/81-123_192-439 DR EC; 3.6.3.14; #=GS Q0SP70/76-117_191-437 AC Q0SP70 #=GS Q0SP70/76-117_191-437 OS Borrelia afzelii PKo #=GS Q0SP70/76-117_191-437 DE V-type ATP synthase alpha chain #=GS Q0SP70/76-117_191-437 DR GENE3D; fed1844d67a7530c2c17a40c7726a51a/76-117_191-437; #=GS Q0SP70/76-117_191-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borreliella; Borreliella afzelii; #=GS Q0SP70/76-117_191-437 DR EC; 3.6.3.14; #=GS I7CJZ6/82-124_193-440 AC I7CJZ6 #=GS I7CJZ6/82-124_193-440 OS Natrinema sp. J7-2 #=GS I7CJZ6/82-124_193-440 DE V-type ATP synthase alpha chain #=GS I7CJZ6/82-124_193-440 DR GENE3D; 0f270f9d9b606271658a0242d9af823b/82-124_193-440; #=GS I7CJZ6/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrinema; Natrinema sp. J7-2; #=GS I7CJZ6/82-124_193-440 DR EC; 3.6.3.14; #=GS R6EHR4/72-113_185-432 AC R6EHR4 #=GS R6EHR4/72-113_185-432 OS Ruminococcus sp. CAG:563 #=GS R6EHR4/72-113_185-432 DE V-type ATP synthase alpha chain #=GS R6EHR4/72-113_185-432 DR GENE3D; 109567469515e44ce5e475b5a4919358/72-113_185-432; #=GS R6EHR4/72-113_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminococcus; Ruminococcus sp. CAG:563; #=GS R6EHR4/72-113_185-432 DR EC; 3.6.3.14; #=GS A0A0E3SSX5/64-105_173-420 AC A0A0E3SSX5 #=GS A0A0E3SSX5/64-105_173-420 OS Methanococcoides methylutens MM1 #=GS A0A0E3SSX5/64-105_173-420 DE V-type ATP synthase alpha chain #=GS A0A0E3SSX5/64-105_173-420 DR GENE3D; 10c6d58e9f686c22e882d774cbe11aa8/64-105_173-420; #=GS A0A0E3SSX5/64-105_173-420 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanococcoides; Methanococcoides methylutens; #=GS A0A0E3SSX5/64-105_173-420 DR EC; 3.6.3.14; #=GS A0A1F9ZJI7/75-116_183-430 AC A0A1F9ZJI7 #=GS A0A1F9ZJI7/75-116_183-430 OS Euryarchaeota archaeon RBG_13_61_15 #=GS A0A1F9ZJI7/75-116_183-430 DE V-type ATP synthase alpha chain #=GS A0A1F9ZJI7/75-116_183-430 DR GENE3D; 11145a12345021f29e1527cbe1b394d9/75-116_183-430; #=GS A0A1F9ZJI7/75-116_183-430 DR ORG; Archaea; Euryarchaeota; Euryarchaeota archaeon RBG_13_61_15; #=GS A0A1F9ZJI7/75-116_183-430 DR EC; 3.6.3.14; #=GS M0BIL0/82-124_193-440 AC M0BIL0 #=GS M0BIL0/82-124_193-440 OS Halovivax asiaticus JCM 14624 #=GS M0BIL0/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0BIL0/82-124_193-440 DR GENE3D; 13617247e8e029dd137bed1f0444178c/82-124_193-440; #=GS M0BIL0/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Halovivax; Halovivax asiaticus; #=GS M0BIL0/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1G1HM33/72-113_181-430 AC A0A1G1HM33 #=GS A0A1G1HM33/72-113_181-430 OS Nitrospirae bacterium RIFCSPLOW2_12_42_9 #=GS A0A1G1HM33/72-113_181-430 DE V-type ATP synthase alpha chain #=GS A0A1G1HM33/72-113_181-430 DR GENE3D; 1622fa2ce01baa01b6704b9dadb84aab/72-113_181-430; #=GS A0A1G1HM33/72-113_181-430 DR ORG; Bacteria; Nitrospirae; Nitrospirae bacterium RIFCSPLOW2_12_42_9; #=GS A0A1G1HM33/72-113_181-430 DR EC; 3.6.3.14; #=GS A0A1D8TCM9/76-117_191-436 AC A0A1D8TCM9 #=GS A0A1D8TCM9/76-117_191-436 OS Borrelia miyamotoi #=GS A0A1D8TCM9/76-117_191-436 DE V-type ATP synthase alpha chain #=GS A0A1D8TCM9/76-117_191-436 DR GENE3D; 16358d6292345de122f49efc6c2c4672/76-117_191-436; #=GS A0A1D8TCM9/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Borreliaceae; Borrelia; Borrelia miyamotoi; #=GS A0A1D8TCM9/76-117_191-436 DR EC; 3.6.3.14; #=GS F0GUI7/72-113_183-430 AC F0GUI7 #=GS F0GUI7/72-113_183-430 OS Anaerococcus prevotii ACS-065-V-Col13 #=GS F0GUI7/72-113_183-430 DE V-type ATP synthase alpha chain #=GS F0GUI7/72-113_183-430 DR GENE3D; 17d4afc32d23e94ec7c33dac9c3b118e/72-113_183-430; #=GS F0GUI7/72-113_183-430 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Anaerococcus; Anaerococcus prevotii; #=GS F0GUI7/72-113_183-430 DR EC; 3.6.3.14; #=GS A0A0N8W6S7/73-114_181-430 AC A0A0N8W6S7 #=GS A0A0N8W6S7/73-114_181-430 OS Methanoculleus sp. SDB #=GS A0A0N8W6S7/73-114_181-430 DE V-type ATP synthase alpha chain #=GS A0A0N8W6S7/73-114_181-430 DR GENE3D; 1c144f6cbfb8842349d86497e7ca4666/73-114_181-430; #=GS A0A0N8W6S7/73-114_181-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus sp. SDB; #=GS A0A0N8W6S7/73-114_181-430 DR EC; 3.6.3.14; #=GS S3LC95/77-118_192-440 AC S3LC95 #=GS S3LC95/77-118_192-440 OS Treponema vincentii F0403 #=GS S3LC95/77-118_192-440 DE V-type ATP synthase alpha chain #=GS S3LC95/77-118_192-440 DR GENE3D; 2104d7a433173af70d4a7070a02f5d54/77-118_192-440; #=GS S3LC95/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema vincentii; #=GS S3LC95/77-118_192-440 DR EC; 3.6.3.14; #=GS A0A1D8MTE8/70-111_178-426 AC A0A1D8MTE8 #=GS A0A1D8MTE8/70-111_178-426 OS Nanohaloarchaea archaeon SG9 #=GS A0A1D8MTE8/70-111_178-426 DE V-type ATP synthase alpha chain #=GS A0A1D8MTE8/70-111_178-426 DR GENE3D; 2277d15b7bd2adc1a2197b1f8326eb35/70-111_178-426; #=GS A0A1D8MTE8/70-111_178-426 DR ORG; Archaea; Candidatus Nanohaloarchaeota; Nanohaloarchaea; Nanohaloarchaea archaeon SG9; #=GS A0A1D8MTE8/70-111_178-426 DR EC; 3.6.3.14; #=GS M0MW92/81-122_191-438 AC M0MW92 #=GS M0MW92/81-122_191-438 OS Halococcus morrhuae DSM 1307 #=GS M0MW92/81-122_191-438 DE V-type ATP synthase alpha chain #=GS M0MW92/81-122_191-438 DR GENE3D; 2473ce325a0da477f51c28780f7368e8/81-122_191-438; #=GS M0MW92/81-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halococcaceae; Halococcus; Halococcus morrhuae; #=GS M0MW92/81-122_191-438 DR EC; 3.6.3.14; #=GS M0D416/81-123_196-443 AC M0D416 #=GS M0D416/81-123_196-443 OS Halosimplex carlsbadense 2-9-1 #=GS M0D416/81-123_196-443 DE V-type ATP synthase alpha chain #=GS M0D416/81-123_196-443 DR GENE3D; 24cf03be1cc95cf4b7d5fa5b1d5ce81b/81-123_196-443; #=GS M0D416/81-123_196-443 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Halosimplex; Halosimplex carlsbadense; #=GS M0D416/81-123_196-443 DR EC; 3.6.3.14; #=GS H6KTY7/78-119_196-443 AC H6KTY7 #=GS H6KTY7/78-119_196-443 OS Treponema pallidum subsp. pertenue str. CDC2 #=GS H6KTY7/78-119_196-443 DE V-type ATP synthase alpha chain #=GS H6KTY7/78-119_196-443 DR GENE3D; 24f35e41ab4bdd3468ffbb48e211d23c/78-119_196-443; #=GS H6KTY7/78-119_196-443 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pallidum; Treponema pallidum subsp. pertenue; #=GS H6KTY7/78-119_196-443 DR EC; 3.6.3.14; #=GS A0A1E3X8N7/76-117_191-435 AC A0A1E3X8N7 #=GS A0A1E3X8N7/76-117_191-435 OS Candidatus Scalindua rubra #=GS A0A1E3X8N7/76-117_191-435 DE V-type ATP synthase alpha chain #=GS A0A1E3X8N7/76-117_191-435 DR GENE3D; 251ffe3f11c1e14c363619328fe85126/76-117_191-435; #=GS A0A1E3X8N7/76-117_191-435 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Candidatus Brocadiales; Candidatus Brocadiaceae; Candidatus Scalindua; Candidatus Scalindua rubra; #=GS A0A1E3X8N7/76-117_191-435 DR EC; 3.6.3.14; #=GS A0A0A0X5B6/77-118_192-440 AC A0A0A0X5B6 #=GS A0A0A0X5B6/77-118_192-440 OS Treponema sp. OMZ 838 #=GS A0A0A0X5B6/77-118_192-440 DE V-type ATP synthase alpha chain #=GS A0A0A0X5B6/77-118_192-440 DR GENE3D; 2594abe67c4fdf980b17a59fe888aefa/77-118_192-440; #=GS A0A0A0X5B6/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema sp. OMZ 838; #=GS A0A0A0X5B6/77-118_192-440 DR EC; 3.6.3.14; #=GS A0A1F8JJC9/80-121_195-443 AC A0A1F8JJC9 #=GS A0A1F8JJC9/80-121_195-443 OS Chlamydiae bacterium RIFCSPHIGHO2_12_FULL_49_11 #=GS A0A1F8JJC9/80-121_195-443 DE V-type ATP synthase alpha chain #=GS A0A1F8JJC9/80-121_195-443 DR GENE3D; 2a81fdee7411506ce6dd5005cd35add8/80-121_195-443; #=GS A0A1F8JJC9/80-121_195-443 DR ORG; Bacteria; Chlamydiae; Chlamydiae bacterium RIFCSPHIGHO2_12_FULL_49_11; #=GS A0A1F8JJC9/80-121_195-443 DR EC; 3.6.3.14; #=GS U1QN93/80-122_191-438 AC U1QN93 #=GS U1QN93/80-122_191-438 OS Halonotius sp. J07HN4 #=GS U1QN93/80-122_191-438 DE V-type ATP synthase alpha chain #=GS U1QN93/80-122_191-438 DR GENE3D; 2ec0ee267f03877c2acc4ca13445002f/80-122_191-438; #=GS U1QN93/80-122_191-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halonotius; Halonotius sp. J07HN4; #=GS U1QN93/80-122_191-438 DR EC; 3.6.3.14; #=GS A0A1B2GIM4/87-122_190-437 AC A0A1B2GIM4 #=GS A0A1B2GIM4/87-122_190-437 OS Streptomyces noursei ATCC 11455 #=GS A0A1B2GIM4/87-122_190-437 DE V-type ATP synthase alpha chain #=GS A0A1B2GIM4/87-122_190-437 DR GENE3D; 2f81f7af9ac85be5f2cb164d598325ac/87-122_190-437; #=GS A0A1B2GIM4/87-122_190-437 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces noursei; #=GS A0A1B2GIM4/87-122_190-437 DR EC; 3.6.3.14; #=GS U2NLE4/73-113_185-432 AC U2NLE4 #=GS U2NLE4/73-113_185-432 OS Clostridium intestinale URNW #=GS U2NLE4/73-113_185-432 DE V-type ATP synthase alpha chain #=GS U2NLE4/73-113_185-432 DR GENE3D; 31c961415d849bd0a8cc2aea9e2bbdbf/73-113_185-432; #=GS U2NLE4/73-113_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium intestinale; #=GS U2NLE4/73-113_185-432 DR EC; 3.6.3.14; #=GS A0A1G1KNE5/76-117_189-436 AC A0A1G1KNE5 #=GS A0A1G1KNE5/76-117_189-436 OS Omnitrophica bacterium RIFCSPLOWO2_12_FULL_45_13 #=GS A0A1G1KNE5/76-117_189-436 DE V-type ATP synthase alpha chain #=GS A0A1G1KNE5/76-117_189-436 DR GENE3D; 338b89f98d0e0e9f4caac7fd5bcef7cd/76-117_189-436; #=GS A0A1G1KNE5/76-117_189-436 DR ORG; Bacteria; Candidatus Omnitrophica; Omnitrophica bacterium RIFCSPLOWO2_12_FULL_45_13; #=GS A0A1G1KNE5/76-117_189-436 DR EC; 3.6.3.14; #=GS A0A1G1KQ90/76-117_189-436 AC A0A1G1KQ90 #=GS A0A1G1KQ90/76-117_189-436 OS Omnitrophica bacterium RIFCSPLOWO2_01_FULL_45_24 #=GS A0A1G1KQ90/76-117_189-436 DE V-type ATP synthase alpha chain #=GS A0A1G1KQ90/76-117_189-436 DR GENE3D; 338b89f98d0e0e9f4caac7fd5bcef7cd/76-117_189-436; #=GS A0A1G1KQ90/76-117_189-436 DR ORG; Bacteria; Candidatus Omnitrophica; Omnitrophica bacterium RIFCSPLOWO2_01_FULL_45_24; #=GS A0A1G1KQ90/76-117_189-436 DR EC; 3.6.3.14; #=GS L0KUG8/73-114_182-429 AC L0KUG8 #=GS L0KUG8/73-114_182-429 OS Methanomethylovorans hollandica DSM 15978 #=GS L0KUG8/73-114_182-429 DE V-type ATP synthase alpha chain #=GS L0KUG8/73-114_182-429 DR GENE3D; 3794d940355355ca58740890ed5449f4/73-114_182-429; #=GS L0KUG8/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanomethylovorans; Methanomethylovorans hollandica; #=GS L0KUG8/73-114_182-429 DR EC; 3.6.3.14; #=GS D1YVD9/73-114_183-430 AC D1YVD9 #=GS D1YVD9/73-114_183-430 OS Methanocella paludicola SANAE #=GS D1YVD9/73-114_183-430 DE V-type ATP synthase alpha chain #=GS D1YVD9/73-114_183-430 DR GENE3D; 3f685899ab568cda8393612188477f32/73-114_183-430; #=GS D1YVD9/73-114_183-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanocellales; Methanocellaceae; Methanocella; Methanocella paludicola; #=GS D1YVD9/73-114_183-430 DR EC; 3.6.3.14; #=GS A0A120MIK2/73-114_181-428 AC A0A120MIK2 #=GS A0A120MIK2/73-114_181-428 OS methanogenic archaeon ISO4-H5 #=GS A0A120MIK2/73-114_181-428 DE V-type ATP synthase alpha chain #=GS A0A120MIK2/73-114_181-428 DR GENE3D; 3fb7ce554a8fab77d6daadc535a2aa84/73-114_181-428; #=GS A0A120MIK2/73-114_181-428 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; methanogenic archaeon ISO4-H5; #=GS A0A120MIK2/73-114_181-428 DR EC; 3.6.3.14; #=GS F5Y7W1/73-114_198-445 AC F5Y7W1 #=GS F5Y7W1/73-114_198-445 OS Treponema azotonutricium ZAS-9 #=GS F5Y7W1/73-114_198-445 DE V-type ATP synthase alpha chain #=GS F5Y7W1/73-114_198-445 DR GENE3D; 42b69b504e84c0e9abd371ed1c7c97af/73-114_198-445; #=GS F5Y7W1/73-114_198-445 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema azotonutricium; #=GS F5Y7W1/73-114_198-445 DR EC; 3.6.3.14; #=GS G2MHI8/81-123_192-439 AC G2MHI8 #=GS G2MHI8/81-123_192-439 OS halophilic archaeon DL31 #=GS G2MHI8/81-123_192-439 DE V-type ATP synthase alpha chain #=GS G2MHI8/81-123_192-439 DR GENE3D; 431fea664822259993d7bcec5add6905/81-123_192-439; #=GS G2MHI8/81-123_192-439 DR ORG; Archaea; halophilic archaeon DL31; #=GS G2MHI8/81-123_192-439 DR EC; 3.6.3.14; #=GS F5YR77/77-118_192-437 AC F5YR77 #=GS F5YR77/77-118_192-437 OS Treponema primitia ZAS-2 #=GS F5YR77/77-118_192-437 DE V-type ATP synthase alpha chain #=GS F5YR77/77-118_192-437 DR GENE3D; 4f5cfd1ee509f90a954e8096426d5103/77-118_192-437; #=GS F5YR77/77-118_192-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema primitia; #=GS F5YR77/77-118_192-437 DR EC; 3.6.3.14; #=GS A0A0N8KR22/73-114_182-429 AC A0A0N8KR22 #=GS A0A0N8KR22/73-114_182-429 OS Candidatus Methanoperedens sp. BLZ1 #=GS A0A0N8KR22/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0N8KR22/73-114_182-429 DR GENE3D; 4fc9665ab229a454be24b5418b001b14/73-114_182-429; #=GS A0A0N8KR22/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Candidatus Methanoperedenaceae; Candidatus Methanoperedens; Candidatus Methanoperedens sp. BLZ1; #=GS A0A0N8KR22/73-114_182-429 DR EC; 3.6.3.14; #=GS S3K4T5/73-114_184-431 AC S3K4T5 #=GS S3K4T5/73-114_184-431 OS Treponema maltophilum ATCC 51939 #=GS S3K4T5/73-114_184-431 DE V-type ATP synthase alpha chain #=GS S3K4T5/73-114_184-431 DR GENE3D; 55ad2529a05210d2ae511faedd27976d/73-114_184-431; #=GS S3K4T5/73-114_184-431 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema maltophilum; #=GS S3K4T5/73-114_184-431 DR EC; 3.6.3.14; #=GS A0A1G3YGK9/77-118_192-437 AC A0A1G3YGK9 #=GS A0A1G3YGK9/77-118_192-437 OS Treponema sp. GWC1_61_84 #=GS A0A1G3YGK9/77-118_192-437 DE V-type ATP synthase alpha chain #=GS A0A1G3YGK9/77-118_192-437 DR GENE3D; 54f8d16e8aee7b959221e5fdaac98bca/77-118_192-437; #=GS A0A1G3YGK9/77-118_192-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema sp. GWC1_61_84; #=GS A0A1G3YGK9/77-118_192-437 DR EC; 3.6.3.14; #=GS H7EKD2/76-116_188-435 AC H7EKD2 #=GS H7EKD2/76-116_188-435 OS Treponema saccharophilum DSM 2985 #=GS H7EKD2/76-116_188-435 DE V-type ATP synthase alpha chain #=GS H7EKD2/76-116_188-435 DR GENE3D; 5599feec67cbf191608c897d7fd16e54/76-116_188-435; #=GS H7EKD2/76-116_188-435 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema saccharophilum; #=GS H7EKD2/76-116_188-435 DR EC; 3.6.3.14; #=GS D5EEX9/76-116_186-435 AC D5EEX9 #=GS D5EEX9/76-116_186-435 OS Aminobacterium colombiense DSM 12261 #=GS D5EEX9/76-116_186-435 DE V-type ATP synthase alpha chain #=GS D5EEX9/76-116_186-435 DR GENE3D; 5914ff5243aafe14a8e5346f1fa5a6aa/76-116_186-435; #=GS D5EEX9/76-116_186-435 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistaceae; Aminobacterium; Aminobacterium colombiense; #=GS D5EEX9/76-116_186-435 DR EC; 3.6.3.14; #=GS A0A1G0Y5T6/77-118_192-437 AC A0A1G0Y5T6 #=GS A0A1G0Y5T6/77-118_192-437 OS Lentisphaerae bacterium GWF2_57_35 #=GS A0A1G0Y5T6/77-118_192-437 DE V-type ATP synthase alpha chain #=GS A0A1G0Y5T6/77-118_192-437 DR GENE3D; 5d0b930d58c194e91b605bdfeb32de16/77-118_192-437; #=GS A0A1G0Y5T6/77-118_192-437 DR ORG; Bacteria; Lentisphaerae; Lentisphaerae bacterium GWF2_57_35; #=GS A0A1G0Y5T6/77-118_192-437 DR EC; 3.6.3.14; #=GS A0A0B0SDM1/73-114_182-429 AC A0A0B0SDM1 #=GS A0A0B0SDM1/73-114_182-429 OS Thermus sp. 2.9 #=GS A0A0B0SDM1/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0B0SDM1/73-114_182-429 DR GENE3D; 5fa12a556e792a7e4b889889df700aa7/73-114_182-429; #=GS A0A0B0SDM1/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus sp. 2.9; #=GS A0A0B0SDM1/73-114_182-429 DR EC; 3.6.3.14; #=GS C0QT21/74-109_175-422 AC C0QT21 #=GS C0QT21/74-109_175-422 OS Persephonella marina EX-H1 #=GS C0QT21/74-109_175-422 DE V-type ATP synthase alpha chain #=GS C0QT21/74-109_175-422 DR GENE3D; 5ff23e63574fc4883ebc82cd831f0f05/74-109_175-422; #=GS C0QT21/74-109_175-422 DR ORG; Bacteria; Aquificae; Aquificae; Aquificales; Hydrogenothermaceae; Persephonella; Persephonella marina; #=GS C0QT21/74-109_175-422 DR EC; 3.6.3.14; #=GS D1Z0Z0/73-114_181-430 AC D1Z0Z0 #=GS D1Z0Z0/73-114_181-430 OS Methanocella paludicola SANAE #=GS D1Z0Z0/73-114_181-430 DE V-type ATP synthase alpha chain #=GS D1Z0Z0/73-114_181-430 DR GENE3D; 65892f885bf516c37ca98ea4b5ba4c79/73-114_181-430; #=GS D1Z0Z0/73-114_181-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanocellales; Methanocellaceae; Methanocella; Methanocella paludicola; #=GS D1Z0Z0/73-114_181-430 DR EC; 3.6.3.14; #=GS M0C7C4/82-124_193-440 AC M0C7C4 #=GS M0C7C4/82-124_193-440 OS Haloterrigena thermotolerans DSM 11522 #=GS M0C7C4/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0C7C4/82-124_193-440 DR GENE3D; 6334913b95568ae152353ae8ee2c1104/82-124_193-440; #=GS M0C7C4/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Haloterrigena; Haloterrigena thermotolerans; #=GS M0C7C4/82-124_193-440 DR EC; 3.6.3.14; #=GS L9XIU2/82-124_193-440 AC L9XIU2 #=GS L9XIU2/82-124_193-440 OS Natronococcus amylolyticus DSM 10524 #=GS L9XIU2/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L9XIU2/82-124_193-440 DR GENE3D; 68ceaf063ee2ce304b50c809abc194f2/82-124_193-440; #=GS L9XIU2/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natronococcus; Natronococcus amylolyticus; #=GS L9XIU2/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A0B3ALE8/94-135_204-393 AC A0A0B3ALE8 #=GS A0A0B3ALE8/94-135_204-393 OS archaeon GW2011_AR16 #=GS A0A0B3ALE8/94-135_204-393 DE V-type ATP synthase alpha chain #=GS A0A0B3ALE8/94-135_204-393 DR GENE3D; 6beebeb753f91f0f44197b1ce3ce9962/94-135_204-393; #=GS A0A0B3ALE8/94-135_204-393 DR ORG; Archaea; archaeon GW2011_AR16; #=GS A0A0B3ALE8/94-135_204-393 DR EC; 3.6.3.14; #=GS A0A1G1NLF2/63-104_178-423 AC A0A1G1NLF2 #=GS A0A1G1NLF2/63-104_178-423 OS Omnitrophica WOR_2 bacterium RIFCSPHIGHO2_01_FULL_52_10 #=GS A0A1G1NLF2/63-104_178-423 DE V-type ATP synthase alpha chain #=GS A0A1G1NLF2/63-104_178-423 DR GENE3D; 68c9ad1fde705f37a03884978e78995e/63-104_178-423; #=GS A0A1G1NLF2/63-104_178-423 DR ORG; Bacteria; Candidatus Omnitrophica; Omnitrophica WOR_2 bacterium RIFCSPHIGHO2_01_FULL_52_10; #=GS A0A1G1NLF2/63-104_178-423 DR EC; 3.6.3.14; #=GS B8GFQ8/82-123_191-438 AC B8GFQ8 #=GS B8GFQ8/82-123_191-438 OS Methanosphaerula palustris E1-9c #=GS B8GFQ8/82-123_191-438 DE V-type ATP synthase alpha chain #=GS B8GFQ8/82-123_191-438 DR GENE3D; 7230bb22ed3c15d7d33c6c741771067c/82-123_191-438; #=GS B8GFQ8/82-123_191-438 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanosphaerula; Methanosphaerula palustris; #=GS B8GFQ8/82-123_191-438 DR EC; 3.6.3.14; #=GS A0A174LWT2/1-194 AC A0A174LWT2 #=GS A0A174LWT2/1-194 OS Flavonifractor plautii #=GS A0A174LWT2/1-194 DE V-type ATP synthase alpha chain #=GS A0A174LWT2/1-194 DR GENE3D; 6e6391612d974698dc64512e91870f00/1-194; #=GS A0A174LWT2/1-194 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Flavonifractor; Flavonifractor plautii; #=GS A0A174LWT2/1-194 DR EC; 3.6.3.14; #=GS A0A0N0BQ06/81-123_192-439 AC A0A0N0BQ06 #=GS A0A0N0BQ06/81-123_192-439 OS Haloarcula rubripromontorii #=GS A0A0N0BQ06/81-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A0N0BQ06/81-123_192-439 DR GENE3D; 6f7c2852755b35477ec6956ebf8e8642/81-123_192-439; #=GS A0A0N0BQ06/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula rubripromontorii; #=GS A0A0N0BQ06/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A1E4BBD6/73-114_182-431 AC A0A1E4BBD6 #=GS A0A1E4BBD6/73-114_182-431 OS Gemmatimonadetes bacterium SCN 70-22 #=GS A0A1E4BBD6/73-114_182-431 DE V-type ATP synthase alpha chain #=GS A0A1E4BBD6/73-114_182-431 DR GENE3D; 6f9ec0e74eab477366847b1b4eced602/73-114_182-431; #=GS A0A1E4BBD6/73-114_182-431 DR ORG; Bacteria; Gemmatimonadetes; Gemmatimonadetes bacterium SCN 70-22; #=GS A0A1E4BBD6/73-114_182-431 DR EC; 3.6.3.14; #=GS A0A0D0NU99/72-112_180-427 AC A0A0D0NU99 #=GS A0A0D0NU99/72-112_180-427 OS Meiothermus ruber #=GS A0A0D0NU99/72-112_180-427 DE V-type ATP synthase alpha chain #=GS A0A0D0NU99/72-112_180-427 DR GENE3D; 7308898041c3958e2482158bc5b2521a/72-112_180-427; #=GS A0A0D0NU99/72-112_180-427 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Meiothermus; Meiothermus ruber; #=GS A0A0D0NU99/72-112_180-427 DR EC; 3.6.3.14; #=GS A0A161W7H8/72-112_180-427 AC A0A161W7H8 #=GS A0A161W7H8/72-112_180-427 OS Meiothermus taiwanensis #=GS A0A161W7H8/72-112_180-427 DE V-type ATP synthase alpha chain #=GS A0A161W7H8/72-112_180-427 DR GENE3D; 7308898041c3958e2482158bc5b2521a/72-112_180-427; #=GS A0A161W7H8/72-112_180-427 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Meiothermus; Meiothermus taiwanensis; #=GS A0A161W7H8/72-112_180-427 DR EC; 3.6.3.14; #=GS F5YGX5/74-115_193-440 AC F5YGX5 #=GS F5YGX5/74-115_193-440 OS Treponema primitia ZAS-2 #=GS F5YGX5/74-115_193-440 DE V-type ATP synthase alpha chain #=GS F5YGX5/74-115_193-440 DR GENE3D; 75b1dba9d96437dbefb74ee7357c6cd9/74-115_193-440; #=GS F5YGX5/74-115_193-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema primitia; #=GS F5YGX5/74-115_193-440 DR EC; 3.6.3.14; #=GS A0A151CGA3/74-109_178-425 AC A0A151CGA3 #=GS A0A151CGA3/74-109_178-425 OS Sulfurovum riftiae #=GS A0A151CGA3/74-109_178-425 DE V-type ATP synthase alpha chain #=GS A0A151CGA3/74-109_178-425 DR GENE3D; 75ca49cba6f68580aba82db583be7493/74-109_178-425; #=GS A0A151CGA3/74-109_178-425 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Epsilonproteobacteria; Sulfurovum; Sulfurovum riftiae; #=GS A0A151CGA3/74-109_178-425 DR EC; 3.6.3.14; #=GS A0A0B7GVM1/77-118_192-440 AC A0A0B7GVM1 #=GS A0A0B7GVM1/77-118_192-440 OS Treponema phagedenis #=GS A0A0B7GVM1/77-118_192-440 DE V-type ATP synthase alpha chain #=GS A0A0B7GVM1/77-118_192-440 DR GENE3D; 7d4249486c666d5c1e3df896c321c0b7/77-118_192-440; #=GS A0A0B7GVM1/77-118_192-440 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema phagedenis; #=GS A0A0B7GVM1/77-118_192-440 DR EC; 3.6.3.14; #=GS C9RNV2/85-126_200-446 AC C9RNV2 #=GS C9RNV2/85-126_200-446 OS Fibrobacter succinogenes subsp. succinogenes S85 #=GS C9RNV2/85-126_200-446 DE V-type ATP synthase alpha chain #=GS C9RNV2/85-126_200-446 DR GENE3D; 7de356f2a77526de37e56e2c5f57d856/85-126_200-446; #=GS C9RNV2/85-126_200-446 DR ORG; Bacteria; Fibrobacteres; Fibrobacteria; Fibrobacterales; Fibrobacteraceae; Fibrobacter; Fibrobacter succinogenes; Fibrobacter succinogenes subsp. succinogenes; #=GS C9RNV2/85-126_200-446 DR EC; 3.6.3.14; #=GS A0A1M7INH1/85-126_200-446 AC A0A1M7INH1 #=GS A0A1M7INH1/85-126_200-446 OS Fibrobacter sp. UWB7 #=GS A0A1M7INH1/85-126_200-446 DE V/A-type H+-transporting ATPase subunit A #=GS A0A1M7INH1/85-126_200-446 DR GENE3D; 7de356f2a77526de37e56e2c5f57d856/85-126_200-446; #=GS A0A1M7INH1/85-126_200-446 DR ORG; Bacteria; Fibrobacteres; Fibrobacteria; Fibrobacterales; Fibrobacteraceae; Fibrobacter; Fibrobacter sp. UWB7; #=GS A0A1M7INH1/85-126_200-446 DR EC; 3.6.3.14; #=GS A0A126QSJ7/73-114_180-426 AC A0A126QSJ7 #=GS A0A126QSJ7/73-114_180-426 OS methanogenic archaeon mixed culture ISO4-G1 #=GS A0A126QSJ7/73-114_180-426 DE V-type ATP synthase alpha chain #=GS A0A126QSJ7/73-114_180-426 DR GENE3D; 79715ab0458a93e00e72c649ae56eaab/73-114_180-426; #=GS A0A126QSJ7/73-114_180-426 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; methanogenic archaeon mixed culture ISO4-G1; #=GS A0A126QSJ7/73-114_180-426 DR EC; 3.6.3.14; #=GS A0A075G526/47-88_156-403 AC A0A075G526 #=GS A0A075G526/47-88_156-403 OS uncultured marine group II/III euryarchaeote KM3_105_H04 #=GS A0A075G526/47-88_156-403 DE V-type ATP synthase alpha chain #=GS A0A075G526/47-88_156-403 DR GENE3D; 83e47bedd12d8fc51b09eeb9a597de10/47-88_156-403; #=GS A0A075G526/47-88_156-403 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote KM3_105_H04; #=GS A0A075G526/47-88_156-403 DR EC; 3.6.3.14; #=GS A0A0U1CEW7/83-122_196-443 AC A0A0U1CEW7 #=GS A0A0U1CEW7/83-122_196-443 OS Chlamydia trachomatis #=GS A0A0U1CEW7/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A0U1CEW7/83-122_196-443 DR GENE3D; 88abebcfdce253bb51380ad0e18ff71b/83-122_196-443; #=GS A0A0U1CEW7/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; #=GS A0A0U1CEW7/83-122_196-443 DR EC; 3.6.3.14; #=GS M0LXD6/82-124_193-440 AC M0LXD6 #=GS M0LXD6/82-124_193-440 OS Halobiforma lacisalsi AJ5 #=GS M0LXD6/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0LXD6/82-124_193-440 DR GENE3D; 899d57402eff3b4060fa5ee28d8cc077/82-124_193-440; #=GS M0LXD6/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Halobiforma; Halobiforma lacisalsi; #=GS M0LXD6/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A0F8NHP0/73-114_182-429 AC A0A0F8NHP0 #=GS A0A0F8NHP0/73-114_182-429 OS Methanosarcina sp. 1.H.A.2.2 #=GS A0A0F8NHP0/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0F8NHP0/73-114_182-429 DR GENE3D; 90bed9a319e87ee73455db6f12a31c20/73-114_182-429; #=GS A0A0F8NHP0/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. 1.H.A.2.2; #=GS A0A0F8NHP0/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A1B1TG62/73-114_182-429 AC A0A1B1TG62 #=GS A0A1B1TG62/73-114_182-429 OS uncultured Candidatus Thalassoarchaea euryarchaeote #=GS A0A1B1TG62/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A1B1TG62/73-114_182-429 DR GENE3D; 925db58be80015f4d8c9f4a9755f100f/73-114_182-429; #=GS A0A1B1TG62/73-114_182-429 DR ORG; Archaea; Euryarchaeota; Candidatus Thalassoarchaea; uncultured Candidatus Thalassoarchaea euryarchaeote; #=GS A0A1B1TG62/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A1D8S6K1/77-118_187-434 AC A0A1D8S6K1 #=GS A0A1D8S6K1/77-118_187-434 OS #=GS A0A1D8S6K1/77-118_187-434 DE V-type ATP synthase alpha chain #=GS A0A1D8S6K1/77-118_187-434 DR GENE3D; 925ff393b2c3d4b65d6524caa468e0df/77-118_187-434; #=GS A0A1D8S6K1/77-118_187-434 DR ORG; #=GS A0A1D8S6K1/77-118_187-434 DR EC; 3.6.3.14; #=GS A0A1J1AET1/77-118_187-434 AC A0A1J1AET1 #=GS A0A1J1AET1/77-118_187-434 OS Halodesulfurarchaeum formicicum #=GS A0A1J1AET1/77-118_187-434 DE V-type ATP synthase alpha chain #=GS A0A1J1AET1/77-118_187-434 DR GENE3D; 925ff393b2c3d4b65d6524caa468e0df/77-118_187-434; #=GS A0A1J1AET1/77-118_187-434 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Halodesulfurarchaeum; Halodesulfurarchaeum formicicum; #=GS A0A1J1AET1/77-118_187-434 DR EC; 3.6.3.14; #=GS L9ZC10/82-124_193-440 AC L9ZC10 #=GS L9ZC10/82-124_193-440 OS Natrinema altunense JCM 12890 #=GS L9ZC10/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L9ZC10/82-124_193-440 DR GENE3D; 934682a63cd88a5d3098446aea2f2896/82-124_193-440; #=GS L9ZC10/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrinema; Natrinema altunense; #=GS L9ZC10/82-124_193-440 DR EC; 3.6.3.14; #=GS U2M5B3/77-118_192-437 AC U2M5B3 #=GS U2M5B3/77-118_192-437 OS Treponema lecithinolyticum ATCC 700332 #=GS U2M5B3/77-118_192-437 DE V-type ATP synthase alpha chain #=GS U2M5B3/77-118_192-437 DR GENE3D; 990ed51a086108d2a0985350b61dfc93/77-118_192-437; #=GS U2M5B3/77-118_192-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema lecithinolyticum; #=GS U2M5B3/77-118_192-437 DR EC; 3.6.3.14; #=GS U2YUR3/79-120_189-436 AC U2YUR3 #=GS U2YUR3/79-120_189-436 OS Halarchaeum acidiphilum MH1-52-1 #=GS U2YUR3/79-120_189-436 DE V-type ATP synthase alpha chain #=GS U2YUR3/79-120_189-436 DR GENE3D; 9e7da7d2116f38207becbd00e6ac3d74/79-120_189-436; #=GS U2YUR3/79-120_189-436 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Halarchaeum; Halarchaeum acidiphilum; #=GS U2YUR3/79-120_189-436 DR EC; 3.6.3.14; #=GS R6RNK3/72-112_185-432 AC R6RNK3 #=GS R6RNK3/72-112_185-432 OS Eubacterium siraeum CAG:80 #=GS R6RNK3/72-112_185-432 DE V-type ATP synthase alpha chain #=GS R6RNK3/72-112_185-432 DR GENE3D; a78590d311c70759615daa4b133ed846/72-112_185-432; #=GS R6RNK3/72-112_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Eubacteriaceae; Eubacterium; Eubacterium siraeum CAG:80; #=GS R6RNK3/72-112_185-432 DR EC; 3.6.3.14; #=GS S5ZNT4/79-120_197-444 AC S5ZNT4 #=GS S5ZNT4/79-120_197-444 OS Treponema pedis str. T A4 #=GS S5ZNT4/79-120_197-444 DE V-type ATP synthase alpha chain #=GS S5ZNT4/79-120_197-444 DR GENE3D; a8719d078faf968aec935e8aae82ad0e/79-120_197-444; #=GS S5ZNT4/79-120_197-444 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema pedis; #=GS S5ZNT4/79-120_197-444 DR EC; 3.6.3.14; #=GS A0A078L8T4/88-128_202-449 AC A0A078L8T4 #=GS A0A078L8T4/88-128_202-449 OS Candidatus Rubidus massiliensis #=GS A0A078L8T4/88-128_202-449 DE V-type ATP synthase alpha chain #=GS A0A078L8T4/88-128_202-449 DR GENE3D; a87ebd9dda9d08e871a7f23f75576393/88-128_202-449; #=GS A0A078L8T4/88-128_202-449 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Candidatus Rubidus; Candidatus Rubidus massiliensis; #=GS A0A078L8T4/88-128_202-449 DR EC; 3.6.3.14; #=GS A0A1D8GGQ4/76-116_188-435 AC A0A1D8GGQ4 #=GS A0A1D8GGQ4/76-116_188-435 OS Geosporobacter ferrireducens #=GS A0A1D8GGQ4/76-116_188-435 DE V-type ATP synthase alpha chain #=GS A0A1D8GGQ4/76-116_188-435 DR GENE3D; aa53ddff61fada23a264922fb37b71d2/76-116_188-435; #=GS A0A1D8GGQ4/76-116_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Geosporobacter; Geosporobacter ferrireducens; #=GS A0A1D8GGQ4/76-116_188-435 DR EC; 3.6.3.14; #=GS E6UFV6/77-117_191-438 AC E6UFV6 #=GS E6UFV6/77-117_191-438 OS Ruminococcus albus 7 = DSM 20455 #=GS E6UFV6/77-117_191-438 DE V-type ATP synthase alpha chain #=GS E6UFV6/77-117_191-438 DR GENE3D; ac18fc525f1b4916d618fa423b5ac839/77-117_191-438; #=GS E6UFV6/77-117_191-438 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminococcus; Ruminococcus albus; #=GS E6UFV6/77-117_191-438 DR EC; 3.6.3.14; #=GS A0A1G0Z168/78-119_193-440 AC A0A1G0Z168 #=GS A0A1G0Z168/78-119_193-440 OS Lentisphaerae bacterium GWF2_44_16 #=GS A0A1G0Z168/78-119_193-440 DE V-type ATP synthase alpha chain #=GS A0A1G0Z168/78-119_193-440 DR GENE3D; a46742be806afc15a5e405562cca59a1/78-119_193-440; #=GS A0A1G0Z168/78-119_193-440 DR ORG; Bacteria; Lentisphaerae; Lentisphaerae bacterium GWF2_44_16; #=GS A0A1G0Z168/78-119_193-440 DR EC; 3.6.3.14; #=GS F4LL16/77-118_192-438 AC F4LL16 #=GS F4LL16/77-118_192-438 OS Treponema brennaborense DSM 12168 #=GS F4LL16/77-118_192-438 DE V-type ATP synthase alpha chain #=GS F4LL16/77-118_192-438 DR GENE3D; ad3e115bbe9bf202e56fd898abb8ea5d/77-118_192-438; #=GS F4LL16/77-118_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema brennaborense; #=GS F4LL16/77-118_192-438 DR EC; 3.6.3.14; #=GS A0A0C1EKI1/89-129_203-450 AC A0A0C1EKI1 #=GS A0A0C1EKI1/89-129_203-450 OS Parachlamydia acanthamoebae #=GS A0A0C1EKI1/89-129_203-450 DE V-type ATP synthase alpha chain #=GS A0A0C1EKI1/89-129_203-450 DR GENE3D; a4f9e389460e9f5f6ec967dd2bfc67ad/89-129_203-450; #=GS A0A0C1EKI1/89-129_203-450 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Parachlamydiaceae; Parachlamydia; Parachlamydia acanthamoebae; #=GS A0A0C1EKI1/89-129_203-450 DR EC; 3.6.3.14; #=GS D7E6E6/73-114_183-430 AC D7E6E6 #=GS D7E6E6/73-114_183-430 OS Methanohalobium evestigatum Z-7303 #=GS D7E6E6/73-114_183-430 DE V-type ATP synthase alpha chain #=GS D7E6E6/73-114_183-430 DR GENE3D; b7e9ddc570e97e5f699a9d2bb65446c7/73-114_183-430; #=GS D7E6E6/73-114_183-430 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanohalobium; Methanohalobium evestigatum; #=GS D7E6E6/73-114_183-430 DR EC; 3.6.3.14; #=GS A0A1F8J2P7/78-118_192-438 AC A0A1F8J2P7 #=GS A0A1F8J2P7/78-118_192-438 OS Chlamydiae bacterium RIFCSPHIGHO2_01_FULL_44_39 #=GS A0A1F8J2P7/78-118_192-438 DE V-type ATP synthase alpha chain #=GS A0A1F8J2P7/78-118_192-438 DR GENE3D; b09d054e0eed25f4b9dc5058657ae18e/78-118_192-438; #=GS A0A1F8J2P7/78-118_192-438 DR ORG; Bacteria; Chlamydiae; Chlamydiae bacterium RIFCSPHIGHO2_01_FULL_44_39; #=GS A0A1F8J2P7/78-118_192-438 DR EC; 3.6.3.14; #=GS F7XM36/71-112_180-427 AC F7XM36 #=GS F7XM36/71-112_180-427 OS Methanosalsum zhilinae DSM 4017 #=GS F7XM36/71-112_180-427 DE V-type ATP synthase alpha chain #=GS F7XM36/71-112_180-427 DR GENE3D; b0f4ac86a07280dbe8ebfa560443bbdf/71-112_180-427; #=GS F7XM36/71-112_180-427 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosalsum; Methanosalsum zhilinae; #=GS F7XM36/71-112_180-427 DR EC; 3.6.3.14; #=GS A0A1J4YZZ1/79-120_194-442 AC A0A1J4YZZ1 #=GS A0A1J4YZZ1/79-120_194-442 OS Candidatus Omnitrophica bacterium CG1_02_43_210 #=GS A0A1J4YZZ1/79-120_194-442 DE V-type ATP synthase alpha chain #=GS A0A1J4YZZ1/79-120_194-442 DR GENE3D; b20ea95ca7968479b6a63ebadb87aeba/79-120_194-442; #=GS A0A1J4YZZ1/79-120_194-442 DR ORG; Bacteria; Candidatus Omnitrophica; Candidatus Omnitrophica bacterium CG1_02_43_210; #=GS A0A1J4YZZ1/79-120_194-442 DR EC; 3.6.3.14; #=GS A0A1A8XJ26/77-118_192-438 AC A0A1A8XJ26 #=GS A0A1A8XJ26/77-118_192-438 OS Candidatus Accumulibacter aalborgensis #=GS A0A1A8XJ26/77-118_192-438 DE V-type ATP synthase alpha chain #=GS A0A1A8XJ26/77-118_192-438 DR GENE3D; b21b804823a5cbfa72f1cfc9a2fe363c/77-118_192-438; #=GS A0A1A8XJ26/77-118_192-438 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Candidatus Accumulibacter; Candidatus Accumulibacter aalborgensis; #=GS A0A1A8XJ26/77-118_192-438 DR EC; 3.6.3.14; #=GS U1FA53/75-115_192-439 AC U1FA53 #=GS U1FA53/75-115_192-439 OS Treponema socranskii subsp. socranskii VPI DR56BR1116 = ATCC 35536 #=GS U1FA53/75-115_192-439 DE V-type ATP synthase alpha chain #=GS U1FA53/75-115_192-439 DR GENE3D; bca6f5248cf130850cda04a496ebd169/75-115_192-439; #=GS U1FA53/75-115_192-439 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema socranskii; Treponema socranskii subsp. socranskii; #=GS U1FA53/75-115_192-439 DR EC; 3.6.3.14; #=GS A0A061JD56/83-122_196-443 AC A0A061JD56 #=GS A0A061JD56/83-122_196-443 OS Chlamydia suis MD56 #=GS A0A061JD56/83-122_196-443 DE V-type ATP synthase alpha chain #=GS A0A061JD56/83-122_196-443 DR GENE3D; b375004049371859dc93ddb5b46ce3f9/83-122_196-443; #=GS A0A061JD56/83-122_196-443 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia suis; #=GS A0A061JD56/83-122_196-443 DR EC; 3.6.3.14; #=GS A0A1G3L041/76-117_191-436 AC A0A1G3L041 #=GS A0A1G3L041/76-117_191-436 OS Spirochaetes bacterium GWB1_48_6 #=GS A0A1G3L041/76-117_191-436 DE V-type ATP synthase alpha chain #=GS A0A1G3L041/76-117_191-436 DR GENE3D; c6364e13507e8bb93de28bb063f6a4e5/76-117_191-436; #=GS A0A1G3L041/76-117_191-436 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium GWB1_48_6; #=GS A0A1G3L041/76-117_191-436 DR EC; 3.6.3.14; #=GS F2NSV1/77-118_192-437 AC F2NSV1 #=GS F2NSV1/77-118_192-437 OS Treponema succinifaciens DSM 2489 #=GS F2NSV1/77-118_192-437 DE V-type ATP synthase alpha chain #=GS F2NSV1/77-118_192-437 DR GENE3D; bd3c1d8ecfe225c837fb7a5dc8859b70/77-118_192-437; #=GS F2NSV1/77-118_192-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema succinifaciens; #=GS F2NSV1/77-118_192-437 DR EC; 3.6.3.14; #=GS A0A0A2WWC5/73-114_182-429 AC A0A0A2WWC5 #=GS A0A0A2WWC5/73-114_182-429 OS Thermus filiformis #=GS A0A0A2WWC5/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0A2WWC5/73-114_182-429 DR GENE3D; be84cc8b64f584bb13c1ce1b1820a5dc/73-114_182-429; #=GS A0A0A2WWC5/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus filiformis; #=GS A0A0A2WWC5/73-114_182-429 DR EC; 3.6.3.14; #=GS A0A167RY63/79-120_188-435 AC A0A167RY63 #=GS A0A167RY63/79-120_188-435 OS Methanoculleus bourgensis #=GS A0A167RY63/79-120_188-435 DE V-type ATP synthase alpha chain #=GS A0A167RY63/79-120_188-435 DR GENE3D; c0575195a7d9cd2ded9748467a4d4f99/79-120_188-435; #=GS A0A167RY63/79-120_188-435 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus bourgensis; #=GS A0A167RY63/79-120_188-435 DR EC; 3.6.3.14; #=GS M0JEB8/81-123_192-438 AC M0JEB8 #=GS M0JEB8/81-123_192-438 OS Haloferax denitrificans ATCC 35960 #=GS M0JEB8/81-123_192-438 DE V-type ATP synthase alpha chain #=GS M0JEB8/81-123_192-438 DR GENE3D; c0b1d9864ad76c709ef6ff1f70b49979/81-123_192-438; #=GS M0JEB8/81-123_192-438 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax denitrificans; #=GS M0JEB8/81-123_192-438 DR EC; 3.6.3.14; #=GS A0A166T3Q2/82-123_192-439 AC A0A166T3Q2 #=GS A0A166T3Q2/82-123_192-439 OS Haladaptatus sp. R4 #=GS A0A166T3Q2/82-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A166T3Q2/82-123_192-439 DR GENE3D; ccb7f33fa89f46d0bdcfede017072a10/82-123_192-439; #=GS A0A166T3Q2/82-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Haladaptatus; Haladaptatus sp. R4; #=GS A0A166T3Q2/82-123_192-439 DR EC; 3.6.3.14; #=GS M0GV62/81-123_192-439 AC M0GV62 #=GS M0GV62/81-123_192-439 OS Haloferax larsenii JCM 13917 #=GS M0GV62/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0GV62/81-123_192-439 DR GENE3D; d0d66e03dfd0c300e2bb0973fe3d0f25/81-123_192-439; #=GS M0GV62/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Haloferacaceae; Haloferax; Haloferax larsenii; #=GS M0GV62/81-123_192-439 DR EC; 3.6.3.14; #=GS A0A0X8D7K6/73-114_182-429 AC A0A0X8D7K6 #=GS A0A0X8D7K6/73-114_182-429 OS Thermus parvatiensis #=GS A0A0X8D7K6/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0X8D7K6/73-114_182-429 DR GENE3D; d208bb379d8e154b5fb33ea4744290ba/73-114_182-429; #=GS A0A0X8D7K6/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus parvatiensis; #=GS A0A0X8D7K6/73-114_182-429 DR EC; 3.6.3.14; #=GS M0NTK3/82-124_193-440 AC M0NTK3 #=GS M0NTK3/82-124_193-440 OS Halorubrum litoreum JCM 13561 #=GS M0NTK3/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0NTK3/82-124_193-440 DR GENE3D; d21b3da16adcfbbd4fe5525e2a033312/82-124_193-440; #=GS M0NTK3/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halorubrum; Halorubrum litoreum; #=GS M0NTK3/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1F3CI30/74-115_183-432 AC A0A1F3CI30 #=GS A0A1F3CI30/74-115_183-432 OS Armatimonadetes bacterium RBG_16_67_12 #=GS A0A1F3CI30/74-115_183-432 DE V-type ATP synthase alpha chain #=GS A0A1F3CI30/74-115_183-432 DR GENE3D; d240ed1fdf57821c38e0ebb5ec0509e0/74-115_183-432; #=GS A0A1F3CI30/74-115_183-432 DR ORG; Bacteria; Armatimonadetes; Armatimonadetes bacterium RBG_16_67_12; #=GS A0A1F3CI30/74-115_183-432 DR EC; 3.6.3.14; #=GS A0A1J4UP77/71-112_178-427 AC A0A1J4UP77 #=GS A0A1J4UP77/71-112_178-427 OS Candidatus Micrarchaeota archaeon CG1_02_51_15 #=GS A0A1J4UP77/71-112_178-427 DE V-type ATP synthase alpha chain #=GS A0A1J4UP77/71-112_178-427 DR GENE3D; d45e506b6bcc4c1936bb88dad2595d78/71-112_178-427; #=GS A0A1J4UP77/71-112_178-427 DR ORG; Archaea; Candidatus Micrarchaeota; Candidatus Micrarchaeota archaeon CG1_02_51_15; #=GS A0A1J4UP77/71-112_178-427 DR EC; 3.6.3.14; #=GS F7XSX8/78-119_196-443 AC F7XSX8 #=GS F7XSX8/78-119_196-443 OS Treponema paraluiscuniculi Cuniculi A #=GS F7XSX8/78-119_196-443 DE V-type ATP synthase alpha chain #=GS F7XSX8/78-119_196-443 DR GENE3D; d5e0953d2a3af725b9a68cd554d6bbd5/78-119_196-443; #=GS F7XSX8/78-119_196-443 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema paraluiscuniculi; #=GS F7XSX8/78-119_196-443 DR EC; 3.6.3.14; #=GS H0AAA7/71-112_180-428 AC H0AAA7 #=GS H0AAA7/71-112_180-428 OS Candidatus Haloredivivus sp. G17 #=GS H0AAA7/71-112_180-428 DE V-type ATP synthase alpha chain #=GS H0AAA7/71-112_180-428 DR GENE3D; d8bdabdb69523470563a6c364acad76d/71-112_180-428; #=GS H0AAA7/71-112_180-428 DR ORG; Archaea; Candidatus Nanohaloarchaeota; Nanohaloarchaea; Candidatus Haloredivivus sp. G17; #=GS H0AAA7/71-112_180-428 DR EC; 3.6.3.14; #=GS A0A180F7K1/76-114_188-436 AC A0A180F7K1 #=GS A0A180F7K1/76-114_188-436 OS Bacteroidales bacterium Barb6XT #=GS A0A180F7K1/76-114_188-436 DE V-type ATP synthase alpha chain #=GS A0A180F7K1/76-114_188-436 DR GENE3D; daa58c09a6ad170c247aa1964e7894f0/76-114_188-436; #=GS A0A180F7K1/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidales bacterium Barb6XT; #=GS A0A180F7K1/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A0B0ENN4/76-117_191-436 AC A0A0B0ENN4 #=GS A0A0B0ENN4/76-117_191-436 OS Candidatus Scalindua brodae #=GS A0A0B0ENN4/76-117_191-436 DE V-type ATP synthase alpha chain #=GS A0A0B0ENN4/76-117_191-436 DR GENE3D; edbcb102dfcc25315bd771fcdeeb15b7/76-117_191-436; #=GS A0A0B0ENN4/76-117_191-436 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Candidatus Brocadiales; Candidatus Brocadiaceae; Candidatus Scalindua; Candidatus Scalindua brodae; #=GS A0A0B0ENN4/76-117_191-436 DR EC; 3.6.3.14; #=GS I0XAA2/74-114_186-433 AC I0XAA2 #=GS I0XAA2/74-114_186-433 OS Treponema sp. JC4 #=GS I0XAA2/74-114_186-433 DE V-type ATP synthase alpha chain #=GS I0XAA2/74-114_186-433 DR GENE3D; f2765e4748f50f81e16ba31f6b27eb93/74-114_186-433; #=GS I0XAA2/74-114_186-433 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema sp. JC4; #=GS I0XAA2/74-114_186-433 DR EC; 3.6.3.14; #=GS I7J5R6/73-114_185-432 AC I7J5R6 #=GS I7J5R6/73-114_185-432 OS Caloramator australicus RC3 #=GS I7J5R6/73-114_185-432 DE V-type ATP synthase alpha chain #=GS I7J5R6/73-114_185-432 DR GENE3D; f2db21ebe8aec365c4b9256351f4a8ac/73-114_185-432; #=GS I7J5R6/73-114_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Caloramator; Caloramator australicus; #=GS I7J5R6/73-114_185-432 DR EC; 3.6.3.14; #=GS M0IXE9/81-123_192-439 AC M0IXE9 #=GS M0IXE9/81-123_192-439 OS Haloarcula vallismortis ATCC 29715 #=GS M0IXE9/81-123_192-439 DE V-type ATP synthase alpha chain #=GS M0IXE9/81-123_192-439 DR GENE3D; f3836b6c80baa3f0647f6492a67a789c/81-123_192-439; #=GS M0IXE9/81-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Haloarculaceae; Haloarcula; Haloarcula vallismortis; #=GS M0IXE9/81-123_192-439 DR EC; 3.6.3.14; #=GS M0ASZ9/82-124_193-440 AC M0ASZ9 #=GS M0ASZ9/82-124_193-440 OS Natrialba chahannaoensis JCM 10990 #=GS M0ASZ9/82-124_193-440 DE V-type ATP synthase alpha chain #=GS M0ASZ9/82-124_193-440 DR GENE3D; e80d8c547441f1e2a861ab27ee854570/82-124_193-440; #=GS M0ASZ9/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrialba; Natrialba chahannaoensis; #=GS M0ASZ9/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A1G3MPH6/77-117_192-438 AC A0A1G3MPH6 #=GS A0A1G3MPH6/77-117_192-438 OS Spirochaetes bacterium GWC2_52_13 #=GS A0A1G3MPH6/77-117_192-438 DE V-type ATP synthase alpha chain #=GS A0A1G3MPH6/77-117_192-438 DR GENE3D; f70518e06045c2487689b0f6e306aef1/77-117_192-438; #=GS A0A1G3MPH6/77-117_192-438 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium GWC2_52_13; #=GS A0A1G3MPH6/77-117_192-438 DR EC; 3.6.3.14; #=GS A0A1D2QIN9/82-123_192-439 AC A0A1D2QIN9 #=GS A0A1D2QIN9/82-123_192-439 OS Haladaptatus sp. W1 #=GS A0A1D2QIN9/82-123_192-439 DE V-type ATP synthase alpha chain #=GS A0A1D2QIN9/82-123_192-439 DR GENE3D; eeb5491eeee8fd1bbf6733607c407fbe/82-123_192-439; #=GS A0A1D2QIN9/82-123_192-439 DR ORG; Archaea; Euryarchaeota; Halobacteria; Halobacteriales; Halobacteriaceae; Haladaptatus; Haladaptatus sp. W1; #=GS A0A1D2QIN9/82-123_192-439 DR EC; 3.6.3.14; #=GS D7BEZ3/71-112_180-427 AC D7BEZ3 #=GS D7BEZ3/71-112_180-427 OS Meiothermus silvanus DSM 9946 #=GS D7BEZ3/71-112_180-427 DE V-type ATP synthase alpha chain #=GS D7BEZ3/71-112_180-427 DR GENE3D; fbe5c73119807c9b4c26434220912b6b/71-112_180-427; #=GS D7BEZ3/71-112_180-427 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Meiothermus; Meiothermus silvanus; #=GS D7BEZ3/71-112_180-427 DR EC; 3.6.3.14; #=GS A0A0H1R8M8/79-120_188-435 AC A0A0H1R8M8 #=GS A0A0H1R8M8/79-120_188-435 OS Methanoculleus sediminis #=GS A0A0H1R8M8/79-120_188-435 DE V-type ATP synthase alpha chain #=GS A0A0H1R8M8/79-120_188-435 DR GENE3D; f409dbbbd39774eca2a3cbad48a01a6a/79-120_188-435; #=GS A0A0H1R8M8/79-120_188-435 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus sediminis; #=GS A0A0H1R8M8/79-120_188-435 DR EC; 3.6.3.14; #=GS A0A1G6KYT9/82-124_193-440 AC A0A1G6KYT9 #=GS A0A1G6KYT9/82-124_193-440 OS Haloterrigena hispanica #=GS A0A1G6KYT9/82-124_193-440 DE V-type ATP synthase alpha chain #=GS A0A1G6KYT9/82-124_193-440 DR GENE3D; f537d61b362e1f5144d4039efd6e8d39/82-124_193-440; #=GS A0A1G6KYT9/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Haloterrigena; Haloterrigena hispanica; #=GS A0A1G6KYT9/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A072NC13/76-117_185-432 AC A0A072NC13 #=GS A0A072NC13/76-117_185-432 OS Deinococcus sp. RL #=GS A0A072NC13/76-117_185-432 DE V-type ATP synthase alpha chain #=GS A0A072NC13/76-117_185-432 DR GENE3D; f8a39f44ae81d7a03fee4f4ac0559093/76-117_185-432; #=GS A0A072NC13/76-117_185-432 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Deinococcales; Deinococcaceae; Deinococcus; Deinococcus sp. RL; #=GS A0A072NC13/76-117_185-432 DR EC; 3.6.3.14; #=GS A0A0E3SMH9/50-91_159-406 AC A0A0E3SMH9 #=GS A0A0E3SMH9/50-91_159-406 OS Methanosarcina barkeri 3 #=GS A0A0E3SMH9/50-91_159-406 DE V-type ATP synthase alpha chain #=GS A0A0E3SMH9/50-91_159-406 DR GENE3D; fcda5966e23bfbbb72178e115cac9f5b/50-91_159-406; #=GS A0A0E3SMH9/50-91_159-406 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3SMH9/50-91_159-406 DR EC; 3.6.3.14; #=GS A0A0M9AFN3/73-114_182-429 AC A0A0M9AFN3 #=GS A0A0M9AFN3/73-114_182-429 OS Thermus aquaticus #=GS A0A0M9AFN3/73-114_182-429 DE V-type ATP synthase alpha chain #=GS A0A0M9AFN3/73-114_182-429 DR GENE3D; fd14495ccf480f9bc32f1aef71f3fa90/73-114_182-429; #=GS A0A0M9AFN3/73-114_182-429 DR ORG; Bacteria; Deinococcus-Thermus; Deinococci; Thermales; Thermaceae; Thermus; Thermus aquaticus; #=GS A0A0M9AFN3/73-114_182-429 DR EC; 3.6.3.14; #=GS L9ZC68/82-124_193-440 AC L9ZC68 #=GS L9ZC68/82-124_193-440 OS Natrinema pallidum DSM 3751 #=GS L9ZC68/82-124_193-440 DE V-type ATP synthase alpha chain #=GS L9ZC68/82-124_193-440 DR GENE3D; fe2a4d05b5f97c11704e32812ba64f96/82-124_193-440; #=GS L9ZC68/82-124_193-440 DR ORG; Archaea; Euryarchaeota; Halobacteria; Natrialbales; Natrialbaceae; Natrinema; Natrinema pallidum; #=GS L9ZC68/82-124_193-440 DR EC; 3.6.3.14; #=GS A0A124FS35/79-120_188-435 AC A0A124FS35 #=GS A0A124FS35/79-120_188-435 OS Methanoculleus marisnigri #=GS A0A124FS35/79-120_188-435 DE V-type ATP synthase alpha chain #=GS A0A124FS35/79-120_188-435 DR GENE3D; fe541a55e5c05491401cefa2536956b0/79-120_188-435; #=GS A0A124FS35/79-120_188-435 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus marisnigri; #=GS A0A124FS35/79-120_188-435 DR EC; 3.6.3.14; #=GS R0A0K1/72-115_187-436 AC R0A0K1 #=GS R0A0K1/72-115_187-436 OS [Clostridium] bolteae 90B8 #=GS R0A0K1/72-115_187-436 DE V-type ATP synthase alpha chain #=GS R0A0K1/72-115_187-436 DR GENE3D; 00195191ff20d8e4192c75c935f6d182/72-115_187-436; #=GS R0A0K1/72-115_187-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] bolteae; #=GS R0A0K1/72-115_187-436 DR EC; 3.6.3.14; #=GS A8RXX7/72-115_187-436 AC A8RXX7 #=GS A8RXX7/72-115_187-436 OS [Clostridium] bolteae ATCC BAA-613 #=GS A8RXX7/72-115_187-436 DE V-type ATP synthase alpha chain #=GS A8RXX7/72-115_187-436 DR GENE3D; 00195191ff20d8e4192c75c935f6d182/72-115_187-436; #=GS A8RXX7/72-115_187-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] bolteae; #=GS A8RXX7/72-115_187-436 DR EC; 3.6.3.14; #=GS R0BME3/72-115_187-436 AC R0BME3 #=GS R0BME3/72-115_187-436 OS [Clostridium] bolteae 90A9 #=GS R0BME3/72-115_187-436 DE V-type ATP synthase alpha chain #=GS R0BME3/72-115_187-436 DR GENE3D; 00195191ff20d8e4192c75c935f6d182/72-115_187-436; #=GS R0BME3/72-115_187-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] bolteae; #=GS R0BME3/72-115_187-436 DR EC; 3.6.3.14; #=GS N9XPB1/72-115_187-436 AC N9XPB1 #=GS N9XPB1/72-115_187-436 OS [Clostridium] clostridioforme 90A7 #=GS N9XPB1/72-115_187-436 DE V-type ATP synthase alpha chain #=GS N9XPB1/72-115_187-436 DR GENE3D; 00195191ff20d8e4192c75c935f6d182/72-115_187-436; #=GS N9XPB1/72-115_187-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] clostridioforme; #=GS N9XPB1/72-115_187-436 DR EC; 3.6.3.14; #=GS I3D3B7/73-115_188-437 AC I3D3B7 #=GS I3D3B7/73-115_188-437 OS Candidatus Nitrosopumilus salaria BD31 #=GS I3D3B7/73-115_188-437 DE V-type ATP synthase alpha chain #=GS I3D3B7/73-115_188-437 DR GENE3D; 0043ebe1c655ed5da8e0955689a7945b/73-115_188-437; #=GS I3D3B7/73-115_188-437 DR ORG; Archaea; Thaumarchaeota; Nitrosopumilales; Nitrosopumilaceae; Nitrosopumilus; Candidatus Nitrosopumilus salaria; #=GS I3D3B7/73-115_188-437 DR EC; 3.6.3.14; #=GS G4KPG4/71-113_185-434 AC G4KPG4 #=GS G4KPG4/71-113_185-434 OS Oscillibacter valericigenes Sjm18-20 #=GS G4KPG4/71-113_185-434 DE V-type ATP synthase alpha chain #=GS G4KPG4/71-113_185-434 DR GENE3D; 005019b3d9a473743b3adb5294f9176a/71-113_185-434; #=GS G4KPG4/71-113_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Oscillospiraceae; Oscillibacter; Oscillibacter valericigenes; #=GS G4KPG4/71-113_185-434 DR EC; 3.6.3.14; #=GS A0A101G3D5/72-114_186-438 AC A0A101G3D5 #=GS A0A101G3D5/72-114_186-438 OS Actinobacteria bacterium 66_15 #=GS A0A101G3D5/72-114_186-438 DE V-type ATP synthase alpha chain #=GS A0A101G3D5/72-114_186-438 DR GENE3D; 006d3c6dfc62c539a02473632f8c9fc1/72-114_186-438; #=GS A0A101G3D5/72-114_186-438 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Actinobacteria bacterium 66_15; #=GS A0A101G3D5/72-114_186-438 DR EC; 3.6.3.14; #=GS A0A0P8Y2D7/72-114_184-433 AC A0A0P8Y2D7 #=GS A0A0P8Y2D7/72-114_184-433 OS Nitrosopumilus sp. PRT-SC01 #=GS A0A0P8Y2D7/72-114_184-433 DE V-type ATP synthase alpha chain #=GS A0A0P8Y2D7/72-114_184-433 DR GENE3D; 00a67f9f109d7d91e7467f9f1961247b/72-114_184-433; #=GS A0A0P8Y2D7/72-114_184-433 DR ORG; Archaea; Thaumarchaeota; Nitrosopumilales; Nitrosopumilaceae; Nitrosopumilus; Nitrosopumilus sp. PRT-SC01; #=GS A0A0P8Y2D7/72-114_184-433 DR EC; 3.6.3.14; #=GS R9N6R7/75-117_190-437 AC R9N6R7 #=GS R9N6R7/75-117_190-437 OS Dorea sp. 5-2 #=GS R9N6R7/75-117_190-437 DE V-type ATP synthase alpha chain #=GS R9N6R7/75-117_190-437 DR GENE3D; 00bdc7e06173e546eb92f0bcf4cde140/75-117_190-437; #=GS R9N6R7/75-117_190-437 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Dorea; Dorea sp. 5-2; #=GS R9N6R7/75-117_190-437 DR EC; 3.6.3.14; #=GS G6BES8/72-114_186-435 AC G6BES8 #=GS G6BES8/72-114_186-435 OS Clostridioides difficile 050-P50-2011 #=GS G6BES8/72-114_186-435 DE V-type ATP synthase alpha chain #=GS G6BES8/72-114_186-435 DR GENE3D; 00c6a3443cc8344bcdeb1f72fde03c46/72-114_186-435; #=GS G6BES8/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Clostridioides; Clostridioides difficile; #=GS G6BES8/72-114_186-435 DR EC; 3.6.3.14; #=GS T4H9F5/72-114_186-435 AC T4H9F5 #=GS T4H9F5/72-114_186-435 OS Clostridioides difficile Y384 #=GS T4H9F5/72-114_186-435 DE V-type ATP synthase alpha chain #=GS T4H9F5/72-114_186-435 DR GENE3D; 00c6a3443cc8344bcdeb1f72fde03c46/72-114_186-435; #=GS T4H9F5/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Clostridioides; Clostridioides difficile; #=GS T4H9F5/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A0J0UDZ8/72-114_186-435 AC A0A0J0UDZ8 #=GS A0A0J0UDZ8/72-114_186-435 OS Paeniclostridium sordellii 8483 #=GS A0A0J0UDZ8/72-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A0J0UDZ8/72-114_186-435 DR GENE3D; 00c6a3443cc8344bcdeb1f72fde03c46/72-114_186-435; #=GS A0A0J0UDZ8/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Paeniclostridium; Paeniclostridium sordellii; #=GS A0A0J0UDZ8/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A031WCN8/72-114_186-435 AC A0A031WCN8 #=GS A0A031WCN8/72-114_186-435 OS Clostridioides difficile #=GS A0A031WCN8/72-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A031WCN8/72-114_186-435 DR GENE3D; 00c6a3443cc8344bcdeb1f72fde03c46/72-114_186-435; #=GS A0A031WCN8/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Clostridioides; Clostridioides difficile; #=GS A0A031WCN8/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A1F2CSI6/72-114_186-435 AC A0A1F2CSI6 #=GS A0A1F2CSI6/72-114_186-435 OS Clostridium sp. HMSC19B10 #=GS A0A1F2CSI6/72-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A1F2CSI6/72-114_186-435 DR GENE3D; 00c6a3443cc8344bcdeb1f72fde03c46/72-114_186-435; #=GS A0A1F2CSI6/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium sp. HMSC19B10; #=GS A0A1F2CSI6/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A125V996/72-114_186-435 AC A0A125V996 #=GS A0A125V996/72-114_186-435 OS Clostridioides difficile ATCC 9689 = DSM 1296 #=GS A0A125V996/72-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A125V996/72-114_186-435 DR GENE3D; 00c6a3443cc8344bcdeb1f72fde03c46/72-114_186-435; #=GS A0A125V996/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Clostridioides; Clostridioides difficile; #=GS A0A125V996/72-114_186-435 DR EC; 3.6.3.14; #=GS C9YQC4/72-114_186-435 AC C9YQC4 #=GS C9YQC4/72-114_186-435 OS Clostridioides difficile R20291 #=GS C9YQC4/72-114_186-435 DE V-type ATP synthase alpha chain #=GS C9YQC4/72-114_186-435 DR GENE3D; 00c6a3443cc8344bcdeb1f72fde03c46/72-114_186-435; #=GS C9YQC4/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Clostridioides; Clostridioides difficile; #=GS C9YQC4/72-114_186-435 DR EC; 3.6.3.14; #=GS G6B4D2/72-114_186-435 AC G6B4D2 #=GS G6B4D2/72-114_186-435 OS Clostridioides difficile 002-P50-2011 #=GS G6B4D2/72-114_186-435 DE V-type ATP synthase alpha chain #=GS G6B4D2/72-114_186-435 DR GENE3D; 00c6a3443cc8344bcdeb1f72fde03c46/72-114_186-435; #=GS G6B4D2/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Clostridioides; Clostridioides difficile; #=GS G6B4D2/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A0H3NA96/72-114_186-435 AC A0A0H3NA96 #=GS A0A0H3NA96/72-114_186-435 OS Clostridioides difficile CD196 #=GS A0A0H3NA96/72-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A0H3NA96/72-114_186-435 DR GENE3D; 00c6a3443cc8344bcdeb1f72fde03c46/72-114_186-435; #=GS A0A0H3NA96/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Clostridioides; Clostridioides difficile; #=GS A0A0H3NA96/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A1F1LR06/72-115_187-435 AC A0A1F1LR06 #=GS A0A1F1LR06/72-115_187-435 OS Abiotrophia sp. HMSC24B09 #=GS A0A1F1LR06/72-115_187-435 DE V-type ATP synthase alpha chain #=GS A0A1F1LR06/72-115_187-435 DR GENE3D; 00f195460d93ffa6d3520dc8f026c952/72-115_187-435; #=GS A0A1F1LR06/72-115_187-435 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Aerococcaceae; Abiotrophia; Abiotrophia sp. HMSC24B09; #=GS A0A1F1LR06/72-115_187-435 DR EC; 3.6.3.14; #=GS A0A0T5ZDG1/73-115_188-437 AC A0A0T5ZDG1 #=GS A0A0T5ZDG1/73-115_188-437 OS Thaumarchaeota archaeon CSP1-1 #=GS A0A0T5ZDG1/73-115_188-437 DE V-type ATP synthase alpha chain #=GS A0A0T5ZDG1/73-115_188-437 DR GENE3D; 01424a017fdbf4f76640ade4a2bcbc23/73-115_188-437; #=GS A0A0T5ZDG1/73-115_188-437 DR ORG; Archaea; Thaumarchaeota; Thaumarchaeota archaeon CSP1-1; #=GS A0A0T5ZDG1/73-115_188-437 DR EC; 3.6.3.14; #=GS A0A0E2UC40/72-115_187-436 AC A0A0E2UC40 #=GS A0A0E2UC40/72-115_187-436 OS Streptococcus parauberis #=GS A0A0E2UC40/72-115_187-436 DE V-type ATP synthase alpha chain #=GS A0A0E2UC40/72-115_187-436 DR GENE3D; 016261588c4711a141827d9c16019bf2/72-115_187-436; #=GS A0A0E2UC40/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus parauberis; #=GS A0A0E2UC40/72-115_187-436 DR EC; 3.6.3.14; #=GS A0A0A2G0K6/76-114_188-436 AC A0A0A2G0K6 #=GS A0A0A2G0K6/76-114_188-436 OS Porphyromonas crevioricanis #=GS A0A0A2G0K6/76-114_188-436 DE V-type ATP synthase alpha chain #=GS A0A0A2G0K6/76-114_188-436 DR GENE3D; 0179643d918fea5a3aee9bc9a5b11a7a/76-114_188-436; #=GS A0A0A2G0K6/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Porphyromonas; Porphyromonas crevioricanis; #=GS A0A0A2G0K6/76-114_188-436 DR EC; 3.6.3.14; #=GS T1DTW0/76-114_188-436 AC T1DTW0 #=GS T1DTW0/76-114_188-436 OS Porphyromonas crevioricanis JCM 15906 #=GS T1DTW0/76-114_188-436 DE V-type ATP synthase alpha chain #=GS T1DTW0/76-114_188-436 DR GENE3D; 0179643d918fea5a3aee9bc9a5b11a7a/76-114_188-436; #=GS T1DTW0/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Porphyromonas; Porphyromonas crevioricanis; #=GS T1DTW0/76-114_188-436 DR EC; 3.6.3.14; #=GS K9DSH6/76-114_188-436 AC K9DSH6 #=GS K9DSH6/76-114_188-436 OS Bacteroides oleiciplenus YIT 12058 #=GS K9DSH6/76-114_188-436 DE V-type ATP synthase alpha chain #=GS K9DSH6/76-114_188-436 DR GENE3D; 01ccac24ff30350165a00e5831c3adb7/76-114_188-436; #=GS K9DSH6/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides oleiciplenus; #=GS K9DSH6/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A1F0GK71/72-114_185-434 AC A0A1F0GK71 #=GS A0A1F0GK71/72-114_185-434 OS Peptoniphilus sp. HMSC075B08 #=GS A0A1F0GK71/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0A1F0GK71/72-114_185-434 DR GENE3D; 020e3abbe3267b8029fb316829524419/72-114_185-434; #=GS A0A1F0GK71/72-114_185-434 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Peptoniphilus; Peptoniphilus sp. HMSC075B08; #=GS A0A1F0GK71/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A0N1CRA7/74-117_188-437 AC A0A0N1CRA7 #=GS A0A0N1CRA7/74-117_188-437 OS Enterococcus sp. RIT-PI-f #=GS A0A0N1CRA7/74-117_188-437 DE V-type ATP synthase alpha chain #=GS A0A0N1CRA7/74-117_188-437 DR GENE3D; 021ccfeba8fa27759112f066cab31cdd/74-117_188-437; #=GS A0A0N1CRA7/74-117_188-437 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus sp. RIT-PI-f; #=GS A0A0N1CRA7/74-117_188-437 DR EC; 3.6.3.14; #=GS A0A182U8P0/85-128_201-452 AC A0A182U8P0 #=GS A0A182U8P0/85-128_201-452 OS Anopheles melas #=GS A0A182U8P0/85-128_201-452 DE Uncharacterized protein #=GS A0A182U8P0/85-128_201-452 DR GENE3D; 022d89f8f6bdd720be79af769fd56146/85-128_201-452; #=GS A0A182U8P0/85-128_201-452 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles melas; #=GS A0A182U8P0/85-128_201-452 DR EC; 3.6.3.14; #=GS A0A182XE81/85-128_201-452 AC A0A182XE81 #=GS A0A182XE81/85-128_201-452 OS Anopheles quadriannulatus #=GS A0A182XE81/85-128_201-452 DE Uncharacterized protein #=GS A0A182XE81/85-128_201-452 DR GENE3D; 022d89f8f6bdd720be79af769fd56146/85-128_201-452; #=GS A0A182XE81/85-128_201-452 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles quadriannulatus; #=GS A0A182XE81/85-128_201-452 DR EC; 3.6.3.14; #=GS A0A182HJ42/85-128_201-452 AC A0A182HJ42 #=GS A0A182HJ42/85-128_201-452 OS Anopheles arabiensis #=GS A0A182HJ42/85-128_201-452 DE Uncharacterized protein #=GS A0A182HJ42/85-128_201-452 DR GENE3D; 022d89f8f6bdd720be79af769fd56146/85-128_201-452; #=GS A0A182HJ42/85-128_201-452 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles arabiensis; #=GS A0A182HJ42/85-128_201-452 DR EC; 3.6.3.14; #=GS A0A182LC98/85-128_201-452 AC A0A182LC98 #=GS A0A182LC98/85-128_201-452 OS Anopheles coluzzii #=GS A0A182LC98/85-128_201-452 DE Uncharacterized protein #=GS A0A182LC98/85-128_201-452 DR GENE3D; 022d89f8f6bdd720be79af769fd56146/85-128_201-452; #=GS A0A182LC98/85-128_201-452 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles coluzzii; #=GS A0A182LC98/85-128_201-452 DR EC; 3.6.3.14; #=GS A0A0S8KBE1/72-114_185-434 AC A0A0S8KBE1 #=GS A0A0S8KBE1/72-114_185-434 OS candidate division Zixibacteria bacterium SM23_81 #=GS A0A0S8KBE1/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0A0S8KBE1/72-114_185-434 DR GENE3D; 02334cb03d853aedd01b963ce7303767/72-114_185-434; #=GS A0A0S8KBE1/72-114_185-434 DR ORG; Bacteria; candidate division Zixibacteria; candidate division Zixibacteria bacterium SM23_81; #=GS A0A0S8KBE1/72-114_185-434 DR EC; 3.6.3.14; #=GS U2SKQ3/72-114_185-434 AC U2SKQ3 #=GS U2SKQ3/72-114_185-434 OS Leptotrichia sp. oral taxon 215 str. W9775 #=GS U2SKQ3/72-114_185-434 DE V-type ATP synthase alpha chain #=GS U2SKQ3/72-114_185-434 DR GENE3D; 024a9c2b9fd1b7cccd01bf733f35c707/72-114_185-434; #=GS U2SKQ3/72-114_185-434 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Leptotrichiaceae; Leptotrichia; Leptotrichia sp. oral taxon 215; #=GS U2SKQ3/72-114_185-434 DR EC; 3.6.3.14; #=GS A6NZG8/72-114_187-434 AC A6NZG8 #=GS A6NZG8/72-114_187-434 OS Pseudoflavonifractor capillosus ATCC 29799 #=GS A6NZG8/72-114_187-434 DE V-type ATP synthase alpha chain #=GS A6NZG8/72-114_187-434 DR GENE3D; 025b991057ae974c1159f3f1deceff20/72-114_187-434; #=GS A6NZG8/72-114_187-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Pseudoflavonifractor; Pseudoflavonifractor capillosus; #=GS A6NZG8/72-114_187-434 DR EC; 3.6.3.14; #=GS A0A1C6C7I3/72-114_187-434 AC A0A1C6C7I3 #=GS A0A1C6C7I3/72-114_187-434 OS uncultured Flavonifractor sp. #=GS A0A1C6C7I3/72-114_187-434 DE V-type ATP synthase alpha chain #=GS A0A1C6C7I3/72-114_187-434 DR GENE3D; 025b991057ae974c1159f3f1deceff20/72-114_187-434; #=GS A0A1C6C7I3/72-114_187-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Flavonifractor; uncultured Flavonifractor sp.; #=GS A0A1C6C7I3/72-114_187-434 DR EC; 3.6.3.14; #=GS C0DAB6/72-115_187-436 AC C0DAB6 #=GS C0DAB6/72-115_187-436 OS [Clostridium asparagiforme] DSM 15981 #=GS C0DAB6/72-115_187-436 DE V-type ATP synthase alpha chain #=GS C0DAB6/72-115_187-436 DR GENE3D; 0268374d2da893e8aed9df46021c576d/72-115_187-436; #=GS C0DAB6/72-115_187-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] asparagiforme; #=GS C0DAB6/72-115_187-436 DR EC; 3.6.3.14; #=GS A0A1G3L8E8/73-114_186-435 AC A0A1G3L8E8 #=GS A0A1G3L8E8/73-114_186-435 OS Spirochaetes bacterium GWB1_36_13 #=GS A0A1G3L8E8/73-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A1G3L8E8/73-114_186-435 DR GENE3D; 02ae9ce86be30b08ea9d62934c36dfe7/73-114_186-435; #=GS A0A1G3L8E8/73-114_186-435 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium GWB1_36_13; #=GS A0A1G3L8E8/73-114_186-435 DR EC; 3.6.3.14; #=GS A0A081N536/96-137_210-464 AC A0A081N536 #=GS A0A081N536/96-137_210-464 OS Endozoicomonas montiporae #=GS A0A081N536/96-137_210-464 DE V-type ATP synthase alpha chain #=GS A0A081N536/96-137_210-464 DR GENE3D; 02c3f960461292a2d47b2fb63076507a/96-137_210-464; #=GS A0A081N536/96-137_210-464 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Hahellaceae; Endozoicomonas; Endozoicomonas montiporae; #=GS A0A081N536/96-137_210-464 DR EC; 3.6.3.14; #=GS A0A142BFN8/96-137_210-464 AC A0A142BFN8 #=GS A0A142BFN8/96-137_210-464 OS Endozoicomonas montiporae CL-33 #=GS A0A142BFN8/96-137_210-464 DE V-type ATP synthase alpha chain #=GS A0A142BFN8/96-137_210-464 DR GENE3D; 02c3f960461292a2d47b2fb63076507a/96-137_210-464; #=GS A0A142BFN8/96-137_210-464 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Hahellaceae; Endozoicomonas; Endozoicomonas montiporae; #=GS A0A142BFN8/96-137_210-464 DR EC; 3.6.3.14; #=GS A0A1F0GID5/72-114_187-434 AC A0A1F0GID5 #=GS A0A1F0GID5/72-114_187-434 OS Peptoniphilus sp. HMSC075B08 #=GS A0A1F0GID5/72-114_187-434 DE V-type ATP synthase alpha chain #=GS A0A1F0GID5/72-114_187-434 DR GENE3D; 02c9b30d7670a5fad5ba6e20b31aa09a/72-114_187-434; #=GS A0A1F0GID5/72-114_187-434 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Peptoniphilus; Peptoniphilus sp. HMSC075B08; #=GS A0A1F0GID5/72-114_187-434 DR EC; 3.6.3.14; #=GS X8IEV8/72-114_185-433 AC X8IEV8 #=GS X8IEV8/72-114_185-433 OS Fusobacterium sp. CM1 #=GS X8IEV8/72-114_185-433 DE V-type ATP synthase alpha chain #=GS X8IEV8/72-114_185-433 DR GENE3D; 02eab790190bd5c74b548315ff37f44c/72-114_185-433; #=GS X8IEV8/72-114_185-433 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Fusobacteriaceae; Fusobacterium; Fusobacterium sp. CM1; #=GS X8IEV8/72-114_185-433 DR EC; 3.6.3.14; #=GS A0A174EIR1/72-115_186-435 AC A0A174EIR1 #=GS A0A174EIR1/72-115_186-435 OS [Clostridium] symbiosum #=GS A0A174EIR1/72-115_186-435 DE V-type ATP synthase alpha chain #=GS A0A174EIR1/72-115_186-435 DR GENE3D; 0340455786d4f0aee794c903a4ce84f2/72-115_186-435; #=GS A0A174EIR1/72-115_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] symbiosum; #=GS A0A174EIR1/72-115_186-435 DR EC; 3.6.3.14; #=GS G5FF29/72-115_186-435 AC G5FF29 #=GS G5FF29/72-115_186-435 OS Clostridium sp. 7_3_54FAA #=GS G5FF29/72-115_186-435 DE V-type ATP synthase alpha chain #=GS G5FF29/72-115_186-435 DR GENE3D; 0340455786d4f0aee794c903a4ce84f2/72-115_186-435; #=GS G5FF29/72-115_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium sp. 7_3_54FAA; #=GS G5FF29/72-115_186-435 DR EC; 3.6.3.14; #=GS A0A1C6H3U6/72-115_186-435 AC A0A1C6H3U6 #=GS A0A1C6H3U6/72-115_186-435 OS uncultured Clostridium sp. #=GS A0A1C6H3U6/72-115_186-435 DE V-type ATP synthase alpha chain #=GS A0A1C6H3U6/72-115_186-435 DR GENE3D; 0340455786d4f0aee794c903a4ce84f2/72-115_186-435; #=GS A0A1C6H3U6/72-115_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; uncultured Clostridium sp.; #=GS A0A1C6H3U6/72-115_186-435 DR EC; 3.6.3.14; #=GS E7GI64/72-115_186-435 AC E7GI64 #=GS E7GI64/72-115_186-435 OS [Clostridium] symbiosum WAL-14163 #=GS E7GI64/72-115_186-435 DE V-type ATP synthase alpha chain #=GS E7GI64/72-115_186-435 DR GENE3D; 0340455786d4f0aee794c903a4ce84f2/72-115_186-435; #=GS E7GI64/72-115_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] symbiosum; #=GS E7GI64/72-115_186-435 DR EC; 3.6.3.14; #=GS U2DF78/72-115_186-435 AC U2DF78 #=GS U2DF78/72-115_186-435 OS [Clostridium] symbiosum ATCC 14940 #=GS U2DF78/72-115_186-435 DE V-type ATP synthase alpha chain #=GS U2DF78/72-115_186-435 DR GENE3D; 0340455786d4f0aee794c903a4ce84f2/72-115_186-435; #=GS U2DF78/72-115_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] symbiosum; #=GS U2DF78/72-115_186-435 DR EC; 3.6.3.14; #=GS F4HM98/669-866 AC F4HM98 #=GS F4HM98/669-866 OS Pyrococcus sp. NA2 #=GS F4HM98/669-866 DE V-type ATP synthase alpha chain #=GS F4HM98/669-866 DR GENE3D; 03b4e53f3e468051e23f6569c74e2bfe/669-866; #=GS F4HM98/669-866 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus sp. NA2; #=GS F4HM98/669-866 DR EC; 3.6.3.14; #=GS R0D031/73-115_188-435 AC R0D031 #=GS R0D031/73-115_188-435 OS [Clostridium] clostridioforme 90A6 #=GS R0D031/73-115_188-435 DE V-type ATP synthase alpha chain #=GS R0D031/73-115_188-435 DR GENE3D; 03e614233a2f933b15971572db2228a1/73-115_188-435; #=GS R0D031/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] clostridioforme; #=GS R0D031/73-115_188-435 DR EC; 3.6.3.14; #=GS A0A0E2H6S6/73-115_188-435 AC A0A0E2H6S6 #=GS A0A0E2H6S6/73-115_188-435 OS [Clostridium] clostridioforme 90A8 #=GS A0A0E2H6S6/73-115_188-435 DE V-type ATP synthase alpha chain #=GS A0A0E2H6S6/73-115_188-435 DR GENE3D; 03e614233a2f933b15971572db2228a1/73-115_188-435; #=GS A0A0E2H6S6/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] clostridioforme; #=GS A0A0E2H6S6/73-115_188-435 DR EC; 3.6.3.14; #=GS G6A6R7/72-115_187-436 AC G6A6R7 #=GS G6A6R7/72-115_187-436 OS Streptococcus intermedius F0395 #=GS G6A6R7/72-115_187-436 DE V-type ATP synthase alpha chain #=GS G6A6R7/72-115_187-436 DR GENE3D; 041191834d9febc64c9daaf7616cb359/72-115_187-436; #=GS G6A6R7/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus anginosus group; Streptococcus intermedius; #=GS G6A6R7/72-115_187-436 DR EC; 3.6.3.14; #=GS I0S7D8/72-115_187-436 AC I0S7D8 #=GS I0S7D8/72-115_187-436 OS Streptococcus constellatus subsp. constellatus SK53 #=GS I0S7D8/72-115_187-436 DE V-type ATP synthase alpha chain #=GS I0S7D8/72-115_187-436 DR GENE3D; 041191834d9febc64c9daaf7616cb359/72-115_187-436; #=GS I0S7D8/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus anginosus group; Streptococcus constellatus; Streptococcus constellatus subsp. constellatus; #=GS I0S7D8/72-115_187-436 DR EC; 3.6.3.14; #=GS A0A151E501/76-118_190-439 AC A0A151E501 #=GS A0A151E501/76-118_190-439 OS Thermoplasmatales archaeon SG8-52-2 #=GS A0A151E501/76-118_190-439 DE V-type ATP synthase alpha chain #=GS A0A151E501/76-118_190-439 DR GENE3D; 048002a07f629de2ced7517399e70abe/76-118_190-439; #=GS A0A151E501/76-118_190-439 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SG8-52-2; #=GS A0A151E501/76-118_190-439 DR EC; 3.6.3.14; #=GS A0A0X8V926/72-114_186-435 AC A0A0X8V926 #=GS A0A0X8V926/72-114_186-435 OS [Clostridium] propionicum DSM 1682 #=GS A0A0X8V926/72-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A0X8V926/72-114_186-435 DR GENE3D; 04a980fb3be3a179ceecbe5532c76961/72-114_186-435; #=GS A0A0X8V926/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Tyzzerella; [Clostridium] propionicum; #=GS A0A0X8V926/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A0C1U5V8/72-115_186-435 AC A0A0C1U5V8 #=GS A0A0C1U5V8/72-115_186-435 OS Clostridium argentinense CDC 2741 #=GS A0A0C1U5V8/72-115_186-435 DE V-type ATP synthase alpha chain #=GS A0A0C1U5V8/72-115_186-435 DR GENE3D; 04b875720983fa032a5570e32fd685e0/72-115_186-435; #=GS A0A0C1U5V8/72-115_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium argentinense; #=GS A0A0C1U5V8/72-115_186-435 DR EC; 3.6.3.14; #=GS A0A0A7FT31/72-115_186-435 AC A0A0A7FT31 #=GS A0A0A7FT31/72-115_186-435 OS Clostridium baratii str. Sullivan #=GS A0A0A7FT31/72-115_186-435 DE V-type ATP synthase alpha chain #=GS A0A0A7FT31/72-115_186-435 DR GENE3D; 05060b64f95adae7490d5b628b5a2bd5/72-115_186-435; #=GS A0A0A7FT31/72-115_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium baratii; #=GS A0A0A7FT31/72-115_186-435 DR EC; 3.6.3.14; #=GS A0A101E5Y3/72-114_186-435 AC A0A101E5Y3 #=GS A0A101E5Y3/72-114_186-435 OS Caldanaerobacter subterraneus #=GS A0A101E5Y3/72-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A101E5Y3/72-114_186-435 DR GENE3D; 05293abded7535e756a62893d6bccc40/72-114_186-435; #=GS A0A101E5Y3/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Thermoanaerobacterales; Thermoanaerobacteraceae; Caldanaerobacter; Caldanaerobacter subterraneus; #=GS A0A101E5Y3/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A1D2RGW9/74-116_188-437 AC A0A1D2RGW9 #=GS A0A1D2RGW9/74-116_188-437 OS Candidatus Altiarchaeales archaeon IMC4 #=GS A0A1D2RGW9/74-116_188-437 DE V-type ATP synthase alpha chain #=GS A0A1D2RGW9/74-116_188-437 DR GENE3D; 05370153839ed76b2052676bb735143b/74-116_188-437; #=GS A0A1D2RGW9/74-116_188-437 DR ORG; Archaea; Euryarchaeota; Candidatus Altiarchaeales; Candidatus Altiarchaeales archaeon IMC4; #=GS A0A1D2RGW9/74-116_188-437 DR EC; 3.6.3.14; #=GS A6BFA3/49-91_164-411 AC A6BFA3 #=GS A6BFA3/49-91_164-411 OS Dorea longicatena DSM 13814 #=GS A6BFA3/49-91_164-411 DE V-type ATP synthase alpha chain #=GS A6BFA3/49-91_164-411 DR GENE3D; 056bf91b1251b8e81c352f5505f1e495/49-91_164-411; #=GS A6BFA3/49-91_164-411 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Dorea; Dorea longicatena; #=GS A6BFA3/49-91_164-411 DR EC; 3.6.3.14; #=GS A0A1F0RC79/72-115_187-436 AC A0A1F0RC79 #=GS A0A1F0RC79/72-115_187-436 OS Streptococcus sp. HMSC056D07 #=GS A0A1F0RC79/72-115_187-436 DE V-type ATP synthase alpha chain #=GS A0A1F0RC79/72-115_187-436 DR GENE3D; 056efd0f83fea6acf7b7b34fc962dfc4/72-115_187-436; #=GS A0A1F0RC79/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus sp. HMSC056D07; #=GS A0A1F0RC79/72-115_187-436 DR EC; 3.6.3.14; #=GS A7VGZ1/72-114_185-434 AC A7VGZ1 #=GS A7VGZ1/72-114_185-434 OS Clostridium sp. L2-50 #=GS A7VGZ1/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A7VGZ1/72-114_185-434 DR GENE3D; 057c6bb419dfd1030dbfb7b7848a77a4/72-114_185-434; #=GS A7VGZ1/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium sp. L2-50; #=GS A7VGZ1/72-114_185-434 DR EC; 3.6.3.14; #=GS T0TPH1/72-115_187-436 AC T0TPH1 #=GS T0TPH1/72-115_187-436 OS Streptococcus sp. HSISM1 #=GS T0TPH1/72-115_187-436 DE V-type ATP synthase alpha chain #=GS T0TPH1/72-115_187-436 DR GENE3D; 057f08d71def6ec92b4e6f9b3db55a26/72-115_187-436; #=GS T0TPH1/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus sp. HSISM1; #=GS T0TPH1/72-115_187-436 DR EC; 3.6.3.14; #=GS I2NQZ6/72-115_187-436 AC I2NQZ6 #=GS I2NQZ6/72-115_187-436 OS Streptococcus parasanguinis F0449 #=GS I2NQZ6/72-115_187-436 DE V-type ATP synthase alpha chain #=GS I2NQZ6/72-115_187-436 DR GENE3D; 057f08d71def6ec92b4e6f9b3db55a26/72-115_187-436; #=GS I2NQZ6/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus parasanguinis; #=GS I2NQZ6/72-115_187-436 DR EC; 3.6.3.14; #=GS S4CUU7/80-123_194-443 AC S4CUU7 #=GS S4CUU7/80-123_194-443 OS Enterococcus faecalis 13-SD-W-01 #=GS S4CUU7/80-123_194-443 DE V-type ATP synthase alpha chain #=GS S4CUU7/80-123_194-443 DR GENE3D; 058c201204265be6fc424abcab7614b0/80-123_194-443; #=GS S4CUU7/80-123_194-443 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus faecalis; #=GS S4CUU7/80-123_194-443 DR EC; 3.6.3.14; #=GS V4K248/73-122_197-446 AC V4K248 #=GS V4K248/73-122_197-446 OS uncultured Acidilobus sp. MG #=GS V4K248/73-122_197-446 DE V-type ATP synthase alpha chain #=GS V4K248/73-122_197-446 DR GENE3D; 059b67e6fa9f6544c6d705224b893a6b/73-122_197-446; #=GS V4K248/73-122_197-446 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Acidilobales; Acidilobaceae; Acidilobus; uncultured Acidilobus sp. MG; #=GS V4K248/73-122_197-446 DR EC; 3.6.3.14; #=GS U2CYZ7/73-115_189-436 AC U2CYZ7 #=GS U2CYZ7/73-115_189-436 OS Blautia sp. KLE 1732 #=GS U2CYZ7/73-115_189-436 DE V-type ATP synthase alpha chain #=GS U2CYZ7/73-115_189-436 DR GENE3D; 05c7ca3fca1b9bc6da9eedf41022f4d2/73-115_189-436; #=GS U2CYZ7/73-115_189-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Blautia; Blautia sp. KLE 1732; #=GS U2CYZ7/73-115_189-436 DR EC; 3.6.3.14; #=GS A0A0H5E466/83-131_208-452 AC A0A0H5E466 #=GS A0A0H5E466/83-131_208-452 OS Estrella lausannensis #=GS A0A0H5E466/83-131_208-452 DE V-type ATP synthase alpha chain #=GS A0A0H5E466/83-131_208-452 DR GENE3D; 05fe52620c2cf265db1e4d3b44fd6ea0/83-131_208-452; #=GS A0A0H5E466/83-131_208-452 DR ORG; Bacteria; Chlamydiae; Chlamydiia; Parachlamydiales; Criblamydiaceae; Estrella; Estrella lausannensis; #=GS A0A0H5E466/83-131_208-452 DR EC; 3.6.3.14; #=GS W0E3E1/95-136_209-463 AC W0E3E1 #=GS W0E3E1/95-136_209-463 OS Marichromatium purpuratum 984 #=GS W0E3E1/95-136_209-463 DE V-type ATP synthase alpha chain #=GS W0E3E1/95-136_209-463 DR GENE3D; 061b735da3aa1c3042ef44357fcc9ada/95-136_209-463; #=GS W0E3E1/95-136_209-463 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Marichromatium; Marichromatium purpuratum; #=GS W0E3E1/95-136_209-463 DR EC; 3.6.3.14; #=GS A0A1B2I4M3/77-120_192-441 AC A0A1B2I4M3 #=GS A0A1B2I4M3/77-120_192-441 OS Cloacibacillus porcorum #=GS A0A1B2I4M3/77-120_192-441 DE V-type ATP synthase alpha chain #=GS A0A1B2I4M3/77-120_192-441 DR GENE3D; 06239850052ac167c2b00db09d4dc977/77-120_192-441; #=GS A0A1B2I4M3/77-120_192-441 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistaceae; Cloacibacillus; Cloacibacillus porcorum; #=GS A0A1B2I4M3/77-120_192-441 DR EC; 3.6.3.14; #=GS A0A151ETS2/76-118_190-439 AC A0A151ETS2 #=GS A0A151ETS2/76-118_190-439 OS Thermoplasmatales archaeon SG8-52-3 #=GS A0A151ETS2/76-118_190-439 DE V-type ATP synthase alpha chain #=GS A0A151ETS2/76-118_190-439 DR GENE3D; 062852f635ef07ddd64918921e412ee4/76-118_190-439; #=GS A0A151ETS2/76-118_190-439 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SG8-52-3; #=GS A0A151ETS2/76-118_190-439 DR EC; 3.6.3.14; #=GS S4B3H4/72-115_186-434 AC S4B3H4 #=GS S4B3H4/72-115_186-434 OS Enterococcus casseliflavus 14-MB-W-14 #=GS S4B3H4/72-115_186-434 DE V-type ATP synthase alpha chain #=GS S4B3H4/72-115_186-434 DR GENE3D; 062fbf3468b9c352d2d537e214014012/72-115_186-434; #=GS S4B3H4/72-115_186-434 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus casseliflavus; #=GS S4B3H4/72-115_186-434 DR EC; 3.6.3.14; #=GS A0A134AKE2/73-115_188-435 AC A0A134AKE2 #=GS A0A134AKE2/73-115_188-435 OS Peptoniphilus coxii #=GS A0A134AKE2/73-115_188-435 DE V-type ATP synthase alpha chain #=GS A0A134AKE2/73-115_188-435 DR GENE3D; 0646bed69f4ab43822859cd34780a4dc/73-115_188-435; #=GS A0A134AKE2/73-115_188-435 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Peptoniphilus; Peptoniphilus coxii; #=GS A0A134AKE2/73-115_188-435 DR EC; 3.6.3.14; #=GS B3T375/72-114_184-433 AC B3T375 #=GS B3T375/72-114_184-433 OS uncultured marine crenarchaeote HF4000_ANIW97J3 #=GS B3T375/72-114_184-433 DE V-type ATP synthase alpha chain #=GS B3T375/72-114_184-433 DR GENE3D; 06a4ab681ccfa7b0363da456b2921f16/72-114_184-433; #=GS B3T375/72-114_184-433 DR ORG; Archaea; Thaumarchaeota; Nitrosopumilales; uncultured marine crenarchaeote HF4000_ANIW97J3; #=GS B3T375/72-114_184-433 DR EC; 3.6.3.14; #=GS H1KWT7/72-115_187-436 AC H1KWT7 #=GS H1KWT7/72-115_187-436 OS Methanotorris formicicus Mc-S-70 #=GS H1KWT7/72-115_187-436 DE V-type ATP synthase alpha chain #=GS H1KWT7/72-115_187-436 DR GENE3D; 06a674eda730d4f001f5ccd96ae436df/72-115_187-436; #=GS H1KWT7/72-115_187-436 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanotorris; Methanotorris formicicus; #=GS H1KWT7/72-115_187-436 DR EC; 3.6.3.14; #=GS A0A1D2W8T9/72-114_186-435 AC A0A1D2W8T9 #=GS A0A1D2W8T9/72-114_186-435 OS Methanobacterium sp. A39 #=GS A0A1D2W8T9/72-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A1D2W8T9/72-114_186-435 DR GENE3D; 06c26f824b95e45c39a9c3535b5c595a/72-114_186-435; #=GS A0A1D2W8T9/72-114_186-435 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. A39; #=GS A0A1D2W8T9/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A0H5SFD0/72-114_186-435 AC A0A0H5SFD0 #=GS A0A0H5SFD0/72-114_186-435 OS Herbinix hemicellulosilytica #=GS A0A0H5SFD0/72-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A0H5SFD0/72-114_186-435 DR GENE3D; 06e4b5924e15e9e22dbc294c7486a3b2/72-114_186-435; #=GS A0A0H5SFD0/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Herbinix; Herbinix hemicellulosilytica; #=GS A0A0H5SFD0/72-114_186-435 DR EC; 3.6.3.14; #=GS B5CXA7/76-114_188-436 AC B5CXA7 #=GS B5CXA7/76-114_188-436 OS Bacteroides plebeius DSM 17135 #=GS B5CXA7/76-114_188-436 DE V-type ATP synthase alpha chain #=GS B5CXA7/76-114_188-436 DR GENE3D; 06ea227b0f432c37d1ca0196f8819f14/76-114_188-436; #=GS B5CXA7/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides plebeius; #=GS B5CXA7/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A0S7Z7B7/72-108_179-426 AC A0A0S7Z7B7 #=GS A0A0S7Z7B7/72-108_179-426 OS Gammaproteobacteria bacterium SG8_30 #=GS A0A0S7Z7B7/72-108_179-426 DE V-type ATP synthase alpha chain #=GS A0A0S7Z7B7/72-108_179-426 DR GENE3D; 0716f2c9d5acba004e9885615b58a26e/72-108_179-426; #=GS A0A0S7Z7B7/72-108_179-426 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium SG8_30; #=GS A0A0S7Z7B7/72-108_179-426 DR EC; 3.6.3.14; #=GS A0A109Y677/72-115_186-434 AC A0A109Y677 #=GS A0A109Y677/72-115_186-434 OS Enterococcus gallinarum #=GS A0A109Y677/72-115_186-434 DE V-type ATP synthase alpha chain #=GS A0A109Y677/72-115_186-434 DR GENE3D; 07250b715688b393243e24ca3c1f6c1e/72-115_186-434; #=GS A0A109Y677/72-115_186-434 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus gallinarum; #=GS A0A109Y677/72-115_186-434 DR EC; 3.6.3.14; #=GS S4CK55/72-115_186-434 AC S4CK55 #=GS S4CK55/72-115_186-434 OS Enterococcus faecalis 06-MB-DW-09 #=GS S4CK55/72-115_186-434 DE V-type ATP synthase alpha chain #=GS S4CK55/72-115_186-434 DR GENE3D; 07250b715688b393243e24ca3c1f6c1e/72-115_186-434; #=GS S4CK55/72-115_186-434 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus faecalis; #=GS S4CK55/72-115_186-434 DR EC; 3.6.3.14; #=GS A0A1L8VLW2/72-115_186-435 AC A0A1L8VLW2 #=GS A0A1L8VLW2/72-115_186-435 OS Enterococcus phoeniculicola #=GS A0A1L8VLW2/72-115_186-435 DE V-type sodium ATPase catalytic subunit A #=GS A0A1L8VLW2/72-115_186-435 DR GENE3D; 07435d84b11e77b943bacdcac8447d35/72-115_186-435; #=GS A0A1L8VLW2/72-115_186-435 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus phoeniculicola; #=GS A0A1L8VLW2/72-115_186-435 DR EC; 3.6.3.14; #=GS R3TMF3/72-115_186-435 AC R3TMF3 #=GS R3TMF3/72-115_186-435 OS Enterococcus phoeniculicola ATCC BAA-412 #=GS R3TMF3/72-115_186-435 DE V-type ATP synthase alpha chain #=GS R3TMF3/72-115_186-435 DR GENE3D; 07435d84b11e77b943bacdcac8447d35/72-115_186-435; #=GS R3TMF3/72-115_186-435 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus phoeniculicola; #=GS R3TMF3/72-115_186-435 DR EC; 3.6.3.14; #=GS A0A0F2CBZ3/72-115_187-436 AC A0A0F2CBZ3 #=GS A0A0F2CBZ3/72-115_187-436 OS Streptococcus gordonii #=GS A0A0F2CBZ3/72-115_187-436 DE V-type ATP synthase alpha chain #=GS A0A0F2CBZ3/72-115_187-436 DR GENE3D; 0751996eb3c1d339a10a328f74612601/72-115_187-436; #=GS A0A0F2CBZ3/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus gordonii; #=GS A0A0F2CBZ3/72-115_187-436 DR EC; 3.6.3.14; #=GS A0A174KS97/72-114_187-434 AC A0A174KS97 #=GS A0A174KS97/72-114_187-434 OS Roseburia hominis #=GS A0A174KS97/72-114_187-434 DE V-type ATP synthase alpha chain #=GS A0A174KS97/72-114_187-434 DR GENE3D; 07670a1195a64e2e5a60d38912ec4c3a/72-114_187-434; #=GS A0A174KS97/72-114_187-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Roseburia; Roseburia hominis; #=GS A0A174KS97/72-114_187-434 DR EC; 3.6.3.14; #=GS A0A174J6I1/72-114_187-434 AC A0A174J6I1 #=GS A0A174J6I1/72-114_187-434 OS Catenibacterium mitsuokai #=GS A0A174J6I1/72-114_187-434 DE V-type ATP synthase alpha chain #=GS A0A174J6I1/72-114_187-434 DR GENE3D; 07670a1195a64e2e5a60d38912ec4c3a/72-114_187-434; #=GS A0A174J6I1/72-114_187-434 DR ORG; Bacteria; Firmicutes; Erysipelotrichia; Erysipelotrichales; Erysipelotrichaceae; Catenibacterium; Catenibacterium mitsuokai; #=GS A0A174J6I1/72-114_187-434 DR EC; 3.6.3.14; #=GS A0A0P1E7U7/98-139_212-466 AC A0A0P1E7U7 #=GS A0A0P1E7U7/98-139_212-466 OS Ruegeria atlantica #=GS A0A0P1E7U7/98-139_212-466 DE V-type ATP synthase alpha chain #=GS A0A0P1E7U7/98-139_212-466 DR GENE3D; 0781b6c34d6d0f2b50489375c8ee4fb7/98-139_212-466; #=GS A0A0P1E7U7/98-139_212-466 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ruegeria; Ruegeria atlantica; #=GS A0A0P1E7U7/98-139_212-466 DR EC; 3.6.3.14; #=GS A4HB86/83-126_199-450 AC A4HB86 #=GS A4HB86/83-126_199-450 OS Leishmania braziliensis #=GS A4HB86/83-126_199-450 DE Contig, possible fusion of chromosomes 20 and 34 #=GS A4HB86/83-126_199-450 DR GENE3D; 07b4b3a7288e22e8f34d6f8cd911b41b/83-126_199-450; #=GS A4HB86/83-126_199-450 DR ORG; Eukaryota; Kinetoplastida; Trypanosomatidae; Leishmaniinae; Leishmania; Viannia; Leishmania braziliensis species complex; Leishmania braziliensis; #=GS A4HB86/83-126_199-450 DR EC; 3.6.3.14; #=GS F0LJM9/70-112_185-434 AC F0LJM9 #=GS F0LJM9/70-112_185-434 OS Thermococcus barophilus MP #=GS F0LJM9/70-112_185-434 DE V-type ATP synthase alpha chain #=GS F0LJM9/70-112_185-434 DR GENE3D; 07cb1765d1b91abce08d74b2cc59d4a7/70-112_185-434; #=GS F0LJM9/70-112_185-434 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus barophilus; #=GS F0LJM9/70-112_185-434 DR EC; 3.6.3.14; #=GS A0A024X524/80-123_198-449 AC A0A024X524 #=GS A0A024X524/80-123_198-449 OS Plasmodium falciparum CAMP/Malaysia #=GS A0A024X524/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS A0A024X524/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS A0A024X524/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS A0A024X524/80-123_198-449 DR EC; 3.6.3.14; #=GS W7JJ39/80-123_198-449 AC W7JJ39 #=GS W7JJ39/80-123_198-449 OS Plasmodium falciparum UGT5.1 #=GS W7JJ39/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS W7JJ39/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS W7JJ39/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS W7JJ39/80-123_198-449 DR EC; 3.6.3.14; #=GS A0A024VW17/80-123_198-449 AC A0A024VW17 #=GS A0A024VW17/80-123_198-449 OS Plasmodium falciparum Tanzania (2000708) #=GS A0A024VW17/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS A0A024VW17/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS A0A024VW17/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS A0A024VW17/80-123_198-449 DR EC; 3.6.3.14; #=GS W4IB19/80-123_198-449 AC W4IB19 #=GS W4IB19/80-123_198-449 OS Plasmodium falciparum NF135/5.C10 #=GS W4IB19/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS W4IB19/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS W4IB19/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS W4IB19/80-123_198-449 DR EC; 3.6.3.14; #=GS A0A0L1I7N0/80-123_198-449 AC A0A0L1I7N0 #=GS A0A0L1I7N0/80-123_198-449 OS Plasmodium falciparum IGH-CR14 #=GS A0A0L1I7N0/80-123_198-449 DE Vacuolar ATPase #=GS A0A0L1I7N0/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS A0A0L1I7N0/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS A0A0L1I7N0/80-123_198-449 DR EC; 3.6.3.14; #=GS A0A024V4K7/80-123_198-449 AC A0A024V4K7 #=GS A0A024V4K7/80-123_198-449 OS Plasmodium falciparum Vietnam Oak-Knoll (FVO) #=GS A0A024V4K7/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS A0A024V4K7/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS A0A024V4K7/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS A0A024V4K7/80-123_198-449 DR EC; 3.6.3.14; #=GS A0A0L0CU30/80-123_198-449 AC A0A0L0CU30 #=GS A0A0L0CU30/80-123_198-449 OS Plasmodium falciparum RAJ116 #=GS A0A0L0CU30/80-123_198-449 DE Vacuolar ATPase #=GS A0A0L0CU30/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS A0A0L0CU30/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS A0A0L0CU30/80-123_198-449 DR EC; 3.6.3.14; #=GS W4IXS0/80-123_198-449 AC W4IXS0 #=GS W4IXS0/80-123_198-449 OS Plasmodium falciparum Palo Alto/Uganda #=GS W4IXS0/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS W4IXS0/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS W4IXS0/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS W4IXS0/80-123_198-449 DR EC; 3.6.3.14; #=GS W7FQ27/80-123_198-449 AC W7FQ27 #=GS W7FQ27/80-123_198-449 OS Plasmodium falciparum Santa Lucia #=GS W7FQ27/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS W7FQ27/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS W7FQ27/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS W7FQ27/80-123_198-449 DR EC; 3.6.3.14; #=GS A0A024WMA2/80-123_198-449 AC A0A024WMA2 #=GS A0A024WMA2/80-123_198-449 OS Plasmodium falciparum MaliPS096_E11 #=GS A0A024WMA2/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS A0A024WMA2/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS A0A024WMA2/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS A0A024WMA2/80-123_198-449 DR EC; 3.6.3.14; #=GS A0A060RWQ0/80-123_198-449 AC A0A060RWQ0 #=GS A0A060RWQ0/80-123_198-449 OS Plasmodium reichenowi #=GS A0A060RWQ0/80-123_198-449 DE Vacuolar ATP synthase subunit a #=GS A0A060RWQ0/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS A0A060RWQ0/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium reichenowi; #=GS A0A060RWQ0/80-123_198-449 DR EC; 3.6.3.14; #=GS W7EWW3/80-123_198-449 AC W7EWW3 #=GS W7EWW3/80-123_198-449 OS Plasmodium falciparum 7G8 #=GS W7EWW3/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS W7EWW3/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS W7EWW3/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS W7EWW3/80-123_198-449 DR EC; 3.6.3.14; #=GS A0A0L7KB49/80-123_198-449 AC A0A0L7KB49 #=GS A0A0L7KB49/80-123_198-449 OS Plasmodium falciparum HB3 #=GS A0A0L7KB49/80-123_198-449 DE Vacuolar ATP synthase #=GS A0A0L7KB49/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS A0A0L7KB49/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS A0A0L7KB49/80-123_198-449 DR EC; 3.6.3.14; #=GS Q03498/80-123_198-449 AC Q03498 #=GS Q03498/80-123_198-449 OS Plasmodium falciparum #=GS Q03498/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS Q03498/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS Q03498/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS Q03498/80-123_198-449 DR EC; 3.6.3.14; #=GS A0A0L7LWG2/80-123_198-449 AC A0A0L7LWG2 #=GS A0A0L7LWG2/80-123_198-449 OS Plasmodium falciparum Dd2 #=GS A0A0L7LWG2/80-123_198-449 DE Vacuolar ATP synthase catalytic subunit A #=GS A0A0L7LWG2/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS A0A0L7LWG2/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS A0A0L7LWG2/80-123_198-449 DR EC; 3.6.3.14; #=GS W7JQK8/80-123_198-449 AC W7JQK8 #=GS W7JQK8/80-123_198-449 OS Plasmodium falciparum NF54 #=GS W7JQK8/80-123_198-449 DE V-type proton ATPase catalytic subunit A #=GS W7JQK8/80-123_198-449 DR GENE3D; 07eec1bc0e58e31a016271780f9c8aec/80-123_198-449; #=GS W7JQK8/80-123_198-449 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Haemosporida; Plasmodiidae; Plasmodium; Plasmodium (Laverania); Plasmodium falciparum; #=GS W7JQK8/80-123_198-449 DR EC; 3.6.3.14; #=GS A0A174SDU5/74-114_187-434 AC A0A174SDU5 #=GS A0A174SDU5/74-114_187-434 OS Anaerotruncus colihominis #=GS A0A174SDU5/74-114_187-434 DE V-type ATP synthase alpha chain #=GS A0A174SDU5/74-114_187-434 DR GENE3D; 086f20bbb299b1da01ba4430a85fcbc4/74-114_187-434; #=GS A0A174SDU5/74-114_187-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Anaerotruncus; Anaerotruncus colihominis; #=GS A0A174SDU5/74-114_187-434 DR EC; 3.6.3.14; #=GS A0A133V6V9/70-112_185-434 AC A0A133V6V9 #=GS A0A133V6V9/70-112_185-434 OS candidate divison MSBL1 archaeon SCGC-AAA261F17 #=GS A0A133V6V9/70-112_185-434 DE V-type ATP synthase alpha chain #=GS A0A133V6V9/70-112_185-434 DR GENE3D; 089eeaab470a5db3407d4d43072affa2/70-112_185-434; #=GS A0A133V6V9/70-112_185-434 DR ORG; Archaea; Euryarchaeota; candidate divison MSBL1 archaeon SCGC-AAA261F17; #=GS A0A133V6V9/70-112_185-434 DR EC; 3.6.3.14; #=GS U7SLP8/72-114_185-433 AC U7SLP8 #=GS U7SLP8/72-114_185-433 OS Fusobacterium nucleatum CTI-5 #=GS U7SLP8/72-114_185-433 DE V-type ATP synthase alpha chain #=GS U7SLP8/72-114_185-433 DR GENE3D; 08a5c4519aa45703d49fdab097ef8462/72-114_185-433; #=GS U7SLP8/72-114_185-433 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Fusobacteriaceae; Fusobacterium; Fusobacterium nucleatum; #=GS U7SLP8/72-114_185-433 DR EC; 3.6.3.14; #=GS R5B4K6/73-115_187-437 AC R5B4K6 #=GS R5B4K6/73-115_187-437 OS Firmicutes bacterium CAG:103 #=GS R5B4K6/73-115_187-437 DE V-type ATP synthase alpha chain #=GS R5B4K6/73-115_187-437 DR GENE3D; 08c9b06012a7e58b886f2eec73bd9c43/73-115_187-437; #=GS R5B4K6/73-115_187-437 DR ORG; Bacteria; Firmicutes; Firmicutes bacterium CAG:103; #=GS R5B4K6/73-115_187-437 DR EC; 3.6.3.14; #=GS F2BP38/99-142_214-463 AC F2BP38 #=GS F2BP38/99-142_214-463 OS Streptococcus sanguinis SK1057 #=GS F2BP38/99-142_214-463 DE V-type ATP synthase alpha chain #=GS F2BP38/99-142_214-463 DR GENE3D; 08ef3baf681f344b0e25923898bc29e9/99-142_214-463; #=GS F2BP38/99-142_214-463 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus sanguinis; #=GS F2BP38/99-142_214-463 DR EC; 3.6.3.14; #=GS A9AAQ4/72-115_186-435 AC A9AAQ4 #=GS A9AAQ4/72-115_186-435 OS Methanococcus maripaludis C6 #=GS A9AAQ4/72-115_186-435 DE V-type ATP synthase alpha chain #=GS A9AAQ4/72-115_186-435 DR GENE3D; 0976e59edb063144132a52715226d736/72-115_186-435; #=GS A9AAQ4/72-115_186-435 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS A9AAQ4/72-115_186-435 DR EC; 3.6.3.14; #=GS A8RJ11/73-115_188-435 AC A8RJ11 #=GS A8RJ11/73-115_188-435 OS [Clostridium] bolteae ATCC BAA-613 #=GS A8RJ11/73-115_188-435 DE V-type ATP synthase alpha chain #=GS A8RJ11/73-115_188-435 DR GENE3D; 09da283897fb1ec3a43ba3c0bf459ddc/73-115_188-435; #=GS A8RJ11/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] bolteae; #=GS A8RJ11/73-115_188-435 DR EC; 3.6.3.14; #=GS R0A2M6/73-115_188-435 AC R0A2M6 #=GS R0A2M6/73-115_188-435 OS [Clostridium] bolteae 90B8 #=GS R0A2M6/73-115_188-435 DE V-type ATP synthase alpha chain #=GS R0A2M6/73-115_188-435 DR GENE3D; 09da283897fb1ec3a43ba3c0bf459ddc/73-115_188-435; #=GS R0A2M6/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] bolteae; #=GS R0A2M6/73-115_188-435 DR EC; 3.6.3.14; #=GS E0NNU4/72-114_187-434 AC E0NNU4 #=GS E0NNU4/72-114_187-434 OS Peptoniphilus duerdenii ATCC BAA-1640 #=GS E0NNU4/72-114_187-434 DE V-type ATP synthase alpha chain #=GS E0NNU4/72-114_187-434 DR GENE3D; 09f761187fb7631ca78be02ba08bd273/72-114_187-434; #=GS E0NNU4/72-114_187-434 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Peptoniphilus; Peptoniphilus duerdenii; #=GS E0NNU4/72-114_187-434 DR EC; 3.6.3.14; #=GS R6AFQ1/76-114_188-436 AC R6AFQ1 #=GS R6AFQ1/76-114_188-436 OS Bacteroides stercoris CAG:120 #=GS R6AFQ1/76-114_188-436 DE V-type ATP synthase alpha chain #=GS R6AFQ1/76-114_188-436 DR GENE3D; 0a08a8a0af095bf4c05f60695d92a6b5/76-114_188-436; #=GS R6AFQ1/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides stercoris CAG:120; #=GS R6AFQ1/76-114_188-436 DR EC; 3.6.3.14; #=GS S3YGF1/76-114_188-436 AC S3YGF1 #=GS S3YGF1/76-114_188-436 OS Bacteroides stercoris CC31F #=GS S3YGF1/76-114_188-436 DE V-type ATP synthase alpha chain #=GS S3YGF1/76-114_188-436 DR GENE3D; 0a08a8a0af095bf4c05f60695d92a6b5/76-114_188-436; #=GS S3YGF1/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides stercoris; #=GS S3YGF1/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A108T5A1/76-114_188-436 AC A0A108T5A1 #=GS A0A108T5A1/76-114_188-436 OS Bacteroides stercoris #=GS A0A108T5A1/76-114_188-436 DE V-type ATP synthase alpha chain #=GS A0A108T5A1/76-114_188-436 DR GENE3D; 0a08a8a0af095bf4c05f60695d92a6b5/76-114_188-436; #=GS A0A108T5A1/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides stercoris; #=GS A0A108T5A1/76-114_188-436 DR EC; 3.6.3.14; #=GS B0NTP4/76-114_188-436 AC B0NTP4 #=GS B0NTP4/76-114_188-436 OS Bacteroides stercoris ATCC 43183 #=GS B0NTP4/76-114_188-436 DE V-type ATP synthase alpha chain #=GS B0NTP4/76-114_188-436 DR GENE3D; 0a08a8a0af095bf4c05f60695d92a6b5/76-114_188-436; #=GS B0NTP4/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides stercoris; #=GS B0NTP4/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A1C5R258/73-115_189-436 AC A0A1C5R258 #=GS A0A1C5R258/73-115_189-436 OS uncultured Blautia sp. #=GS A0A1C5R258/73-115_189-436 DE V-type ATP synthase alpha chain #=GS A0A1C5R258/73-115_189-436 DR GENE3D; 0a107440f89491e7ca3c2a2271804d0c/73-115_189-436; #=GS A0A1C5R258/73-115_189-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Blautia; uncultured Blautia sp.; #=GS A0A1C5R258/73-115_189-436 DR EC; 3.6.3.14; #=GS A0A0D5C0N7/73-115_188-437 AC A0A0D5C0N7 #=GS A0A0D5C0N7/73-115_188-437 OS Candidatus Nitrosopumilus adriaticus #=GS A0A0D5C0N7/73-115_188-437 DE V-type ATP synthase alpha chain #=GS A0A0D5C0N7/73-115_188-437 DR GENE3D; 0a1d34a09b28731ba2dd6b72e79a5075/73-115_188-437; #=GS A0A0D5C0N7/73-115_188-437 DR ORG; Archaea; Thaumarchaeota; Nitrosopumilales; Nitrosopumilaceae; Nitrosopumilus; Candidatus Nitrosopumilus adriaticus; #=GS A0A0D5C0N7/73-115_188-437 DR EC; 3.6.3.14; #=GS A0A1G3Q678/77-120_192-442 AC A0A1G3Q678 #=GS A0A1G3Q678/77-120_192-442 OS Spirochaetes bacterium GWF1_49_6 #=GS A0A1G3Q678/77-120_192-442 DE V-type ATP synthase alpha chain #=GS A0A1G3Q678/77-120_192-442 DR GENE3D; 0a33e97bc5f834fde24cbaf708d41933/77-120_192-442; #=GS A0A1G3Q678/77-120_192-442 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium GWF1_49_6; #=GS A0A1G3Q678/77-120_192-442 DR EC; 3.6.3.14; #=GS A0A134AX74/83-121_195-443 AC A0A134AX74 #=GS A0A134AX74/83-121_195-443 OS Porphyromonadaceae bacterium KA00676 #=GS A0A134AX74/83-121_195-443 DE V-type ATP synthase alpha chain #=GS A0A134AX74/83-121_195-443 DR GENE3D; 0a6c5867b24ed59fb13101f6e31c3525/83-121_195-443; #=GS A0A134AX74/83-121_195-443 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Porphyromonadaceae bacterium KA00676; #=GS A0A134AX74/83-121_195-443 DR EC; 3.6.3.14; #=GS A0A134B2Y3/83-121_195-443 AC A0A134B2Y3 #=GS A0A134B2Y3/83-121_195-443 OS Porphyromonas somerae #=GS A0A134B2Y3/83-121_195-443 DE V-type ATP synthase alpha chain #=GS A0A134B2Y3/83-121_195-443 DR GENE3D; 0a6c5867b24ed59fb13101f6e31c3525/83-121_195-443; #=GS A0A134B2Y3/83-121_195-443 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Porphyromonas; Porphyromonas somerae; #=GS A0A134B2Y3/83-121_195-443 DR EC; 3.6.3.14; #=GS B4MWL7/85-128_201-452 AC B4MWL7 #=GS B4MWL7/85-128_201-452 OS Drosophila willistoni #=GS B4MWL7/85-128_201-452 DE Uncharacterized protein #=GS B4MWL7/85-128_201-452 DR GENE3D; 0aa6332e6984cab9ff16eea29df63e6d/85-128_201-452; #=GS B4MWL7/85-128_201-452 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 B4MWL7/85-128_201-452 DR EC; 3.6.3.14; #=GS A0A0U3P1S8/72-115_187-436 AC A0A0U3P1S8 #=GS A0A0U3P1S8/72-115_187-436 OS Carnobacterium sp. CP1 #=GS A0A0U3P1S8/72-115_187-436 DE V-type ATP synthase alpha chain #=GS A0A0U3P1S8/72-115_187-436 DR GENE3D; 0abafd968b8a0dc8683aaf3cf1e09d66/72-115_187-436; #=GS A0A0U3P1S8/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Carnobacteriaceae; Carnobacterium; Carnobacterium sp. CP1; #=GS A0A0U3P1S8/72-115_187-436 DR EC; 3.6.3.14; #=GS T3D7B4/72-114_186-435 AC T3D7B4 #=GS T3D7B4/72-114_186-435 OS Clostridioides difficile CD160 #=GS T3D7B4/72-114_186-435 DE V-type ATP synthase alpha chain #=GS T3D7B4/72-114_186-435 DR GENE3D; 0b1777220b80be0f760816fc343d687e/72-114_186-435; #=GS T3D7B4/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Clostridioides; Clostridioides difficile; #=GS T3D7B4/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A075GYG4/73-115_188-437 AC A0A075GYG4 #=GS A0A075GYG4/73-115_188-437 OS uncultured marine thaumarchaeote KM3_33_B12 #=GS A0A075GYG4/73-115_188-437 DE V-type ATP synthase alpha chain #=GS A0A075GYG4/73-115_188-437 DR GENE3D; 0bea48059089c2eb0be3339662ee8e30/73-115_188-437; #=GS A0A075GYG4/73-115_188-437 DR ORG; Archaea; Thaumarchaeota; uncultured marine thaumarchaeote KM3_33_B12; #=GS A0A075GYG4/73-115_188-437 DR EC; 3.6.3.14; #=GS B0MD75/73-115_188-435 AC B0MD75 #=GS B0MD75/73-115_188-435 OS Anaerostipes caccae DSM 14662 #=GS B0MD75/73-115_188-435 DE V-type ATP synthase alpha chain #=GS B0MD75/73-115_188-435 DR GENE3D; 0bef1cd093606eb2cc01a1ee0b044778/73-115_188-435; #=GS B0MD75/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Anaerostipes; Anaerostipes caccae; #=GS B0MD75/73-115_188-435 DR EC; 3.6.3.14; #=GS A0A1E9EQL2/72-114_185-433 AC A0A1E9EQL2 #=GS A0A1E9EQL2/72-114_185-433 OS Fusobacterium sp. HMSC064B12 #=GS A0A1E9EQL2/72-114_185-433 DE V-type ATP synthase alpha chain #=GS A0A1E9EQL2/72-114_185-433 DR GENE3D; 0c3c128db53d8cdac08ca7ec435d59f0/72-114_185-433; #=GS A0A1E9EQL2/72-114_185-433 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Fusobacteriaceae; Fusobacterium; Fusobacterium sp. HMSC064B12; #=GS A0A1E9EQL2/72-114_185-433 DR EC; 3.6.3.14; #=GS R6YAQ5/76-114_188-436 AC R6YAQ5 #=GS R6YAQ5/76-114_188-436 OS Alistipes sp. CAG:29 #=GS R6YAQ5/76-114_188-436 DE V-type ATP synthase alpha chain #=GS R6YAQ5/76-114_188-436 DR GENE3D; 0c91b7264dcff134c4386880f1bbc52d/76-114_188-436; #=GS R6YAQ5/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Rikenellaceae; Alistipes; Alistipes sp. CAG:29; #=GS R6YAQ5/76-114_188-436 DR EC; 3.6.3.14; #=GS A3Z0H3/89-130_203-457 AC A3Z0H3 #=GS A3Z0H3/89-130_203-457 OS Synechococcus sp. WH 5701 #=GS A3Z0H3/89-130_203-457 DE V-type ATP synthase alpha chain #=GS A3Z0H3/89-130_203-457 DR GENE3D; 0ca375cfa67e425163a6066def7c8856/89-130_203-457; #=GS A3Z0H3/89-130_203-457 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Synechococcaceae; Synechococcus; Synechococcus sp. WH 5701; #=GS A3Z0H3/89-130_203-457 DR EC; 3.6.3.14; #=GS A6VFZ2/72-115_186-435 AC A6VFZ2 #=GS A6VFZ2/72-115_186-435 OS Methanococcus maripaludis C7 #=GS A6VFZ2/72-115_186-435 DE V-type ATP synthase alpha chain #=GS A6VFZ2/72-115_186-435 DR GENE3D; 0ca9c3cad681a8f95a0a3c566b6ac2b1/72-115_186-435; #=GS A6VFZ2/72-115_186-435 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS A6VFZ2/72-115_186-435 DR EC; 3.6.3.14; #=GS A7B5C5/72-114_185-434 AC A7B5C5 #=GS A7B5C5/72-114_185-434 OS Ruminococcus gnavus ATCC 29149 #=GS A7B5C5/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A7B5C5/72-114_185-434 DR GENE3D; 0cb85b0dc8cdce7b369ffc123182f676/72-114_185-434; #=GS A7B5C5/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Blautia; [Ruminococcus] gnavus; #=GS A7B5C5/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A0S7WII7/72-114_185-434 AC A0A0S7WII7 #=GS A0A0S7WII7/72-114_185-434 OS candidate division TA06 bacterium DG_26 #=GS A0A0S7WII7/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0A0S7WII7/72-114_185-434 DR GENE3D; 0cbacdb0291934a2dcbf606c14b1c97a/72-114_185-434; #=GS A0A0S7WII7/72-114_185-434 DR ORG; Bacteria; candidate division TA06 bacterium DG_26; #=GS A0A0S7WII7/72-114_185-434 DR EC; 3.6.3.14; #=GS Q7WU82/70-112_185-432 AC Q7WU82 #=GS Q7WU82/70-112_185-432 OS Thermotoga sp. RQ2 #=GS Q7WU82/70-112_185-432 DE V-type ATP synthase alpha chain #=GS Q7WU82/70-112_185-432 DR GENE3D; 0cbd90a19010d1e803a07a13f16e1892/70-112_185-432; #=GS Q7WU82/70-112_185-432 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga sp. RQ2; #=GS Q7WU82/70-112_185-432 DR EC; 3.6.3.14; #=GS D3MQF2/71-113_186-435 AC D3MQF2 #=GS D3MQF2/71-113_186-435 OS Peptostreptococcus anaerobius 653-L #=GS D3MQF2/71-113_186-435 DE V-type ATP synthase alpha chain #=GS D3MQF2/71-113_186-435 DR GENE3D; 0d43cc141463bfe97ac0ac2b777e956e/71-113_186-435; #=GS D3MQF2/71-113_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Peptostreptococcus; Peptostreptococcus anaerobius; #=GS D3MQF2/71-113_186-435 DR EC; 3.6.3.14; #=GS B6FPS4/73-115_188-435 AC B6FPS4 #=GS B6FPS4/73-115_188-435 OS Tyzzerella nexilis DSM 1787 #=GS B6FPS4/73-115_188-435 DE V-type ATP synthase alpha chain #=GS B6FPS4/73-115_188-435 DR GENE3D; 0d5047f8f81d24099488b004936f3db6/73-115_188-435; #=GS B6FPS4/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Tyzzerella; Tyzzerella nexilis; #=GS B6FPS4/73-115_188-435 DR EC; 3.6.3.14; #=GS N1ZEN2/72-114_186-435 AC N1ZEN2 #=GS N1ZEN2/72-114_186-435 OS Clostridium sp. ASF356 #=GS N1ZEN2/72-114_186-435 DE V-type ATP synthase alpha chain #=GS N1ZEN2/72-114_186-435 DR GENE3D; 0d537f10ecca2ea98387428a1c4ce14c/72-114_186-435; #=GS N1ZEN2/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium sp. ASF356; #=GS N1ZEN2/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A0F5J0N2/76-114_188-436 AC A0A0F5J0N2 #=GS A0A0F5J0N2/76-114_188-436 OS Parabacteroides sp. HGS0025 #=GS A0A0F5J0N2/76-114_188-436 DE V-type ATP synthase alpha chain #=GS A0A0F5J0N2/76-114_188-436 DR GENE3D; 0d70a56d85dd7dd8fb7eb4a59d17e90a/76-114_188-436; #=GS A0A0F5J0N2/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Parabacteroides; Parabacteroides sp. HGS0025; #=GS A0A0F5J0N2/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A1C6HT37/70-112_185-432 AC A0A1C6HT37 #=GS A0A1C6HT37/70-112_185-432 OS uncultured Anaerotruncus sp. #=GS A0A1C6HT37/70-112_185-432 DE V-type ATP synthase alpha chain #=GS A0A1C6HT37/70-112_185-432 DR GENE3D; 0d79f66ea5bedaa210089d4ec2655deb/70-112_185-432; #=GS A0A1C6HT37/70-112_185-432 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Anaerotruncus; uncultured Anaerotruncus sp.; #=GS A0A1C6HT37/70-112_185-432 DR EC; 3.6.3.14; #=GS C9L5A4/72-114_185-434 AC C9L5A4 #=GS C9L5A4/72-114_185-434 OS Blautia hansenii DSM 20583 #=GS C9L5A4/72-114_185-434 DE V-type ATP synthase alpha chain #=GS C9L5A4/72-114_185-434 DR GENE3D; 0d91610e4cb042af16fe3203ee8144a1/72-114_185-434; #=GS C9L5A4/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Blautia; Blautia hansenii; #=GS C9L5A4/72-114_185-434 DR EC; 3.6.3.14; #=GS D7N863/72-114_185-434 AC D7N863 #=GS D7N863/72-114_185-434 OS Peptoniphilus sp. oral taxon 386 str. F0131 #=GS D7N863/72-114_185-434 DE V-type ATP synthase alpha chain #=GS D7N863/72-114_185-434 DR GENE3D; 0ddbb47adf8b6bc51bae30c0a73917cd/72-114_185-434; #=GS D7N863/72-114_185-434 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Peptoniphilus; Peptoniphilus sp. oral taxon 386; #=GS D7N863/72-114_185-434 DR EC; 3.6.3.14; #=GS F0IS07/99-142_214-463 AC F0IS07 #=GS F0IS07/99-142_214-463 OS Streptococcus sanguinis SK160 #=GS F0IS07/99-142_214-463 DE V-type ATP synthase alpha chain #=GS F0IS07/99-142_214-463 DR GENE3D; 0de9ea645553e62728ea8fb8a098385b/99-142_214-463; #=GS F0IS07/99-142_214-463 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus sanguinis; #=GS F0IS07/99-142_214-463 DR EC; 3.6.3.14; #=GS F2C9T1/99-142_214-463 AC F2C9T1 #=GS F2C9T1/99-142_214-463 OS Streptococcus sanguinis SK330 #=GS F2C9T1/99-142_214-463 DE V-type ATP synthase alpha chain #=GS F2C9T1/99-142_214-463 DR GENE3D; 0de9ea645553e62728ea8fb8a098385b/99-142_214-463; #=GS F2C9T1/99-142_214-463 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus sanguinis; #=GS F2C9T1/99-142_214-463 DR EC; 3.6.3.14; #=GS F0FQK9/99-142_214-463 AC F0FQK9 #=GS F0FQK9/99-142_214-463 OS Streptococcus sanguinis SK678 #=GS F0FQK9/99-142_214-463 DE V-type ATP synthase alpha chain #=GS F0FQK9/99-142_214-463 DR GENE3D; 0de9ea645553e62728ea8fb8a098385b/99-142_214-463; #=GS F0FQK9/99-142_214-463 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus sanguinis; #=GS F0FQK9/99-142_214-463 DR EC; 3.6.3.14; #=GS D7IQC1/76-114_188-436 AC D7IQC1 #=GS D7IQC1/76-114_188-436 OS Bacteroides sp. 3_1_19 #=GS D7IQC1/76-114_188-436 DE V-type ATP synthase alpha chain #=GS D7IQC1/76-114_188-436 DR GENE3D; 0e354aa6248c6a0944224924f4b3030c/76-114_188-436; #=GS D7IQC1/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides sp. 3_1_19; #=GS D7IQC1/76-114_188-436 DR EC; 3.6.3.14; #=GS J6PJQ4/58-101_172-421 AC J6PJQ4 #=GS J6PJQ4/58-101_172-421 OS Enterococcus faecium R496 #=GS J6PJQ4/58-101_172-421 DE V-type ATP synthase alpha chain #=GS J6PJQ4/58-101_172-421 DR GENE3D; 0e4d8a08b622260d9a13fd6729e8b23d/58-101_172-421; #=GS J6PJQ4/58-101_172-421 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus faecium; #=GS J6PJQ4/58-101_172-421 DR EC; 3.6.3.14; #=GS A0A0M1X5Z1/58-101_172-421 AC A0A0M1X5Z1 #=GS A0A0M1X5Z1/58-101_172-421 OS Enterococcus faecium E417 #=GS A0A0M1X5Z1/58-101_172-421 DE V-type ATP synthase alpha chain #=GS A0A0M1X5Z1/58-101_172-421 DR GENE3D; 0e4d8a08b622260d9a13fd6729e8b23d/58-101_172-421; #=GS A0A0M1X5Z1/58-101_172-421 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus faecium; #=GS A0A0M1X5Z1/58-101_172-421 DR EC; 3.6.3.14; #=GS A0A0H2T2J2/69-111_183-430 AC A0A0H2T2J2 #=GS A0A0H2T2J2/69-111_183-430 OS Marinitoga sp. 1197 #=GS A0A0H2T2J2/69-111_183-430 DE V-type ATP synthase alpha chain #=GS A0A0H2T2J2/69-111_183-430 DR GENE3D; 0ed5f19d1efbc1bf61ab66016087c05b/69-111_183-430; #=GS A0A0H2T2J2/69-111_183-430 DR ORG; Bacteria; Thermotogae; Thermotogae; Petrotogales; Marinitoga; Marinitoga sp. 1197; #=GS A0A0H2T2J2/69-111_183-430 DR EC; 3.6.3.14; #=GS A0A1G3PN45/74-117_189-439 AC A0A1G3PN45 #=GS A0A1G3PN45/74-117_189-439 OS Spirochaetes bacterium GWF1_51_8 #=GS A0A1G3PN45/74-117_189-439 DE V-type ATP synthase alpha chain #=GS A0A1G3PN45/74-117_189-439 DR GENE3D; 0f2a8532509948931b72e8741e141228/74-117_189-439; #=GS A0A1G3PN45/74-117_189-439 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium GWF1_51_8; #=GS A0A1G3PN45/74-117_189-439 DR EC; 3.6.3.14; #=GS C7REU3/72-114_185-434 AC C7REU3 #=GS C7REU3/72-114_185-434 OS Anaerococcus prevotii DSM 20548 #=GS C7REU3/72-114_185-434 DE V-type ATP synthase alpha chain #=GS C7REU3/72-114_185-434 DR GENE3D; 0f40f126462aa80081662cb4de45e08f/72-114_185-434; #=GS C7REU3/72-114_185-434 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Anaerococcus; Anaerococcus prevotii; #=GS C7REU3/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A064AJ74/72-114_185-433 AC A0A064AJ74 #=GS A0A064AJ74/72-114_185-433 OS Fusobacterium necrophorum BFTR-2 #=GS A0A064AJ74/72-114_185-433 DE V-type ATP synthase alpha chain #=GS A0A064AJ74/72-114_185-433 DR GENE3D; 0f872b7595206ab16e1184e4ba986078/72-114_185-433; #=GS A0A064AJ74/72-114_185-433 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Fusobacteriaceae; Fusobacterium; Fusobacterium necrophorum; #=GS A0A064AJ74/72-114_185-433 DR EC; 3.6.3.14; #=GS J6H557/72-114_185-433 AC J6H557 #=GS J6H557/72-114_185-433 OS Fusobacterium necrophorum subsp. funduliforme Fnf 1007 #=GS J6H557/72-114_185-433 DE V-type ATP synthase alpha chain #=GS J6H557/72-114_185-433 DR GENE3D; 0f872b7595206ab16e1184e4ba986078/72-114_185-433; #=GS J6H557/72-114_185-433 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Fusobacteriaceae; Fusobacterium; Fusobacterium necrophorum; Fusobacterium necrophorum subsp. funduliforme; #=GS J6H557/72-114_185-433 DR EC; 3.6.3.14; #=GS Q896K4/74-116_187-436 AC Q896K4 #=GS Q896K4/74-116_187-436 OS Clostridium tetani E88 #=GS Q896K4/74-116_187-436 DE V-type ATP synthase alpha chain 1 #=GS Q896K4/74-116_187-436 DR GENE3D; 0f9a0e237a1793a30c049df717811d44/74-116_187-436; #=GS Q896K4/74-116_187-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium tetani; #=GS Q896K4/74-116_187-436 DR EC; 3.6.3.14; #=GS A0A1F2P3K4/73-115_186-435 AC A0A1F2P3K4 #=GS A0A1F2P3K4/73-115_186-435 OS Candidatus Syntrophoarchaeum butanivorans #=GS A0A1F2P3K4/73-115_186-435 DE V-type ATP synthase alpha chain #=GS A0A1F2P3K4/73-115_186-435 DR GENE3D; 0fc6b52e3fe248aa23d3d065c192daed/73-115_186-435; #=GS A0A1F2P3K4/73-115_186-435 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Candidatus Syntrophoarchaeum; Candidatus Syntrophoarchaeum butanivorans; #=GS A0A1F2P3K4/73-115_186-435 DR EC; 3.6.3.14; #=GS A0A135YRS7/71-113_186-435 AC A0A135YRS7 #=GS A0A135YRS7/71-113_186-435 OS Peptostreptococcus anaerobius #=GS A0A135YRS7/71-113_186-435 DE V-type ATP synthase alpha chain #=GS A0A135YRS7/71-113_186-435 DR GENE3D; 0fef21f5d6d82d002b0061f870d13912/71-113_186-435; #=GS A0A135YRS7/71-113_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Peptostreptococcus; Peptostreptococcus anaerobius; #=GS A0A135YRS7/71-113_186-435 DR EC; 3.6.3.14; #=GS R5J160/71-113_186-435 AC R5J160 #=GS R5J160/71-113_186-435 OS Peptostreptococcus anaerobius CAG:621 #=GS R5J160/71-113_186-435 DE V-type ATP synthase alpha chain #=GS R5J160/71-113_186-435 DR GENE3D; 0fef21f5d6d82d002b0061f870d13912/71-113_186-435; #=GS R5J160/71-113_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptostreptococcaceae; Peptostreptococcus; Peptostreptococcus anaerobius CAG:621; #=GS R5J160/71-113_186-435 DR EC; 3.6.3.14; #=GS A0A1F8WXW3/74-116_184-433 AC A0A1F8WXW3 #=GS A0A1F8WXW3/74-116_184-433 OS Deltaproteobacteria bacterium GWA2_54_12 #=GS A0A1F8WXW3/74-116_184-433 DE V-type ATP synthase alpha chain #=GS A0A1F8WXW3/74-116_184-433 DR GENE3D; 1013dac30b546e6e852fc96f8b878571/74-116_184-433; #=GS A0A1F8WXW3/74-116_184-433 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium GWA2_54_12; #=GS A0A1F8WXW3/74-116_184-433 DR EC; 3.6.3.14; #=GS A0A1E9DFX2/72-114_185-434 AC A0A1E9DFX2 #=GS A0A1E9DFX2/72-114_185-434 OS Anaerococcus sp. HMSC068A02 #=GS A0A1E9DFX2/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0A1E9DFX2/72-114_185-434 DR GENE3D; 10149697d83c46a29c404ca716c44efd/72-114_185-434; #=GS A0A1E9DFX2/72-114_185-434 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Anaerococcus; Anaerococcus sp. HMSC068A02; #=GS A0A1E9DFX2/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A1C5W758/73-114_187-434 AC A0A1C5W758 #=GS A0A1C5W758/73-114_187-434 OS uncultured Clostridium sp. #=GS A0A1C5W758/73-114_187-434 DE V-type ATP synthase alpha chain #=GS A0A1C5W758/73-114_187-434 DR GENE3D; 10198d9430d12b477620b84bd055fceb/73-114_187-434; #=GS A0A1C5W758/73-114_187-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; uncultured Clostridium sp.; #=GS A0A1C5W758/73-114_187-434 DR EC; 3.6.3.14; #=GS R7FY87/72-114_185-434 AC R7FY87 #=GS R7FY87/72-114_185-434 OS Dorea longicatena CAG:42 #=GS R7FY87/72-114_185-434 DE V-type ATP synthase alpha chain #=GS R7FY87/72-114_185-434 DR GENE3D; 104fd5cd2188cc29281dd853aec97afb/72-114_185-434; #=GS R7FY87/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Dorea; Dorea longicatena CAG:42; #=GS R7FY87/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A174MD56/72-114_185-434 AC A0A174MD56 #=GS A0A174MD56/72-114_185-434 OS Dorea longicatena #=GS A0A174MD56/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0A174MD56/72-114_185-434 DR GENE3D; 104fd5cd2188cc29281dd853aec97afb/72-114_185-434; #=GS A0A174MD56/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Dorea; Dorea longicatena; #=GS A0A174MD56/72-114_185-434 DR EC; 3.6.3.14; #=GS R6REB8/72-114_185-434 AC R6REB8 #=GS R6REB8/72-114_185-434 OS Firmicutes bacterium CAG:424 #=GS R6REB8/72-114_185-434 DE V-type ATP synthase alpha chain #=GS R6REB8/72-114_185-434 DR GENE3D; 1064fb1c6dd61dd866f431db66582cf6/72-114_185-434; #=GS R6REB8/72-114_185-434 DR ORG; Bacteria; Firmicutes; Firmicutes bacterium CAG:424; #=GS R6REB8/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A1B2I701/81-123_196-443 AC A0A1B2I701 #=GS A0A1B2I701/81-123_196-443 OS Cloacibacillus porcorum #=GS A0A1B2I701/81-123_196-443 DE V-type ATP synthase alpha chain #=GS A0A1B2I701/81-123_196-443 DR GENE3D; 10852f4d07399c7daedf644722b8a10a/81-123_196-443; #=GS A0A1B2I701/81-123_196-443 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistaceae; Cloacibacillus; Cloacibacillus porcorum; #=GS A0A1B2I701/81-123_196-443 DR EC; 3.6.3.14; #=GS C9M9Q6/72-115_187-436 AC C9M9Q6 #=GS C9M9Q6/72-115_187-436 OS Jonquetella anthropi E3_33 E1 #=GS C9M9Q6/72-115_187-436 DE V-type ATP synthase alpha chain #=GS C9M9Q6/72-115_187-436 DR GENE3D; 109a467af085bff1a0784b6133251b74/72-115_187-436; #=GS C9M9Q6/72-115_187-436 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistaceae; Jonquetella; Jonquetella anthropi; #=GS C9M9Q6/72-115_187-436 DR EC; 3.6.3.14; #=GS F0GZP7/71-113_183-430 AC F0GZP7 #=GS F0GZP7/71-113_183-430 OS Anaerococcus hydrogenalis ACS-025-V-Sch4 #=GS F0GZP7/71-113_183-430 DE V-type ATP synthase alpha chain #=GS F0GZP7/71-113_183-430 DR GENE3D; 10a3d3b8f30603222fb2184f1557966c/71-113_183-430; #=GS F0GZP7/71-113_183-430 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Anaerococcus; Anaerococcus hydrogenalis; #=GS F0GZP7/71-113_183-430 DR EC; 3.6.3.14; #=GS F9PTL0/73-115_188-435 AC F9PTL0 #=GS F9PTL0/73-115_188-435 OS Parvimonas sp. oral taxon 393 str. F0440 #=GS F9PTL0/73-115_188-435 DE V-type ATP synthase alpha chain #=GS F9PTL0/73-115_188-435 DR GENE3D; 10daa7005217cddd99d0c506626bb079/73-115_188-435; #=GS F9PTL0/73-115_188-435 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Parvimonas; Parvimonas sp. oral taxon 393; #=GS F9PTL0/73-115_188-435 DR EC; 3.6.3.14; #=GS E6LSE0/73-115_188-435 AC E6LSE0 #=GS E6LSE0/73-115_188-435 OS Lachnoanaerobaculum saburreum DSM 3986 #=GS E6LSE0/73-115_188-435 DE V-type ATP synthase alpha chain #=GS E6LSE0/73-115_188-435 DR GENE3D; 10ec689d78ac1060dfaa30cf044278d7/73-115_188-435; #=GS E6LSE0/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoanaerobaculum; Lachnoanaerobaculum saburreum; #=GS E6LSE0/73-115_188-435 DR EC; 3.6.3.14; #=GS H6LDB9/76-118_191-438 AC H6LDB9 #=GS H6LDB9/76-118_191-438 OS Acetobacterium woodii DSM 1030 #=GS H6LDB9/76-118_191-438 DE V-type ATP synthase alpha chain #=GS H6LDB9/76-118_191-438 DR GENE3D; 11334f51bf0654b2a9800564739e3807/76-118_191-438; #=GS H6LDB9/76-118_191-438 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Eubacteriaceae; Acetobacterium; Acetobacterium woodii; #=GS H6LDB9/76-118_191-438 DR EC; 3.6.3.14; #=GS T0LL95/70-112_183-432 AC T0LL95 #=GS T0LL95/70-112_183-432 OS Thermoplasmatales archaeon E-plasma #=GS T0LL95/70-112_183-432 DE V-type ATP synthase alpha chain #=GS T0LL95/70-112_183-432 DR GENE3D; 1138f93be689fbf287809ea7eb54175b/70-112_183-432; #=GS T0LL95/70-112_183-432 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon E-plasma; #=GS T0LL95/70-112_183-432 DR EC; 3.6.3.14; #=GS A0A174RNL4/4-20_91-340 AC A0A174RNL4 #=GS A0A174RNL4/4-20_91-340 OS Dorea longicatena #=GS A0A174RNL4/4-20_91-340 DE V-type sodium ATPase catalytic subunit A #=GS A0A174RNL4/4-20_91-340 DR GENE3D; 11440e405b4e5d678455254997825c29/4-20_91-340; #=GS A0A174RNL4/4-20_91-340 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Dorea; Dorea longicatena; #=GS A0A174RNL4/4-20_91-340 DR EC; 3.6.3.15; #=GS Q1JNS8/72-115_187-436 AC Q1JNS8 #=GS Q1JNS8/72-115_187-436 OS Streptococcus pyogenes MGAS9429 #=GS Q1JNS8/72-115_187-436 DE V-type ATP synthase alpha chain #=GS Q1JNS8/72-115_187-436 DR GENE3D; 114f5455a147c1ea5de60e838afe2a10/72-115_187-436; #=GS Q1JNS8/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus pyogenes; #=GS Q1JNS8/72-115_187-436 DR EC; 3.6.3.14; #=GS Q1JDX0/72-115_187-436 AC Q1JDX0 #=GS Q1JDX0/72-115_187-436 OS Streptococcus pyogenes MGAS2096 #=GS Q1JDX0/72-115_187-436 DE V-type ATP synthase alpha chain #=GS Q1JDX0/72-115_187-436 DR GENE3D; 114f5455a147c1ea5de60e838afe2a10/72-115_187-436; #=GS Q1JDX0/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus pyogenes; #=GS Q1JDX0/72-115_187-436 DR EC; 3.6.3.14; #=GS W4V4I8/72-114_186-435 AC W4V4I8 #=GS W4V4I8/72-114_186-435 OS [Clostridium] straminisolvens JCM 21531 #=GS W4V4I8/72-114_186-435 DE V-type ATP synthase alpha chain #=GS W4V4I8/72-114_186-435 DR GENE3D; 11521c091b83285c91f451a029e6ab0a/72-114_186-435; #=GS W4V4I8/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminiclostridium; [Clostridium] straminisolvens; #=GS W4V4I8/72-114_186-435 DR EC; 3.6.3.14; #=GS A0A0W0UBC0/90-131_204-458 AC A0A0W0UBC0 #=GS A0A0W0UBC0/90-131_204-458 OS Fluoribacter gormanii #=GS A0A0W0UBC0/90-131_204-458 DE V-type ATP synthase alpha chain #=GS A0A0W0UBC0/90-131_204-458 DR GENE3D; 117aaff429e3c8dcc1114002a26ff25f/90-131_204-458; #=GS A0A0W0UBC0/90-131_204-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Fluoribacter; Fluoribacter gormanii; #=GS A0A0W0UBC0/90-131_204-458 DR EC; 3.6.3.14; #=GS C9A6Q7/72-115_186-434 AC C9A6Q7 #=GS C9A6Q7/72-115_186-434 OS Enterococcus casseliflavus EC20 #=GS C9A6Q7/72-115_186-434 DE V-type ATP synthase alpha chain #=GS C9A6Q7/72-115_186-434 DR GENE3D; 11894c365ab2e95dd210325b22b129a6/72-115_186-434; #=GS C9A6Q7/72-115_186-434 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus casseliflavus; #=GS C9A6Q7/72-115_186-434 DR EC; 3.6.3.14; #=GS V9S6M7/73-116_188-437 AC V9S6M7 #=GS V9S6M7/73-116_188-437 OS Sulfolobus acidocaldarius SUSAZ #=GS V9S6M7/73-116_188-437 DE V-type ATP synthase alpha chain #=GS V9S6M7/73-116_188-437 DR GENE3D; 11fa94ec153e45e245e1ce6aae4b091a/73-116_188-437; #=GS V9S6M7/73-116_188-437 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS V9S6M7/73-116_188-437 DR EC; 3.6.3.14; #=GS F0Z3D3/72-114_185-434 AC F0Z3D3 #=GS F0Z3D3/72-114_185-434 OS Clostridium sp. D5 #=GS F0Z3D3/72-114_185-434 DE V-type ATP synthase alpha chain #=GS F0Z3D3/72-114_185-434 DR GENE3D; 1213cb269ea96bb08844aa72dd3c3f1c/72-114_185-434; #=GS F0Z3D3/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium sp. D5; #=GS F0Z3D3/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A101K6W7/72-114_185-433 AC A0A101K6W7 #=GS A0A101K6W7/72-114_185-433 OS Fusobacterium nucleatum subsp. nucleatum #=GS A0A101K6W7/72-114_185-433 DE V-type ATP synthase alpha chain #=GS A0A101K6W7/72-114_185-433 DR GENE3D; 12248a23f849f0bef479438708882aa7/72-114_185-433; #=GS A0A101K6W7/72-114_185-433 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Fusobacteriaceae; Fusobacterium; Fusobacterium nucleatum; Fusobacterium nucleatum subsp. nucleatum; #=GS A0A101K6W7/72-114_185-433 DR EC; 3.6.3.14; #=GS A0A1F5TSN2/75-117_184-433 AC A0A1F5TSN2 #=GS A0A1F5TSN2/75-117_184-433 OS Candidatus Falkowbacteria bacterium RIFOXYD2_FULL_34_120 #=GS A0A1F5TSN2/75-117_184-433 DE V-type ATP synthase alpha chain #=GS A0A1F5TSN2/75-117_184-433 DR GENE3D; 1230fac2312ff925ab45c48c0878301d/75-117_184-433; #=GS A0A1F5TSN2/75-117_184-433 DR ORG; Bacteria; Candidatus Falkowbacteria; Candidatus Falkowbacteria bacterium RIFOXYD2_FULL_34_120; #=GS A0A1F5TSN2/75-117_184-433 DR EC; 3.6.3.14; #=GS A0A073IP18/77-120_192-441 AC A0A073IP18 #=GS A0A073IP18/77-120_192-441 OS Synergistes jonesii #=GS A0A073IP18/77-120_192-441 DE V-type ATP synthase alpha chain #=GS A0A073IP18/77-120_192-441 DR GENE3D; 12576b585128c3e599688e99b373ad5d/77-120_192-441; #=GS A0A073IP18/77-120_192-441 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistaceae; Synergistes; Synergistes jonesii; #=GS A0A073IP18/77-120_192-441 DR EC; 3.6.3.14; #=GS A0A0C5BXB1/73-115_188-437 AC A0A0C5BXB1 #=GS A0A0C5BXB1/73-115_188-437 OS Candidatus Nitrosopumilus piranensis #=GS A0A0C5BXB1/73-115_188-437 DE V-type ATP synthase alpha chain #=GS A0A0C5BXB1/73-115_188-437 DR GENE3D; 126f194f1f5dc22f57b0df135b2e7750/73-115_188-437; #=GS A0A0C5BXB1/73-115_188-437 DR ORG; Archaea; Thaumarchaeota; Nitrosopumilales; Nitrosopumilaceae; Nitrosopumilus; Candidatus Nitrosopumilus piranensis; #=GS A0A0C5BXB1/73-115_188-437 DR EC; 3.6.3.14; #=GS G4RL56/72-116_190-439 AC G4RL56 #=GS G4RL56/72-116_190-439 OS Thermoproteus tenax Kra 1 #=GS G4RL56/72-116_190-439 DE V-type ATP synthase alpha chain #=GS G4RL56/72-116_190-439 DR GENE3D; 1281ff9c32221d87601f7ac69b1fe8a6/72-116_190-439; #=GS G4RL56/72-116_190-439 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Thermoproteus; Thermoproteus tenax; #=GS G4RL56/72-116_190-439 DR EC; 3.6.3.14; #=GS I0SC45/72-115_187-436 AC I0SC45 #=GS I0SC45/72-115_187-436 OS Streptococcus anginosus subsp. whileyi CCUG 39159 #=GS I0SC45/72-115_187-436 DE V-type ATP synthase alpha chain #=GS I0SC45/72-115_187-436 DR GENE3D; 128ab407ab32aee72f1e93a1c419eb45/72-115_187-436; #=GS I0SC45/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus anginosus group; Streptococcus anginosus; Streptococcus anginosus subsp. whileyi; #=GS I0SC45/72-115_187-436 DR EC; 3.6.3.14; #=GS S0K1Q1/72-115_186-435 AC S0K1Q1 #=GS S0K1Q1/72-115_186-435 OS Enterococcus avium ATCC 14025 #=GS S0K1Q1/72-115_186-435 DE V-type ATP synthase alpha chain #=GS S0K1Q1/72-115_186-435 DR GENE3D; 129de5f265a2b21b468590c7169e010c/72-115_186-435; #=GS S0K1Q1/72-115_186-435 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus avium; #=GS S0K1Q1/72-115_186-435 DR EC; 3.6.3.14; #=GS A0A1B1YAS9/72-114_186-435 AC A0A1B1YAS9 #=GS A0A1B1YAS9/72-114_186-435 OS [Clostridium] stercorarium subsp. thermolacticum DSM 2910 #=GS A0A1B1YAS9/72-114_186-435 DE V-type ATP synthase alpha chain #=GS A0A1B1YAS9/72-114_186-435 DR GENE3D; 12a0ab1e83997fee48a76849cfad922d/72-114_186-435; #=GS A0A1B1YAS9/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminiclostridium; [Clostridium] stercorarium; [Clostridium] stercorarium subsp. thermolacticum; #=GS A0A1B1YAS9/72-114_186-435 DR EC; 3.6.3.14; #=GS L7VKU6/72-114_186-435 AC L7VKU6 #=GS L7VKU6/72-114_186-435 OS [Clostridium] stercorarium subsp. stercorarium DSM 8532 #=GS L7VKU6/72-114_186-435 DE V-type ATP synthase alpha chain #=GS L7VKU6/72-114_186-435 DR GENE3D; 12a0ab1e83997fee48a76849cfad922d/72-114_186-435; #=GS L7VKU6/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminiclostridium; [Clostridium] stercorarium; [Clostridium] stercorarium subsp. stercorarium; #=GS L7VKU6/72-114_186-435 DR EC; 3.6.3.14; #=GS I3XSR3/74-116_184-433 AC I3XSR3 #=GS I3XSR3/74-116_184-433 OS Desulfurococcus fermentans DSM 16532 #=GS I3XSR3/74-116_184-433 DE V-type ATP synthase alpha chain #=GS I3XSR3/74-116_184-433 DR GENE3D; 12b99ce8c23dcb188409eff9ec5cd80d/74-116_184-433; #=GS I3XSR3/74-116_184-433 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Desulfurococcaceae; Desulfurococcus; Desulfurococcus fermentans; #=GS I3XSR3/74-116_184-433 DR EC; 3.6.3.14; #=GS A0A151E2W5/76-118_190-439 AC A0A151E2W5 #=GS A0A151E2W5/76-118_190-439 OS Thermoplasmatales archaeon SM1-50 #=GS A0A151E2W5/76-118_190-439 DE V-type ATP synthase alpha chain #=GS A0A151E2W5/76-118_190-439 DR GENE3D; 12c42ebfd041c3f191df55daab07a404/76-118_190-439; #=GS A0A151E2W5/76-118_190-439 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SM1-50; #=GS A0A151E2W5/76-118_190-439 DR EC; 3.6.3.14; #=GS R7GJH0/72-114_187-434 AC R7GJH0 #=GS R7GJH0/72-114_187-434 OS Catenibacterium sp. CAG:290 #=GS R7GJH0/72-114_187-434 DE V-type ATP synthase alpha chain #=GS R7GJH0/72-114_187-434 DR GENE3D; 12c8bf6560ee3880da636e5ab6d21023/72-114_187-434; #=GS R7GJH0/72-114_187-434 DR ORG; Bacteria; Firmicutes; Erysipelotrichia; Erysipelotrichales; Erysipelotrichaceae; Catenibacterium; Catenibacterium sp. CAG:290; #=GS R7GJH0/72-114_187-434 DR EC; 3.6.3.14; #=GS A0A1F3IMW5/81-119_193-441 AC A0A1F3IMW5 #=GS A0A1F3IMW5/81-119_193-441 OS Bacteroidetes bacterium GWF2_33_16 #=GS A0A1F3IMW5/81-119_193-441 DE V-type ATP synthase alpha chain #=GS A0A1F3IMW5/81-119_193-441 DR GENE3D; 1318ea642f74bc04fa671afcaf5843ed/81-119_193-441; #=GS A0A1F3IMW5/81-119_193-441 DR ORG; Bacteria; Bacteroidetes; Bacteroidetes bacterium GWF2_33_16; #=GS A0A1F3IMW5/81-119_193-441 DR EC; 3.6.3.14; #=GS R2TKM3/72-115_186-435 AC R2TKM3 #=GS R2TKM3/72-115_186-435 OS Enterococcus moraviensis ATCC BAA-383 #=GS R2TKM3/72-115_186-435 DE V-type ATP synthase alpha chain #=GS R2TKM3/72-115_186-435 DR GENE3D; 1381bd6f1a6aa60ff014191565cf9b4f/72-115_186-435; #=GS R2TKM3/72-115_186-435 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus moraviensis; #=GS R2TKM3/72-115_186-435 DR EC; 3.6.3.14; #=GS K0XD66/73-115_188-435 AC K0XD66 #=GS K0XD66/73-115_188-435 OS Lachnoanaerobaculum sp. OBRC5-5 #=GS K0XD66/73-115_188-435 DE V-type ATP synthase alpha chain #=GS K0XD66/73-115_188-435 DR GENE3D; 13b134faaa0ba48f7ddb07a500932f94/73-115_188-435; #=GS K0XD66/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoanaerobaculum; Lachnoanaerobaculum sp. OBRC5-5; #=GS K0XD66/73-115_188-435 DR EC; 3.6.3.14; #=GS R7C075/73-115_188-435 AC R7C075 #=GS R7C075/73-115_188-435 OS Firmicutes bacterium CAG:270 #=GS R7C075/73-115_188-435 DE V-type ATP synthase alpha chain #=GS R7C075/73-115_188-435 DR GENE3D; 13ddcde66a43a58341a44aa7b16d6226/73-115_188-435; #=GS R7C075/73-115_188-435 DR ORG; Bacteria; Firmicutes; Firmicutes bacterium CAG:270; #=GS R7C075/73-115_188-435 DR EC; 3.6.3.14; #=GS A0A136JL55/82-125_197-446 AC A0A136JL55 #=GS A0A136JL55/82-125_197-446 OS Parcubacteria bacterium OLB19 #=GS A0A136JL55/82-125_197-446 DE V-type ATP synthase alpha chain #=GS A0A136JL55/82-125_197-446 DR GENE3D; 13f4a3becdf6ae6a46ca06e65fe3eb98/82-125_197-446; #=GS A0A136JL55/82-125_197-446 DR ORG; Bacteria; Candidatus Parcubacteria; Parcubacteria bacterium OLB19; #=GS A0A136JL55/82-125_197-446 DR EC; 3.6.3.14; #=GS B3MNH7/270-313_386-637 AC B3MNH7 #=GS B3MNH7/270-313_386-637 OS Drosophila ananassae #=GS B3MNH7/270-313_386-637 DE Uncharacterized protein #=GS B3MNH7/270-313_386-637 DR GENE3D; 13fa7dd83c22a38076717950bbde8dbc/270-313_386-637; #=GS B3MNH7/270-313_386-637 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 B3MNH7/270-313_386-637 DR EC; 3.6.3.14; #=GS D7IHR0/76-114_188-436 AC D7IHR0 #=GS D7IHR0/76-114_188-436 OS Bacteroides sp. 1_1_14 #=GS D7IHR0/76-114_188-436 DE V-type ATP synthase alpha chain #=GS D7IHR0/76-114_188-436 DR GENE3D; 1423321fd4f6b2b8c4331b922eb43e82/76-114_188-436; #=GS D7IHR0/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides sp. 1_1_14; #=GS D7IHR0/76-114_188-436 DR EC; 3.6.3.14; #=GS D9RYN5/72-114_186-433 AC D9RYN5 #=GS D9RYN5/72-114_186-433 OS Thermosediminibacter oceani DSM 16646 #=GS D9RYN5/72-114_186-433 DE V-type ATP synthase alpha chain #=GS D9RYN5/72-114_186-433 DR GENE3D; 143ce6140dff58f31a9b8f52e7939ffb/72-114_186-433; #=GS D9RYN5/72-114_186-433 DR ORG; Bacteria; Firmicutes; Clostridia; Thermoanaerobacterales; Thermoanaerobacterales Family III. Incertae Sedis; Thermosediminibacter; Thermosediminibacter oceani; #=GS D9RYN5/72-114_186-433 DR EC; 3.6.3.14; #=GS A0A090BUQ5/73-115_190-437 AC A0A090BUQ5 #=GS A0A090BUQ5/73-115_190-437 OS Thioploca ingrica #=GS A0A090BUQ5/73-115_190-437 DE V-type ATP synthase alpha chain #=GS A0A090BUQ5/73-115_190-437 DR GENE3D; 14672dd9d69644dec274eb2010d19d70/73-115_190-437; #=GS A0A090BUQ5/73-115_190-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Thiotrichaceae; Thioploca; Thioploca ingrica; #=GS A0A090BUQ5/73-115_190-437 DR EC; 3.6.3.14; #=GS G5K9X4/72-115_187-436 AC G5K9X4 #=GS G5K9X4/72-115_187-436 OS Streptococcus pseudoporcinus LQ 940-04 #=GS G5K9X4/72-115_187-436 DE V-type ATP synthase alpha chain #=GS G5K9X4/72-115_187-436 DR GENE3D; 148ac2f7916d43b5aa4a43e6fa3b2428/72-115_187-436; #=GS G5K9X4/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus pseudoporcinus; #=GS G5K9X4/72-115_187-436 DR EC; 3.6.3.14; #=GS A0A174MT90/71-114_186-436 AC A0A174MT90 #=GS A0A174MT90/71-114_186-436 OS Flavonifractor plautii #=GS A0A174MT90/71-114_186-436 DE V-type ATP synthase alpha chain #=GS A0A174MT90/71-114_186-436 DR GENE3D; 14a2269e6e3052cafc78de5e02a39274/71-114_186-436; #=GS A0A174MT90/71-114_186-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Flavonifractor; Flavonifractor plautii; #=GS A0A174MT90/71-114_186-436 DR EC; 3.6.3.14; #=GS Q4U8X7/100-143_218-468 AC Q4U8X7 #=GS Q4U8X7/100-143_218-468 OS Theileria annulata #=GS Q4U8X7/100-143_218-468 DE Vacuolar H+-ATPase, a subunit, putative #=GS Q4U8X7/100-143_218-468 DR GENE3D; 14ae58eced6295f826634617ba8c7e18/100-143_218-468; #=GS Q4U8X7/100-143_218-468 DR ORG; Eukaryota; Apicomplexa; Aconoidasida; Theileriidae; Theileria; Theileria annulata; #=GS Q4U8X7/100-143_218-468 DR EC; 3.6.3.14; #=GS S8CG08/31-73_144-393 AC S8CG08 #=GS S8CG08/31-73_144-393 OS Clostridium botulinum CFSAN002367 #=GS S8CG08/31-73_144-393 DE V-type ATP synthase alpha chain #=GS S8CG08/31-73_144-393 DR GENE3D; 14d7e21f76b2b392c01f91130dcc81ad/31-73_144-393; #=GS S8CG08/31-73_144-393 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium botulinum; #=GS S8CG08/31-73_144-393 DR EC; 3.6.3.14; #=GS A0A133LLD8/72-114_185-434 AC A0A133LLD8 #=GS A0A133LLD8/72-114_185-434 OS Anaerococcus hydrogenalis #=GS A0A133LLD8/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0A133LLD8/72-114_185-434 DR GENE3D; 15172fb7d739948ce2a000c9b6b89482/72-114_185-434; #=GS A0A133LLD8/72-114_185-434 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Anaerococcus; Anaerococcus hydrogenalis; #=GS A0A133LLD8/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A0X8FA81/72-115_187-436 AC A0A0X8FA81 #=GS A0A0X8FA81/72-115_187-436 OS Aerococcus christensenii #=GS A0A0X8FA81/72-115_187-436 DE V-type ATP synthase alpha chain #=GS A0A0X8FA81/72-115_187-436 DR GENE3D; 151d5a44d53175992f0999e38768a23f/72-115_187-436; #=GS A0A0X8FA81/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Aerococcaceae; Aerococcus; Aerococcus christensenii; #=GS A0A0X8FA81/72-115_187-436 DR EC; 3.6.3.14; #=GS B3MNH8/85-128_201-452 AC B3MNH8 #=GS B3MNH8/85-128_201-452 OS Drosophila ananassae #=GS B3MNH8/85-128_201-452 DE Uncharacterized protein #=GS B3MNH8/85-128_201-452 DR GENE3D; 1530f6a213104f512a4e1b04b516b057/85-128_201-452; #=GS B3MNH8/85-128_201-452 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 B3MNH8/85-128_201-452 DR EC; 3.6.3.14; #=GS A0A1C6IU06/72-115_186-435 AC A0A1C6IU06 #=GS A0A1C6IU06/72-115_186-435 OS uncultured Clostridium sp. #=GS A0A1C6IU06/72-115_186-435 DE V-type ATP synthase alpha chain #=GS A0A1C6IU06/72-115_186-435 DR GENE3D; 15351048d84943c25ecbfbcdaf55536a/72-115_186-435; #=GS A0A1C6IU06/72-115_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; uncultured Clostridium sp.; #=GS A0A1C6IU06/72-115_186-435 DR EC; 3.6.3.14; #=GS A0A0T5Z6Y4/74-116_191-438 AC A0A0T5Z6Y4 #=GS A0A0T5Z6Y4/74-116_191-438 OS endosymbiont of Ridgeia piscesae #=GS A0A0T5Z6Y4/74-116_191-438 DE V-type ATP synthase alpha chain #=GS A0A0T5Z6Y4/74-116_191-438 DR GENE3D; 157a8ac8cae098da1a4b3f920e7dc3fa/74-116_191-438; #=GS A0A0T5Z6Y4/74-116_191-438 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; endosymbiont of Ridgeia piscesae; #=GS A0A0T5Z6Y4/74-116_191-438 DR EC; 3.6.3.14; #=GS H1LYQ5/73-115_188-435 AC H1LYQ5 #=GS H1LYQ5/73-115_188-435 OS Lachnospiraceae bacterium oral taxon 082 str. F0431 #=GS H1LYQ5/73-115_188-435 DE V-type ATP synthase alpha chain #=GS H1LYQ5/73-115_188-435 DR GENE3D; 158a41c69aa59e2bf1e0d2d42ee10070/73-115_188-435; #=GS H1LYQ5/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnospiraceae bacterium oral taxon 082; #=GS H1LYQ5/73-115_188-435 DR EC; 3.6.3.14; #=GS A0A133ZE22/73-115_188-435 AC A0A133ZE22 #=GS A0A133ZE22/73-115_188-435 OS Lachnoanaerobaculum saburreum #=GS A0A133ZE22/73-115_188-435 DE V-type ATP synthase alpha chain #=GS A0A133ZE22/73-115_188-435 DR GENE3D; 158a41c69aa59e2bf1e0d2d42ee10070/73-115_188-435; #=GS A0A133ZE22/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoanaerobaculum; Lachnoanaerobaculum saburreum; #=GS A0A133ZE22/73-115_188-435 DR EC; 3.6.3.14; #=GS U2WHW1/72-114_186-435 AC U2WHW1 #=GS U2WHW1/72-114_186-435 OS Leptotrichia sp. oral taxon 225 str. F0581 #=GS U2WHW1/72-114_186-435 DE V-type ATP synthase alpha chain #=GS U2WHW1/72-114_186-435 DR GENE3D; 15b96935d2ef75ca5942600bab8b232d/72-114_186-435; #=GS U2WHW1/72-114_186-435 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Leptotrichiaceae; Leptotrichia; Leptotrichia sp. oral taxon 225; #=GS U2WHW1/72-114_186-435 DR EC; 3.6.3.14; #=GS X8IUK5/72-114_186-435 AC X8IUK5 #=GS X8IUK5/72-114_186-435 OS Mogibacterium timidum ATCC 33093 #=GS X8IUK5/72-114_186-435 DE V-type ATP synthase alpha chain #=GS X8IUK5/72-114_186-435 DR GENE3D; 1635ed284ccf7f5a4df3e4c8088c6b11/72-114_186-435; #=GS X8IUK5/72-114_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiales Family XIII. Incertae Sedis; Mogibacterium; Mogibacterium timidum; #=GS X8IUK5/72-114_186-435 DR EC; 3.6.3.14; #=GS R6GRP7/72-115_186-435 AC R6GRP7 #=GS R6GRP7/72-115_186-435 OS Clostridium sp. CAG:221 #=GS R6GRP7/72-115_186-435 DE V-type ATP synthase alpha chain #=GS R6GRP7/72-115_186-435 DR GENE3D; 168e329bbd49f27ef7bb97e4add21b2d/72-115_186-435; #=GS R6GRP7/72-115_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium sp. CAG:221; #=GS R6GRP7/72-115_186-435 DR EC; 3.6.3.14; #=GS I0GKJ7/74-116_188-437 AC I0GKJ7 #=GS I0GKJ7/74-116_188-437 OS Caldisericum exile AZM16c01 #=GS I0GKJ7/74-116_188-437 DE V-type ATP synthase alpha chain #=GS I0GKJ7/74-116_188-437 DR GENE3D; 16ca5c49daba31d4e1c8971a0b951c74/74-116_188-437; #=GS I0GKJ7/74-116_188-437 DR ORG; Bacteria; Caldiserica; Caldisericia; Caldisericales; Caldisericaceae; Caldisericum; Caldisericum exile; #=GS I0GKJ7/74-116_188-437 DR EC; 3.6.3.14; #=GS B0S2A2/72-114_185-434 AC B0S2A2 #=GS B0S2A2/72-114_185-434 OS Finegoldia magna ATCC 29328 #=GS B0S2A2/72-114_185-434 DE V-type ATP synthase alpha chain #=GS B0S2A2/72-114_185-434 DR GENE3D; 16fca4ac64a25e73fb96eedc68708683/72-114_185-434; #=GS B0S2A2/72-114_185-434 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Finegoldia; Finegoldia magna; #=GS B0S2A2/72-114_185-434 DR EC; 3.6.3.14; #=GS R6GJI5/76-117_192-438 AC R6GJI5 #=GS R6GJI5/76-117_192-438 OS Oscillibacter sp. CAG:241 #=GS R6GJI5/76-117_192-438 DE V-type ATP synthase alpha chain #=GS R6GJI5/76-117_192-438 DR GENE3D; 170fadab78455147b88b69011538a4f5/76-117_192-438; #=GS R6GJI5/76-117_192-438 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Oscillospiraceae; Oscillibacter; Oscillibacter sp. CAG:241; #=GS R6GJI5/76-117_192-438 DR EC; 3.6.3.14; #=GS R6TCR3/71-113_186-435 AC R6TCR3 #=GS R6TCR3/71-113_186-435 OS Oscillibacter sp. CAG:155 #=GS R6TCR3/71-113_186-435 DE V-type ATP synthase alpha chain #=GS R6TCR3/71-113_186-435 DR GENE3D; 1718433f3ec848fc6999ca0b3abb8288/71-113_186-435; #=GS R6TCR3/71-113_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Oscillospiraceae; Oscillibacter; Oscillibacter sp. CAG:155; #=GS R6TCR3/71-113_186-435 DR EC; 3.6.3.14; #=GS R5NGJ0/76-114_188-436 AC R5NGJ0 #=GS R5NGJ0/76-114_188-436 OS Paraprevotella clara CAG:116 #=GS R5NGJ0/76-114_188-436 DE V-type ATP synthase alpha chain #=GS R5NGJ0/76-114_188-436 DR GENE3D; 176a877087f30466d880eb76386c13e4/76-114_188-436; #=GS R5NGJ0/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Prevotellaceae; Paraprevotella; Paraprevotella clara CAG:116; #=GS R5NGJ0/76-114_188-436 DR EC; 3.6.3.14; #=GS G5SNL1/76-114_188-436 AC G5SNL1 #=GS G5SNL1/76-114_188-436 OS Paraprevotella clara YIT 11840 #=GS G5SNL1/76-114_188-436 DE V-type ATP synthase alpha chain #=GS G5SNL1/76-114_188-436 DR GENE3D; 176a877087f30466d880eb76386c13e4/76-114_188-436; #=GS G5SNL1/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Prevotellaceae; Paraprevotella; Paraprevotella clara; #=GS G5SNL1/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A174C8W6/73-116_189-436 AC A0A174C8W6 #=GS A0A174C8W6/73-116_189-436 OS Coprococcus comes #=GS A0A174C8W6/73-116_189-436 DE V-type ATP synthase alpha chain #=GS A0A174C8W6/73-116_189-436 DR GENE3D; 17ed1200369ca2fc9ec25fd38ca1ed27/73-116_189-436; #=GS A0A174C8W6/73-116_189-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Coprococcus; Coprococcus comes; #=GS A0A174C8W6/73-116_189-436 DR EC; 3.6.3.14; #=GS W8P2J0/70-112_185-434 AC W8P2J0 #=GS W8P2J0/70-112_185-434 OS Thermococcus nautili #=GS W8P2J0/70-112_185-434 DE V-type ATP synthase alpha chain #=GS W8P2J0/70-112_185-434 DR GENE3D; 17ed785479c49dc28cd9f75c0883b2d2/70-112_185-434; #=GS W8P2J0/70-112_185-434 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus nautili; #=GS W8P2J0/70-112_185-434 DR EC; 3.6.3.14; #=GS O06504/70-112_185-434 AC O06504 #=GS O06504/70-112_185-434 OS Desulfurococcus sp. SY #=GS O06504/70-112_185-434 DE V-type ATP synthase alpha chain #=GS O06504/70-112_185-434 DR GENE3D; 17ed785479c49dc28cd9f75c0883b2d2/70-112_185-434; #=GS O06504/70-112_185-434 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Desulfurococcaceae; Desulfurococcus; Desulfurococcus sp. SY; #=GS O06504/70-112_185-434 DR EC; 3.6.3.14; #=GS A0A124ITA8/75-119_192-441 AC A0A124ITA8 #=GS A0A124ITA8/75-119_192-441 OS Vulcanisaeta sp. MG_3 #=GS A0A124ITA8/75-119_192-441 DE V-type ATP synthase alpha chain #=GS A0A124ITA8/75-119_192-441 DR GENE3D; 17fcaebb8e782226401b2fa4d66cebeb/75-119_192-441; #=GS A0A124ITA8/75-119_192-441 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Vulcanisaeta; Vulcanisaeta sp. MG_3; #=GS A0A124ITA8/75-119_192-441 DR EC; 3.6.3.14; #=GS A0A101WUE9/75-119_192-441 AC A0A101WUE9 #=GS A0A101WUE9/75-119_192-441 OS Vulcanisaeta sp. JCHS_4 #=GS A0A101WUE9/75-119_192-441 DE V-type ATP synthase alpha chain #=GS A0A101WUE9/75-119_192-441 DR GENE3D; 17fcaebb8e782226401b2fa4d66cebeb/75-119_192-441; #=GS A0A101WUE9/75-119_192-441 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Vulcanisaeta; Vulcanisaeta sp. JCHS_4; #=GS A0A101WUE9/75-119_192-441 DR EC; 3.6.3.14; #=GS A0A1C7IEF4/73-115_188-435 AC A0A1C7IEF4 #=GS A0A1C7IEF4/73-115_188-435 OS Blautia sp. YL58 #=GS A0A1C7IEF4/73-115_188-435 DE V-type ATP synthase alpha chain #=GS A0A1C7IEF4/73-115_188-435 DR GENE3D; 18252aeb0ac128dbb58d79fa0e1a1a85/73-115_188-435; #=GS A0A1C7IEF4/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Blautia; Blautia sp. YL58; #=GS A0A1C7IEF4/73-115_188-435 DR EC; 3.6.3.14; #=GS F3UP89/72-115_187-436 AC F3UP89 #=GS F3UP89/72-115_187-436 OS Streptococcus sanguinis SK355 #=GS F3UP89/72-115_187-436 DE V-type ATP synthase alpha chain #=GS F3UP89/72-115_187-436 DR GENE3D; 1891ce635281e8f7b71c3b76b2d49b91/72-115_187-436; #=GS F3UP89/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus sanguinis; #=GS F3UP89/72-115_187-436 DR EC; 3.6.3.14; #=GS A0A072X9G4/72-114_185-434 AC A0A072X9G4 #=GS A0A072X9G4/72-114_185-434 OS Clostridium botulinum C/D str. It1 #=GS A0A072X9G4/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0A072X9G4/72-114_185-434 DR GENE3D; 18a0f4eb9d7e1782ad3082cce27e74c2/72-114_185-434; #=GS A0A072X9G4/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium botulinum; #=GS A0A072X9G4/72-114_185-434 DR EC; 3.6.3.14; #=GS A0PZC6/72-114_185-434 AC A0PZC6 #=GS A0PZC6/72-114_185-434 OS Clostridium novyi NT #=GS A0PZC6/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0PZC6/72-114_185-434 DR GENE3D; 18a0f4eb9d7e1782ad3082cce27e74c2/72-114_185-434; #=GS A0PZC6/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium novyi; #=GS A0PZC6/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A1J4V700/76-119_190-439 AC A0A1J4V700 #=GS A0A1J4V700/76-119_190-439 OS Candidatus Nomurabacteria bacterium CG1_02_47_685 #=GS A0A1J4V700/76-119_190-439 DE V-type ATP synthase alpha chain #=GS A0A1J4V700/76-119_190-439 DR GENE3D; 18ca269d894c78037be1c5d6b9b7ce9b/76-119_190-439; #=GS A0A1J4V700/76-119_190-439 DR ORG; Bacteria; Candidatus Nomurabacteria; Candidatus Nomurabacteria bacterium CG1_02_47_685; #=GS A0A1J4V700/76-119_190-439 DR EC; 3.6.3.14; #=GS A0A1C5VL38/70-117_195-440 AC A0A1C5VL38 #=GS A0A1C5VL38/70-117_195-440 OS uncultured Eubacterium sp. #=GS A0A1C5VL38/70-117_195-440 DE V-type ATP synthase alpha chain #=GS A0A1C5VL38/70-117_195-440 DR GENE3D; 18d89fb37fa0d9ad5dc7e4790abc3e23/70-117_195-440; #=GS A0A1C5VL38/70-117_195-440 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Eubacteriaceae; Eubacterium; uncultured Eubacterium sp.; #=GS A0A1C5VL38/70-117_195-440 DR EC; 3.6.3.14; #=GS S3K1A9/76-118_192-437 AC S3K1A9 #=GS S3K1A9/76-118_192-437 OS Treponema maltophilum ATCC 51939 #=GS S3K1A9/76-118_192-437 DE V-type ATP synthase alpha chain #=GS S3K1A9/76-118_192-437 DR GENE3D; 18e7da832f83fa9dff9dbf8af7d7deec/76-118_192-437; #=GS S3K1A9/76-118_192-437 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema maltophilum; #=GS S3K1A9/76-118_192-437 DR EC; 3.6.3.14; #=GS A0P1I7/93-134_207-461 AC A0P1I7 #=GS A0P1I7/93-134_207-461 OS Labrenzia aggregata IAM 12614 #=GS A0P1I7/93-134_207-461 DE V-type ATP synthase alpha chain #=GS A0P1I7/93-134_207-461 DR GENE3D; 191080e70096a39ec29f5f1e883fbdef/93-134_207-461; #=GS A0P1I7/93-134_207-461 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia aggregata; #=GS A0P1I7/93-134_207-461 DR EC; 3.6.3.14; #=GS D3RSX7/75-117_192-439 AC D3RSX7 #=GS D3RSX7/75-117_192-439 OS Allochromatium vinosum DSM 180 #=GS D3RSX7/75-117_192-439 DE V-type ATP synthase alpha chain #=GS D3RSX7/75-117_192-439 DR GENE3D; 1914dba8411aa432afb1a1af62f85df2/75-117_192-439; #=GS D3RSX7/75-117_192-439 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Allochromatium; Allochromatium vinosum; #=GS D3RSX7/75-117_192-439 DR EC; 3.6.3.14; #=GS A0A0E1L0T9/72-114_185-434 AC A0A0E1L0T9 #=GS A0A0E1L0T9/72-114_185-434 OS Clostridium botulinum CDC_1436 #=GS A0A0E1L0T9/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0A0E1L0T9/72-114_185-434 DR GENE3D; 191ff0d6c5cf9865c7bd6bb9c26a63cb/72-114_185-434; #=GS A0A0E1L0T9/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium botulinum; #=GS A0A0E1L0T9/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A1G3QGS8/69-117_194-436 AC A0A1G3QGS8 #=GS A0A1G3QGS8/69-117_194-436 OS Spirochaetes bacterium RBG_13_51_14 #=GS A0A1G3QGS8/69-117_194-436 DE V-type ATP synthase alpha chain #=GS A0A1G3QGS8/69-117_194-436 DR GENE3D; 19207ae83f53b01f2249c5f64fcf6d2c/69-117_194-436; #=GS A0A1G3QGS8/69-117_194-436 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium RBG_13_51_14; #=GS A0A1G3QGS8/69-117_194-436 DR EC; 3.6.3.14; #=GS B3N3B4/200-243_317-568 AC B3N3B4 #=GS B3N3B4/200-243_317-568 OS Drosophila erecta #=GS B3N3B4/200-243_317-568 DE Uncharacterized protein #=GS B3N3B4/200-243_317-568 DR GENE3D; 194eb0e62ae4e5e36024b5b860421ee4/200-243_317-568; #=GS B3N3B4/200-243_317-568 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 B3N3B4/200-243_317-568 DR EC; 3.6.3.14; #=GS C0C1W4/76-118_191-438 AC C0C1W4 #=GS C0C1W4/76-118_191-438 OS [Clostridium] hylemonae DSM 15053 #=GS C0C1W4/76-118_191-438 DE V-type ATP synthase alpha chain #=GS C0C1W4/76-118_191-438 DR GENE3D; 19563f299c454fb276f22f8ece137b41/76-118_191-438; #=GS C0C1W4/76-118_191-438 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnoclostridium; [Clostridium] hylemonae; #=GS C0C1W4/76-118_191-438 DR EC; 3.6.3.14; #=GS A0A1C5YV72/76-114_188-436 AC A0A1C5YV72 #=GS A0A1C5YV72/76-114_188-436 OS uncultured Bacteroides sp. #=GS A0A1C5YV72/76-114_188-436 DE V-type ATP synthase alpha chain #=GS A0A1C5YV72/76-114_188-436 DR GENE3D; 198a5b59bf7411f6edc910d3e4017a57/76-114_188-436; #=GS A0A1C5YV72/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; uncultured Bacteroides sp.; #=GS A0A1C5YV72/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A0P0N6Q0/72-115_187-436 AC A0A0P0N6Q0 #=GS A0A0P0N6Q0/72-115_187-436 OS Streptococcus anginosus #=GS A0A0P0N6Q0/72-115_187-436 DE V-type ATP synthase alpha chain #=GS A0A0P0N6Q0/72-115_187-436 DR GENE3D; 199bdd132aafe43f7410451982f9ec0c/72-115_187-436; #=GS A0A0P0N6Q0/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus anginosus group; Streptococcus anginosus; #=GS A0A0P0N6Q0/72-115_187-436 DR EC; 3.6.3.14; #=GS A0A139NN58/72-115_187-436 AC A0A139NN58 #=GS A0A139NN58/72-115_187-436 OS Streptococcus sp. DD11 #=GS A0A139NN58/72-115_187-436 DE V-type ATP synthase alpha chain #=GS A0A139NN58/72-115_187-436 DR GENE3D; 19b65608a6ab1a88038c5540bed24e86/72-115_187-436; #=GS A0A139NN58/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus sp. DD11; #=GS A0A139NN58/72-115_187-436 DR EC; 3.6.3.14; #=GS D7N842/72-114_187-434 AC D7N842 #=GS D7N842/72-114_187-434 OS Peptoniphilus sp. oral taxon 386 str. F0131 #=GS D7N842/72-114_187-434 DE V-type ATP synthase alpha chain #=GS D7N842/72-114_187-434 DR GENE3D; 19d331093659c7ff5fc208f94e8b3b5c/72-114_187-434; #=GS D7N842/72-114_187-434 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Peptoniphilus; Peptoniphilus sp. oral taxon 386; #=GS D7N842/72-114_187-434 DR EC; 3.6.3.14; #=GS A0A1C6DQL1/75-117_190-437 AC A0A1C6DQL1 #=GS A0A1C6DQL1/75-117_190-437 OS uncultured Lachnospira sp. #=GS A0A1C6DQL1/75-117_190-437 DE V-type ATP synthase alpha chain #=GS A0A1C6DQL1/75-117_190-437 DR GENE3D; 1a0c2890f3173fd12b7e0f30b6d79825/75-117_190-437; #=GS A0A1C6DQL1/75-117_190-437 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnospira; uncultured Lachnospira sp.; #=GS A0A1C6DQL1/75-117_190-437 DR EC; 3.6.3.14; #=GS B2IP43/80-123_195-444 AC B2IP43 #=GS B2IP43/80-123_195-444 OS Streptococcus pneumoniae CGSP14 #=GS B2IP43/80-123_195-444 DE V-type ATP synthase alpha chain #=GS B2IP43/80-123_195-444 DR GENE3D; 1a299bb9e95c6820f5268c631c09809c/80-123_195-444; #=GS B2IP43/80-123_195-444 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus pneumoniae; #=GS B2IP43/80-123_195-444 DR EC; 3.6.3.14; #=GS U7UW70/72-114_185-434 AC U7UW70 #=GS U7UW70/72-114_185-434 OS Peptoniphilus sp. BV3AC2 #=GS U7UW70/72-114_185-434 DE V-type ATP synthase alpha chain #=GS U7UW70/72-114_185-434 DR GENE3D; 1a46945741fe5b1389ab20d8ad87c77a/72-114_185-434; #=GS U7UW70/72-114_185-434 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Peptoniphilus; Peptoniphilus sp. BV3AC2; #=GS U7UW70/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A143ZSB2/83-125_197-446 AC A0A143ZSB2 #=GS A0A143ZSB2/83-125_197-446 OS Eubacteriaceae bacterium CHKCI005 #=GS A0A143ZSB2/83-125_197-446 DE V-type ATP synthase alpha chain #=GS A0A143ZSB2/83-125_197-446 DR GENE3D; 1b189e31953dca6dd8ac704a6923c1e7/83-125_197-446; #=GS A0A143ZSB2/83-125_197-446 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Eubacteriaceae; Eubacteriaceae bacterium CHKCI005; #=GS A0A143ZSB2/83-125_197-446 DR EC; 3.6.3.14; #=GS A0A0B4BF92/84-125_198-452 AC A0A0B4BF92 #=GS A0A0B4BF92/84-125_198-452 OS Tateyamaria sp. ANG-S1 #=GS A0A0B4BF92/84-125_198-452 DE V-type ATP synthase alpha chain #=GS A0A0B4BF92/84-125_198-452 DR GENE3D; 1b2bf5eb9dfb55db4ffc5185b966b588/84-125_198-452; #=GS A0A0B4BF92/84-125_198-452 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Tateyamaria; Tateyamaria sp. ANG-S1; #=GS A0A0B4BF92/84-125_198-452 DR EC; 3.6.3.14; #=GS R5TXJ7/70-117_195-440 AC R5TXJ7 #=GS R5TXJ7/70-117_195-440 OS Roseburia sp. CAG:50 #=GS R5TXJ7/70-117_195-440 DE V-type ATP synthase alpha chain #=GS R5TXJ7/70-117_195-440 DR GENE3D; 1b49f87dd9c2829be56ac925f6376a27/70-117_195-440; #=GS R5TXJ7/70-117_195-440 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Roseburia; Roseburia sp. CAG:50; #=GS R5TXJ7/70-117_195-440 DR EC; 3.6.3.14; #=GS D1AWR5/71-113_184-433 AC D1AWR5 #=GS D1AWR5/71-113_184-433 OS Streptobacillus moniliformis DSM 12112 #=GS D1AWR5/71-113_184-433 DE V-type ATP synthase alpha chain #=GS D1AWR5/71-113_184-433 DR GENE3D; 1b7b7410a53c45d017552ca9a9db46ea/71-113_184-433; #=GS D1AWR5/71-113_184-433 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Leptotrichiaceae; Streptobacillus; Streptobacillus moniliformis; #=GS D1AWR5/71-113_184-433 DR EC; 3.6.3.14; #=GS A4FXD4/72-115_186-435 AC A4FXD4 #=GS A4FXD4/72-115_186-435 OS Methanococcus maripaludis C5 #=GS A4FXD4/72-115_186-435 DE V-type ATP synthase alpha chain #=GS A4FXD4/72-115_186-435 DR GENE3D; 1b85b42b8d3e844fcd106fde9cfc0bb8/72-115_186-435; #=GS A4FXD4/72-115_186-435 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS A4FXD4/72-115_186-435 DR EC; 3.6.3.14; #=GS U5MTE3/72-115_186-435 AC U5MTE3 #=GS U5MTE3/72-115_186-435 OS Clostridium saccharobutylicum DSM 13864 #=GS U5MTE3/72-115_186-435 DE V-type ATP synthase alpha chain #=GS U5MTE3/72-115_186-435 DR GENE3D; 1b88c93e80b47888d5301205f936495d/72-115_186-435; #=GS U5MTE3/72-115_186-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium saccharobutylicum; #=GS U5MTE3/72-115_186-435 DR EC; 3.6.3.14; #=GS R6MMH0/76-114_188-436 AC R6MMH0 #=GS R6MMH0/76-114_188-436 OS Bacteroides sp. CAG:443 #=GS R6MMH0/76-114_188-436 DE V-type ATP synthase alpha chain #=GS R6MMH0/76-114_188-436 DR GENE3D; 1bce6b0a518d0d12291144dbd4c9b844/76-114_188-436; #=GS R6MMH0/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides sp. CAG:443; #=GS R6MMH0/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A0M0A103/72-114_185-434 AC A0A0M0A103 #=GS A0A0M0A103/72-114_185-434 OS Clostridium botulinum #=GS A0A0M0A103/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0A0M0A103/72-114_185-434 DR GENE3D; 1bd4b1e7112513c4f8a0472757af6697/72-114_185-434; #=GS A0A0M0A103/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium botulinum; #=GS A0A0M0A103/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A1E5HE45/72-115_186-435 AC A0A1E5HE45 #=GS A0A1E5HE45/72-115_186-435 OS Enterococcus ureilyticus #=GS A0A1E5HE45/72-115_186-435 DE V-type ATP synthase alpha chain #=GS A0A1E5HE45/72-115_186-435 DR GENE3D; 1be548e4705683b0be6a1753dace4ebd/72-115_186-435; #=GS A0A1E5HE45/72-115_186-435 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Enterococcaceae; Enterococcus; Enterococcus ureilyticus; #=GS A0A1E5HE45/72-115_186-435 DR EC; 3.6.3.14; #=GS W2C6J7/76-114_188-436 AC W2C6J7 #=GS W2C6J7/76-114_188-436 OS Tannerella sp. oral taxon BU063 isolate Cell 2 #=GS W2C6J7/76-114_188-436 DE V-type ATP synthase alpha chain #=GS W2C6J7/76-114_188-436 DR GENE3D; 1c149474f2fde4f7c35ab386e636fc2a/76-114_188-436; #=GS W2C6J7/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Tannerella; Tannerella sp. oral taxon HOT-286; #=GS W2C6J7/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A101GPM1/77-120_191-440 AC A0A101GPM1 #=GS A0A101GPM1/77-120_191-440 OS Synergistales bacterium 57_84 #=GS A0A101GPM1/77-120_191-440 DE V-type ATP synthase alpha chain #=GS A0A101GPM1/77-120_191-440 DR GENE3D; 1c1a72cc53cabf8dbdfde6be333ab4f6/77-120_191-440; #=GS A0A101GPM1/77-120_191-440 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistales bacterium 57_84; #=GS A0A101GPM1/77-120_191-440 DR EC; 3.6.3.14; #=GS C1FTN7/74-116_187-436 AC C1FTN7 #=GS C1FTN7/74-116_187-436 OS Clostridium botulinum A2 str. Kyoto #=GS C1FTN7/74-116_187-436 DE V-type ATP synthase alpha chain #=GS C1FTN7/74-116_187-436 DR GENE3D; 1c8f20da932a3ee79995f09ef8d5dfef/74-116_187-436; #=GS C1FTN7/74-116_187-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium botulinum; #=GS C1FTN7/74-116_187-436 DR EC; 3.6.3.14; #=GS A0A175LHG7/74-116_187-436 AC A0A175LHG7 #=GS A0A175LHG7/74-116_187-436 OS Clostridium botulinum B2 331 #=GS A0A175LHG7/74-116_187-436 DE V-type ATP synthase alpha chain #=GS A0A175LHG7/74-116_187-436 DR GENE3D; 1c8f20da932a3ee79995f09ef8d5dfef/74-116_187-436; #=GS A0A175LHG7/74-116_187-436 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium botulinum; #=GS A0A175LHG7/74-116_187-436 DR EC; 3.6.3.14; #=GS A0A139NBR7/2-214 AC A0A139NBR7 #=GS A0A139NBR7/2-214 OS Streptococcus gallolyticus #=GS A0A139NBR7/2-214 DE V-type ATP synthase subunit A #=GS A0A139NBR7/2-214 DR GENE3D; 1cc2041112174f28f8e77e15469a14fc/2-214; #=GS A0A139NBR7/2-214 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus gallolyticus; #=GS A0A139NBR7/2-214 DR EC; 3.6.3.14; #=GS A0A1F0YBU3/72-115_187-436 AC A0A1F0YBU3 #=GS A0A1F0YBU3/72-115_187-436 OS Streptococcus sp. HMSC078D09 #=GS A0A1F0YBU3/72-115_187-436 DE V-type ATP synthase alpha chain #=GS A0A1F0YBU3/72-115_187-436 DR GENE3D; 1cc552a1a7f5a67e602e6864b644d227/72-115_187-436; #=GS A0A1F0YBU3/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus sp. HMSC078D09; #=GS A0A1F0YBU3/72-115_187-436 DR EC; 3.6.3.14; #=GS A0A151EBI9/76-118_190-439 AC A0A151EBI9 #=GS A0A151EBI9/76-118_190-439 OS Thermoplasmatales archaeon SG8-52-1 #=GS A0A151EBI9/76-118_190-439 DE V-type ATP synthase alpha chain #=GS A0A151EBI9/76-118_190-439 DR GENE3D; 1ce97abbcece91454e9f462cdb0a042b/76-118_190-439; #=GS A0A151EBI9/76-118_190-439 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SG8-52-1; #=GS A0A151EBI9/76-118_190-439 DR EC; 3.6.3.14; #=GS M5RN66/70-110_182-436 AC M5RN66 #=GS M5RN66/70-110_182-436 OS Rhodopirellula maiorica SM1 #=GS M5RN66/70-110_182-436 DE V-type ATP synthase alpha chain #=GS M5RN66/70-110_182-436 DR GENE3D; 1d42f9e49efb5595ed1f53c43104dd9d/70-110_182-436; #=GS M5RN66/70-110_182-436 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Planctomycetales; Planctomycetaceae; Rhodopirellula; Rhodopirellula maiorica; #=GS M5RN66/70-110_182-436 DR EC; 3.6.3.14; #=GS A0A1F9ITX0/75-115_209-458 AC A0A1F9ITX0 #=GS A0A1F9ITX0/75-115_209-458 OS Deltaproteobacteria bacterium RIFCSPLOWO2_12_FULL_43_16 #=GS A0A1F9ITX0/75-115_209-458 DE V-type ATP synthase alpha chain #=GS A0A1F9ITX0/75-115_209-458 DR GENE3D; 1dccadf9f4f5ceeb8cc0aebe82e9dd38/75-115_209-458; #=GS A0A1F9ITX0/75-115_209-458 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium RIFCSPLOWO2_12_FULL_43_16; #=GS A0A1F9ITX0/75-115_209-458 DR EC; 3.6.3.14; #=GS A0A1G3Q547/75-117_189-436 AC A0A1G3Q547 #=GS A0A1G3Q547/75-117_189-436 OS Spirochaetes bacterium GWF1_41_5 #=GS A0A1G3Q547/75-117_189-436 DE V-type ATP synthase alpha chain #=GS A0A1G3Q547/75-117_189-436 DR GENE3D; 1dfc2794f79d187961190bcc502dd8e1/75-117_189-436; #=GS A0A1G3Q547/75-117_189-436 DR ORG; Bacteria; Spirochaetes; Spirochaetes bacterium GWF1_41_5; #=GS A0A1G3Q547/75-117_189-436 DR EC; 3.6.3.14; #=GS B0ERI5/81-124_196-447 AC B0ERI5 #=GS B0ERI5/81-124_196-447 OS Entamoeba dispar SAW760 #=GS B0ERI5/81-124_196-447 DE Vacuolar ATP synthase catalytic subunit A, putative #=GS B0ERI5/81-124_196-447 DR GENE3D; 1e0cdfb013833860f70473d96b6a4daa/81-124_196-447; #=GS B0ERI5/81-124_196-447 DR ORG; Eukaryota; Entamoebidae; Entamoeba; Entamoeba dispar; #=GS B0ERI5/81-124_196-447 DR EC; 3.6.3.15; #=GS A0A0B4S2H1/72-114_185-433 AC A0A0B4S2H1 #=GS A0A0B4S2H1/72-114_185-433 OS Parvimonas micra #=GS A0A0B4S2H1/72-114_185-433 DE V-type ATP synthase alpha chain #=GS A0A0B4S2H1/72-114_185-433 DR GENE3D; 1e19a2c40592d0560e715eafd10d8485/72-114_185-433; #=GS A0A0B4S2H1/72-114_185-433 DR ORG; Bacteria; Firmicutes; Tissierellia; Tissierellales; Peptoniphilaceae; Parvimonas; Parvimonas micra; #=GS A0A0B4S2H1/72-114_185-433 DR EC; 3.6.3.14; #=GS A0A133PAM7/72-114_185-433 AC A0A133PAM7 #=GS A0A133PAM7/72-114_185-433 OS Fusobacterium nucleatum #=GS A0A133PAM7/72-114_185-433 DE V-type ATP synthase alpha chain #=GS A0A133PAM7/72-114_185-433 DR GENE3D; 1e2d58ca3146faf0230169a053e4b8b4/72-114_185-433; #=GS A0A133PAM7/72-114_185-433 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Fusobacteriaceae; Fusobacterium; Fusobacterium nucleatum; #=GS A0A133PAM7/72-114_185-433 DR EC; 3.6.3.14; #=GS A0A1E3AAF6/73-115_188-435 AC A0A1E3AAF6 #=GS A0A1E3AAF6/73-115_188-435 OS Eisenbergiella tayi #=GS A0A1E3AAF6/73-115_188-435 DE V-type ATP synthase alpha chain #=GS A0A1E3AAF6/73-115_188-435 DR GENE3D; 1e2eef29144296523a9e890f2023b648/73-115_188-435; #=GS A0A1E3AAF6/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Eisenbergiella; Eisenbergiella tayi; #=GS A0A1E3AAF6/73-115_188-435 DR EC; 3.6.3.14; #=GS F7K5T9/73-115_188-435 AC F7K5T9 #=GS F7K5T9/73-115_188-435 OS Lachnospiraceae bacterium 3_1_57FAA_CT1 #=GS F7K5T9/73-115_188-435 DE V-type ATP synthase alpha chain #=GS F7K5T9/73-115_188-435 DR GENE3D; 1e2eef29144296523a9e890f2023b648/73-115_188-435; #=GS F7K5T9/73-115_188-435 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Lachnospiraceae bacterium 3_1_57FAA_CT1; #=GS F7K5T9/73-115_188-435 DR EC; 3.6.3.14; #=GS A0A1C6FVN3/75-117_190-437 AC A0A1C6FVN3 #=GS A0A1C6FVN3/75-117_190-437 OS uncultured Clostridium sp. #=GS A0A1C6FVN3/75-117_190-437 DE V-type ATP synthase alpha chain #=GS A0A1C6FVN3/75-117_190-437 DR GENE3D; 1e34e87c1aa5127da8086e1c6bfe4e30/75-117_190-437; #=GS A0A1C6FVN3/75-117_190-437 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; uncultured Clostridium sp.; #=GS A0A1C6FVN3/75-117_190-437 DR EC; 3.6.3.14; #=GS Q90647/87-130_204-455 AC Q90647 #=GS Q90647/87-130_204-455 OS Gallus gallus #=GS Q90647/87-130_204-455 DE V-type proton ATPase catalytic subunit A #=GS Q90647/87-130_204-455 DR GENE3D; 1e52f907647bb095b702d232d4d91e1e/87-130_204-455; #=GS Q90647/87-130_204-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Aves; Neognathae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS Q90647/87-130_204-455 DR EC; 3.6.3.14; #=GS C3NEU3/72-115_187-436 AC C3NEU3 #=GS C3NEU3/72-115_187-436 OS Sulfolobus islandicus Y.G.57.14 #=GS C3NEU3/72-115_187-436 DE V-type ATP synthase alpha chain #=GS C3NEU3/72-115_187-436 DR GENE3D; 1ea5c2f804beef27c291e8c976ce5176/72-115_187-436; #=GS C3NEU3/72-115_187-436 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS C3NEU3/72-115_187-436 DR EC; 3.6.3.14; #=GS D7DRU1/72-115_186-435 AC D7DRU1 #=GS D7DRU1/72-115_186-435 OS Methanococcus voltae A3 #=GS D7DRU1/72-115_186-435 DE V-type ATP synthase alpha chain #=GS D7DRU1/72-115_186-435 DR GENE3D; 1ea9a29bc4bd361c5b12fb6759802a73/72-115_186-435; #=GS D7DRU1/72-115_186-435 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus voltae; #=GS D7DRU1/72-115_186-435 DR EC; 3.6.3.14; #=GS A0A0M4SRU9/72-114_185-433 AC A0A0M4SRU9 #=GS A0A0M4SRU9/72-114_185-433 OS Fusobacterium nucleatum subsp. animalis #=GS A0A0M4SRU9/72-114_185-433 DE V-type ATP synthase alpha chain #=GS A0A0M4SRU9/72-114_185-433 DR GENE3D; 1f19bf01ea86c2b7fbdf5a8d1ee6e706/72-114_185-433; #=GS A0A0M4SRU9/72-114_185-433 DR ORG; Bacteria; Fusobacteria; Fusobacteriia; Fusobacteriales; Fusobacteriaceae; Fusobacterium; Fusobacterium nucleatum; Fusobacterium nucleatum subsp. animalis; #=GS A0A0M4SRU9/72-114_185-433 DR EC; 3.6.3.14; #=GS A0A0A0ISD5/72-114_185-434 AC A0A0A0ISD5 #=GS A0A0A0ISD5/72-114_185-434 OS Clostridium haemolyticum NCTC 8350 #=GS A0A0A0ISD5/72-114_185-434 DE V-type ATP synthase alpha chain #=GS A0A0A0ISD5/72-114_185-434 DR GENE3D; 1f2dd46d937c57e25ffb35a5589b5519/72-114_185-434; #=GS A0A0A0ISD5/72-114_185-434 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium haemolyticum; #=GS A0A0A0ISD5/72-114_185-434 DR EC; 3.6.3.14; #=GS A0A174T7Y5/75-117_190-437 AC A0A174T7Y5 #=GS A0A174T7Y5/75-117_190-437 OS Dorea longicatena #=GS A0A174T7Y5/75-117_190-437 DE V-type ATP synthase alpha chain #=GS A0A174T7Y5/75-117_190-437 DR GENE3D; 1f6822f9b2d33aef80f425a760b646fa/75-117_190-437; #=GS A0A174T7Y5/75-117_190-437 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Dorea; Dorea longicatena; #=GS A0A174T7Y5/75-117_190-437 DR EC; 3.6.3.14; #=GS U5PAF2/72-115_187-436 AC U5PAF2 #=GS U5PAF2/72-115_187-436 OS Streptococcus sp. I-P16 #=GS U5PAF2/72-115_187-436 DE V-type ATP synthase alpha chain #=GS U5PAF2/72-115_187-436 DR GENE3D; 1f7c77d73361eb07cdd01c06efec6c25/72-115_187-436; #=GS U5PAF2/72-115_187-436 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus sp. I-P16; #=GS U5PAF2/72-115_187-436 DR EC; 3.6.3.14; #=GS A0A1G2XBG2/75-117_189-438 AC A0A1G2XBG2 #=GS A0A1G2XBG2/75-117_189-438 OS Planctomycetes bacterium GWC2_45_44 #=GS A0A1G2XBG2/75-117_189-438 DE V-type ATP synthase alpha chain #=GS A0A1G2XBG2/75-117_189-438 DR GENE3D; 1f8a7f861424b922393bb1376a6ad201/75-117_189-438; #=GS A0A1G2XBG2/75-117_189-438 DR ORG; Bacteria; Planctomycetes; Planctomycetes bacterium GWC2_45_44; #=GS A0A1G2XBG2/75-117_189-438 DR EC; 3.6.3.14; #=GS A0A139Y3R6/85-128_203-454 AC A0A139Y3R6 #=GS A0A139Y3R6/85-128_203-454 OS Toxoplasma gondii ARI #=GS A0A139Y3R6/85-128_203-454 DE Putative vacuolar ATP synthase subunit A #=GS A0A139Y3R6/85-128_203-454 DR GENE3D; 1f93f128f2f39d457f07de10529587ec/85-128_203-454; #=GS A0A139Y3R6/85-128_203-454 DR ORG; Eukaryota; Apicomplexa; Coccidia; Eucoccidiorida; Eimeriorina; Sarcocystidae; Toxoplasma; Toxoplasma gondii; #=GS A0A139Y3R6/85-128_203-454 DR EC; 3.6.3.15; #=GS R5CTD8/71-113_185-434 AC R5CTD8 #=GS R5CTD8/71-113_185-434 OS Firmicutes bacterium CAG:555 #=GS R5CTD8/71-113_185-434 DE V-type ATP synthase alpha chain #=GS R5CTD8/71-113_185-434 DR GENE3D; 1f9fb9d64522b7fdd4f371212f1d87a0/71-113_185-434; #=GS R5CTD8/71-113_185-434 DR ORG; Bacteria; Firmicutes; Firmicutes bacterium CAG:555; #=GS R5CTD8/71-113_185-434 DR EC; 3.6.3.14; #=GS Q946X7/90-133_206-458 AC Q946X7 #=GS Q946X7/90-133_206-458 OS Prunus persica #=GS Q946X7/90-133_206-458 DE V-ATPase catalytic subunit A #=GS Q946X7/90-133_206-458 DR GENE3D; 1fab29ac4460017599251ea7becbd05c/90-133_206-458; #=GS Q946X7/90-133_206-458 DR ORG; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; rosids; Rosales; Rosaceae; Maloideae; Amygdaleae; Prunus; Prunus persica; #=GS Q946X7/90-133_206-458 DR EC; 3.6.1.3; #=GS A0A1J5HDG5/76-114_188-436 AC A0A1J5HDG5 #=GS A0A1J5HDG5/76-114_188-436 OS Porphyromonadaceae bacterium CG2_30_38_12 #=GS A0A1J5HDG5/76-114_188-436 DE V-type ATP synthase alpha chain #=GS A0A1J5HDG5/76-114_188-436 DR GENE3D; 1fb4013dbdb8c9074a8ef7e51fe384a7/76-114_188-436; #=GS A0A1J5HDG5/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Porphyromonadaceae bacterium CG2_30_38_12; #=GS A0A1J5HDG5/76-114_188-436 DR EC; 3.6.3.14; #=GS A0A0F5IXE9/76-114_188-436 AC A0A0F5IXE9 #=GS A0A0F5IXE9/76-114_188-436 OS Parabacteroides goldsteinii DSM 19448 = WAL 12034 #=GS A0A0F5IXE9/76-114_188-436 DE V-type ATP synthase alpha chain #=GS A0A0F5IXE9/76-114_188-436 DR GENE3D; 1fe2eb6406a7f2eeabcef30e805c8d4f/76-114_188-436; #=GS A0A0F5IXE9/76-114_188-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Parabacteroides; Parabacteroides goldsteinii; #=GS A0A0F5IXE9/76-114_188-436 DR EC; 3.6.3.14; #=GF TC 333.0 1.9E-100 #=GF SQ 1000 3gqbA02/72-114_182-429 -------------AVELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKSVTQQSLAKWSNADVVVYVGSGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS 3vr2A02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS Q8RI78/1-226 -------------------------------------------------------------------------------------------------------MITGQRIIDTFFAVTKGGTAAIPGPFGSGKTVIQHQLAKWADAEVVVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLASRIAEFYERAGLVECL-GNG----EEGALTVIGAVSPPGGD-ISEPVSQSTLRIAK--VFWGLDYALSYRRHFPAINWLNSYS A5AAF1/81-124_198-449 -------------SVELGPGLMETIYDGIQRPLKAISD--Q------S-K-GIYIPRGI---AVNALDRE---SMMHTWPVRVP-------RPVNEKLSSDAPFIVGQRVLDSLFPSVQGGTVCIPGAFGCGKTVISQSVSKFSNSDIIVYVGCGERGNEMAEVLMDFPELSIDV-------DGRKE------PIMKRTCLIANTSNMPVAAREASIYTGITIAEYFRDQGKNVAMMADSSSRWAEALREISGRLGEMPADQGFPAYLGAKLASFYERAGKSNAL-GSPE---RIGSVSIVAAVSPPGGD-FSDPVTSSTLGIVQ--VFWGLDKKLAQRKHFPSINTSISYS A0A170XL21/2-4_77-271 -------------------------------------------------------------------SRS---KMLQVWPVRQP-------RPCTEKLPANYPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPELSVEI-------EGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSTMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNP--------------------------------------------------------------- Q9AVU8/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAK--R------S-G-DVYIPRGV---AVPPLDKD---TMLQSWPVRTP-------SPVASKLAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDAVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RTGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS B6HJ23/78-121_195-446 -------------SVELGPGLMETIYDGIQRPLKAISD--Q------S-K-SIYIPRGI---SVNALDRE---GMMQTWPVRVP-------RPVTDRLSADAPFIVGQRVLDALFPSVQGGTVCIPGAFGCGKTVISQSVSKFSNSDIIVYVGCGERGNEMAEVLMDFPELSINV-------EGRKE------PIMKRTCLIANTSNMPVAAREASIYTGITIAEYFRDQGKNVAMMADSSSRWAEALREISGRLGEMPADQGFPAYLGAKLASFYERAGKSSAL-GSPE---REGSVSIVGAVSPPGGD-FSDPVTSSTLGIVQ--VFWGLDKKLAQRKHFPSVNTSISYS G8HI88/1-185 ----------------------------------------------------------------------------------------------------------------------------------------------------VVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RTGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS P92128/79-121_208-433 --------------VHLGPGLLSSIYDGIQRPLEKIAQI--------T-N-SHFIPRGI---SAPALDLE---GLAHYHPVRSP-------KKVFKKLPCINPLITGQRTLDGLFPLAIGATAAIPGGFGCGKTVVSQSISKYGNTDVIVYIGCGERGNEMAEILTDFPEMTFEAKKRVIGPSGQQEIKTVVSDIFSRTVLVANTSNMPVAAREASIYTGITISEFFRDQGYNVTLLADSTSRWAEALREISGRLGGIPGEGGYPADLTSKLSHFYERAGRVICL-GNSN-----------GAWSPE--N-ILDPTSG-------------------------------AIS O23654/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAR--I------S-G-DVYIPRGV---SVPALDKD---TMLQSWPVRTP-------RPVASKLAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDAVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RNGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS P38606/87-130_204-455 -------------SVELGPGIMGAIFDGIQRPLSDISS--Q------T-Q-SIYIPRGV---NVSALSRD---TMVQVWPVRQV-------RPVTEKLPANHPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTMEV-------DGKVE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYHVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS P50516/87-130_204-455 -------------SVELGPGIMGAIFDGIQRPLSDISS--Q------T-Q-SIYIPRGV---NVSALSRD---SMVQVWPVRQV-------RPVTEKLPANHPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTMEV-------DGKVE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYHVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS Q27331/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDINE--L------T-E-SIYIPKGV---NVPSLSRV---TMLQVWPVRQP-------RPVTEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPELSVEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS P17255/730-916 -------------------------------------------------------------------------------------------------------------------------------------------------ANQVVVHNCGERGNEMAEVLMEFPELYTEM-------SGTKE------PIMKRTTLVANTSNMPVAAREASIYTGITLAEYFRDQGKNVSMIADSSSRWAEALREISGRLGEMPADQGFPAYLGAKLASFYERAGKAVAL-GSPD---RTGSVSIVAAVSPAGGD-FSDPVTTATLGITQ--VFWGLDKKLAQRKHFPSINTSVSYS P48602/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLRDIGV--M------T-N-SIYIPKGV---NTTALSRS---TMLQVWPVRQP-------RPVTEKLPANHPLFTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTCEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVAMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLATFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS P31406/94-137_212-463 -------------SVELGPGLAETIYDGIQRPLKQIFD--K------S-Q-SIYIPRGI---NTESLNRE---SMLHTWPVRAA-------RPVADNLTANQPLLTGQRVLDALYPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDLIVYVGCGERGNEMAEVLMDFPELTIDI-------NGKPE------PIMKRTTLVANTSNMPVAAREASIYTGITLAEYYRDQGKNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGAKLASFYERAGRARCL-GSPD---REGTVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINTSLSYS Q76NM6/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS Q9VK47/209-252_326-577 -------------SVELGPGIMGSIFDGIQRPLRSISE--L------T-N-SIYVPKGI---DTPSLPRN---TMLQVWPVRRC-------RPVEDKLPSNSPLLTGQRVLDAFFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPQLEVEV-------NGTME------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYHVSMMADSTSRWAEALREISGRLAEMPADAGYPAYLGARLASFYERAGLVKCL-GSPD---REGSVSIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLQSYS Q0WLF6/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAR--I------S-G-DVYIPRGV---SVPALDKD---TMLQSWPVRTP-------RPVASKLAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDAVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RNGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS Q9XW92/76-119_193-444 -------------SVELGPGIMGSIFDGIQRPLKDIAD--I------T-Q-SIYIPKGV---STNALSRE---SMLQIWPVRSP-------RPVTEKLAANNPLLCGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDAIIYVGCGERGNEMSEVLRDFPELTMEV-------EGVTT------SIMKRTALVANTSNMPVAAREASIYTGITLAEYFRDMGLNVAMMADSTSRWAEALREISGRLGEMPADSGYPAYLAARLASFYERAGRVKCL-GSPE---REGSVTIVGAVSPPGGD-FADPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS M9PD18/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLRDIGV--M------T-N-SIYIPKGV---NTTALSRS---TMLQVWPVRQP-------RPVTEKLPANHPLFTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTCEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVAMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLATFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS A4V0N4/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDINE--L------T-E-SIYIPKGV---NVPSLSRV---TMLQVWPVRQP-------RPVTEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPELSVEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS Q8T464/27-70_144-395 -------------SVELGPGIMGSIFDGIQRPLRSISE--L------T-N-SIYVPKGI---DTPSLPRN---TMLQVWPVRRC-------RPVEDKLPSNSPLLTGQRVLDAFFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPQLEVEV-------NGTME------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYHVSMMADSTSRWAEALREISGRLAEMPADAGYPAYLGARLASFYERAGLVKCL-GSPD---REGSVSIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLQSYS B9DHY6/46-298 -------------------------------------------------------------------------TMLQSWPVRTP-------RPVASKLAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDAVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RNGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS 3w3aA02/72-114_182-429 -------------AVELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS 1vdzA01/60-115_191-437 RPGEPVVGTGASLSVELGPGLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD------QRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3i4lA01/61-115_191-437 -PGEPVVGTGASLSVELGPRLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD------QRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3ikjA01/60-115_191-437 RPGEPVVGTGASLSVELGPRLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD------QRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGAGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3m4yA02/73-115_188-437 -------------SVELGPGLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD---KMYQRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGAFGSGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3mfyA01/61-115_191-437 -PGEPVVGTGASLSVELGPRLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD------QRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPAGSGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3nd8A01/63-115_191-437 ---EPVVGTGASLSVELGPRLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD------QRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGSGATVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3nd9A01/63-115_191-437 ---EPVVGTGASLSVELGPRLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD------QRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGSGKAVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3qg1A02/73-115_188-437 -------------SVELGPRLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD---KMYQRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGSAKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3qiaA02/73-115_188-437 -------------SVELGPGLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD---KMYQRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFASGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3qjyA02/73-115_188-437 -------------SVELGPGLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD---KMYQRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPAPFGSGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3sdzA02/73-115_188-437 -------------SVELGPGLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD---KMYQRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHWPAINWLTSYS 5bn3A02/68-111_177-424 -------------TIELGPGLLANIFDGLGRPLKDIYE--K------T-Q-SIYIPKGI---DLPTLDRK---KLYHEWPIRKP-------RPYKEKLDYNYPFITGTRVLDIMFPIAKGGSAAVPGPFGSGKTVLNQQIAKWADSDIVIYIGCGERGNEMTEVLEEFPKLKDPK-------TGK--------PLMYRTILIANTSNMPIAAREASIYLGATIGEYFRDQGYSVVVNADSTSRWAEALREISSRLGEIPSEEGYPAYLLRKLAEFYERSGRVRTL-NDLE-----GSLTIIGAVSPPGGD-FSEPVTQNTLRLVG--ALWALDSKLAYKRHYPAINYLISYT 3vr2B02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr2C02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr3A02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr3B02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr3C02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr4A02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr4B02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr4C02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr5A02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr5B02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr5C02/79-122_193-442 -------------SVELGPGIISQXFDGIQRPLDTFXE--V------TQS-N-FLGRGV---QLPALDHE---TXXQKWPVRRG-------RPIKQKLNPDVPXITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEXTDVVNEFPELIDPN-------TGE--------SLXERTVLIANTSNXPVAAREASIYTGITIAEYFRDXGYDVAIXADSTSRWAEALREXSGRLEEXPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr6A02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS P54647/89-131_205-456 --------------VELGPGIMNNIFDGIQRPLNAIAE--I------T-K-GIYIPRGI---NTPSLNRT---TMVHNWPVRSA-------RPVIEKLPCNYPLLTGQRVLDSLFPCVQGGTCAIPGAFGCGKTVISQSLSKFSNSDAIVYVGCGERGNEMAEVLMEFPELHTKV-------GDKEE------PIMQRTCLVANTSNMPVAAREASIYTGITLAEYFRDMGLNVAMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVSCI-GHPT---RIGSVTIVGAVSPPGGD-FADPVTAATLGIVQ--VFWGLDKKLAQRKHFPSINWLISFS F5HL05/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDINE--M------T-S-SIYIPKGI---NVPCLSRT---TMLQVWPVRQP-------RPVTEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIVYVGCGERGNEMSEVLRDFPELSVEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS Q5TTG1/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDINE--M------T-S-SIYIPKGI---NVPCLSRT---TMLQVWPVRQP-------RPVTEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIVYVGCGERGNEMSEVLRDFPELSVEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS E0VLH6/85-128_188-438 -------------SVELGPGILGSIFDGIQRPLKDINE--L------T-S-SIYIPKGV---NIPALARN---TMLQVWPVRQP-------RPVTEKLPANYPLLCGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERGNEMSEVLRDFPELSVEI-------DGQTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPD---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISY- A8I164/82-124_197-449 --------------VELGPGVLGNIFDGIQRPLKQIAI--D------S-G-DVFIPRGV---ACPSLDIV---CMKQLWPVRMP-------RPVAQKLLADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDGIIYVGCGERGNEMAEVLAEFPALTMTL------PDGREE------SIMKRTCLVANTSNMPVAAREASIYTGITLAEYFRDMGYHFSMMGDSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVQCL-GGPK---REGSVTIVGAVSPPGGD-FSDPVTAATLAIVQ--VFWGLDKKLAQRKHFPSVNWLISYS A7SRN1/86-129_202-453 -------------SVELGPGIMGSIFDGIQRPLKDINE--M------T-Q-SIYIPRGV---NTQSLSRT---CMLQVWPVRQM-------RPVTDKMAANHPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKFSNSDVIIYVGCGERGNEMSEVLRDFPELTVEI-------NGQVE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGHHVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVSCL-GNPQ---REGSVTIVGAVSPPGGD-FSDPVTSATLNIVQ--VFWGLDKKLAQRKHFPSINWLISYS F6H3B6/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAK--R------S-G-DVYIPRGV---SVPALDKD---TMLQTWPVRTP-------RPVASKLAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDTVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RTGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS D8R3X7/54-97_170-424 -------------SVELGPGILSNIFDGIQRPLKSIAI--K------S-G-DVYIPRGV---AVPALDKD---TMLQMWPVRTP-------RPVASKLPADTPLLTGQRILDALFPSVLGGTCAIPGAFGCGKTVISQALSKFSNSDAVIYVGCGERGNEMAEVLKDFPQLTITL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITLAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLATFYERAGKVKCL-GSPD---RTGSVSIVGAVSPPGGD-FSDPVTAATLNIVQASVFWGLDKKLAQRKHFPAVNWLISYS A9RGW5/90-133_206-458 -------------SVELGPGILENIFDGIQRPLKAIAL--Q------C-Q-DVYIPRGV---AVPALDRK---TMLQAWPVRTP-------RPVAEKLAADTPLLTGQRILDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSNAVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITLAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GSPN---RTGSVTIVGAVSPPGGD-FSDPVTAATLGIVQ--VFWGLDKKLAQRKHFPAVNWLISYS D7SS06/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAK--I------S-G-DVYIPRGV---SVPALDKD---TMLQTWPVRTP-------RPVASKLAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDTVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RNGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS A9RHN4/90-133_206-458 -------------SVELGPGILENIFDGIQRPLKAIAL--Q------C-Q-DVYIPRGV---AVPALDRK---TMLQAWPVRTP-------RPVAEKLAADTPLLTGQRILDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSNAVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITLAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GSPN---RTGSVTIVGAVSPPGGD-FSDPVTAATLGIVQ--VFWGLDKKLAQRKHFPAVNWLISYS A0A067RPA9/128-171_244-495 -------------SVELGPGILGSIFDGIQRPLKDINE--L------T-Q-SIYIPKGV---NVPALSRT---TMLQVWPVRQP-------RPVTEKLPANYPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERGNEMSEVLRDFPELSVEI-------EGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPD---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS V4AX81/92-135_208-459 -------------SVELGPGIMGSIFDGIQRPLEDICD--L------T-Q-SIYIPKGV---NTPALNRT---SMLQVWPVRQM-------RPVNEKLAANYPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIVYVGCGERGNEMSEVLRDFPQLTMEV-------EGKPE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---RLGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS B3RW75/71-111_184-435 -------------SVELGPG---NIFDGIQRPLKDINE--M------T-E-SIYIPRGV---NTSALGRT---TMLQVWPVRQL-------RPVAEKLAANHPLLTGQRVLDSLFPCVLGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTVEI-------GGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCI-GNPS---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS A0A0K0JP76/85-128_202-453 -------------SVELGPGIMGSIFDGIQRPLKDILE--L------T-Q-SIYIPKGV---NVNVLSRD---TMLQIWPVRQP-------RPCAEKLAANFPLLCGQRVLDAMFPCVQGGTTAVPGAFGCGKTVISQSLSKFSNSDAIIYVGCGERGNEMSEVLRDFPELTMEV-------NGVTT------SIMKRTTLVANTSNMPVAAREASIYTGITLAEYFRDMGLNVSMMADSTSRWAEALREISGRLGEMPADSGYPAYLAARLASFYERAGKVKCL-GSPE---REGSVTIVGAVSPPGGD-FADPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS A5BYV7/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAK--R------S-G-DVYIPRGV---SVPALDKD---TMLQTWPVRTP-------RPVASKLAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDTVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RTGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS W1PX33/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAK--I------S-G-DVYIPRGV---SVPALDKD---TMLQTWPVRTP-------RPVAAKLPADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDTVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GRPD---RTGSVTIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS T1EMC4/81-124_198-404 -------------SVELGPGIMGNIFDGIQRPLKDINE--L------T-K-SIYIPKGV---NIPSLDQQ---TMMQVWPVRTM-------RPYNEKLAANHPLLTGLRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDIVIYVGCGERGNEMSEVLRDFPELTMEV-------NGKTE------SIMKRTSLVANTSNMPVAAREASIYTGITLSEYFRDMGYNVAMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVTIVGAL------------------------------------------------ K4C764/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAK--R------S-G-DVYIPRGV---SVPALDKD---TMLQSWPVRTP-------RPVAAKLAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDTVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RNGSVTIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS T1KDT6/92-135_208-459 -------------SVELGPGIMGSIFDGIQRPLKDIHD--L------T-Q-SIYIPKGV---NTPSLNRD---TMMQTWPVRQT-------RPITEKLSANHPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIVYVGCGERGNEMAEVLRDFPELTVEI-------NGVTE------SIMRRTTLVANTSNMPVAAREASIYTGITLSEYFRDMGYHVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLSARLASFYERAGRVKCL-GNPE---REGSVTIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWSLSYS T1II23/105-148_221-466 -------------SVELGPGIMNNIFDGIQRPLQDIHD--A------T-Q-SIYIPRGV---NIPALIRS---SMLQVWPVRQP-------RPVTEKLPANYPLLTGQRVLDTLFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTTEI-------DGVNE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGR------FSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS D8RAI7/85-128_201-455 -------------SVELGPGILSNIFDGIQRPLKSIAI--K------S-G-DVYIPRGV---AVPALDKD---TMLQMWPVRTP-------RPVASKLPADTPLLTGQRILDALFPSVLGGTCAIPGAFGCGKTVISQALSKFSNSDAVIYVGCGERGNEMAEVLKDFPQLTITL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITLAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLATFYERAGKVKCL-GSPD---RTGSVSIVGAVSPPGGD-FSDPVTTATLGIVQASVFWGLDKKLAQRKHFPAVNWLISYS I1FHW5/84-127_201-452 -------------SVELGPGIMGNIFDGIQRPLKDICD--M------T-S-SIYIPRGI---NVYSLSRE---TMVQVWPVRQM-------RPVVEKLAANYPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKFSNSDVIIYVGCGERGNEMSEVLRDFPELKVVI-------RGVEE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGFNVSMMADSTSRWAEALREISGRLAEMPAENGFPAYLGARLASFYERAGRVVCT-GNPT---REGSVTIVGAVSPPGGD-FSDPVTAQTLNIVQ--VFWGLDKKLAQRKHFPSINWLLSYS E9FSB2/92-135_208-459 -------------SVELGPGIMESIFDGIQRPLKDINE--L------T-Q-SIYIPRGV---NTPALSVT---TMLQVWPVRQP-------RPVVEKLPANYPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTCEV-------DGITE------SIMKRTSLVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCQ-GSPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS G4VKT8/91-134_214-466 -------------SVELGPGIVNNIFDGIQRPLKGICD--L------T-S-SIYIPRGV---NVPALDRK---TMLQVWPVRQP-------RPVAEKLPGNHPLLTGQRILDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDIIVYVGCGERGNEMSEVLRDFPELTVEV-------NGKQE------SIMQRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVHCL-GGPD--LRYGSVGIVGAVSPPGGD-FADPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS K4DFR1/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAK--R------S-G-DVYIPRGV---SVPALDKD---TMLQTWPVRSP-------RPVASKLAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDTVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RTGSVTIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS D2A198/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDINE--L------T-Q-SIYIPKGV---NVPSLSRT---TMLQVWPVRQP-------RPVSEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTVEI-------EGQTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPD---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS A0A088ANZ0/87-130_203-454 -------------SVELGPGILGSIFDGIQRPLKDINE--L------T-N-SIYIPKGI---NVPALSRT---TMLQVWPVRQP-------RPVTEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPKLTVEI-------DGITE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPD---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS 3gqbC02/72-114_182-429 -------------AVELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKSVTQQSLAKWSNADVVVYVGSGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS 3w3aB02/72-114_182-429 -------------AVELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS 3w3aC02/72-114_182-429 -------------AVELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS 3w3aI02/72-114_182-429 -------------AVELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS 3w3aJ02/72-114_182-429 -------------AVELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS 3w3aK02/72-114_182-429 -------------AVELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS 3i72A01/61-115_191-437 -PGEPVVGTGASLSVELGPRLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD------QRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3i73A01/63-115_191-437 ---EPVVGTGASLSVELGPRLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD------QRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3p20A01/62-115_191-437 --GEPVVGTGASLSVELGPRLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD------QRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 3se0A01/64-115_191-437 ----PVVGTGASLSVELGPGLLTSIYDGIQRPLEVIRE--K------T-G-D-FIARGV---TAPALPRD------QRWPVRVK-------RPYKEKLPPEVPLITGQRVIDTFFPQAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS 5bn4A02/68-111_177-424 -------------TIELGPGLLANIFDGLGRPLKDIYE--K------T-Q-SIYIPKGI---DLPTLDRK---KLYHEWPIRKP-------RPYKEKLDYNYPFITGTRVLDIMFPIAKGGSAAVPGPFGSGKTVLNQQIAKWADSDIVIYIGCGERGNEMTEVLEEFPKLKDPK-------TGK--------PLMYRTILIANTSNMPIAAREASIYLGATIGEYFRDQGYSVVVNADSTSRWAEALREISSRLGEIPSEEGYPAYLLRKLAEFYERSGRVRTL-NDLE-----GSLTIIGAVSPPGGD-FSEPVTQNTLRLVG--ALWALDSKLAYKRHYPAINYLISYT 5bn5A02/68-111_177-424 -------------TIELGPGLLANIFDGLGRPLKDIYE--K------T-Q-SIYIPKGI---DLPTLDRK---KLYHEWPIRKP-------RPYKEKLDYNYPFITGTRVLDIMFPIAKGGSAAVPGPFGSGKTVLNQQIAKWADSDIVIYIGCGERGNEMTEVLEEFPKLKDPK-------TGK--------PLMYRTILIANTSNMPIAAREASIYLGATIGEYFRDQGYSVVVNADSTSRWAEALREISSRLGEIPSEEGYPAYLLRKLAEFYERSGRVRTL-NDLE-----GSLTIIGAVSPPGGD-FSEPVTQNTLRLVG--ALWALDSKLAYKRHYPAINYLISYT 3vr6B02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 3vr6C02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 5knbA02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 5knbB02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 5knbC02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 5kncA02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 5kncB02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 5kncC02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 5kndA02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 5kndB02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS 5kndC02/79-122_193-442 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS Q56403/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS O51121/76-117_191-437 --------------VELGPGLLTQVYDGLQNPLPELAI--Q------C-G-F-FLERGV---YLRPLNKD---TMSFHWPVKVPI------TNYKERLIPSEPMLTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDVVIIAACGERAGEVVETLKEFPELMDPK-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNNG------DIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAISPLES-- O83441/77-118_192-440 --------------VELGPGLLGQVYDGLQNPLPLLAE--K------V-G-Y-FLERGV---YLPALSRT---TMAFRWPVKRPV------HCYAERLKPTEPLVTSIRTIDTFFPVAKGGTYCIPGPFGAGKTVLQHSTSRNADVDVVVIAACGERAGEVVETLREFPDLTDPR-------TGR--------SLMERTVIVCNTSSMPVASREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESCIAAFYERAGVVRLRSG------EKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPAVHPLDSWS R9UVV0/77-118_192-440 --------------VELGPGLLGQVYDGLQNPLPLLAE--K------V-G-Y-FLERGV---YLPALSRT---TMAFRWPVKRPV------HCYAERLKPTEPLVTSIRTIDTFFPVAKGGTYCIPGPFGAGKTVLQHSTSRNADVDVVVIAACGERAGEVVETLREFPDLTDPR-------TGR--------SLMERTVIVCNTSSMPVASREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESCIAAFYERAGVVRLRSG------EKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPAVHPLDSWS Q2FP52/76-117_185-432 --------------VELGPGLLTSIYDGIQRPLEVLVE--K------M-G-N-FIERGV---TAPGLSHD---AMMHKWPVRMP-------RPVTEKLNPDIPLITGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQALAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVNTL---NK---DFGSVTVIGAVSPPGGD-FSEPVTQNTLRIVK--CFWALDAKLSQRRHFPAINWLNSYS L9UJP9/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-DSA-FLDRGV---DAPGIDLD---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS Q48332/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-DSA-FLDRGV---DAPGIDLD---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS B0R755/79-120_189-436 --------------VDLGPGMLDSIYDGVQRPLDVLED--E------M-G-A-FLDRGV---DAPGIDLD---QMHQEWPVRRQ-------RPTVDKQTPTEPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQSLAKFADADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTTLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFENF-NGTE-----GSISVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDSDLAERRHFPAINWDESYS Q3ITC8/81-122_191-438 --------------VDLGPGMMDSIYDGVQRPLDVLEE--K------M-G-A-FLDRGV---DAPGIDLE---QMRQEWPVREP-------RPTVEKETPTTPLVSGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPK-------TGK--------PLMSRTCLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGKFQNM-NGSE-----GSISVIGAVSPPGGD-FSEPVTQNTLRIVK--CFWALDADLAERRHFPSINWNESYS O84310/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAD--T------S---L-FLRRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLTDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS Q5UXY8/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVEKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS O29101/78-119_188-435 --------------VELGPGLIRNIYDGVQRPLPVLKE--V------S-G-D-FIGRGI---EAPGLDRK---KLYHKWPVRIP-------RPYVEKLPPVVPLITGQRILDTFFPVAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQIVVYIGCGERGNEMTEVLEEFPELEDPR-------TGK--------PLMERTVLVANTSNMPVAAREASVYTGITIAEYFRDMGYDVAIQADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVKTL-AGN-----IGSVTVVGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAARRHFPAINWLQSYS Q8TIJ1/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLE--K------T-G-G-FIQRGV---TADGLDHE---QMMHRWPVRRP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYVGCGERGNEMADVLWDFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYNVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS R9UT80/78-119_196-443 --------------VRLGPGLIGTIYDGIQRPLERLFQ--E------D-G-A-FLRPGA---RSQPLDGS---FLSQYWPVRRA-------RPFSKKLAVCEPLVTGQRAIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADIIVYIGCGERGNEMTDVLSEFPKLIDPR-------TGR--------SLMERTILIANTSNMPVSAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVETC-VARE-----GSVSIIGAVSPLGGD-FSEPVTQHTKRFIR--CFWALDRELAHARHYPAIGWIDSYS O83541/78-119_196-443 --------------VRLGPGLIGTIYDGIQRPLERLFQ--E------D-G-A-FLRPGA---RSQPLDGS---FLSQYWPVRRA-------RPFSKKLAVCEPLVTGQRAIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADIIVYIGCGERGNEMTDVLSEFPKLIDPR-------TGR--------SLMERTILIANTSNMPVSAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVETC-VARE-----GSVSIIGAVSPLGGD-FSEPVTQHTKRFIR--CFWALDRELAHARHYPAIGWIDSYS Q74MJ7/69-111_177-423 --------------IELGPGLLANIFDGLGRPLKDIYE--K------T-Q-SIYIPKGI---DLPTLDRK---KLYHEWPIRKP-------RPYKEKLDYNYPFITGTRVLDIMFPIAKGGSAAVPGPFGSGKTVLNQQIAKWADSDIVIYIGCGERGNEMTEVLEEFPKLKDPK-------TGK--------PLMYRTILIANTSNMPIAAREASIYLGATIGEYFRDQGYSVVVNADSTSRWAEALREISSRLGEIPSEEGYPAYLLRKLAEFYERSGRVRTL-NDLE-----GSLTIIGAVSPPGGD-FSEPVTQNTLRLVG--ALWALDSKLAYKRHYPAINYLISY- Q2FL43/73-114_181-430 --------------VELGPGLLASIYDGVQRPLPALYA--K------S-G-N-YISRGI---MVPGLDRE---TMLQRWPVRKG-------RPFVKRLDPEVPLLTGQRVFDTMFPLVKGGTAMIPGGFGTGKTVSEQTLAKWADTQVVVYIGCGERGNEMTDVLTEFPELTDPR-------TGY--------PLIERTIMIANTSNMPVAAREASIYTGITIAEYYRDMGMDVALLADSTSRWGEALREVSGRLEEMPGEEGYPAYLATRLAAFYERAGRVICA-GSEE---KTGSVTIIGAVSPPGGD-FSEPITQNTLRIAG--TFWALDANLAYRRHYPSVNWIRSYS Q9RWG8/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-N-FIARGI---EVSSLNRE---RLAHYWPVRAP-------RPVQKKLDPSLPFLTGMRILDVMFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGVTLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS Q184E7/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRT---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDE---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS A1RX21/77-117_189-438 ---------------ELGPGLMGRVFDGVQRPLKSIEEL--------V-G-P-FVKRGV---KVNPLPRN---TMKQEWPVRQP-------RPYKERLPSEVPLLIGQRIIDTFFPIAKGGAGAIPGGFGTGKTVTLHKVSMYSDSQIVVYIGCGERGNEIAEMLKEFPVLVDPK-------SGR--------PIIERSIIIANTSNMPVSAREASIYMGVTIAEYYRDQGYDVTLIADSTSRWAEALREIAGRLGELPVERGYPAYLPDKIAEFYERGGRVKAL-GSPE---RSGSVTVLGAVSPPGGD-YNEPVTIHTLRFVG--TMWALDTDLAYRRHFPAINWLKSFS B8E138/71-113_185-434 -------------SVELGPGIVSQIYDGIQRPLNKLAE--I------S-G-D-FLSRGL---SFPALDRE---KLMHKWPVRYQ-------RPVKEKLPPQIPLITGQRVLDTFFPLVKGGTACVPGPFGSGKTIIQHQLAKWADTEVVVYIGCGERGNEMTEVLIEFPELKDPR-------TGK--------PLMERTILIANTSNMPVAAREASVFTGITIAEYFRDMGYHVALMADSTSRWAEAMREISGRLGEMPGEEGYPAYLASRVASFYERAGLVKCL-GKEN---KIGSVSIIGAVSPPGGD-LSDPVVQATLRVTK--VFWGLDARLAFSRHFPAVDWLVSYS Q5JIR3/70-112_185-434 -------------SVELGPGLLTAMYDGIQRPLEVLRQ--L------S-G-D-FIARGL---TAPALPRD---KMYHRWPVRVK-------RPYKQKLPPEVPLITGQRTIDTFFSQAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVVYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDQGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKIAEFYERAGRVITL-GSDE---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLRSYS Q2FQE9/74-116_188-437 -------------SVELGPGLIGTMYDGIQRPLEEILK--N------T-G-D-MIERGS---SAPALDRT---TMIQRWPVRDP-------RPVRERLDPVEPLLTGQRIIDTLFPLARGGTAAIPGPFGSGKTVVQQQLAKWVNADIIIYIGCGERGNEMADVLEQFPTLKDPR-------TGH--------ALSSRMVLIANTSNMPVAAREASVYTGITIAEYYRDMGYHVALMADSTSRWAEAMREISGRLEEMPGEEGYPAYLSSRLADFYERAGRVSLL-GSGD---HEGSISVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDADLAYQRHFPAINWLMSYS A0RXK1/73-115_188-437 -------------SVLLGPGIIGQIYDGIQRPLKELSK--K------S-G-S-FIGRGI---TTSPVDMT---KMYHRWPVRQP-------RSYHTKYDPTVPLITGQRVIDTFFPIAKGGTGSIPGGFGTGKTVTLHQIAKWADSQVVVYIGCGERGNEMTEVLVEFPHLKDPR-------TDK--------PLMDRTVLVANTSNMPVAAREASIYTGVTIAEYYRDMGKDVVLVADSTSRWAEALREMSGRLEEMPAEEGYPSYLASRLAEFYERAGRVRAL-GSPE---RNGSVTLVGAVSPSGGD-FTEPVTTHTMRFIK--TFWALDAKLAYSRHYPSINWMNSYS Q6LYE7/72-115_186-435 -------------SVELGPGMLKAMYDGIQRPLNEIEN--A------T-D-SIYIPRGV---SVPSISRE---MMMQKWPVRKP-------RPSKGKQAPVIPLITGQRVEDTFFGLAKGGASAIPGPFGSGKTVTQHQLAKWSDVDVVVYIGCGERGNEMTEVIEEFPHLDDIK-------TGN--------KLMDRTVLIANTSNMPVAAREASVYTGITIAEYFRDQGLGVLLTADSTSRWAEAMREISGRLEEMPGEEGYPAYLSSKLAQFYERAGRVECL-GSEN---KQGFVCIVGAVSPPGGD-FSEPVTSNTLRIVK--VFWALDANLARRRHFPAINWLTSYS Q8ZYR1/72-116_190-439 ---------------WLGPTIIGKIYDGVQRPLRNIEEISK------N---P-FIARGIGYDKAPPLDLK---KMWHKWPVRRP-------RPFKEKLPPVEPLITGVRTVDTMFPIAKGGTAAVPGPFGSGKTVMIRTLSMFAQSRFIIPVLCGERGNEAADALQGLLKLKDPS-------TGR--------PLLERTTIIVNTSNMPVAAREASVYMGTTLGEYFRDQGYDVLVLADSTSRWAEAMREVALRIGEMPSEEGYPAYLPTRLAEFYERAGRVVLY-GSKE---RVGSLTIAASVSPPGGD-FTEPVTSNTLRFIG--AFWPLSPRLAYSRHYPAIDWLVAFS Q97QA8/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLDRFKL--A------THN-D-FLVRGV---EVPSLDRD---TLMQKWPVRKA-------RPVSKRLIPEEPLITGQRVIDAFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPN-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITMAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRSQVL-GLPE---REGTITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAPLAQRRHFPAINWLTSYS D1B9Y8/49-92_163-412 -------------SVELAPGLIEQFYDGVQRPLNSIES--V------AKS-P-YISRGI---SVPAVDRH---SMLQRWPVRVP-------RPVAKRLPPDTPLSTGQRVVDTLFPIARGGTACVPGPFGSGKTVIQHQLAKWADAEIVVYIGCGERGNEMTDVLLEFPELEDPR-------SGQ--------PLMKRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYSVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLGTRLASFYERAGRAICL-GSDS---REGAVSIIGAVSPPGGD-LSEPVTQNTLRVTK--VFWGLDANLAYQRHFPAINWLTSYS Q9UWW6/72-115_187-436 -------------SIELGPGLIGKIFDGLQRPLDSIKEL-T------K-S-P-FIARGI---KVPSIDRK---KLMQKWPVRIP-------RPFKEKLEPTEPLLTGTRVLDTIFPIAKGGTAAIPGPFGSGKTVTLQSLAKWSAAKIVIYVGCGERGNEMTDELRQFPSLKDPW-------TGR--------PLLERTILVANTSNMPVAAREASIYVGITMAEYFRDQGYDTLLVADSTSRWAEALRDLGGRMEEMPAEEGFPSYLPSRLAEYYERAGRVKTI-GNPE---RFGSVTVASAVSPPGGD-FTEPVTSQTLRFVK--VFWPLDVSLAQARHYPAINWLQGFS A9A2R0/73-115_188-437 -------------SVLLGPGIIGQLYDGIQRPLRALSE--A------S-G-S-FIGRGI---TTTPVDMA---KMYHRWPVRKP-------RPYKNRYDPTVPLLTGQRVIDTFFPIAKGGTGSIPGAFGTGKTVTLHQIAKWADSQVVVYIGCGERGNEMTEVLVEFPHLKDPR-------SGK--------PLMDRTVLVANTSNMPVAAREASIYTGVTIAEYYRDMGKDVVLVADSTSRWAEALREMSGRLEEMPAEEGYPSYLASRLAEFYERAGRVRAA-GSPD---RDGSVTLIGAVSPSGGD-FTEPVTTHTMRFIK--TFWALDAKLAYSRHYPSINWMNSYS Q8TWL6/75-117_190-439 -------------SVELGPGLLTQIFDGIQRPLPEIRK--E------V-G-D-FVERGI---LVSALDRK---TMMQEWPVRKP-------RPYKRKLDPEEPLITGQRVIDTFFPVAKGGTAAIPGPFGSGKTVTQQQLAKWADAQVVVYIGCGERGNEMTEVLEDFPELEDPR-------TGR--------PLMERTILVANTSNMPVAAREACIYTGITMAEYYRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVVCL-GSDD---RVGSVTVVGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDSKLADRRHFPAINWLQSYS K2RBU1/73-115_187-436 -------------SVELGPGIIGSIFDGIQRPLETIKL--A------V-G-D-YIERGV---DVPSLPKD---QMMQKWPVRVG-------RPYKDKLDPDIPLVTGQRAQDTFFPVAKGGTAAIPGPFGSGKTVTQQQLAKWADADIIVYVGCGERGNEMTEVLKEFPELEDPK-------TGK--------PLMDRTVLIANTSNMPVAAREACVYTGITIAEYFRDQGYDVALMADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAQFYERAGRVNTV-GTES---KVASVSVVGAVSPPGGD-LSEPVTQNTLRICK--VFWALDASLADKRHFPSIDWLQSYS A5I557/72-114_185-434 -------------SVELGPGLIEAMFDGIQRPLNAIKA--K------A-G-D-FITKGV---EVHSLDRD---MMMQKWPVRRG-------RPYGRKLNPAQPMITGQRVIDTFFPVTKGGTACVPGPFGSGKTVVQHQLAKWADAQIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGE--------PLMKRTVLIANTSNMPVAAREASIYTGITIGEYFRDMGYSIALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAAEFYERAGNVVSI-GSEE---REGALTVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDAQLAYRRHFPAINWLNSYS Q7MTX7/76-114_188-436 --------------VTLGPGMLSKNYDGLQHDLDKMD------------G-I-FLKRGD---YTPALDDD---TMVQKWPVKRAI------TCYREKPRPFKLLETGIRIIDTFNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFAEFPHLNDPH-------TGR--------KLMERTIIIANTSNMPVASREASVYTAMTIAEYYRSMGLRVLMMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAIVANFYARAGYVYLNNG------SAGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQNRADRKRYPAVNPIDSYS Q9P997/403-606 -------------------GLI-VLHN----------------------------------------------------------------------------------------------------------TVIQHQLAKWSDANIVVYIGCGERGNEMTEILTTFPELKDPN-------TGQ--------PLMDRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLGRRVSEFYERSGRARLV-SPDE---RYGSITVIGAVSPPGGD-ISEPVSQNTLRVTR--VFWALDAALANRRHFPSINWLNSYS Q834X9/72-115_186-435 -------------SVELAPGLIAEMFDGIQRPLDTFQE--V------THS-N-FLGRGV---KIDALDRE---SMMQKWPVRRG-------RPILEKLSPKVPMVTGQRVIDTFFPITKGGAAAVPGPFGAGKTVVQHQIAKWADVDLVVYVGCGERGNEMTDVLNEFPELIDPT-------TGE--------SLMNRTILIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERAGQVIAL-GKDH---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSQLAQKRHFPSINWLQSYS A2BKX6/73-116_190-439 -------------SVELGPGLIGRIYDGIQRPLDVIREV-T------K-S-I-FVRRGV---KVDALDRS---KMYHRWPVRRA-------RPIIEKLEPVEPLITGMRVIDTMFPMAKGGTGAIPGPFGSGKTVTLQSLAKWSAAKVVIYIGCGERGNEMTEVLETFPKLTDPW-------TGK--------PMMERTILIANTSNMPVAAREASIYTGITLAEYYRDMGYDVLLVADSTSRWAEALREIAGRLEEMPAEEGYPSYLASRLAEFYARAGRVKVP-GRPE---RLGSVTIVGAVSPPGGD-FTEPVTANTKRFIR--VFWALDARLAYSRHYPAINWLVSYS P11592/84-127_200-451 -------------SVELGPGLLNNIYDGIQRPLEKIAE--A------S-N-SIYIPRGI---ATPALDRK---PMMQTWPVRVP-------RPAAEKHSANQPFLVGQRVLDALFPSVQGGTVAIPGAFGCGKTVISQSVSKFSNSDVIVYVGCGERGNEMAEVLKDFPELSIEV-------DGRKE------PIMKRTTLIANTSNMPVAAREASIYTGITVAEYFRDQGMNVAMMADSSSRWAEALREISGRLGEMPADQGFPAYLGAKLASFYERAGKVQAL-GSPP---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINTSVSYS Q8A875/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGQ---YTYPLDKE---TMIQKWPVKRAM------TNYKEKPRPFKLLETGVRVIDTLNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMSLAEYYRSMGLKVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDISAIISNFYGRAGYVKLNND------ETGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADKKRYPAVNPIDSYS A5UKB2/73-115_187-436 -------------SVELGPGVMGSIFDGIQRPLELIRE--E------S-G-D-FIARGV---DAESISKE---QMLQKWPVRKG-------RPYVDKLDPDVPLVTGQRAQDTFFSVAKGGAAAIPGPFGSGKTVTQQQLAKWADADIVIYIGCGERGNEMTEVLTEFPYLDDPK-------TGN--------PLMDRTVLIANTSNMPVAAREACVYTGITIAEYYRDQGYDVALMADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAQFYERAGRVNTI-GTTS---DVASITVVGAVSPPGGD-LSEPVTQNTLRICK--VFWALDASLADKRHFPSIDWLQSYS O57728/616-813 ------------------------------------------------------------------------------------------------------------------------------------NTVTQHQLAKWSDAQVVIYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS D1B900/75-117_190-437 -------------SITLGPGLIGGFFDGIGRPLERLME--S------Q-G-I-YITPGA---QVEQLDLD---HLAQSWPVRMP-------RPYRERLLPNEPLVTGQRVIDGLFPIAKGGTAAIPGGFGTGKTVTQHQLAKWSEAQVVVYIGCGERGNEMTDVLEEFPVLEDPR-------SGR--------PLMERTILIANTSNMPVAAREASIYTGITIAEYFRDMGYHVALMADSTSRWAEALREISGRLEEIPAEEGFPAYLPSRLAEFYERAGRVITL-GGET-----GSVTIIGAVSPPGGD-FTEPVTRHTKRYIR--CFWGLDKSLANARHFPAISWLDSYS O27036/73-115_187-436 -------------SVELGPGILGSIFDGIQRPLENIKA--L------T-G-D-YIERGV---DVPSLPKD---QMLQKWPVRKG-------RPYKKKLDPDVPLVTGQRAQDTFFSVAKGGTAAIPGPFGSGKTVTQQQLAKWADADIIVYVGCGERGNEMTEVLKEFPELEDPK-------TGN--------PLMDRTVLIANTSNMPVAAREACVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAQFYERAGRVTTI-GSED---KIASVSVVGAVSPPGGD-LSEPVTQNTLRICK--VFWALDASLADKRHFPSIDWLQSYS B1L6G7/78-121_193-442 -------------SAELGPGLLGQVLDGLGRPLDIIAE--K------A-GGP-FIVRGI---KSPTLPRD---KMYQKWPVRNP-------RPFKEKLDPSELLITGQRVIDTFFPIVKGGTSAVPGGFGTGKTVTLHQISKWADADVVVYVGCGERGNEMTDLLHTFPKLVDPK-------TGR--------PLLERSVLIANTSNMPVPAREASIFMGVTYAEYYRDMGLHVVLTADSTSRWAEALRELSSRLEEIPSEKGFPAYLPDFIASFYERAGRVKVI-GNRD---EIGSIAIIGAVSPSGGD-LNEPVTQHTMRYVG--AFWALDKDLAFKRHFPSINWLRSFS Q57670/73-116_188-437 -------------SVELGPGMLRAMYDGIQRPLTAIEE--K------T-G-SIFIPRGV---DVPALPRD---TMMQKWPVRKP-------RPYKEKLPPEIPLITGQRVEDTFFTLAKGGTAAIPGPFGSGKTVTQHQLAKWSDADVVVYIGCGERGNEMTEVIEEFPHLEDIR-------TGN--------KLMDRTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYGVLLTADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAQFYERAGRVITL-GKDN---RQGFVCIVGAVSPPGGD-FSEPVTSNTLRIVK--VFWALDANLARRRHFPAINWLQSYS Q9YF35/73-122_195-444 -------------SVELGPGLLGTIYDGVQRPLPIIAEK-VAEVDPRR-R-M-FVERGI---QAPPLPRD---RMHQRWPVRIP-------RPFKEKLEPQLPLITGVRIIDTFFPMAKGGTGAVPGGFGTGKTVTLHSLAQWSEARVVIYIGCGERGNEMTEVLERFPQYKDPW-------TGK--------PLMDRTVLIANTSNMPVAAREASIYVGITIAEYYRDMGYDVLLVADSTSRWAEALREIAGRLEEMPAEEGYPSYLASRLAEFYERAGRVKAL-GSPE---RSGSVTVVGAVSPPGGD-FSEPVTSHTTRFIR--VFWALDTKLAYSRHYPAINWLMSYS A8BYU1/79-121_209-434 --------------VHLGPGLLSSIYDGIQRPLEKIAQI--------T-N-SHFIPRGI---SAPALDLE---GLAHYHPVRSP-------KKVFKKLPCINPLITGQRTLDGLFPLAIGATAAIPGGFGCGKTVVSQSISKYGNTDVIVYIGCGERGNEMAEILTDFPEMTFEAKKRVIGPSGQQEIKTVVSDIFSRTVLVANTSNMPVAAREASIYTGITISEFFRDQGYNVTLLADSTSRWAEALREISGRLGGIPGEGGYPADLTSKLSHFYERAGRVICL-GNSN-----------GAWSPE--N-ILDPTSG-------------------------------AIS A0A1M7V397/83-122_196-443 ---------------ELGPGLLQEIFDGLQNRLQVLAE--S------S---F-FLKRGE---YVNALCKN---TMVQKWPIKQAF-------IQGDKVPCHEIMDVGVRILDTQVPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLTDPH-------TGK--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVRMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A0E9G1V0/41-288 -------------------------------------------------------------------------TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLKDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A0E9F6X9/1-248 --------------------------------------------------------------------------MIQKWPVRRG-------RPYSRKLDPVRPLITGQRIIDTFFPVAKGGAAAIPGPFGSGKTVVQHQLAKWADAEIVVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIGEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLASRVADFYERAGFVKCL-GED----REGALTVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDYALSYRRHFPAINWLNSYS A0A0E2HZ74/72-115_186-435 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS Q08636/72-115_186-435 -------------SVELGPGIISQMFDGIQRPLDTFME--V------TQS-N-FLGRGV---QLPALDHE---TMMQKWPVRRG-------RPIKQKLNPDVPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWSDVDLVVYVGCGERGNEMTDVVNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSDQ---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSINWIQSYS G3Y1B9/81-124_198-449 -------------SVELGPGLMETIYDGIQRPLKAISD--Q------S-K-GIYIPRGI---AVNALDRE---SMMHTWPVRVP-------RPVNEKLSSDAPFIVGQRVLDSLFPSVQGGTVCIPGAFGCGKTVISQSVSKFSNSDIIVYVGCGERGNEMAEVLMDFPELSIDV-------DGRKE------PIMKRTCLIANTSNMPVAAREASIYTGITIAEYFRDQGKNVAMMADSSSRWAEALREISGRLGEMPADQGFPAYLGAKLASFYERAGKSNAL-GSPE---RIGSVSIVAAVSPPGGD-FSDPVTSSTLGIVQ--VFWGLDKKLAQRKHFPSINTSISYS Q5AJB1/54-97_171-422 -------------SVELGPGLMETIYDGIQRPLKAIKD--E------S-Q-SIYIPRGI---DVPALSRT---SMMHTWPVRVP-------RPVAEKLSADYPLLTGQRVLDSLFPCVQGGTTCIPGAFGCGKTVISQSLSKFSNSDVIIYVGCGERGNEMAEVLMEFPELYTEI-------SGRKE------PIMKRTTLVANTSNMPVAAREASIYTGITLAEYFRDQGKNVSMIADSSSRWAEALREISGRLGEMPADQGFPAYLGAKLASFYERAGKATAL-GSPD---RIGSVSIVAAVSPAGGD-FSDPVTTATLGITQ--VFWGLDKKLAQRKHFPSINTSVSYS P31405/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAK--R------S-G-DVYIPRGV---SVPALDKD---TMLQTWPVRTP-------RPVATKLAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDAVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RTGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS P31404/87-130_204-455 -------------SVELGPGIMGAIFDGIQRPLSDISS--Q------T-Q-SIYIPRGV---NVSALSRD---SMVQVWPVRQV-------RPVTEKLPANHPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTMEV-------DGKVE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYHVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS Q5R5H2/87-130_204-455 -------------SVELGPGIMGAIFDGIQRPLSDISS--Q------T-Q-SIYIPRGV---NVSALSRD---TMVQVWPVRQV-------RPVTEKLPANHPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTMEV-------DGKVE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYHVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS Q29048/87-130_204-455 -------------SVELGPGIMGAIFDGIQRPLSDISS--Q------T-Q-SIYIPRGV---NVSALSRD---SMVQVWPVRQV-------RPVTEKLPANHPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERVNEMSEVLRDFPELTMEV-------DGKVE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYHVSMMANSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVTIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS F2KP30/78-119_188-435 --------------VELGPGLIKSFYDGVQRPLPALKE--A------S-G-D-FISRGI---HVPGLDRS---KLYHKWPVREA-------RPYIEKLPPVIPLITGQRILDTMFPVAKGGTAAIPGPFGSGKTVTQHQLAKWSDAHIVVYIGCGERGNEMTEVLEEFPELIDPR-------SGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSIMADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRIAEFYERAGRVKTL-CGE-----VGSVSVVGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAARRHFPAINWLQSYS A0A1G1MP71/78-119_193-441 --------------VELGPGLLGQIFDGLQNPLPELAK--Q------C-G-F-FLKRGV---YLESLSDA---SLSQNWPIKIPI------QAYAEKLKPTEPLVTKMRLIDSLFPVAKGGTYCVPGPFGAGKTVLQQLTSRHAEVDVVVIAACGERAGEVVETLKTFPTINDPR-------TNR--------PLSDRTVIICNTSSMPVAARESSVYTAVTIAEYYRAMGLDVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESRIASFYERAGVVRLYDG------SLGSVTIGGAVSPAGGN-FEEPVTQATLKVVG--AFHGLSRQRSDGRRYPAIDPLISWS A0A1F8JW62/79-119_193-439 ---------------ELGPGLLTSIFDGLQNPLEKIAE--K------A-G-Y-FLAPGL---YIPALDRK---KMLQKWPVKNTL-------IEGKKISPEKIMTTGMRIIDTAFPVAKGSTFCTPGPFGAGKTVLQHHLAKHSDVDIVIVAACGERAGEVVEILREFPKLIDNK-------TNE--------PLLNRTVIICNTSSMPVAAREASVYMAVTIAEYYRQMGLDILVLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLASRIAAFYERAGLISLKNK------SIGSLTIGGAVSPAGGN-FEEPVTQATLNVVG--AFWGLSRERSDARKYPAIDPLISW- B8JE35/72-113_181-427 --------------VELGPGLLGSVFDGVQRPLSELAA--R------E-G-D-FLGRGA---SLPALDRT---ALLERWPVRRP-------RPARRRLPPDVPFLTGQRVLDCFFPVSAGGTAVVPGGFGTGKTVLEQSLAKWAAADVVVYVGCGERGNEMSEVLDEFPRLEDPR-------TGG--------PLLARTVMIVNTSNMPVAAREASIYTGCAIAEYFRDMGRSVALMIDSTSRWAEALREISARLEEMPGEEGYPTYLASRLARFYERAGRVETL-GGAE-----GAVTMVGAVSPPGGD-LSEPVTQCSLRATG--ALWALSADLAHRRHYPAVDWSVSF- A0A023X843/88-134_201-449 --------------VELGPGLLGGIYDGTQRPLPEMAA--KDGDPF---GAP-TIGRGI---SLPAVDRT---TMLRRWAVREP-------RPVARKLDPDVPLITGQRIVDTLFPVARGGSATIPGGFGTGKTVLEQSLAKYSEADVVVYVGCGERGNELTEVLEEFPELTDPK-------TGA--------PLMQRTILIANTSNMPVAAREASIYTGITIAEFFRDQGYDVAIMADSTSRWGEALREVSGRLEEMPAEEGYPAYLATRIAEFYERAGSVVCL-GSDG---REGSVTVVGAVSPPGGD-FSEPITQYSLRLAG--TFWALDTSLARSRHFPAINWGTSY- A0A1G1DDS6/75-116_183-431 --------------VELGPGLLGGIFDGIQRPLAAMME--K------G-G-D-FIKRGT---HLKPLDRG---NMITEWSVRKP-------RPCKKKLPPDTPFVTGQRIFDFLFPVAEGGTAIVPGGFGTGKTVIEHTLAKFARADIIVYVGCGERGNEMTEVLTDFQNLLNPF-------TGN--------KLMGRTILIINTSNMPVAAREASMFTGITIAEYYRDMGYSVALMADSTSRWGEALREISSRMEEMPGEEGYPPYLATRLGNFYERAGRVVCL-GRGE---RIGSVTVVSAVSPPGGD-FSEPVTQASLRVAG--ALWSLDTDLAYRRHFPAVNWSRSF- F4BZ02/73-113_182-429 ---------------QLGPGILTQIYDGIQRPLPKLAE--A------S-G-D-FISRGL---FVDGIDHK---FMMHKWPVRQA-------RPVTEKLAPTIPLRTGQRVIDGFFSLAKGGTAAIPGGFGTGKTVMQQTLSKWADVDIVVYVGCGERGNEMADLLHEFPELQDPR-------TGR--------PLMERSIVYANTSNMPVAAREASVYTGMTTSEYYRDMGYDVLMTADSTSRWAEAMREMGSRLEEMPGEEGYPAYLGARLADFYERAGRAEVL-NGGQ-----GSVSIVGAVSPAGGD-FTEPVTQNTLRMVK--VFWALDSKLTQRRHFPSINWLDSYS A0A0W8F7M9/73-113_182-429 ---------------QLGPGILTQIYDGIQRPLPKLAE--A------S-G-D-FISRGL---FVDGIDHK---FMMHKWPVRQA-------RPVTEKLAPTIPLRTGQRVIDGFFSLAKGGTAAIPGGFGTGKTVMQQTLSKWADVDIVVYVGCGERGNEMADLLHEFPELQDPR-------TGR--------PLMERSIVYANTSNMPVAAREASVYTGMTTSEYYRDMGYDVLMTADSTSRWAEAMREMGSRLEEMPGEEGYPAYLGARLADFYERAGRAEVL-NGGQ-----GSVSIVGAVSPAGGD-FTEPVTQNTLRMVK--VFWALDSKLTQRRHFPSINWLDSYS A0A1E9TMY5/72-113_186-433 --------------VSLGPGMLGNIYDGIQRPLKEIEK--Q------T-G-F-YIKRGV---QVDALDQD---KAFQEWPIRQA-------RPVANRLKSSKPLLTGQRIIDSVFPIAKGGTAAIPGGFGTGKTTMQHQIAKFADADVIVYIGCGERGNEMTEVLEDFSKLIDPR-------TNA--------PLMERTVLIANTSNMPVAAREASIYTGLTIAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRIATFYERAGDMETL-NNQN-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDSNLAHSRHYPAINWMNSYS W9DV38/71-112_180-427 --------------VELGPGLLESIYDGIQRPLKVLQE--K------M-G-D-FISRGV---TANGLDRE---SMMQKWPVRMP-------RPVEKKFIPKRPLITGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLNEFPELQDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSSSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGAVKSL---AA---EEGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAQRRHFPSIDWLTSYS D2REZ8/78-119_187-434 --------------VELGPGMLTTIYDGVQRPLPVLKE--V------S-G-D-FIGRGI---EAPGLDRK---KMYHKWPVRIP-------RPYKEKLPPEIPLITGQRILDTFFPVAKGGTAAIPGPFGSGKTVTQHQLAKWADAQVIVYIGCGERGNEMTEVLEEFPELEDPR-------TGK--------PLMERTILIANTSNMPVAAREASVYTGITIAEYFRDMGYDVAIQADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRIAEFYERAGRVKTL-SGH-----IGSVTVVGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAARRHFPAINWLQSYS G8N8D9/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIQE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS A0A017RX54/73-114_186-433 --------------VKLGPGIVGNIFDGIQRPLNYIFN--K------S-G-G-YISEGI---GLASIDLN---KMYQEWPVRSP-------RPVNKRMPIEKPLVTGQRVVDTFFPIAKGGTAAIPGGFGTGKTMTQHQLAKWSDADIIVYIGCGERGNEMTEVLEDFPKLVDPK-------SNL--------PLMNRTILIANTSNMPVAAREASIYTGITIAEYFRDMGYHVAVMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRLAEFYERAGYVDTL-SKKE-----GSVTIIGAVSPAGGD-FSEPVTQNTKRFVS--AFLGLDKKLAYARHYPAINWLSSYS D2EEE7/72-113_185-432 --------------VELGPGLIGSIFDGIQRPLDKILD--K------E-G-T-FISSGV---KVNSLDRE---KLMTRWPVRTA-------RPVKEKLSPNIPLLTGQRVIDTMFPVAMGGTAAVPGPFGSGKTVIQHQLAKWSDADVIVYVGCGERGNEMTEILATFPELKDPK-------SGK--------PLMDRTILIANTSNMPVAAREASIYTGITLAEYYRDMGYSVAVMADSTSRWAEALRELSGRLEEMPGEEGYPAYLGRRVGEFYERAGRARIL-S--G---KIGAATIIGAVSPPGGD-ISEPVSQNTLRVTR--VFWALDASLANARHFPSINWLNSYS D6PC60/76-117_185-432 --------------VSLGPGLLTQIYDGIQRPLATLEE--V------M-G-V-FITRGV---DADAFDME---QMMQKWPVRTP-------RPFTQKYAPDTPLVTGMRILDFLFPLAKGGAAGIPGPFGSGKTVTQQSLAKYSDAQLVVYIGCGERGNEMTEVLDEFPHLIDPN-------TGK--------PLMNRTVMIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRIAEFYERAGRVETL-NGDD-----GSVTVIGAVSPPGGD-ISEPVSQGTLRIVK--VFWGLDAGLARQRHFPAINWLNSYS A0A0E1C0Q4/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLPELAA--Q------C-G-F-FLERGL---YLSALDRK---TMSFHWPVKIPI------TNYKERLIPSEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELIDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNDG------SFGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLE--- A0A101E1J9/78-119_188-435 --------------VELGPGLIRNIYDGVQRPLPVLKE--V------S-G-D-FIGRGI---EAPGLDRK---KLYHKWPVRIP-------RPYVEKLPPVVPLITGQRILDTFFPVAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQIVVYIGCGERGNEMTEVLEEFPELEDPR-------TGK--------PLMERTVLVANTSNMPVAAREASVYTGITIAEYFRDMGYDVAIQADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVKTL-AGN-----IGSVTVVGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAARRHFPAINWLQSYS Q0W363/73-114_183-430 --------------VELGPGLLTSIYDGIQRPLEVLKE--K------M-G-N-FITRGV---SAPGLSRT---KLMHKWPVRVP-------RPYVEKLRPDIPLITGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLAEFPHLTDPK-------TGN--------PLMDRTVLIANTSNMPVAAREASCYTGITIAEYYRDMGYGVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVITP---IG---KEGSVTVIGAVSPAGGD-ISEPVTQNTLRIVK--VFWALDAKLAQRRHFPSINWLNSYS A0A1G3YST5/73-114_192-439 --------------VLLGPGLIGTIYDGIQRPLEALFR--A------T-G-A-FLQPGA---RGDPLDPL---TVAQWWPVRVP-------RPFARKLPPNEPLVTGQRVIDIFFPLSKGGTAAIPGGFGTGKTMTQHSVAKWCDADVIVYIGCGERGNEMTDVLTEFPEIVDPR-------TGR--------SLMERTILIANTSNMPVAAREVSIYTGVTLAEFYRDMGYHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVDTL-NGGI-----GSVTIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRDLANARHYPAVSWIDSYS A0A0W8FG97/60-101_168-417 --------------VALGPGLLSSIYDGIQRPLPVLFE--K------S-G-D-FISRGI---FPPGLDLS---AMMQIWPARKP-------RPYRRKMDPDTLLVTGQRIFDTLFPVAKGGTAMIPGGFGTGKTVAEQTLAKWSDTQIVVYIGCGERGNEMTDVLYEFPELIDPR-------TGL--------PLIQRTVLIANTSNMPVAAREASIYTGITMAEFYRDMGYDVALMADSTSRWGEALREISGRLEEMPGEEGYPAYLATRLAAFYERAGRVVCL-GSDE---RVGSVTVIGAVSPPGGD-FSEPITQNTLRVAG--TFWALDTNLAYRRHFPSVNWIKSYS G0LN68/80-122_191-438 --------------VDLGPGLLDTIYDGVQRPLDILED--K------M-GSP-YLDRGV---DAPGIELD---QMRQEWPVREP-------RPTVEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIIYVGCGERGNEMTEVIDDFPELEDPS-------TGN--------PLMARTSLIANTSNMPVAARESCVYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFKNV-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWDESYS A0A1G7RMQ7/82-124_193-440 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPANDKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M2Q080/73-113_185-432 ---------------TLGPGILRNIFDGVERPLKSIAK--E------S-G-D-FIPTGS---HVDSLDKE---SLCQKWPIKNA-------RPVNKRLPISMPLVTGQRVLDTLFPIAKGGTAAIPGGFGTGKTMTQHQIAKWCDADIIIYIGCGERGNEMTQVLEEFSELIDPK-------SNK--------PLVDRTVLIANTSNMPVAAREASIYTGVTLAEYYRDMGYHCAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRLAAFYERAGYTENL-NDTK-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--TFWALDKALAYARHYFAINWTQSYS D8J5X0/83-124_193-440 --------------VDLGPGMLDTIYDGVQRPLDVLES--R------M-G-A-FLDRGV---DAPGIDLE---AMRQEWPVREA-------RPTANKRSPDRPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQSLAKFSDADIVVYIGCGERGNEMTEVIDDFPDLPDPQ-------TGN--------ALMARTCLIANTSNMPVAARESCVYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSQFYERAGLFDNL-NGSQ-----GSISAVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS F8L954/83-123_197-444 ---------------ELGPGLISSIFDGLQNPLERVAD--A------S-G-L-FLQRGV---YIPSLDRT---SMMQKWPVKTPL-------MEGKKVKATKMMDTGCRIVDTQFPVLKGGTFCTPGPFGAGKTVLQHHLSKYSSVDLVVVTACGERAGEVVEVLKTFPHLIDPH-------TNE--------SLMSRTVIICNTSSMPVAAREASVYMGATIAEYYRQMGLDVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLASRIASFYERSGVILMKDG------SKGSMTIAGTVSPAGGN-FEEPVTQATLASVG--AFLGLSRQRSDARRYPAIDPLISWS M0L8T9/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVEKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A1J4UUU6/71-112_178-426 --------------VELGPGLLGGVFDGIQRPLDKIKE--K------S-G-N-FIARGI---SVPSLDRK---QMMQKWPVRSP-------RQYKDKKHFEPPLVTGKRIVDSFFPIAKGGTAAIPGPFGSGKTVTQTDLAKYADADIIIYIGCGERGNELSEVLQEFPKLKDPR-------TGL--------PLMNRTVMIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISGRMEEMPGEEGYPAYLGKKLAEFYERSGRVNCL-GSDK---KDGSISVIGAVSPPGGD-LSEPVSQATLRVTK--VFWALDANLARRRHYPAINWLRSY- M1XNK2/81-122_191-438 --------------VDLGPGMLDSIYDGVQRPLDVLEE--K------M-G-A-FLDRGV---DAPGIDLE---AMRQEWPVREP-------RPTVEKETPTTPLISGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPK-------TGK--------PLMSRTCLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGKFQNL-NGSE-----GSISAIGAVSPPGGD-FSEPVTQNTLRIVK--CFWALDADLAERRHFPSINWNESYS F8L1W7/88-128_202-449 ---------------ELGPGLLSSILDGLQNPLEKVAE--H------A-G-Y-FLPRGL---YLVPLDRA---TMVQKWPIKNAL-------FEGEKIKPTKMMDTGLRIIDTQFPVMKGGTFCTPGPFGAGKTVIQHHLSKYSSVDIVVVTACGERAGEVVEILREFPHLTDPH-------TGN--------TLMERTVIICNTSSMPVAARESSIYLGMTIAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLASRIAAFYERSGVIALRNE------KQGSVTVGGAVSPAGGN-FEEPVTQATLAVVG--AFLGLSRERSDSRRYPAIDPLISWS G7WRE6/51-91_159-406 ---------------QLGPGILTSIYDGIQRPLPQLVE--A------S-G-N-FISRGL---FVDGIDHK---PMIQYWPVRRA-------RPSRIKQAPTIPLRTGQRVIDGFFSLAKGGTAAIPGGFGTGKTVMQQTLSKWSDVDIVVYVGCGERGNEMADLLHEFPELVDPR-------TNR--------PLMERSIVYANTSNMPVAAREASIYTGITTAEYYRDMGYDVMMTADSTSRWAEAMRELSSRLEEMPGEEGYPAYLGARLADFYERSGRVTTL-EGTE-----GSISIVGAVSPPGGD-FTEPVTQNTLRITK--VFWALDSKLTQRRHFPSINWLDSYS E5KJX0/51-91_159-406 ---------------QLGPGILTSIYDGIQRPLPQLVE--A------S-G-N-FISRGL---FVDGIDHK---PMIQYWPVRRA-------RPSRIKQAPTIPLRTGQRVIDGFFSLAKGGTAAIPGGFGTGKTVMQQTLSKWSDVDIVVYVGCGERGNEMADLLHEFPELVDPR-------TNR--------PLMERSIVYANTSNMPVAAREASIYTGITTAEYYRDMGYDVMMTADSTSRWAEAMRELSSRLEEMPGEEGYPAYLGARLADFYERSGRVTTL-EGTE-----GSISIVGAVSPPGGD-FTEPVTQNTLRITK--VFWALDSKLTQRRHFPSINWLDSYS S3JRY8/75-115_192-439 ---------------RLGPGLVGTIYDGIQRPLESMYE--D------G-T-A-FLLPGQ---RTEPLDTK---KLSQYWPVRSP-------RPYTEKLTVSQPLVTGLRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADLIVYIGCGERGNEMTDVLTEFPEIIDPR-------TGR--------SIMERTILIANTSNMPVAAREVSLYSGITLAEYYRDMGMAVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLASFYERAGRINSL-CARE-----GSVSVIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRDLANARHYPAIGWIDSYS A0A124G5P6/60-101_169-416 --------------VELGPGLLTSIYDGIQRPLEVLVE--K------M-G-N-FIERGV---TAPGLDRS---PMMQKWPVRVP-------RPMKEKKNPKIPLNTGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPRLDDPK-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGLVETL---AG---DSGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS R9T7U9/76-116_182-428 ---------------ELGPGLLSSVYDGIQRPLPVLMD--R------M-G-D-FINRGV---SAPGLDHS---TMLQKWPVRIG-------RPIVKKLLPDIPLITGQRVLDTMFPLPKGGAGAIPGAFGTGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLSEFPKLEDPK-------TGE--------PLMQRTVLIANTSNMPVAAREASVYTGMTIAEYFRDMGYNVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGRAENING------SIGSVSVVGAVSPAGGD-LSEPVTQNTLRIVR--VFWALDSKLRERRHFPTINWLTSY- A0A0N0IQ54/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIQE--R------T-G-I-YITRGV---VVHPLDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQALAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVVTL-GGEE-----GAITIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS W2U721/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIQE--R------T-G-I-YITRGV---VVHPLDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQALAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVVTL-GGEE-----GAITIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS A0A0S7AH32/72-112_180-427 ---------------ELGPGLLNGIFDGILRPLDKIQA--V------S-G-I-FISRGI---EVSSLDRT---RLAHFWPVRKP-------RPFTRKLDPNQPFLTGMRILDVLFPLAAGGTAAIPGPFGSGKTVTQQSIAKYGDANIVVYVGCGERGNEMTDVLVEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASLYTGITLAEYFRDQGYKVSLMADSTSRWAEALREIASRLEEMPAEEGYPPYLASRLSSFYERAGKVITL-AGEQ-----GAVSVIGAVSPAGGD-FSEPVTQSTLRITG--GFWALDAQLARARHFPAINWARSYS D3PQJ3/72-112_180-427 ---------------ELGPGLLNGIFDGILRPLDKIQA--V------S-G-I-FISRGI---EVSSLDRT---RLAHFWPVRKP-------RPFTRKLDPNQPFLTGMRILDVLFPLAAGGTAAIPGPFGSGKTVTQQSIAKYGDANIVVYVGCGERGNEMTDVLVEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASLYTGITLAEYFRDQGYKVSLMADSTSRWAEALREIASRLEEMPAEEGYPPYLASRLSSFYERAGKVITL-AGEQ-----GAVSVIGAVSPAGGD-FSEPVTQSTLRITG--GFWALDAQLARARHFPAINWARSYS A0A140LBZ6/73-114_186-433 --------------VKLGPGIIGNIFDGIERPLSRIYK--E------G-S-A-FIPPGI---GLISLDEE---RMCQEWPVREP-------RPVKKRMAIGKLLVTGQRVIDTFFPLAKGGTAAIPGGFGTGKTITQHQLAKWSDADIIVYIGCGERGNEMTEVLEDFPKLEDPR-------TGK--------PLMDRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYNVALMADSTSRWAEALREIAGRLEEMPAEEGYPAYLGSRLAQFYERAGYFENL-NGSE-----GSITIIGAVSPAGGD-FSEPVTQATKRVVG--AFLALDRELAHARHFPAINWLLSYS U1NML7/80-122_191-438 --------------VDLGPGLLDTIYDGVQRPLDVLED--K------M-GSP-YLDRGV---DAPGIELD---QMRQEWPVREA-------RPSVEKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIIYVGCGERGNEMTEVIDDFPELEDPS-------TGN--------PLMARTSLIANTSNMPVAARESCVYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS F8D5N8/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGNKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLM-NGDE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0EEB4/82-124_193-440 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPANDKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0EUQ3/82-124_193-440 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPANDKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS E0RT11/75-116_190-435 --------------VKLGPGLLAQIYDGLQNPLPELAR--K------C-G-F-FLERGV---YVDPLDPE---TMSFYWPVKVPI------TAYAERLQPTEPMVTKIRIIDTFFPVARGGTYCIPGPFGAGKTVLQQITSRNAEVDIVIIAACGERAGEVVETLREFPELIDPR-------TGR--------TLMERTVIVCNTSSMPVAAREASVYTAVTLAEYYRQMGLDCLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGVVRLKDG------SLGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLE--- V4YAW1/80-122_191-437 --------------VDLGPGILDAIYDGTQRPLDVLED--K------M-NSA-FLDRGV---DAPGIDLD---SMHQEWPVRTP-------RPAVEKQTPTKPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEFFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSQFYERAGYFENV-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESY- K7QUG7/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YISRGV---VVHALDRE---RMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS A0A0F8FXH7/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLA--S------T-G-G-FIGRGV---TADGLDHK---QLMQRWPVRRP-------RPVREKLTPDKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---NG---AKGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0F8FCD1/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLA--S------T-G-G-FIGRGV---TADGLDHK---QLMQRWPVRRP-------RPVREKLTPDKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---NG---AKGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0F8D7E4/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLA--S------T-G-G-FIGRGV---TADGLDHK---QLMQRWPVRRP-------RPVREKLTPDKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---NG---AKGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0F8CEG3/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLA--S------T-G-G-FIGRGV---TADGLDHK---QLMQRWPVRRP-------RPVREKLTPDKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---NG---AKGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A1J4VEX0/74-115_182-430 --------------VELGPGLLDSIYDGIQRPLERIKQ--E------T-G-D-YIGRGL---TINSLPRE---KMLSRWPVRNP-------RPFKERLAPVAPLVTGQRVIDSLFPVAKGGTACIPGPFGSGKTVVLHQIAKWADSQVIVYVGCGERGNEMADVLLEFPKLKDPK-------SQR--------PLTERTILIANTSNMPVAAREASIYTGITIGEYYRDMGYDVALMADSTSRWAEALREISGRMEEMPGEEGYPAYLGTRIAAFYERAGRVVNL-GTKR---VEGNLSVIGAVSPPGGD-LTDPVVQQTLRVVK--VFWGLDDQLAYQRHFPAINWLSSY- A0A062UWF8/73-114_182-429 --------------VELGPGLLESIYDGIQRPLPVLKG--S------M-G-D-FIKRGV---FADGLSRE---MMMQKWPVRKP-------RPVNKKLMPNTPLITGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLNEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGKVKAL---CG---REGSITVIGAVSPPGGD-FSEPVTQNTLRIAK--VFWALDAKLAQRRHFPAINWLNSYS M0GF06/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-DSA-FLDRGV---DAPGIDLD---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS M0I1J4/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-DSA-FLDRGV---DAPGIDLD---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A0P7GWQ1/81-123_192-439 --------------VDLGPGMLDSIYDGVQRPLDVLED--K------M-GSP-FLDRGV---DAPGIDME---QMHQEWPVREA-------RPVKEKQTPTEPLISGQRILDGLFPLAKGGTAAIPGPFGSGKTVTQQSLAKFADADIVVYIGCGERGNEMTEVIDDFPELPDPQ-------TGN--------PLMERTTLIANTSNMPVAARESCVYTGITIGEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSQFYERAGYFENI-NGSE-----GSISVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWDESYS D4MLB7/72-112_185-432 ---------------TLGPGIISNIYDGIQRPLKAMTA--L------S-G-V-YVTEGS---AIAALDEE---TLVQKWPIRTP-------RPINKRLPISKPLITGQRIVDTVLPLAKGGTAAIPGGFGTGKTMTQHQLAKWCDADIIVYIGCGERGNEMTQVLEEFSELIDPK-------SNR--------PLTDRTVLIANTSNMPVAAREASIYTGITLAEYYRDMGYHIAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRLSEFYERAGYVETM-NGRE-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--CFWALDKNLAYARHYPAINWNMSYS B0MPY1/72-112_185-432 ---------------TLGPGIISNIYDGIQRPLKAMTA--L------S-G-V-YVTEGS---AIAALDEE---TLVQKWPIRAP-------RPINKRLPISKPLITGQRIVDTVLPLAKGGTAAIPGGFGTGKTMTQHQLAKWCDADIIVYIGCGERGNEMTQVLEEFSELIDPK-------SNR--------PLTDRTVLIANTSNMPVAAREASIYTGITLAEYYRDMGYHIAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRLSEFYERAGYVETM-NGRE-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--CFWALDKNLAYARHYPAINWNMSYS A0A0U5H5H9/79-120_189-436 --------------VDLGPGMLDSIYDGVQRPLDVLQG--E------M-G-A-FLDRGV---DAPGIDLE---AMRQEWPVRRA-------RPSKDKHTPRTPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELEDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGLYTTL-NDDE-----GSVSVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A0U3KBD8/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLGKIRE--A------S-G-D-FIARGI---EVSSLDRT---RMAHYWPVRAP-------RPVTKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS G0GEV8/75-116_190-435 --------------VKLGPGLLAQIYDGLQNPLPELAQ--K------C-G-F-FLERGV---YVDPLDPE---TMSFYWPVKVPI------TAYVERLQPTEPMVTKIRIIDTFFPVARGGTYCIPGPFGAGKTVLQQITSRNAEVDIVIIAACGERAGEVVETLREFPELIDPR-------TGR--------TLMERTVIVCNTSSMPVAAREASVYTAVTLAEYYRQMGLNCLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGVVRLKDG------SLGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLE--- V4Y6T7/82-124_196-443 --------------VDLGPGMMDAIYDGVQRPLDVLEE--K------L-GSA-FLDRGV---DAPGIDLD---TMHQEWPVREA-------RPTVEKRSPSEPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVIYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSQFYERAGLFDNL-NGTE-----GTVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS F0RVY9/77-117_192-438 --------------VALGPGLLQQIYDGLQNPLPQLAE--Q------C-G-F-FLQRGV---YLDAIP-K---SMVFTWPVKKAI------KLYEERLRPDETLVTKIRIIDTFLPVAKGGTYCTPGPFGAGKTVLQHLTSRNADVDIVIIAACGERAGEVVEVLKEFPELTDPK-------TGR--------SLMERTIIICNTSSMPVASREASVYTAVTLAEYYRQMGLNILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESRIAEFYERAGKVRLKDG------RLGSITIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIDPLSS-- M0D4U5/80-122_191-438 --------------VDLGPGLLDTIYDGVQRPLDVLED--K------M-GSP-YLDRGV---DAPGIELD---TMRQEWPVREA-------RPSETKMTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHSLAKFADADIIIYVGCGERGNEMTEVIDDFPELEDPS-------TGN--------PLMARTSLIANTSNMPVAARESCVYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGAFENI-NGTE-----GTISAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS C0AP04/76-117_191-437 --------------VELGPGLLTQVYDGLQNPLPELAI--Q------C-G-F-FLERGV---YLRPLNKD---TMSFHWPVKVPI------TNYKERLIPSEPMLTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDVVIIAACGERAGEVVETLKEFPELMDPK-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNNG------DIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAISPLES-- E7FVA4/78-119_186-433 --------------IELGPGLLGNIYDGIGRPLQGLSE--K------Y-G-S-YLDVGQ---SMRTLSEE---KLSVMWPIRHE-------RPVASRIDAKEPLITGQRVIDTLFPIVKGGSAAIPGGFGAGKTMLQHQLAKWCDADIIVYIGCGERGNEMAQVLEEFSELIDPK-------TGR--------TLMERTILIANTSNMPVAAREASIYTGITFAEYYRDMGYHVALMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLAAFYERSSYVDTL-NGDV-----GSISIIGAISPQGAD-FSEPVTQNTQRFIG--CFWALDKSLAYIRHFPSINYNLSYS A0A1F3B6E1/74-115_183-432 --------------VELGPGLLFGVFDGILRPLEAVKS--L------K-G-D-FIARGA---VVPALDRE---QMMHRWPVRQA-------RPVRQRLDPREPFITGQRVLDVLFPVAMGGTAAIPGPFGSGKTITQQTLAKWGDADVIVYVGCGERGNEMTHVLDEFPELEDPR-------TGR--------PLMERTIIIANTSNMPVAAREASVYTGITLAEYWRDQGLKVAVMADSTSRWAEAMREISSRLEEMPAEEGYPSYLSSRLAAFYERAARVICL-GNPE---RRGSITVIGAVSPPGGD-FSEPVTQATLRITG--TFWALDDKLASRRHFPAINWLRSYS A0A0A7X9S6/77-118_192-440 --------------VELGPGLLGQVYDGLQNPLPLLAE--K------V-G-Y-FLERGV---YLPALSRT---TMAFRWPVKRPV------HCYAERLKPTEPLVTSIRTIDTFFPVAKGGTYCIPGPFGAGKTVLQHSTSRNADVDVVVIAACGERAGEVVETLREFPDLTDPR-------TGR--------SLMERTVIVCNTSSMPVASREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESCIAAFYERAGVVRLRSG------EKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPAVHPLDSWS A0A0H3BKJ3/77-118_192-440 --------------VELGPGLLGQVYDGLQNPLPLLAE--K------V-G-Y-FLERGV---YLPALSRT---TMAFRWPVKRPV------HCYAERLKPTEPLVTSIRTIDTFFPVAKGGTYCIPGPFGAGKTVLQHSTSRNADVDVVVIAACGERAGEVVETLREFPDLTDPR-------TGR--------SLMERTVIVCNTSSMPVASREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESCIAAFYERAGVVRLRSG------EKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPAVHPLDSWS H6KT44/77-118_192-440 --------------VELGPGLLGQVYDGLQNPLPLLAE--K------V-G-Y-FLERGV---YLPALSRT---TMAFRWPVKRPV------HCYAERLKPTEPLVTSIRTIDTFFPVAKGGTYCIPGPFGAGKTVLQHSTSRNADVDVVVIAACGERAGEVVETLREFPDLTDPR-------TGR--------SLMERTVIVCNTSSMPVASREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESCIAAFYERAGVVRLRSG------EKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPAVHPLDSWS A0A1L7DEJ3/77-118_192-440 --------------VELGPGLLGQVYDGLQNPLPLLAE--K------V-G-Y-FLERGV---YLPALSRT---TMAFRWPVKRPV------HCYAERLKPTEPLVTSIRTIDTFFPVAKGGTYCIPGPFGAGKTVLQHSTSRNADVDVVVIAACGERAGEVVETLREFPDLTDPR-------TGR--------SLMERTVIVCNTSSMPVASREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESCIAAFYERAGVVRLRSG------EKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPAVHPLDSWS Q1IWP3/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-D-FIARGI---EVSSLDRT---RLAHYWPVRAP-------RPVAQKLDPSQPFLTGMRILDVLFPLVMGGTAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS F8LEG8/85-125_199-446 ---------------ELGPGLLSSIFDGLQNPLVEVAE--E------A-G-L-FLPRGI---YLNALDRD---TMVQKWPVKTGL-------MQGEKIRPTEMMDTGCRILDTQVPVVKGGTFCSPGPFGAGKTVLQHHLAKYSSVDIVVVVACGERAGEVVEMLREFPHLIDPH-------TGE--------TLITRTVIICNTSSMPVAARESSIYMGMTVAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLSSRIADFYERSGVVSLDDG------KTGSVTVGGAVSPAGGN-FEEPVTQATLSVVG--AFHALSRERSDARRYPAIDPLLSWS D6YV12/85-125_199-446 ---------------ELGPGLLSSIFDGLQNPLVEVAE--E------A-G-L-FLPRGI---YLNALDRD---TMVQKWPVKTGL-------MQGEKIRPTEMMDTGCRILDTQVPVVKGGTFCSPGPFGAGKTVLQHHLAKYSSVDIVVVVACGERAGEVVEMLREFPHLIDPH-------TGE--------TLITRTVIICNTSSMPVAARESSIYMGMTVAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLSSRIADFYERSGVVSLDDG------KTGSVTVGGAVSPAGGN-FEEPVTQATLSVVG--AFHALSRERSDARRYPAIDPLLSWS A0A139CY32/71-112_180-427 --------------VELGPGLLESIYDGIQRPLEVLQQ--K------M-G-D-FIERGV---TANGLTRE---SLMQKWPVRDP-------RPVDKKLSPTKPLVTGQRILDGMFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLNEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGAVHSL---AG---LDGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAIDWLTSYS A0A1D2V0N4/71-112_180-427 --------------VELGPGLLESIYDGIQRPLEVLQQ--K------M-G-D-FIERGV---TANGLTRE---SLMQKWPVRDP-------RPVDKKLSPTKPLVTGQRILDGMFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLNEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGAVHSL---AG---LDGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAIDWLTSYS A0A0E3NS11/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLA--S------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRRP-------RPVREKLTPDKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEVVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---NG---AKGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0E3NL16/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLA--S------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRRP-------RPVREKLTPDKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEVVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---NG---AKGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0S6W998/76-117_189-436 --------------VELGPGLIKNIYDGIQRPLEDIKA--L------Q-G-D-FIQRGA---QVQALDRE---KMYHRWPVRQP-------RPYHNRLNPTIPLITGQRVIDTFFPLAKGGTAAVPGGFGTGKTVTQHQLAKWCDANLIVYIGCGERGNEMTGVLVDFPKLIDPK-------SGN--------PLMERTILIANTSDMPVAAREASIYTGITIAEYYRDMGYDVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLATRLAEFYERAGRVVAL-NGKE-----GSISVIGAVSPPGGD-FSEPVTQHTKRFVR--CFWGLDKELASARYFPAINYMESYS S7J2Q5/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAE--N------S---L-FLTRGK---YVNAICDQ---TMIQKWPIKQAF-------IEGEKIPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYASVDIVILCACGERAGEVVEVLQEFPHLSDPH-------TGE--------SLMNRTCIICNTSSMPVAARESSVYLGITIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLSSRIAAFYERGGALRMKDG------SEGSLTICGAVSPAGGN-FEEPVTQSTLSVVG--AFCGLSKSRADARRYPSIDPMISWS T5K762/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAE--N------S---L-FLTRGK---YVNAICDQ---TMIQKWPIKQAF-------IEGEKIPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYASVDIVILCACGERAGEVVEVLQEFPHLSDPH-------TGE--------SLMNRTCIICNTSSMPVAARESSVYLGITIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLSSRIAAFYERGGALRMKDG------SEGSLTICGAVSPAGGN-FEEPVTQSTLSVVG--AFCGLSKSRADARRYPSIDPMISWS A0A088RZK7/77-118_192-440 --------------VELGPGLLGQVYDGLQNPLPELAE--K------A-G-Y-FLERGI---YLNALSRT---TMSFKWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDSWS A0A090D211/87-127_201-449 ---------------ELGPGLLTSVFDGLQNPLEDVAD--R------A-G-L-FLPRGI---YLNALNRS---TMVQKWPIKNAL-------QQGEKVKTQKMMETGLRILDTQFPVMKGGTFCTPGPFGAGKTVLQHHLSKYSTVDIVVVCACGERAGEVVEILKEFPHLTDPH-------TGE--------SLMRRTVIICNTSSMPVAARESSIYLGMTIAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLASRIAEFYERSGVLELKQTP-----KNGSVTVGGAVSPAGGN-FEEPVTQSTLAVVG--AFLGLSRERSDSRRYPAIDPLISWS A0A075I9M4/74-115_183-430 --------------VQLGPGLLTQIYDGIQRPLADLEA--K------M-G-V-FIERGV---DADGLDMA---AMMQEWPVRTP-------RPFVQKYAPNVPLITGQRILDFLFPLAKGGTAGIPGPFGSGKTVTQQQLAKWSDAQIVVYIGCGERGNEMTEVLTEFPHLIDPH-------TGT--------PLMNRTTMIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLAEFYERAGRVQTL-AGGD-----GSISVIGAVSPPGGD-ISEPVSQGTLRIVK--VFWGLDAGLARQRHFPSIDWLSSYS A0A075ICL5/74-115_183-430 --------------VQLGPGLLTQIYDGIQRPLADLEA--K------M-G-V-FIERGV---DADGLDMA---AMMQEWPVRTP-------RPFVQKYAPNVPLITGQRILDFLFPLAKGGTAGIPGPFGSGKTVTQQQLAKWSDAQIVVYIGCGERGNEMTEVLTEFPHLIDPH-------TGT--------PLMNRTTMIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLAEFYERAGRVQTL-AGGD-----GSISVIGAVSPPGGD-ISEPVSQGTLRIVK--VFWGLDAGLARQRHFPSIDWLSSYS A0A0A7GIM3/76-117_185-432 --------------VELGPGLLKSIYDGVQRPLPALKD--A------S-G-D-FIGRGI---DAPALDKS---KMAHKWPVRVP-------RPYKEKLPPEIPLITGQRILDTMFPVAKGGTAAIPGPFGSGKTVTQHQLAKWSDTHIVVYIGCGERGNEMTEVLEEFPELEDPR-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSIMADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVRTL-NGN-----IGSVTVVGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAARRHFPAINWLQSYS B9LS41/82-124_197-444 --------------VDLGPGMLDSIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPSENKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0KH25/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVEKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS E6SQQ2/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGQ---YTYPLDKG---NMIQKWPVKRAM------TNYKEKPRPFKLLETGVRVIDTVNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSSIISNFYGRAGYVKLNNG------ATGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADKKRYPAVNPIDSYS A7HDG9/72-113_180-427 --------------VELGPGLLGSVFDGVQRPLDALAA--Q------Q-G-D-FLGRGA---RLPALDRA---ALLQRWPVRRP-------RPIRRRLAPDVPFLTGQRVLDCFFPVSAGGTAMVPGGFGTGKTVLEQSLAKHAAADVVVYVGCGERGNEMAEVLDELPKLEDPR-------SGG--------PLLGRTVLVVNTSNMPVAAREASIYTGCTIAEYFRDMGRSVALMIDSTSRWAEALREISARLEEMPGEEGYPTYLASRLARFYERAGRVETL-GCGE-----GAVTIVGAVSPPGGD-LSEPVTQCSLRATG--ALWALSADLAHRRHYPAVDWAISFS A0A1J5TDR1/73-114_182-429 --------------VELGPGLLTSIYDGIQRPLPVLQD--K------M-G-D-YIERGV---TAPGLDHE---KLMQKWPVRMP-------RKYVKKMRPDIPLVTGTRTLDALFPIAKGGTAAIPGGFGTGKTVTQQTLAKWSDAQIVVYVGCGERGNEMTEVLTEFPHLKDPK-------TGG--------ALMDRTVLIANTSNMPVAAREASVYTGITIAEYYRDQGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERSGRVETE---NG---DYGSVTVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDSKLAQRRHFPAINWLTSYS A0A0B5H052/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVDKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS C1CXU3/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-D-FIARGI---EVSSLDRT---RLAHYWPVRAP-------RPVQKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELVDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-SGDD-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS M0IGI5/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLES--K------M-DSP-YLDRGV---DAPGIDLE---TMHQEWPVRKA-------RPSAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGQE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS Q46FH3/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQKWPVRRP-------RPVRTKLTPTRPLVTGMRILDGLFPVAKGGTAAIPGPFGSGKTVTQQSLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAESL---CG---ETGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0E3Q8K6/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHQ---QMMQKWPVRRP-------RPVREKRTPTRPLVTGMRILDGLFPVAKGGTAAIPGPFGSGKTVTQQSLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---CG---ENGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS E1QGX1/76-117_191-439 --------------VELGPGILQQIYDGLQNPLPKLSE--A------T-G-L-FLKRGV---YIDPLDRQ---CMMQRWPIKIAL------KDYEERLLPVEPLVTGCRIIDSFYPVAKGGTACIPGPFGSGKTVLQQIISRYADVDVIIVAACGERAGEVVETLREFPHLEDPY-------TGR--------TLMERTVIICNTSSMPVAAREASIYTAITIGEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLQSRIAEFYERAGFVRLKSG------ETGSVSVIGTVSPAGGN-FEEPVTQGTLAVVG--AFLGLTWARSNARRFPAIDPLISWS V5WI08/77-118_192-437 --------------VELGPGLLKQVYDGLQNPLPQLAD--Q------C-G-F-FLDRGV---YLNALDRE---SMMFEWPVKRAI------TNYEERLKPTEQLITKVRIIDTFLPVARGGTFCVPGPFGAGKTVLQQVMSRNAEVDIVIVAACGERAGEVVETLKEFPELIDPR-------TGK--------TLMERTVIICNTSSMPVAAREASVYTAVTIAEYYRQMGLNILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGLVRLNDG------STGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRDRANARKYPSIHPLD--- A0A0B3ADI6/81-122_190-438 --------------VELGPGMLTSIYDGIQRPLPVLQK--Q------V-G-D-FISRGV---EAPGLDHS---TMLQKWPVRKP-------RPSKRKLPPTVPLITGQRIFDALFPLAKGGTAAIPGPFGAGKTVTQQTLAKWCDADIIVYVGCGERGNEMTEVLTEFPHLTDPK-------TGK--------PLMNRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYSVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSTRLAEFYERAGRVLPL-GTD----KEGSVSVIGAVSPPGGD-FSEPVTQSTLRVTK--TFWALDAKLAQRRHFPSINWLTSYS A0A0A7UYZ9/76-117_191-437 --------------VELGPGLLTQVYDGLQNPLPELAI--K------C-G-F-FLERGV---YLRSLNKD---TMSFHWPVKIPI------TNYKERLIPSEPMITQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDVVIIAACGERAGEVVETLKEFPELIDPK-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNSG------DIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAISPLES-- A0A0E3QGD0/64-105_173-420 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHQ---QMMQKWPVRRP-------RPVREKRTPTRPLVTGMRILDGLFPVAKGGTAAIPGPFGSGKTVTQQSLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---CG---ENGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS S6A0N7/77-118_192-440 --------------VELGPGLLGQVYDGLQNPLPELAE--Q------A-G-Y-FLERGI---YLNALSRG---TMSFRWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLKEFPELKDPK-------TGR--------TLMERTVIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLKDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDSWS W0JNX4/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQLI-NGDE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSIDWNESYS A0A1F2WQ90/73-114_182-431 --------------IELGPGLLSSIYDGIQRRLVDIAD--E------Y-G-D-FVVRGV---TTQPLRRD---KLHQTWPARVP-------RPVKEKLNPTVPFITGTRILDTFFPIAQGGYSIIPGGFGTGKTVTETTLAKWADADIVIYIGCGERGNEITEVLAEFPSLIDPK-------TGV--------PLMQRTILVANTSNMPVAAREASIYTGITLAEYYRDMGYNVALMADSTSRWGEALREVSGRLEEMPGEEGYPAYLATRLADFYERCGRATCL-GSDE---RPGSITAIGAVSPPGGD-FSEPMTQNSLRITG--AFWALDTSLAYRRHFPAISWIKSYT A0A0X3BIK8/79-120_188-435 --------------VELGPGLLTSIYDGIQRPLEVLVD--K------M-G-N-FIERGV---SAPGLSHE---AMLQRWPVRVP-------RPVKEKLNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDSEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVVNL---NE---TDGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS M0HH26/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLEE--K------M-NSA-FLDRGV---DAPGIDLE---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A0K1IQ84/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLEE--K------M-NSA-FLDRGV---DAPGIDLE---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS W5SSS6/76-117_191-436 --------------VELGPGILSQVYDGLQNPLSELAA--Q------F-G-F-FLERGL---YLSALDRN---TMSFHWPVKIPI------TSYKERLIPSEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGT--------SLMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLGSVIASFYERAGVVVLNNG------TVGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLE--- A0A098R4Q8/77-118_192-438 --------------VELGPGLLSQIYDGLQNPLPELAS--Q------C-G-F-FLQRGI---YLNALDRT---TMMFEWPVKRAI------SNYEERLRPDEQMVTKVRIIDTFLPVALGGTYCIPGPFGAGKTVLQQVTSRNAEVDIVIVAACGERAGEVVETLKEFPELIDPR-------TGR--------TLMERTVIICNTSSMPVAAREASVYTAVTIAEYYRQMGLNILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGLVRLKDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRDRANARKYPSIHPLDS-- R7RTI2/75-116_185-432 --------------VTLGPGIVGNIFDGIQRPLNIIFD--K------S-G-N-FIKEGI---GLETIDKT---KMYQEWPVRIP-------RPVKERLPIQKPLITGQRVIDTFFPIAKGGTAAIPGGFGTGKTMTQHQLAKWSDADIIVYIGCGERGNEMTEVLEDFPKLIDPS-------SNL--------PLMNRTILIANTSNMPVAAREASIYTGITIAEYFRDMGYNVAVMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRLAEFYERAGYVRTL-NDKE-----ASVTIIGAVSPAGGD-FSEPVTQNTKRFVS--AFLGLDRKLAYSRHYPAINWLSSYS A0A117LVB3/75-116_183-432 --------------VALGPGLLSSIYDGIQRPLPVLFE--M------S-G-D-FISRGV---FPPGLDLN---AMMQLWPARKP-------RPYRKKMDPDTLLITGQRIFDCLFPVAKGGTAMIPGGFGTGKTVAEQTLAKWSDTRIVVYIGCGERGNEMTDVLYEFPELIDPR-------TGL--------PLIERTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWGEALREISGRLEEMPGEEGYPAYLATRLAAFYERAGRVVCW-GKDE---RIGSITIIGAVSPPGGD-FSEPITQNTLRVAG--TFWALDTALAYRRHFPSVNWIKSYS A0A117MGL6/75-116_183-432 --------------VALGPGLLSSIYDGIQRPLPVLFE--M------S-G-D-FISRGV---FPPGLDLN---AMMQLWPARKP-------RPYRKKMDPDTLLITGQRIFDCLFPVAKGGTAMIPGGFGTGKTVAEQTLAKWSDTRIVVYIGCGERGNEMTDVLYEFPELIDPR-------TGL--------PLIERTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWGEALREISGRLEEMPGEEGYPAYLATRLAAFYERAGRVVCW-GKDE---RIGSITIIGAVSPPGGD-FSEPITQNTLRVAG--TFWALDTALAYRRHFPSVNWIKSYS S7UQ59/77-118_192-438 --------------VQLGPGLLTRVYDGLQNPLAELAE--Q------S-G-F-FLKRGL---YLDALDMK---TMMQHWPVKIPI------KAYVERLRPKKPLVTKVRIIDTICPVAVGGVYCTPGPFGAGKTVLQQITSRHADVDVVVICACGERAGEVVETIREFPKLTDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAVTIAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESVIASFYERGGIVRLHNG------STGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRVRSDARRYPAVDPLDS-- A0A099SZ81/73-114_182-429 --------------VELGPGLLESIYDGIQRPLPVLQE--K------M-G-N-FIERGV---TANGLDRE---PMMQKWPVRGP-------RPVAKKLMPSKPLITGQRILDGMFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLNEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSSSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGSVNSL---AG---LDGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPSINWLTSYS A0A150IS80/84-125_194-441 --------------VDLGPGLLGSIYDGVQRPLPKLSV--L------M-G-E-FIKRGA---EAPGIDRE---KMYQRWPVKVP-------RPFKDKMMPNVPLVTGKRIIDVLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDTKVVVYIGCGERGNEMIDVLTEFPKLVDPV-------TGG--------PLMNRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLSSFYERAGIVVTL-GG-----KIGSVTVIGAVSPPGGD-FSEPVVQNTLRITK--TFWALDSNLSQKRHFPSINWLESYS A0A150IZ74/84-125_194-441 --------------VDLGPGLLGSIYDGVQRPLPKLSV--L------M-G-E-FIKRGA---EAPGIDRE---KMYQRWPVKVP-------RPFKDKMMPNVPLVTGKRIIDVLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDTKVVVYIGCGERGNEMIDVLTEFPKLVDPV-------TGG--------PLMNRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLSSFYERAGIVVTL-GG-----KIGSVTVIGAVSPPGGD-FSEPVVQNTLRITK--TFWALDSNLSQKRHFPSINWLESYS A0A150ILA7/84-125_194-441 --------------VDLGPGLLGSIYDGVQRPLPKLSV--L------M-G-E-FIKRGA---EAPGIDRE---KMYQRWPVKVP-------RPFKDKMMPNVPLVTGKRIIDVLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDTKVVVYIGCGERGNEMIDVLTEFPKLVDPV-------TGG--------PLMNRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLSSFYERAGIVVTL-GG-----KIGSVTVIGAVSPPGGD-FSEPVVQNTLRITK--TFWALDSNLSQKRHFPSINWLESYS A0A172XAJ8/76-117_191-437 --------------VELGPGLLSQVYDGLQNPLSELAA--Q------C-G-F-FLERGL---YLSALDRS---TMSFHWPVKVPI------TSYKDRLIPSEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDVVIIAACGERAGEVVETLKEFPELIDPR-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNDG------NVGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLES-- H1YZD8/77-118_186-433 --------------VELGPGLLTSIYDGIQRPLEVLME--K------M-G-N-FIERGV---TAPGLDHE---TMMQKWPVRVP-------RPVMEKKNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQALAKWSDAEIVVYIGCGERGNEMTEVLTEFPFLEDPK-------TGK--------PLMERTILIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGRVDTL---NG---ELGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--CFWALDAKLSQRRHFPAINWLNSYS N9YXH4/74-115_188-435 --------------VTLAPGILSNIFDGIERPLSEIAK--G------S-G-Y-YISRGI---SVNSLDTD---TMTQKWPIRVA-------RPSARRFPAVKPLITGQRILDTMFPLAKGGTAAIPGGFGTGKTMTQHQVAKWSDADVIIYIGCGERGNEMTQVLEEFSELIDPK-------TGN--------PLMDRTTLIANTSNMPVAAREASLYSGLTLAEYYRDMGYHVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQNL-NGTE-----GSVTIIGAVSPQGGD-FSEPVTMNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS A0A180FKH8/76-114_188-436 --------------VTLGPGMLSRNYDGLQNDLDKME------------G-I-FLKRGE---YTFPLQNE---NMIQKWPVKKAI------TCYKAKPRPFKLLETGVRTMDTLNPIVEGGTGFIPGPFGTGKTVMQHAISKQAEADIVIIAACGERANEVVEVFAEFPHLDDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRGMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAVVANFYARAGYVELNNG------STGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADRKRYPAINPIDSYS A0A0E3QSR1/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--K------M-G-S-FIQRGV---SADGLDHK---QMMQRWPVRRP-------RPVKAKLTPTRPLVTGMRILDGLFPVAKGGTAAIPGPFGSGKTVTQQSLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAESL---CG---ETGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0E3R3K1/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--K------M-G-S-FIQRGV---SADGLDHK---QMMQRWPVRRP-------RPVKAKLTPTRPLVTGMRILDGLFPVAKGGTAAIPGPFGSGKTVTQQSLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAESL---CG---ETGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A1G1GAC5/71-112_179-426 --------------VRLGPGLLSGMFDGLQRPLERLRK--E------M-G-P-FITGGK---EMYALDYM---PGCHEWPVRFA-------RPYKRKFAPAEPLVTGQRSIDFLFPLARGGTAIFPGGFGTGKTILEQSVAKFADVDIVVYVGCGERGNEMADMIAEFEELRDPW-------SGR--------PLRDRTVLVVNTSNMPVAAREASIYTAVTMAEYYRDMGYHVLFLADSLSRWAEALREISASLEEMPGEEGYPTYLASRLSAFFERAGVVETL------NNRIGSLSMILSVSPPGGD-FTEPVTQACLRTTG--AFLMLDTSLAHRRHYPAINWFQSYS A0A0C1JKE8/86-126_200-447 ---------------ELGPGLLSSIFDGLQNPLVDVAD--Q------A-G-L-FLPKGI---YLSALDRQ---TMIQKWPVKNAL-------IHGEKIKPTKMMDTGERIIDTQFPLMKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVLFVACGERAGEVVEVLREFPHLIDPH-------TDE--------ALMKRTVIICNTSSMPVAARESSIYMGITIAEYYRQMGLDVLVLADSTSRWAQALREMSGRLEEIPGEEAFPAYLSSRIAEFYERSGVVSLRHG------KPGSITIGGAVSPAGGN-FEEPVTQATLSVVG--AFLGLSRARSDSRRYPAIDPLLSWS B2S1S8/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLPELAA--Q------C-G-F-FLERGL---YLSALDRK---TMSFHWPVKIPI------TNYKERLIPSEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELIDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNDG------SFGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLE--- A0A142JCA9/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLPELAA--Q------C-G-F-FLERGL---YLSALDRK---TMSFHWPVKIPI------TNYKERLIPSEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELIDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNDG------SFGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLE--- M2BWD3/77-118_192-438 --------------VELGPGLLGQVYDGLQNPLPELAE--Q------A-G-Y-FLERGI---YLNALSRT---TMSFKWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- Q73M28/77-118_192-438 --------------VELGPGLLGQVYDGLQNPLPELAE--Q------A-G-Y-FLERGI---YLNALSRT---TMSFKWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- E9S574/77-118_192-438 --------------VELGPGLLGQVYDGLQNPLPELAE--Q------A-G-Y-FLERGI---YLNALSRT---TMSFKWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- A0A0E2EER2/77-118_192-438 --------------VELGPGLLGQVYDGLQNPLPELAE--Q------A-G-Y-FLERGI---YLNALSRT---TMSFKWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- A0A0E2E878/77-118_192-438 --------------VELGPGLLGQVYDGLQNPLPELAE--Q------A-G-Y-FLERGI---YLNALSRT---TMSFKWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- A0A0F6MSK4/77-118_192-438 --------------VELGPGLLGQVYDGLQNPLPELAE--Q------A-G-Y-FLERGI---YLNALSRT---TMSFKWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- F2NK86/73-114_182-429 --------------VELGPGMLNSIYDGIQRPLDKIRE--K------T-G-A-FIARGV---EVLALDRE---KMYHRWPVRRP-------RPVQRKLDPNEPFLTGMRILDVLFPIAMGGAAAIPGPFGSGKTVTQQSLAKWSNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTLAEYFRDQGYSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVVTL-AGEP-----GAVSIVGAVSPAGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS L0A1W3/78-119_187-434 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-D-FIARGI---EVSSLDRT---RLAHYWPVRAP-------RPVALKKDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLSARLAAFYERAGAVRTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS A0A117DPV5/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLGKIRE--A------S-G-D-FIARGI---EVSSLDRT---RMAHYWPVRAP-------RPVTKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS A0A1G0ZLU8/78-119_193-439 --------------IELGPGLLAQVYDGLQNPLNKLAE--K------S-G-F-FLKRGL---YMEALDYE---TMVQKWPVKIPI------TAYKEKLIPEKPLITQQRIIDTFFPVSKGGTFCTPGPFGAGKTVLQHALSRYAEADVVVVAACGERAGEVVEVLREFPHLEDPK-------TGR--------TLMERSVIICNTSSMPVAAREASVYTAITITEYYRQMGLDCVLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESLIAGFYERAGLVKLNNG------KTGSVTIGGAVSPAGGN-FEEPVTQATLKVVG--AFLGLSRDRANARRFPAIHPLDS-- A0A0N8W915/79-120_188-435 --------------VELGPGLLTSIYDGIQRPLAVLVD--K------M-G-D-FIERGV---SAPGLDHA---TMMHKWPVRVP-------RPVTEKMNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGLVKTL---NG---SSGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS E4U986/73-114_182-429 --------------VELGPGMLNAIYDGIQRPLDKLQD--K------T-G-D-FIDRGV---VVHALDRE---KMYHLWPVRRA-------RPITSKEDPNEPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMQRTVLIANTSNMPVAAREASIYVGVTLAEYFRDQGVSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGRVVTL-NKEP-----GAVSIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAYRRHFPAINWNGSYS A0A0C1HL41/89-129_203-450 ---------------ELGPGLLTSILDGLQNPLENVAD--V------A-G-F-FLSRGV---YLPALDRQ---TMVQKWPIKNSL-------FEGEKIKPSKMMDTGLRIIDTQFPLMKGGTFCSPGPFGAGKTVLQHHLSKFSSVDIVVLVACGERAGEVVEILREFPHLIDPH-------TDQ--------TLMTRTVIICNTSSMPVAARESSIYMGITIAEYYRQMGLDILLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLASRIADFYERSGAVSLKNG------KQGSVTIGGAVSPAGGN-FEEPVTQATLAVVG--AFLGLSRERSDSRRYPAIDPLISWS A0A0C1HBE0/89-129_203-450 ---------------ELGPGLLTSILDGLQNPLENVAD--V------A-G-F-FLSRGV---YLPALDRQ---TMVQKWPIKNSL-------FEGEKIKPSKMMDTGLRIIDTQFPLMKGGTFCSPGPFGAGKTVLQHHLSKFSSVDIVVLVACGERAGEVVEILREFPHLIDPH-------TDQ--------TLMTRTVIICNTSSMPVAARESSIYMGITIAEYYRQMGLDILLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLASRIADFYERSGAVSLKNG------KQGSVTIGGAVSPAGGN-FEEPVTQATLAVVG--AFLGLSRERSDSRRYPAIDPLISWS G0AKQ6/76-117_191-437 --------------VELGPGLLTQVYDGLQNPLPELAI--Q------C-G-F-FLERGV---YLRPLNKD---TMSFHWPVKIPI------TNYKERLIPSEPMLTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDVVIIAACGERAGEVVETLKEFPELMDPK-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESIIASFYERAGIVVLNNG------DIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAISPLES-- A0A0S8IMK2/78-119_193-438 --------------VELGPGLLGQIFDGLQNPLPLLAE--K------C-G-F-FLKRGV---YLKALPDE---FLKQVWPVKIPI------AAYAEKLKPGQTLVTKMRLIDSLFPVSLGGTYCIPGPFGAGKTVLQQLTSRHAEVDIVVIAACGERAGEVVETLKTFPKIMDPR-------TKR--------PLSDRTVIICNTSSMPVSARESSVYTAVTIAEYYRQMGLHVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESRIASFYERAGLVRLHDG------ALASVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPAIDPLI--- A0A063ZBI0/79-120_188-435 --------------VELGPGLLTSIYDGIQRPLEVLVD--K------M-G-N-FIERGV---SAPGLSHE---AMLQRWPVRVP-------RPVTEKLNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVISL---NG---EGGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A1A9HXQ7/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQVLAE--S------S---S-FLQRGK---YAAALSDQ---TMVQRWPIKQAF-------IEGEKIPAHEIMDVGLRVLDTQVPILKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLIDPH-------TGE--------SLMHRTCIICNTSSMPVAARESSIYLGVTIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIATFYERGGALKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKSRADARRYPSIDPMMSWS F6DHR7/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS A0A1G3I9S3/73-109_183-430 --------------VRLGPGLLGGIFDGLLRPLDVKNA--E------A-----FVRPGG---FPEP---S---GMSHTWPVRRP-------RPVSRRLSPSLPFITGQRIIDTLFPVARGGRAMLPGGFGTGKTVLQETLAKWSDADVIIYVGCGERGNEMAEVLREFGELEDPR-------TGR--------RLMERTLIIANTSNMPVAAREASIYTGVTVGEFFRDQGLHVALMADSTSRWAEALREVSGRLGELPGEGGHPAYLSSRLAEFYERAGHVQTL-AGDE-----GSLTIIGAVSPPAGD-FSEPVTTHTKRYVR--CFWGLDIIRAQARFYPAIHPLQSYS D6RWU1/76-117_191-437 --------------VELGPGLLTQVYDGLQNPLPELAI--Q------C-G-F-FLERGV---YLRPLNKD---TMSFHWPVKIPI------TNYKERLIPSEPMLTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDVVIIAACGERAGEVVETLKEFPELTDPK-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNNG------DIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAISPLES-- M2BJ04/77-118_192-438 --------------VELGPGLLGQVYDGLQNPLPELAE--Q------A-G-Y-FLERGI---YLNALSRT---TMSFKWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- A0A0T6ARV6/74-115_183-432 --------------VELGPGLLFGIYDGIQRPLKDIRQ--Q------K-G-D-FIERGA---TAVALDRD---RLMHTWPVRFA-------RPLARRLEPREPLVTGQRIIDVLFPVAQGGTASIPGPFGSGKTVMQQTLAKWADADVIVYVGCGERGNEMTHVLDEFPELEDPR-------TGR--------KLMERTVIIANTSNMPVAAREASVYTGITMAEYWRDQGYKVALMADSTSRWAEAMREISSRLEEMPAEEGYPPYLSSRLAAFYERAGRGVCR-GQPE---RRGSITVIGAVSPPGGD-LSEPVTQATLRITG--TFWSLDASLAHRRHFPAIHWLRSYS A0A0Q4BI19/74-114_180-426 ---------------ELGPGLLSSVYDGIQRPLPVLME--A------M-G-N-FIQRGV---SANGLDRK---MMMQKWPVRAG-------RPFGKKLMPDIPLITGQRVLDTMFPLPKGGTAAIPGAFGTGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLATFPALEDPR-------TGE--------PLMQRTVLIANTSNMPVAAREASVYTGMTIAEYYRDQGYNVSLMADSTSRWAEAMREISSRLEEMPGEEGFPAYLSARLSEFYERAGRVENRNG------SVGSISVVGAVSPPGGD-LSEPVTQNTLRIVR--VFWALDSKLRERRHFPTINWLTSY- A0A1F7FVK5/77-118_191-436 --------------VELGPGLIGMIYDGLQNPLPEMAE--K------V-G-K-FLEPGH---YLKALDRA---NMIQRWPVRMPL------GIYNERLLPTEPMVTKQRIIDTFFPVMLGGTYCIPGPFGAGKTVLQQITSRHAEIDLVIVAACGERAGEVVETLREFPHLKDPR-------TGK--------TLIERTIIICNTSSMPVAARESSVYTAVTLGEYYRQVGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESSIARFYERGGIVELKDG------RKASLTVGGTVSPAGGN-FEEPVTQGTLKVVG--AFLGLSYARSYARRFPAIDPLE--- A0A1F9ZU82/75-116_183-430 --------------VELGPGLLSSVYDGVQRPLPVLRE--N------Q-G-D-FVSRGI---TAPGLDRK---RLMQRWPVRQA-------RPYVEKLMPDIPLVTGQRVLDLLFPLAKGGTAAIPGGFGTGKTVTSQQLSKWSDAQIVIYVGCGERGNEMTEVLTTFPELEDPK-------TGK--------PLMGRTVLIANTSNMPVAAREASVYTGITVAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERCGRVKVF---SG---GIGSISVIGAVSPSGGD-FSEPVTQNTLRIVK--VFWALDSKLRERRHFPAINWLTSYS D3ST04/82-124_193-440 --------------VDLGPGVLDAIYDGVQRPLDVLEE--K------M-GTA-FLDRGV---DAPGIDFE---TMHQEWPVRQA-------RPADTKETPTVPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPK-------TGK--------PLMSRTCLIANTSNMPVAARESCIYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQNI-NDTE-----GSVTAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0PNR5/82-124_193-440 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPANDKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0DRH3/82-124_193-440 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPANDKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS E7NSD4/76-117_194-441 --------------VRLGPGLIGTIYDGIQRPLEKLFD--E------T-G-S-FLHPGA---RIDPLDTQ---YLAHYWPVRNP-------RPFTQKLTVSEPLVTGQRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAIAKWCDADIIVYIGCGERGNEMTDVLTEFPQLIDPR-------TNR--------SLMERTILIANTSNMPVAAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRIKTL-SNSE-----GSISIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELANARHYPAIGWIESYS E1RER2/77-118_186-433 --------------VELGPGLLTSIYDGIQRPLEVLME--K------M-G-S-FIERGV---SAPGLDHA---AMMQKWPVRVP-------RPVTEKKNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQALAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGK--------PLMERTILIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGRVETL---NH---DFGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--CFWALDAKLSQRRHFPAINWLNSYS L9WZA4/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMRQEWPVRQA-------RPAGDKETPTEPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAIDWNESYS A0A1G0XYC9/78-119_193-438 --------------IELGPGLLAQVYDGLQNPLNKLAE--K------S-G-F-FLKRGL---YMEALDYE---SMVQKWPVKIPI------TAYKEKLIPEKPLITQQRIIDTFFPVSRGGTFCTPGPFGAGKTVLQHALSRYAEADVVVVAACGERAGEVVEILREFPHLEDPK-------TGR--------TLMERSVIICNTSSMPVAAREASVYTAITITEYYRQMGLDCLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESLIAGFYERAGLVKLNNG------KTGSVTIGGAVSPAGGN-FEEPVTQATLKVVG--AFLGLSRDRANARRFPAIHPLD--- U1NZE7/81-123_192-439 --------------VDLGPGMLDSIYDGVQRPLDVLHE--K------M-DDA-FLDRGV---TAPGIDLQ---QMRQEWPVREQ-------RPTGEKQTPTEPLISGQRIQDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTTLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENT-NGTE-----GSISVIGAVSPPGGD-FSEPVTQNTLRITK--CFWALDADLAERRHFPSINWNESYS A0A117LHU6/74-115_184-433 ---------------ELGPGLLSSIYDGIQRPLPVIAE--E------T-GSD-FIARGT---VASALDRS---TMSQWWPVRYG-------RPYKRKLDPTTPFMTGMRILDTFFPVALGGNAIIPGGFGTGKTVTQQSLAKWADVDIIIYVGCGERGNEMTEVLAEFPELDDPR-------TGH--------KLMDRTVLVANTSNMPVAAREASIYTGVTLAEYYRDMGYSVAMMADSTSRWGEALREVSGRLEEMPGEEGYPAYLATRLASFYERSGRVEAL-GDGE---RVGSVTMVGAVSPAGGD-MSEPMTQNSLRVTG--AFWALDTSLAHRRHFPAISWTKSYT A0A174ZCD3/72-112_185-432 ---------------TLGPGIISNIYDGIQRPLKAMTA--L------S-G-V-YVTEGS---AIAALDEE---TLVQKWPIRTP-------RPINKRLPISKPLITGQRIVDTVLPLAKGGTAAIPGGFGTGKTMTQHQLAKWCDADIIVYIGCGERGNEMTQVLEEFSELIDPK-------SNR--------PLTDRTVLIANTSNMPVAAREASIYTGITLAEYYRDMGYHIAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRLSEFYERAGYVETL-NGRE-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--CFWALDKNLAYARHYPAINWNMSYS M0AZA2/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVRQA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFELI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A1G0WGT1/78-119_193-439 --------------VELGPGLLTMVYDGLQNPLDQLAK--K------S-G-F-FLERGV---YLPALDQN---TMSQKWPVKIPI------KCYREKLLPEKTLITQQRIIDTFFPVAVGGTFCTPGPFGAGKTVLQHAISQHAQTDVVIVCACGERAGEVVEILKEYPHLEDPR-------TGR--------SLMERSIIICNTSSMPVAAREASVYTAITLAEYYRQMGLNALLLADSTSRWAQALREMSGRLEEIPGEEGFPAYLESLIASFYERAGLVKLNNG------KLGSVTVGGAVSPAGGN-FEEPVTQATLKVVG--CFLGLSKQRADSRRFPSIHPLES-- A0A1G3MRY0/77-118_192-438 --------------VELGPGLLGKIYDGLQNPLPEVAK--Q------T-G-Y-FLEPGV---YLDALPRA---TMMFEWPVKRAI------DCYAERLKPTVPMVTKTRIIDTFFPVAKGGTYCVPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLIEFPELIDPK-------TGR--------SLMERTIIVCNTSSMPVAAREASVYTAVTMAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIAGFYERAGIVRLKSG------AIGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- D7CQZ8/74-115_183-430 --------------VELGPGMLNGIFDGIQRPLDKINE--A------S-G-T-YIDRGI---TVNSLSRE---KLYHAWPVRQA-------RPVQQKLDPVTPFLTGMRILDVLFPLTMGGTAAIPGPFGSGKTVTQQSIAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPQ-------TGN--------PLMHRTVLIANTSNMPVAAREASIYTGITLAEYFRDQGYRVSVMADSTSRWAEALREIASRLEEMPAEEGYPPYLASRLAAFYERGGRVTTL-AGEQ-----GAVSIIGAVSPAGGD-FSEPVTQSTLRITG--CFWALDASLARRRHFPAINWNRSYT A0A0E2IYB4/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQVLAE--S------S---F-FLKRGE---YVNALCKN---TMVQKWPIKQAF-------IQGDKVPCHEIMDVGVRILDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLTDPH-------TGK--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVRMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A1D3CP29/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQVLAE--S------S---F-FLKRGE---YVNALCKN---TMVQKWPIKQAF-------IQGDKVPCHEIMDVGVRILDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLTDPH-------TGK--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVRMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS S7ISY5/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQVLAE--S------S---F-FLKRGE---YVNALCKN---TMVQKWPIKQAF-------IQGDKVPCHEIMDVGVRILDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLTDPH-------TGK--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVRMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A091AEU8/81-121_196-444 ---------------TLGPGILGMIYDGLQNPLTHLEN--E------Q-D-F-FLKRGQ---YLNSLDEE---TLKQEWPVKMPV------RAYRERLLPNKQLLTQCRLIDIFFPLAEGGTACIPGPFGAGKTVLQQIISRYAEADVVIIVACGERAGEVVETIREFPELEDPK-------TGG--------SLMNRTVIICNTSSMPVAAREASIYTGITIGEYYRSLGLKVLLLADSTSRWAQALRESSARLEEIPGEEAFPAYLESRIAAVYERAGLVQLRDG------DTGSLTLIGNVSPAGGN-FEEPVTQNTLKVVG--AFYGLSRSRSDQRRYPAIDPHISWS A0A120I9E8/72-113_186-433 --------------VSLGPGMLGNIYDGIQRPLKEIEK--Q------T-G-F-YIKRGV---QVDALDQD---KAFQEWPIRQA-------RPVANRLKSSKPLLTGQRIIDSVFPIAKGGTAAIPGGFGTGKTTMQHQIAKFADADVIVYIGCGERGNEMTEVLEDFSKLIDPR-------TNA--------PLMERTVLIANTSNMPVAAREASIYTGLTIAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRIATFYERAGDMETL-NNQN-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDSNLAHSRHYPAINWMNSYS A0A0B7GUZ0/76-117_194-441 --------------VRLGPGLIGTIYDGIQRPLEKLFD--E------T-G-S-FLHPGA---RIDPLDTQ---YLAHYWPVRNP-------RPFTQKLTVSEPLVTGQRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAIAKWCDADIIVYIGCGERGNEMTDVLTEFPQLIDPR-------TNR--------SLMERTILIANTSNMPVAAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRIKTL-SNSE-----GSISIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELANARHYPAIGWIESYS M0NCE1/81-122_191-438 --------------VDLGPGMLYSIYDGVQRPLDVLEE--Q------M-G-A-FLDRGV---DAPGIDMD---TMHQEWPVREA-------RPTLDKETPTTPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQSLAKFADADIVIYIGCGERGNEMTEVIDDFPELEDPN-------TGK--------PLMSRTCLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFQNI-NGTE-----GSISAVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDNDLAERRHFPAINWDESYS V4XW32/81-123_196-443 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREP-------RPAENKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENV-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A0F7JPA3/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLGKIRE--A------S-G-D-FIARGI---EVSSLDRT---RMAHYWPVRAP-------RPVTKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS A0A1G1PBQ9/63-104_178-424 --------------VQIGPGLLGQIFDGLQNPLPQLAE--R------H-G-F-FLKRGA---YLNALDEK---TMVQTWPVKIAI------KAYAQKLKPTQPLVTKLRIIDTLVPVAIGGTFCTPGPFGAGKTVLQHLLSRHAEVDIVIVAACGERAGEVVEILEEFPHLVDPR-------TNR--------SLMERTIIICNTSSMPVAARESSVYTGVTLAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESRIANFYERAGLVKLRDG------SKGSITIGGAVSPAGGN-FEEPVTQATLKVVG--AFHGLSRDRANARKYPSVDPLDS-- A0A0F8PH53/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEVVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAINWLNSYS M0DRB9/64-106_179-426 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPSENKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENV-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS Q18FB7/80-122_191-438 --------------VDLGPGLLDTIYDGVQRPLDILED--K------M-GSP-YLDRGV---DAPGIELD---QMRQEWPVREP-------RPTVEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIIYVGCGERGNEMTEVIDDFPELEDPS-------TGN--------PLMARTSLIANTSNMPVAARESCVYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENV-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWDESYS Q97CQ0/419-618 ------------------------LHN----------------------------------------------------------------------------------------------------------TVIQHQLAKWSDANIVVYIGCGERGNEMTEILTTFPELKDPV-------SGQ--------PLMDRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLGRRISEFYERSGRARLV-SPED---RFGSITVIGAVSPPGGD-ISEPVSQNTLRVTR--VFWALDASLANRRHFPSINWLNSYS A0A1G3L8P6/76-117_187-434 --------------VLLGPGLLEGIYDGIQRPLKDLAL--K------S-G-D-FLIPGV---KSPPLHEE---RMAHYWPVRSA-------RPYNEKLPLNMPLLTGQRVIDMFFPIAKGGTAAIPGGFGTGKTMTQHALAKWSSASIIVYIGCGERGNEMTDVLNEFPKLIDPR-------TNQ--------PLMKRTILIANTSNMPVAAREVSIYTGVTIAEYFRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPSYLPSRLAEFYERAGLVRTL-NDEH-----GSISIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDKSLANARHYPSISWLDSYS A0A0E3WQ13/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAINWLNSYS A0A0E3RHT6/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAINWLNSYS A0A0E3RM19/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAINWLNSYS A0A0E3PV76/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAINWLNSYS M1QGT0/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAINWLNSYS A0A0E3R5R7/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAINWLNSYS A7IAU8/82-123_191-438 --------------VELGPGLLTSIYDGIQRPLEVLVN--K------M-G-N-FIERGV---SAPGLSHE---PMIQRWPVRVP-------RPVKEKKNPTIPLLTGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAKIVVYIGCGERGNEMTEVLTEFPHLEDPT-------SGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGLVETL---NH---QSGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS E8WP14/71-112_177-424 --------------VQLGPGLLSGMFDGLQRPLKRLAE--A------T-G-P-FIGTGA---SAFPLDLE---SALSPWPVRKP-------RPYKRKLSPTLPLVTGQRIIDFLFPMARGGTAIFPGGFGTGKTVLEQSIAKFAAVDIVVYVGCGERGNEIAELLEEFVTLSDPW-------SDR--------SLMQRTIVVANTSNMPVAARESSIYTAVTMAEYYRDLGYHVLLLADSISRWAEALREISASLEEMPGEESYPTYLSSRLSAFFERAGVVETLDG------KTGSLSMIISVSPPGGD-FTEPVTQACLRTAG--AFFMLDTTLAHRRHFPAISWFQSYS F8EZ55/77-118_192-438 --------------VEVGPGLLGQVFDGLQNPLPKLAE--E------A-G-Y-FLERGI---YLDALPLD---AMSFRWPVKRAV------DCYAERLKPVDPMVTKVRLIDTFFPVARGGTYCIPGPFGAGKTVLQQITSRHADVDVVIIAACGERAGEVVETLKEFPELLDPK-------TGR--------SLMERTIIICNTSSMPVAAREASVYTAVTLAEYYRQMGLHVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIAAFYERAGIVRLKDG------RTGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- A0A011VUT7/72-112_186-433 ---------------TLGPGILDNMYDGIERPLKKLEE--I------S-G-A-FISEGA---NVPALDPK---TLCQKWPIRTP-------RPCAERMPMSRPLITGQRIIDTVVPVAKGGTAAIPGGFGTGKTMNQHQIAKWCDADIIVYVGCGERGNEMTQVLEEFSELIDPK-------TQR--------PLTDRTTMIANTSNMPVAAREASIYTGITLAEYYRDMGYHIAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRISEFYERAGYVKTL-NGAE-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--CFWALDKALAYARHYPAINWNTSYS W0K1Q9/79-120_189-436 --------------VDLGPGMLDSIYDGVQRPLDVLEE--E------M-G-A-FLDRGV---DAPGIDLE---SMHQEWPVRRA-------RPTTDKHTPKTPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELEDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGLFTTL-NDDE-----GSVSVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWTESYS F7XSN6/77-118_192-440 --------------VELGPGLLGQVYDGLQNPLPLLAE--K------V-G-Y-FLERGV---YLPALSRT---TMAFRWPVKRPV------HCYAERLKPTEPLVTSIRTIDTFFPVAKGGAYCIPGPFGAGKTVLQHSTSRNADVDVVVIAACGERAGEVVETLREFPDLTDPR-------TGR--------SLMERTVIVCNTSSMPVASREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESCIAAFYERAGVVRLRSG------EKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPAVHPLDSWS I0X7P7/78-118_192-439 ---------------ELGPGLLGQTFDGLQNPLPLVAE--K------A-G-F-FLERGV---YVDSLPRD---KMAFKWPVKRAV------DCYAERLAPSEPMVTQVRLIDTFYPVSKGGTYCIPGPFGAGKTVLQHTTSRNADVDIVIIAACGERAGEVVETIKEFPELKDPR-------TGR--------SLMERTIIICNTSSMPVASREASVYTSVTLAEYYRQMGLHVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLRDG------KVGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIDPIISW- M0I921/81-123_192-438 --------------VDLGPGMMDAIYDGVQRPLDVLEE--K------M-NSA-FLDRGV---DAPGIDLE---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESY- M0HUM0/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLES--K------M-GSP-YLDRGV---DAPGIDLE---TMHQEWPVRKA-------RPSQEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGNE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A0E3L9G6/64-105_174-421 --------------VELGPGLLSSIYDGVQRPLHVLLE--K------T-G-G-FIGRGV---TADGLDHE---QMMHRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS Q6MAJ5/86-126_200-447 ---------------ELGPGLLSSIFDGLQNPLVDVAD--Q------A-G-L-FLPKGI---YLSALDRQ---TMVQKWPVKNAL-------IHGEKIKPTKMMDTGERIIDTQFPLMKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVLFVACGERAGEVVEVLREFPHLIDPH-------TDE--------ALMKRTVIICNTSSMPVAARESSIYMGITIAEYYRQMGLDVLVLADSTSRWAQALREMSGRLEEIPGEEAFPAYLSSRIAEFYERSGVVSLRHG------KPGSITIGGAVSPAGGN-FEEPVTQATLSVVG--AFLGLSRARSDSRRYPAIDPLLSWS A0A0M9ANY4/82-124_193-440 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPANDKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS E1R3E2/77-118_192-437 --------------VELGPGLLTQIYDGLQNPLPELAQ--Q------C-G-F-FLQRGV---YLSALPRD---TMSFHWPVKRAI------SCFDERLKPTKPMITKVRLIDTFFPVALGGTYCIPGPFGAGKTVLQQITSRHAEVDIVIIAACGERAGEVVETLKEFPELIDPR-------TGK--------SLMERTIIICNTSSMPVAAREASVYTAVTLAEYYRQMGLNVLMLPDSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIAGFYERAGVVRLKDG------SIGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLD--- Q9HNE3/79-120_189-436 --------------VDLGPGMLDSIYDGVQRPLDVLED--E------M-G-A-FLDRGV---DAPGIDLD---QMHQEWPVRRQ-------RPTVDKQTPTEPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQSLAKFADADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTTLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFENF-NGTE-----GSISVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDSDLAERRHFPAINWDESYS A0A1B8X4F2/73-114_182-429 --------------VELGPGLLESIYDGIQRPLEVLQQ--K------M-G-D-FIERGV---TANGLTRE---SLMQKWPVRDP-------RPVDKKLSPTKPLVTGQRILDGMFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLNEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGAVHSL---AG---LDGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAIDWLTSYS A0A075GZ78/38-79_147-394 --------------VKLGPGLLTQIYDGIQRPLEDLEA--T------M-G-V-FIRRGV---DADGLDMK---AMMQEWPVRTP-------RPFVQKYAPGVPLVTGQRILDFLFPLAKGGTAGIPGPFGSGKTVTQQQLAKWSDAQIVVYIGCGERGNEMTEVLSEFPHLIDPN-------TGK--------PLMNRTTMIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLAEFYERAGRVETL-AGDD-----GSISVIGAVSPPGGD-ISEPVSQGTLRIVK--VYWGLDAGLARQRHFPSINWLSSYS X5DJF5/78-114_188-436 ----------------LGPGILSKNFDGLQHDLDKME------------G-V-FLQKGD---YTHPLEVD---SMIQKWPVKVPI------KTYKNKPRPAKFLETGIRVIDSFTPIVEGGTGFIPGPFGTGKTVLQHALSKQADADMIIVAACGERANEVVEIFAEFPELDDPR-------TGR--------KLMERTTIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKILLLADSTSRWAQALREMSNRMEELPGPDAFPMDLPAIISNFYSRAGFVHLNNG------ETGSVTFIGTVSPAGGN-LKEPVTEATKKAAR--CFYALSQNRADSKRYPAIDAVESYS M2SIP2/77-118_192-438 --------------VELGPGLLGQVYDGLQNPLPELAE--Q------A-G-Y-FLERGI---YLNALSRT---TMSFKWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- A0A101G5P3/78-119_193-438 --------------VQLGPGVLSRVYDGLQNPLNDLAA--A------H-G-F-FLPRGV---VLDAIDLN---TMIFEWPVKIPI------DAYNQKIVPKEPMSTRVRIVDTFFPVSKGGTYCIPGPFGAGKTVLQQLTSRYADVDIVIIAACGERAGEVVETLREFPKLEDPR-------TGK--------TLMERTIIICNTSSMPVAAREASVYTAATIGEYYRQMGLDVLLLADSTSRWAQAMREVSGRLEEIPGEEAFPAYLESRIAEFYERAGFVELPDG------SYGSMTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRARSDARRYPAIDPLE--- A0A0E9D3G7/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAD--T------S---L-FLRRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLTDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A1F9YZJ0/75-116_183-430 --------------VELGPGLLSSVYDGVQRPLPVLRE--T------Q-G-D-FVSRGI---TAPGLDRK---KLMQKWPVRQA-------RPYVEKLMPDIPLVTGQRVLDMLFPLAKGGTAAIPGGFGTGKTVTSQQLSKWSDAQIVIYVGCGERGNEMTEVLTTFPELEDPK-------TGK--------PLMGRTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERCGRVKVF---SG---GIGSISVIGAVSPSGGD-FSEPVTQNTLRIVK--VFWALDSKLRERRHFPAINWLTSYS A0A017PL80/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQVLAE--S------S---V-FLKRGK---YVNALCRH---TMVQKWPIKKAF-------IRGEKVPCSEIMDVGVRILDTHIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEVLQEFPHLTDPH-------TGG--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLDVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGALLMPDG------SVGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A173DXY0/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQVLAE--S------S---V-FLKRGK---YVNALCRH---TMVQKWPIKKAF-------IRGEKVPCSEIMDVGVRILDTHIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEVLQEFPHLTDPH-------TGG--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLDVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGALLMPDG------SVGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS K4MFL2/64-105_173-420 --------------VELGPGLLESIYDGIQRPLMVLQE--K------M-G-D-FIQRGV---TANGLDRE---SMMQKWPVRKP-------RPVGKKLMPNRPLITGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLNEFPELQDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYVRTL---EG---QEGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAQRRHFPSINWLTSYS A0A0F7IGL3/76-117_185-432 --------------VELGPGLLKSIYDGVQRPLPALKE--A------S-G-D-FIGRGI---DAPALDRS---RLAHKWPVRIP-------RPYKEKLPPTIPLITGQRILDTMFPVAKGGTAAIPGPFGSGKTVTQHQLAKWSDTHVVVYIGCGERGNEMTEVLEEFPELEDPR-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSIMADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVRTL-NGN-----IGSVTVVGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAARRHFPAINWLQSYS A0A075HB14/75-116_184-431 --------------VELGPGLLRSIYDGIQRPLPVLQD--S------M-G-D-YILRGV---TAPGLDHT---QLMHKWPVREP-------RPFSRKHPPDIPLVTGTRTLDGLFPIAKGGTAAIPGGFGTGKTVTQQTLAKWSDAQVVVYVGCGERGNEMTEVLTEFPHLKDPK-------TGG--------PLMDRTVLIANTSNMPVAAREASVYTGITLAEYYRDQGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLASRLSEFYERAGRVETM---AG---DDGSVTVIGAVSPAGGD-FSEPVTQNTLRIVK--VFWALDSKLAQKRHFPAINWLTSYS M0N8H1/81-122_191-438 --------------VDLGPGMLYSIYDGVQRPLDELED--Q------L-G-A-FLDRGV---DAPGIEMD---TMHQEWPVREA-------RPTVDKETPKTPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQSLAKYADADIVIYIGCGERGNEMTEVIDDFPELEDPN-------TGK--------PLMSRTCLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFQNI-NGTE-----GSISAVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAIDWDESYS E7QNY4/82-123_192-439 --------------VDLGPGMLYSIYDGVQRPLDVLED--K------M-G-A-FLDRGV---DAPGIDQG---AMQQEWPVREA-------RPSVDKQTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHSLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPR-------TGK--------PLMSRTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAEFYERAGKFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWDESYS A0A165NCH8/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVEKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS E8UBE7/77-118_186-433 --------------VELGPGMLNGIYDGIQRPLDKIRA--A------S-G-D-FIARGI---EVSSLNRE---RLAHYWPVRAP-------RPVALKKDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGVTLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLAAKLAAFYERAGAVRTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS Q662R8/76-117_191-437 --------------VELGPGLLTQVYDGLQNPLPELAI--Q------C-G-F-FLERGV---YLRPLNKD---TMSFHWPVKIPI------TNYKERLIPSEPMLTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELIDPK-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNNG------DIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAISPLES-- U1NEY0/80-122_191-438 --------------VDLGPGLLDTIYDGVQRPLDILED--K------M-GSP-YLDRGV---DAPGIELN---QMRQEWPVREP-------RPAVEKKTPREPLISGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIIYVGCGERGNEMTEVIDDFPELEDPS-------TGN--------PLMARTSLIANTSNMPVAARESCVYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENV-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWDESYS A0A0P6VJA7/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHILLE--K------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRTP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDSKLSQRRHFPAINWLNSYS M0P8W6/64-106_179-411 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPSENKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGAFENI-NGTE-----GSVSAIGAVSLPGGD-FSEPVTQNTLRIVK--TFWALDADLA--------------- L5NWL0/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-DSA-FLDRGV---DAPGIDLD---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A0U5LTW1/100-137_203-450 --------------VRLAPDLLGGVFDGLLRPLADAGD---------------LLTVGG---RESGERHR---RMEQAWPVRRP-------RPVARRLPADVPLTTGQRAVDLLFPVARGSTVAVPGGFGTGKTMLLQQIAKWCDADVIVYVGCGERGNEMADVIGELAELTDPR-------TGG--------RLADRTVTIANTSNMPMMAREASVHTGATVAEYFRDMGLDVVLIADSTSRWAEALREFASRMGELPAEEGYPAGLASQLAAFYERAAAVRTL-GGGT-----GSVTVIGAVSPPGGD-RTEPVTAHTERFVR--CLWSLDRDLAYARHYPAVSWSESFS A0A1G9BGF8/79-120_188-435 --------------VELGPGLLTSIYDGIQRPLEVLMD--K------M-G-S-FIKRGV---SAPGLSHE---TMLQRWPVRVP-------RPVKEKLNPDVPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGRAISL---NG---ASGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS L0AI99/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVRQA-------RPAGNKETPTEPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRFELI-NGDE-----GTISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS D2RPR5/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDVLEG--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLM-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS L9WGB0/82-124_193-440 --------------VDLGPGVLDAIYDGVQRPLDVLEE--K------M-GTA-FLDRGV---DAPGIDFE---TMHQEWPVRQA-------RPADTKETPTVPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPK-------TGK--------PLMSRTCLIANTSNMPVAARESCIYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQNI-NGTE-----GSVTAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A1J4VNP3/77-118_192-437 --------------VELGPGILSQIYDGLQNPLPEIAK--E------F-G-F-FLPIGV---ELGAISYD---SMVFEWPVKIPI------TAYKEKLSPTETLTTKVRVIDTFFPIAKGGTYCIPGPFGAGKTVIQQLTSRYAEVDIVIVAACGERAGEVVETLREFPHLKDPK-------TGK--------SLMDRTIIICNTSSMPVAARESSVYTATTIAEYYRQMGLDVLLLADSTSRWAQAMREISGRLEEIPGEEAYPAYLESRIAQFYERAGIVKLHDG------DTGSLTIGGTVSPAGGN-FEEPVTQGTLKVVG--AFHGLSRDRANARKFPSIDPLE--- A0A0W8F3M8/73-114_181-430 --------------VELGPGLLSSIYDGIQRPLPLLAE--I------S-G-S-FISRGV---SLSGLSHE---PLLQTWPVRKG-------RPYQRKMDPDTLLVTGQRVFDTLFPVTKGGTAMIPGGFGTGKTVAEQTLAKWSDTQIVVYIGCGERGNEMTDVLTEFPELLDPR-------TKR--------PLIQRTILIANTSNMPVAAREASIYTGITLAEYYRDMGYDVALMADSTSRWGEALREVSGRLEEMPGEQGYPAYLATRLAAFYERAGRVVCL-GSDG---RKGSVTVVGAVSPPGGD-FSEPITQNTLRIAG--TFWALDTNLAYRRHFPSVNWIKSYS A0A117LR32/74-117_188-436 --------------IDLGPGLLGSVLDGIGRPL--LGSFPE------D-SVSCFLKRGF---FSRSLDTK---SLCQRWYVRTP-------RPCAEKLSFSEPLITGQRVLDTLFPVALGGAAVVPGGFGTGKTVTQQSLAKWCNAEVVVYIGCGERGNEMTEVLEEFPHIRDPH-------TGR--------PLMERMVLIANTSNMPVAAREASIYLGMTIAEYFRDMGLDVALMADSTSRWAEALREISGRLGEMPGEEGYPAYLGSRLAQYYERAGRVMAL-GEPR---RKGSITIFNAVSPGGGD-FSEPVTQASLRLSG--AFWALDKRLAESRHFPSINWKQSY- A0A101I584/74-117_188-436 --------------IDLGPGLLGSVLDGIGRPL--LGSFPE------D-SVSCFLKRGF---FSRSLDTK---SLCQRWYVRTP-------RPCAEKLSFSEPLITGQRVLDTLFPVALGGAAVVPGGFGTGKTVTQQSLAKWCNAEVVVYIGCGERGNEMTEVLEEFPHIRDPH-------TGR--------PLMERMVLIANTSNMPVAAREASIYLGMTIAEYFRDMGLDVALMADSTSRWAEALREISGRLGEMPGEEGYPAYLGSRLAQYYERAGRVMAL-GEPR---RKGSITIFNAVSPGGGD-FSEPVTQASLRLSG--AFWALDKRLAESRHFPSINWKQSY- A3CS71/79-120_188-435 --------------VELGPGLLTSIYDGIQRPLEVLVD--K------M-G-N-FIERGV---SAPGLSHE---AMLQRWPVRVP-------RPVTQKLNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVISL---NG---EGGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS Q72J72/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS A0A0Q1ACX3/75-115_183-430 ---------------QLGPGILTSIYDGIQRPLPKLVE--A------S-G-N-FISRGL---FVDGIDHK---PMIQYWPVRRA-------RPSRSKEAPSIPLRTGQRVIDGFFSLAKGGTAAIPGGFGTGKTVMQQTLSKWSDVDIVVYVGCGERGNEMADLLHEFPELVDPR-------TDR--------PLMERSIVYANTSNMPVAAREASIYTGITTGEYYRDMGYDVMMTADSTSRWAEAMRELSSRLEEMPGEEGYPAYLGARLADFYERSGRVTTL-EGTE-----GSVSIVGAVSPPGGD-FTEPVTQNTLRITK--VFWALDSKLTQRRHFPSINWLDSYS A0A101FV90/75-115_183-430 ---------------QLGPGILTSIYDGIQRPLPKLVE--A------S-G-N-FISRGL---FVDGIDHK---PMIQYWPVRRA-------RPSRSKEAPSIPLRTGQRVIDGFFSLAKGGTAAIPGGFGTGKTVMQQTLSKWSDVDIVVYVGCGERGNEMADLLHEFPELVDPR-------TDR--------PLMERSIVYANTSNMPVAAREASIYTGITTGEYYRDMGYDVMMTADSTSRWAEAMRELSSRLEEMPGEEGYPAYLGARLADFYERSGRVTTL-EGTE-----GSVSIVGAVSPPGGD-FTEPVTQNTLRITK--VFWALDSKLTQRRHFPSINWLDSYS S3KU71/77-118_192-438 --------------VELGPGLLGQVYDGLQNPLPELAE--Q------A-G-Y-FLERGI---YLNALSRT---TMSFKWPVKRAI------DCYAERLKPTETLVTKMRTMDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- C7P2T0/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSP-YLDRGV---DAPGIDLE---QMRQEWPVRQQ-------RPSEEKQTPTTPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFQNI-NGSE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A1F6LA71/76-117_191-436 --------------VELGPGLLTQIFDGLQNPLPQLAE--K------C-G-F-FLQRGM---YLPALPRA---TLMQRWPVKIPI------KNYVERIKPVDPLVTKIRIIDTFFPVARGGTFCVPGPFGAGKTVLQQMTSRQAEVDVVIIAACGERAGEVVETLREFPEVMDPR-------TGR--------SLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLHALLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESVIAAFYERAGLVRLKDG------RTGSITVGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKFPAIHPLD--- A0A0F8SQH8/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLA--S------T-G-G-FIGRGV---TADGLDHK---QLMQRWPVRRP-------RPVREKLTPDKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---NG---AKGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0D6JU72/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-NSA-FLDRGV---DAPGIDLE---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS J3JFX4/82-124_193-440 --------------VDLGPGLLDSIYDGVQRPLDVLEE--K------M-NSP-YLDRGV---DAPGIEMD---TMHQEWPVREA-------RPSATKMTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWSESYS M0LI62/84-126_195-442 --------------VDLGPGMLDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVRQA-------RPAENKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRFELI-NGDE-----GTISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS U2KK32/73-114_184-431 --------------VRLGPGLVGTIYDGIQRPLKNMFD--D------T-G-V-FLTPGV---RTQPLDTE---YLAQYWPVRKP-------RPYAQKMTVSQPLVTGQRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADLIVYIGCGERGNEMTDVLTEFPSLTDPR-------TGR--------SLMERTILIANTSNMPVAAREVSLYSGITLAEYYRDMGMAVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVTSL-CGKE-----GSVSVIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELANARHYPAIGWIESYS A0A1G3MDS0/77-118_192-440 --------------VELGPGLLGKIYDGLQNPLPEVAA--K------T-G-Y-FLEPGV---YLDALSRT---TMMFEWPVKRAI------DCYAERLKPTVPMVTKTRIIDTFFPVAKGGTYCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELMDPR-------TGK--------SLMERTIIVCNTSSMPVAAREASVYTAVTMAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVRLKNG------TTGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDSWS A0A081BTD9/76-117_189-436 --------------VELGPGLLKNIYDGIQRPLADIQA--L------Q-G-D-FIHRGA---QVNALDRK---KLYHRWPVRRP-------RPYRQRQTPSIPLITGQRVIDTFFPIAKGGTAAVPGGFGTGKTITQHQLAKWCDANLIVYIGCGERGNEMTGVLVDFPKLIDPK-------SGN--------PLMERTILIANTSDMPVAAREASIYTGITIAEYYRDMGYDVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLATRLAEFYERAGRVTTL-NGSE-----GSITVIGAVSPPGGD-FSEPVTQHTKRFVR--CFWGLDKELASARYFPAINYMDSYS B4UH39/72-113_181-427 --------------VELGPGLLGSVFDGVQRPLSELAA--R------E-G-D-FLGRGA---SLPALDRA---ALLERWPVRRP-------RPARRRLPPDVPFLTGQRVLDCFFPVSAGGTAVVPGGFGTGKTVLEQSLAKWAAADVVVYVGCGERGNEMSEVLDEFPRLEDPR-------TGG--------PLLARTVMIVNTSNMPVAAREASIYTGCAIAEYFRDMGRSVALMIDSTSRWAEALREISARLEEMPGEEGYPTYLASRLARFYERAGRVETL-GGAE-----GAVTMVGAVSPPGGD-LSEPVTQCSLRATG--ALWALSADLAHRRHYPAVDWSVSF- M4YJ33/50-91_158-404 --------------VELGPGLLTSVYDGIQRPLPVLRD--K------M-G-D-FIYRGA---TAPGLNRE---PMMQKWPVRAP-------RPVIEKYNPDVPLITGLRVLDTMFPLAKGGAAAIPGAFGTGKTVTQQSLAKYSDAQIVVYIGCGERGNEMTEVLTEFPALKDPT-------TGE--------SLMKRTILIANTSNMPVAAREASVYTGMTIAEYFRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSGRLSEFYERACRGKTLCG------EDGSISVIGAVSPPGGD-LSEPVTQNTLRIVR--VFWALDTKLRERRHFPTINWLTSY- A0A1G3QUY4/77-118_192-438 --------------VQLGPGLLGQIFDGLQNPLPLIAA--Q------H-G-F-FLPRGV---YLTALPGD---TMVFNWPVKRPI------NAYAERLKPTEPLITKVRIIDSFFPVARGGTYCIPGPFGSGKTVLQQVTSRHAEVDVVVIAACGERAGEVVETLREFPELIDPR-------TGR--------ALMERTVIICNTSSMPVAAREASVYTAVTIAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGVVRLKDG------GTGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERAESRKYPAIHPLES-- A0A0E3LKP2/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQKWPVRRP-------RPVRTKLTPTRPLVTGMRILDGLFPVAKGGTAAIPGPFGSGKTVTQQSLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAESL---CG---ETGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS M0DR71/82-124_197-444 --------------VDLGPGVLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPSANKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIIYVGCGERGNEMTEVIEDFPELEDLA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENV-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS H7GGU7/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------XPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERXGKVXTL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS Q3KM54/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAD--T------S---L-FLRRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLTDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A0E9CG31/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAD--T------S---L-FLRRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLTDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS G4NMF3/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAD--T------S---L-FLRRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLTDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A1H8QJR0/82-124_193-439 --------------VDLGPGLLDSIYDGVQRPLDVLEE--K------M-NSP-YLDRGV---DAPGIEMD---TMHQEWPVREA-------RPSETKMTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESY- D3S1G4/72-113_181-428 --------------VELGPGLLKSIYDGVQRPLPALKE--A------S-G-D-FIGRGI---DAPALDRK---KLYHKWPVRQP-------RPYREKLPPQIPLITGQRILDTLFPVAKGGTAAIPGPFGSGKTVTQHQLAKWSDTHVVVYIGCGERGNEMTEVLEEFPELEDPR-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVGLMADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVRTL-NGN-----IGSVTIIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAARRHFPAINWLQSYS A0A075GRK5/73-114_182-429 --------------VELGPGLLRSIYDGIQRPLPVLQE--K------M-G-D-YIQRGV---TAPGLDHD---KLMHKWPVRVP-------RPFTVKHPPDIPLVTGTRTLDGLFPLAKGGTAAIPGGFGTGKTVTQQTLAKWSDAQVVVYVGCGERGNEMTEVLTEFPHLKDPR-------TGG--------PLMDRTVLIANTSNMPVAAREASVYTGITLAEYYRDQGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVESL---SG---EDGSVTVIGAVSPAGGD-FSEPVTQNTLRIVK--VFWALDSKLAQRRHFPAINWLTSYS M0K923/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVEKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0JUS6/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVEKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0KMQ1/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVEKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS W5SHN0/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLSELAT--K------C-G-F-FLERGL---YLSALDRN---TMSFHWPVKVPV------TSYKKRLIPNETMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGDEAFPAYLESVIASFYERAGVVVLNNG------SVGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLD--- C8PMZ2/77-118_192-440 --------------VELGPGLLGRVYDGLQNPLPDLAE--K------A-G-Y-FLERGI---YLNALPTE---TMSFRWPVKRAI------DCYAERLKPSETLVTKIRTVDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNAEVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGR--------TLMERTVIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLKDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDSWS H7EMM1/78-118_192-440 ---------------ELGPGLLGQVYDGLQNPLPLLAE--K------A-G-W-FLERGI---YVDPLDRE---TLSFKWPVKRAV------NCYEERLAPTETMVTKVRLIDTFFPVARGGTYCIPGPFGAGKTVLQHTTSKYADVDIVIIAACGERAGEVVETLTEFPELKDPK-------TGK--------SLMERTIIICNTSSMPVASREASVYTSVTLAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYMESYIAAFYERAGQVRLSDG------TTGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRARSDARKYPAIDPIQSWS B7J127/76-117_191-437 --------------VELGPGLLTQVYDGLQNPLPELAI--Q------C-G-F-FLERGV---YLRPLNKD---TMSFHWPVKVPI------TNYKERLIPSEPMLTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDVVIIAACGERAGEVVETLKEFPELMDPK-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNNG------DIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAISPLES-- A0A0T5XCS3/47-86_156-405 ---------------KLGPGLLGQVLDGIGRPLERLGK--K------S---P-YISRGT---HIDAVDDS---KMSQRWNIRTP-------RNVGRKLDLDKPFLTGTRILDVFFPLALGGTAVIPGGFGTGKTVTQQSIARWANADIVIYIGCGERGNEMTEVLEEFPSLTDVR-------RGI--------PLMDRMILIANTSNMPVAAREASIYLGMTIAEYYRDMGYNVAIIADSISRWAEALREISGRLEEMPGEEGYPAYLASRLARYYERAGNVVPL-GSPQ---RNGSISVINAISPPGGD-FSEPVTQSGLRLSG--CFWALDKGLATKRHFPSINWAQSYS R7PXI7/73-114_181-428 --------------VELGPGLLTSVYDGIQRPLPVLRD--M------T-G-D-FIGRGA---TAPGLSRE---PMMQKWPVRVP-------RPVTEKYNPDVPLVTGLRVLDTMFPLAKGGAAAIPGAFGTGKTVTQQSLAKYSDAEIVVYIGCGERGNEMTEVLTEFPELKDPK-------TGE--------SLMKRTILIANTSNMPVAAREASVYTGMTIAEYFRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSGRLSEFYERACRGKALCG------DDGSISVIGAVSPPGGD-LSEPVTQNTLRIVR--VFWALDTKLRERRHFPTINWLTSYT M9SET6/73-114_181-428 --------------VELGPGLLTSVYDGIQRPLPVLRD--M------T-G-D-FIGRGA---TAPGLSRE---PMMQKWPVRVP-------RPVTEKYNPDVPLVTGLRVLDTMFPLAKGGAAAIPGAFGTGKTVTQQSLAKYSDAEIVVYIGCGERGNEMTEVLTEFPELKDPK-------TGE--------SLMKRTILIANTSNMPVAAREASVYTGMTIAEYFRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSGRLSEFYERACRGKALCG------DDGSISVIGAVSPPGGD-LSEPVTQNTLRIVR--VFWALDTKLRERRHFPTINWLTSYT F8E6W3/73-112_178-426 ----------------LGPGLMGNIFDGLQRPLEKIVE--E------E-G-SFFAGKAV--HHFDQLKYS-----YSQQPVRIP-------LVSGDKQILKEPIITGQRVIDFFFPLMKGGVSIIPGGFGTGKTVLEQSIAKYADVDIVLYVGCGERGNEIAEMIEEFTTIKDER-------EDR--------LLRDRTVFVVNTSNMPVAARESSIYMAVCAGEYYRRMGYHVLLLADSISRWAEALKEISSSLEEMPGEEGYPTYMSSRIASYVERAGAVKTA--VEK---KTGSLSMVLSVSPPGAD-FAEPVTQTLLQNSG--VFLMLDRELAYARHYPAINWTQSYS A0A1G0AF54/75-116_184-431 --------------VELGPGLLGNIYDGIQRPLPVLQA--T------M-G-D-FILRGV---QAPGLSRD---MLKHDWPVRRP-------RPVKDRLMPTVPLITGQRVMDFLFPIAKGGTAAIPGGFGTGKTVSEQQLSKWCDAQVVIYIGCGERGNEMTEVLTTFPKLEDPY-------TGA--------PLMDRMALIANTSNMPVAAREASVYTGMTLAEYYRDMGYNVALMADSTSRWAEAMRELSSRLEEMPGEEGFPAHLSARLSEFYERAGRVTTL-NDRE-----GSVSVVGAVSPSGGD-FSEPVTQGTLRIVK--VFWALDTALRARRHFPAINWLTSYS A0A0Q1FC39/77-118_186-433 --------------VELGPGLLTSIYDGIQRPLEVLME--K------M-G-D-FIERGV---SAPGLSHE---QMMHKWPVRVP-------RPVTEKKNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQALAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVEAL---NG---ESGSVTVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLDSYS F4LQ42/73-114_184-431 --------------VRLGPGLVGTIYDGIQRPLAAMFS--E------G-G-A-FLLPGQ---RTEPLDTH---YFSQYWPVRKP-------RPYAQKMTVTEPLVTGQRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADLIVYIGCGERGNEMTDVLTEFPSLIDPR-------TGR--------SLMERTILIANTSNMPVAAREVSLYSGITLAEYYRDMGMAVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVNSL-CGKE-----GSVSVIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELANARHYPAIGWIESYS E8PNV7/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIQE--R------T-G-I-YITRGV---VVHPLDRE---KLYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQALAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVITL-GGEE-----GAITIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS A1QYP3/76-117_191-437 --------------VELGPGLLSQVYDGLQNPLSELAA--Q------C-G-F-FLERGL---YLSALDRS---TMSFHWPVKVPI------TSYKDRLIPSEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDVVIIAACGERAGEVVETLKEFPELIDPR-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNDG------NVGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLES-- A0A063ZM91/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQLI-NGDE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSIDWNESYS A0A1J5TI13/73-114_182-429 --------------VELGPGLLTSIYDGIQRPLPVLQE--K------M-G-D-YIERGV---TAPGLDHS---KLMQLWPVRVP-------RPYNKKFRPDIPLVTGTRTLDGLFPIAKGGTAAIPGGFGTGKTVTQQTLAKWSDAQIVVYVGCGERGNEMTEVLTEFPHLKDPK-------TGG--------PLMDRTVLIANTSNMPVAAREASVYTGITLAEYYRDQGYDVAMMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVQTK---ND---ESGSVTVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDSKLAQKRHFPAINWLTSYS M0CC24/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDVLEG--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQLM-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A1F5RHU7/82-121_195-443 ----------------LGPGMLGNIYDGLQNPLALLEN--N------Q-G-F-FLKRGQ---YLPPLDEE---TMKQEWPVKQPM------RAYRERLLPDKQLLTQCRLIDIFFPLAEGGTACIPGPFGAGKTVLQQIISRYAEADIVIIVACGERAGEVVETIREFPQLEDPK-------TGR--------SLMDRTVIICNTSSMPVAAREASIYTGLTLGEYYRQLGLKVLLLADSTSRWAQALRESSARLEEIPGEEAFPAYLESRIAAVYERAGVVKLHNE------STGSLTMIGSVSPAGGN-FEEPVTQNPLKVVG--AFHGLSRSRSDQRRYPAIDPLISWS S3KBH8/77-118_192-440 --------------VELGPGLLGRVYDGLQNPLPDLAE--K------A-G-Y-FLERGI---YLNALPTE---TMSFRWPVKRAI------DCYAERLKPSETLVTKIRTVDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNAEVDIVIIAACGERAGEVVETLKEFPELIDPR-------TGR--------TLMERTVIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLKDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDSWS A0A0E3PSV6/73-114_183-430 --------------VELGPGLLSSIYDGVQRPLHVLLE--K------T-G-G-FIGRGV---TADGLDHE---QMMHRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVADTL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS W5SDY6/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLPALAA--Q------C-G-F-FLDRGV---YLSALDRT---TMSFHWPVKIPI------TNYKDRLIPNEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNANVDIVIIAACGERAGEVVETLKEFPELIDPK-------TGK--------SLIERTCIICNTSSMPVAAREASVYTAITIAEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNNG------NIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLE--- A0A1F6GFK0/77-117_191-437 ---------------QLGPGLLGKLFDGLQNPLNRLAE--E------K-G-F-FTPRGY---QIPALEPS---TLSFFWPVKNAI------KFYQERLAPNEPLVTQVRIVDGLFPVAKGGTYCIPGPFGAGKTVLQQITSRYAEVDVVILAACGERANEVVETIKEFPGLKDPK-------TGR--------SLMERTIIICNTSSMPVAARESSVYTAVTLGEYYRMMGLDVLLLADSTSRWAQALRERSGRLEEIPGEEAFPAYLESMIAGFYERAGRVRLRSG------GLGSLTIGGTVSPAGGN-FEEPVTKATLKVVG--AFHALSRERSDARRFPAIDPLES-- A0A1J4M106/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMRQEWPVRQA-------RPAGDKETPTEPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAIDWNESYS M0B3M1/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVRQA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFELI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A075WCE2/78-119_188-435 --------------VELGPGLIRNIYDGVQRPLPVLKE--V------S-G-D-FIGRGI---EAPGLDRK---KLYHKWPVRIP-------RPYVEKLPPVVPLITGQRILDTFFPVAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQIVVYIGCGERGNEMTEVLEEFPELEDPR-------TGK--------PLMERTVLVANTSNMPVAAREASVYTGITIAEYFRDMGYDVAIQADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVKTL-AGN-----IGSVTVVGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAARRHFPAINWLQSYS A0A0W1RAK1/81-123_192-439 --------------VDLGPGLLDTIYDGVQRPLDVLEE--K------M-NSA-FLDRGV---DAPGIEMD---TMHQEWPVRQA-------RPSAEKKTPRIPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWSESYS A0A0R3JSD6/74-115_186-433 --------------VKLGPGIIGNIFDGIERPLNYIYN--S------T-G-K-FISEGI---GLVSIDMN---KLYQEWPVRIP-------RPVKERKPIEKPLITGQRVIDTFFPIAKGGTSAIPGGFGTGKTMTQHQLAKWSDADVIVYIGCGERGNEMTEVLEDFPKLIDPN-------SKL--------PLMNRTILIANTSNMPVAAREASIYTGITIAEYFRDMGYNVAIMADSTSRWAEALREISGRLEEMPAEEGYPAYLASRLAEFYERAGYVETL-GGKE-----ASVTIIGAVSPAGGD-FSEPVTQNTKRFVS--VFLSLDKMLAYSRHYPAINWLSSYS A0A0B8NNJ9/78-111_179-425 ----------------LYPGLLGGVFDGLLRPLADAPT---------------WLEPGR---SPEADGT-----LTEHWPVRVP-------RPRRGRQPGTAPLQTGQRAVDLLFPVLRGGSVSVPGGFGTGKTMLLQQLAKWCDADVIVYVGCGERGNEMAEIVAELLALIDPR-------TGG--------PLAQRTVIIANTSNMAMMAREASVYTGVTVAEFFRDMGYHTVLVADSTSRWAEALREFASRTGALPAEEGYPANLASALAAFYERAGVVTTL-GGAS-----GSVTIVGAVSPPGGD-VSEPVTIQTERFVR--CRWTLDRDLAYARHYPAVSWSNSF- A0A1F8JKM7/80-120_194-441 ---------------ELGPGLLATVIDGLQNPLEKVAS--A------S-G-L-FLTRGI---SIPPLDRE---RMLQRWPVKIPL-------CIGEKIKSTKMLDTGLRIIDSQFPLIKGGAFCAPGPFGAGKTVLQHHLSKYSDVDIVVVVACGERAGEVVEVLKTFPHLTDPH-------TSD--------PLMERTVIVCNTSSMPVSSRETSIYMGATIGEYYRQMGLDVLLLADSTSRWAQAMREMSGRLEEIPGDEAFPAYLASRIAAFYERSGVVSLKGG------KEGALTIGGTVSPAGGN-FEEPVTQATLSVVG--AFHGLSRVRSDARRYPAIDPLISWS A0A0W8EW28/81-122_190-437 --------------VELGPGLLTSIYDGIQRPLSVLVD--K------M-G-D-FIQRGV---SAPGLDHQ---TMMQKWPVRVP-------RPVLEKMNPTIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGLVRAL---SG---KNGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A075I608/1-31_99-346 -------------------------YDGIQRPLADLEA--K------M-G-V-FIKRGV---DADGLDMK---AMMQEWPVRTP-------RPFVQKYAPGVPLVTGQRILDFLFPLAKGGTAGIPGPFGSGKTVTQQQLAKWSDAQIVVYIGCGERGNEMTEVLSEFPHLIDPN-------TGK--------PLMNRTTMIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLAEFYERAGRVETL-AGDD-----GSISVIGAVSPPGGD-ISEPVSQGTLRIVK--VFWGLDAGLARQRHFPSINWLSSYS K1L0Q6/75-113_187-435 --------------VELGPGILSKKYDGLQNDLAKMS------------G-L-FIDIGQ---TTPPLDND---TMVQKWPVKRAI------NTFKQKVRPNTILQTGLRVIDTLNPIAEGGTGYIPGPFGTGKTVLQQAIAKNSKTDVLMIVACGERANEVVEIFTEFPQLTDPV-------TGR--------TLDEKTTIICNTSNMPVAAREASVYVGMTLAEYYRAMGLKVLILADSTSRWAQALREMSNRMEELPGPDAFPVELPAVIANFYSRAGLTELNNG------AWGSVTFIGTVSPAGGN-FKEPVTESTSKVAR--CFYALSQKRADAKRYPAIDPIASYS I4BVZ8/75-115_184-433 --------------IKLGPGLLGQVLDGIGRPLGKLGE---------S-S-P-YISKGT---HRDAIGGE---KLHQKWNVRVP-------RNVEKKLDLDRPLITGTRVLDVFYPLALGGTAVIPGGFGTGKTVTQQSIARWANADIVIYIGCGERGNEMTEVLEEFPKLKDVR-------KDA--------PLMDRMILIANTSNMPVAAREASIYLGMTIAEYYRDMGYDVAIIADSISRWAEALREISGRLEEMPGEEGYPAYLASRLARYYERSGNVVAL-GNPK---RTGSISVINAISPPGGD-FSEPVTQAGLRLSG--CFWALDKALATKRHFPSVNWTQSYS Q891P1/79-119_191-438 ---------------KLGPGIIGNMFDGIQRPLKKINE--I------S-Y-G-FIDEGI---GLISIDEE---NLYQRWPVRTP-------RPIKNRLSLGKPLITGQRILDMFFPIAKGGTVAIPGGFGTGKTMTQHQLAKWSDADIIVYIGCGERGNEMTEVLEDFPKLIDPK-------TNT--------SLMNRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVAIMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRIAEFYERAGYVENL-NDTE-----GSVTVIGAVSPAGAD-FSEPVTQNTKRFVG--AFLGLDRKLAYARHYPAINWLTSYS M0LQZ9/81-122_191-438 --------------VDLGPGMLYSIYDGVQRPLDVLED--R------M-G-A-FLDRGV---DAPGIDLD---TMHQEWPVRET-------RPTVDKQTPTTPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQSLAKFADADIVIYIGCGERGNEMTEVIDDFPDLEDPN-------TGK--------PLMSRTCLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSAFYERAGYFENI-NGTE-----GSISAVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDSDLAERRHFPAIDWNESYS A0A069ZZH9/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEVLAD--T------S---L-FLKRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLTDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS Q9PK85/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEVLAD--T------S---L-FLKRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLTDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS F8F3L0/73-114_192-439 --------------VLLGPGLIGTIYDGIQRPLDTLYQ--Q------D-G-P-FLKPGS---RGEALDLT---PIAQWWPVRLP-------RPVAKKLAPDTPLLTGLRVIDVLFPLSKGGTAAIPGGFGTGKTMTQHAIAKWCDADVIVYIGCGERGNEMTDVLTEFPHLIDPR-------SGR--------SLMERTILIANTSNMPVAAREVSIYTGVTLAEFYRDMGYHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVNTF-SNRE-----GSVSIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELANARHYPAISWIDSYS A0A151AC29/83-124_193-440 --------------VDLGPGMLDTIYDGVQRPLDVLES--R------M-G-A-FLDRGV---DAPGIDLE---AMRQEWPVRQA-------RPTENKRSPDRPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQSLAKFSDADIVVYIGCGERGNEMTEVIDDFPDLPDPQ-------TGN--------ALMARTCLIANTSNMPVAARESCVYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGLFENI-NGTE-----GSISAVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWTESYS A0A1J4SLE1/73-114_186-401 --------------VELAPGLIGSIYDGIQRPLDVIME--R------A-G-E-YIVRGV---EAEALDRR---TMMQKWPVRKP-------RPYKNKMPSQAPLVTGQRIVDTFFPVTKGGVACIPGPFGAGKTVMLHEIAKWADADIIVYIGCGERGNEMTDVLMEFPKLKDPR-------TGE--------SLMKRSILIANTSNMPVAAREASVYTGITLAEYYRDMGYDVAVMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGMRIAQFYERAGRVVTL-GNLE--CQRVNVST------------CQKRDQETDQSSD---------------H----------- A0A1F5R1Z6/72-113_182-431 --------------VELGPGLLEAIFDGIQRPLDQIKK--M------E-G-D-FIARGV---EVPSLDRE---QMMHAWPVREP-------RPFKKKMDPNEMFITGQRILDTLFPVAMGGTAAIPGPFGSGKTVVQQTLAKHSNAQVIIYVGCGERGNEMTEVLTEFPELKDPK-------TGR--------PLMERTVLIANTSNMPVAAREASIYTGITLAEYFRDMGFSVAMMADSTSRWAEALREISSRLEEMPGEEGYPTYLSSKLAAFYERAGRTVCL-GSDG---RIGSVTVVGAVSPPGGD-FSEPVTQSTLRIVG--TFWALDASLAQRRHFPAINWNRSYS E7MPP1/73-113_187-434 ---------------TLGPGILRNIYDGIQRPLDEIAK--E------Q-G-A-FIAEGK---SVPALDLE---KLMQQWAIRNP-------RPIIKREPISIPLITGQRVIDTMFPIAKGGSSAIPGGFGAGKTMLQHQIAKWCDADIIIYVGCGERGNEMTQVLEEFAELIDPK-------SGK--------PLLDRTVLIANTSNMPVAAREASIYTGVTMAEYYRDMGYHVALMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRIAQFYERAGMVDAL-SGKK-----GSVTLIGAVSPQGGD-FSEPVTQNTKRFVR--SFWALDKSLAYMRHYPAVNWTDSYS B5RQS2/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLPELAT--K------C-G-F-FLERGL---YLSALDRN---TMSFHWPVKVPV------TSYKKRLIPNETMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAITISEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGDEAFPAYLESVIASFYERAGVVVLNNG------SVGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLD--- A0A1L7DER8/78-119_196-443 --------------VRLGPGLIGTIYDGIQRPLERLFQ--E------D-G-A-FLRPGA---RSQPLDGS---FLSQYWPVRRA-------RPFSKKLAVCEPLVTGQRAIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADIIVYIGCGERGNEMTDVLSEFPKLIDPR-------TGR--------SLMERTILIANTSNMPVSAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVETC-VARE-----GSVSIIGAVSPLGGD-FSEPVTQHTKRFIR--CFWALDRELAHARHYPAIGWIDSYS M0EW13/82-124_193-440 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPANDKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS U6EYM4/76-116_188-435 ---------------KLGPGIIGNMFDGIQRPLKKINE--I------S-Y-G-FIDEGI---GLISIDEE---NLYQRWPVRTP-------RPIKNRLSLGKPLITGQRILDMFFPIAKGGTVAIPGGFGTGKTMTQHQLAKWSDADIIVYIGCGERGNEMTEVLEDFPKLIDPK-------TNT--------SLMNRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVAIMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRIAEFYERAGYVENL-NDTE-----GSVTVIGAVSPAGAD-FSEPVTQNTKRFVG--AFLGLDRKLAYARHYPAINWLTSYS H8I4X3/73-114_181-430 --------------VELGPGLISSIYDGIQRPLPRLYE--R------S-G-D-FISRGM---AAPGLDRA---RLMHEWPVRKG-------RPYKKKLDTNLPLITGQRVFDLIFPVSKGGTAMIPGGFGTGKTVSEQTLAKWSDAHVVVYIGCGERGNEMTDVLTEFPELVDPR-------TGL--------PLIQRTIMVANTSNMPVAAREASIYTGITMAEYFRDMGYDVALMADSTSRWGEALREVSGRLEEMPGEEGYPAYLPTRLSAFYERAGRTVCL-GSDG---RIGSVTVVGAVSPPGGD-FSEPITQNTLRAVG--TFWALDTSLAYRRHFPSVNWIKSYS A0A1F9ZBM9/83-124_192-439 --------------VELGPGLLGNIYDGIQRPLPVLRS--V------M-G-D-FILRGV---RSPGLSRE---MLKQDWPVRQP-------RPVKERLMPTIPLITGQRVMDFLFPIAKGGTAAIPGGFGTGKTVSEQQLSKWCDAQVVIYIGCGERGNEMTEVLTTFPKLDDPY-------TGA--------PLMERMVLIANTSNMPVAAREASVYTGMTLAEYYRDMGYNVALMADSTSRWAEAMRELSSRLEEMPGEEGFPAHLSARLSEFYERAGRATTL-NGLE-----GSVSVVGAVSPSGGD-FSEPVTQGTLRIVK--VFWALDTALRARRHFPAINWLTSYS A0A0B3APE3/1-178 -------------------------------------------------------------------------------------------------------------------------------------------M------------GCGERGNEMTEVLTEFPELIDPK-------TGK--------ALMNRTVLIANTSNMPVAAREASIYTGVTIAEYFRDMGYSVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSTRLAQFYERAGRVIPL-SAE----KEGSVSIIGAVSPPGGD-FSEPVTQSTLRVTK--VFWALDAKLAQRRHFPSINWLTSYS I3R1D1/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-DSA-FLDRGV---DAPGIDLE---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGQE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A0P0IWP7/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHILLE--K------T-G-G-FIGRGI---TADGLDHK---QMMQKWPVRTP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A1I6YJU5/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHILLE--K------T-G-G-FIGRGI---TADGLDHK---QMMQKWPVRTP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0E3H9F9/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHILLE--K------T-G-G-FIGRGI---TADGLDHK---QMMQKWPVRTP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0E3L0G8/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHILLE--K------T-G-G-FIGRGI---TADGLDHK---QMMQKWPVRTP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0W7TIE2/73-114_181-428 --------------VELGPGLLTSVYDGIQRPLPVLRE--M------T-G-D-FIGRGA---TAPGLNRE---PMMQKWPVRSA-------RPVAEKYNPDVPLITGLRVLDTLFPLAKGGAAAIPGAFGTGKTVTQQSLAKYSDADIVVYIGCGERGNEMTEVLTEFPNLKDPR-------TGE--------SLMKRTILIANTSNMPVAAREASVYTGMTIAEYFRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSGRLSEFYERACRAKALCG------DDGSISVIGAVSPPGGD-LSEPVTQNTLRIVR--VFWALDTKLRERRHFPTINWLTSYS Q12WL1/73-114_182-429 --------------VELGPGLLESIYDGIQRPLPVLQE--K------M-G-N-FIQRGV---TANGLDRE---SMMQKWPVRGP-------RPVAKKLMPTKPLITGQRILDGMFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLNEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSSSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGAVNSL---AG---LDGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPSINWLTSYS C7NNT8/81-123_192-439 --------------VDLGPGLLDNIYDGVQRPLEGLEE--K------M-NSA-FLDRGV---DAPGIDIE---QMRQEWPVRQA-------RPAGDKETPTDPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPV-------TGK--------PLMSRTSLIANTSNMPVAARESSVYTGITMAEYYRDMGYDVALMADSTSRWAEALREISSRLEEMPGEEGYPAYLGARLSEFYERAGYYQNA-NGTE-----GSVTVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLADRRHFPAINWDESYS A0A1G0Z486/78-119_193-439 --------------VELGPGLLTQVFDGLQNPLNILAE--K------S-G-F-FLTRGL---YMPALDEK---TMVQQWPVKLPV------TCYKEKLLPTETMITQQRIIDSFFPVAVGGTFCTPGPFGAGKTVLQHALSRHAQTDIVIVAACGERAGEVVEVLREFPHLEDPK-------TGR--------SLMERSIIICNTSSMPVAAREASVYTAITLGEYYRQMGLNCLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESLIAGFYERAGLVRLHSG------QMGSITIGGSVSPAGGN-FEEPVTQATLKVVG--AFLGLSRERSDARRFPAIHPLDS-- F0RIZ7/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLDKIRE--Q------S-G-D-FIARGI---EVSSLDRT---RLAHYWPVRAP-------RPVSKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTM-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS A0A0A7X3B4/78-119_196-443 --------------VRLGPGLIGTIYDGIQRPLERLFQ--E------D-G-A-FLRPGA---RSQPLDGS---FLSQYWPVRRA-------RPFSKKLAVCEPLVTGQRAIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADIIVYIGCGERGNEMTDVLSEFPKLIDPR-------TGR--------SLMERTILIANTSNMPVSAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVETC-VARE-----GSVSIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELAHARHYPAIGWIDSYS A0A0H3BKP3/78-119_196-443 --------------VRLGPGLIGTIYDGIQRPLERLFQ--E------D-G-A-FLRPGA---RSQPLDGS---FLSQYWPVRRA-------RPFSKKLAVCEPLVTGQRAIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADIIVYIGCGERGNEMTDVLSEFPKLIDPR-------TGR--------SLMERTILIANTSNMPVSAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVETC-VARE-----GSVSIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELAHARHYPAIGWIDSYS G7V9U5/74-115_185-434 --------------VELGPGVLGTVLDGIGRPLSRIGA--E------D-G-I-FLKRGF---AAPTVPRD---CCVQKWNVRVS-------RPFKERLPFNEPLITGQRILDTLFPVALGGASVVPGGFGTGKTVTQQSLAKWCNADIIIYIGCGERGNEMTEVLEEFPHLKDPR-------TGK--------ALMDRMILIANTSNMPVAAREASIYLGMTLAEYFRDMGNNVAIMADSTSRWAEALREISGRLEEMPGEEGYPAYLSSRLSQYYERAGRVKVL-CSDE---REGSITVINAVSPPGGD-FSEPVTQASLRLSG--AFWALDKSLAQKRHFPSINWHLSYT B0B7M4/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAD--T------S---L-FLRRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLKDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS B0BBT9/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAD--T------S---L-FLRRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLKDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A0E9AS97/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAD--T------S---L-FLRRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLKDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS B9L760/73-109_173-419 ---------------SLGPGLLGSVYDGIQRELFSMPE--R-------------IQKGI---KSKALNEE---NMIKKRPLRIP-------GSFKKRLSPKIPLITGQRVIDFMFPIAKGGSASIPGGFGTGKTILQQTLAKYCDADIIIYIGCGERGNEMTEVLEEFPNLTDPY-------SGK--------PLMNRTVLIANTSDMPVSAREASIYLGITIGEYFRDQGYNVALMADSTSRWAEAMRELSSRMGELPMEEGYPADISSKIASVYERASIVETF-ASNI-----GSLSIIGAVSPAGGD-FSEPVTIHTKRFTS--VFWALDKSLANARFYPAINYLNSY- A0A150JD18/82-123_192-439 --------------IDLGPGLLGSIYDGVQRPLPKLFE--Q------M-G-E-YIKRGA---EAPGIDRK---KMYQRWPVKVP-------RPFKDKMIPNAPLVTGKRIIDVFFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDTKVVVYIGCGERGNEMIDVLTEFPKLVDPV-------TGG--------PLMDRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLSSFYERAGIVVTL-GG-----KIGSVTVIGAVSPPGGD-FSEPVVQNTLRITK--TFWALDSNLSQKRHFPSINWLDSYS A0A150JJM5/82-123_192-439 --------------IDLGPGLLGSIYDGVQRPLPKLFE--Q------M-G-E-YIKRGA---EAPGIDRK---KMYQRWPVKVP-------RPFKDKMIPNAPLVTGKRIIDVFFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDTKVVVYIGCGERGNEMIDVLTEFPKLVDPV-------TGG--------PLMDRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLSSFYERAGIVVTL-GG-----KIGSVTVIGAVSPPGGD-FSEPVVQNTLRITK--TFWALDSNLSQKRHFPSINWLDSYS A0A150JLU9/82-123_192-439 --------------IDLGPGLLGSIYDGVQRPLPKLFE--Q------M-G-E-YIKRGA---EAPGIDRK---KMYQRWPVKVP-------RPFKDKMIPNAPLVTGKRIIDVFFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDTKVVVYIGCGERGNEMIDVLTEFPKLVDPV-------TGG--------PLMDRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLSSFYERAGIVVTL-GG-----KIGSVTVIGAVSPPGGD-FSEPVVQNTLRITK--TFWALDSNLSQKRHFPSINWLDSYS A0A1F6QD71/77-118_192-437 --------------VQLGPGLMAQIFDGLQNPLPGLAK--E------C-G-F-FLPIGV---EKKALSDD---TMVFNYPVKIPV------TAYQKKLPPTEPLITKVRIIDTLFPIAKGGTYCIPGPFGAGKTVLQQLTSRYADVDIVIIAACGERAGEVVETLKEFPELLDPK-------TGR--------SLMERTIIICNTSSMPVAARESSVYTAAATAEYYRQMGLQVLLLADSTSRWAQAMREISGRLEEIPGEEAYPAYLESRIASFYERAGLVELFDG------SIGSLTIGGTVSPAGGN-FEEPVTQGTLKVVG--AFHGLSRDRANARKFPSIDPLE--- A0A0E3S8V9/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIKRGV---TADGLDHK---QMMHRWPVRRP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYVGCGERGNEMADVLWDFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A1H5VN78/80-122_195-442 --------------VDLGPGLLDTIYDGVQRPLDVLED--K------M-GSP-YLDRGV---DAPGIELD---QMRQEWPVREA-------RPTVEKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIIYVGCGERGNEMTEVIDDFPELEDPA-------TGN--------PLMARTSLIANTSNMPVAARESCVYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSQFYERAGYFENI-NGSE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS G0QHV7/81-122_190-438 --------------VDLGPGLLTSIYDGLQRPLPKLEQ--M------T-G-E-FISRGE---DAPGIDLE---SMRQEWPIREP-------RPTEKDLKPEVPLKTGQRVLDGLFPIAKGGTAAVPGGFGTGKTVTQQSLAKFSDADIIVYIGCGERGNEMTEVLEEFPELEDPQ-------TGD--------KIINRTVLIANTSNMPVAAREASIYTGVTIAEYFRDMGLDVALMADSTSRWAEAMREISARLEEMPGERGYPAYLASRLAEFYERAGRVEPL-GPED----PGSVTVIGAVSPPGGD-FSEPVTQNTLRVVK--NFWALDKDLAEKRHFPSINWNDSYS A0A0S8D947/83-123_197-444 ---------------ELGPGLLTSIYDGLQNPLSSIAE--V------S-G-L-FLERGV---LIPALNRE---PMFQRWPVKMNL-------LSGERDTPFEIMDTGLRIIDTHFPILKGGSFCSPGPFGAGKTVLQHHLSKYSAVDIVIIAACGERAGEVVEVLKEFPKLINEK-------TNE--------PLIDRTVIICNTSSMPVAAREASVYMGVTIGEYYRQMGLNVLLLADSTSRWAQAMREISGRLEEIPGEEAFPAYLSSRIASFYERAGVVNLKNG------KKGSLTIGGSVSPAGGN-FEEPVTQSTLSVVG--AFLGLSRERADARKYPAIDPLISWS A0A1F9ZCM2/401-594 -------------------------HN----------------------------------------------------------------------------------------------------------TVTEQQLSKWCDAQVVIYIGCGERGNEITEVLSTFPKLEDPY-------TGS--------PLMDRMSLIANTSNMPVAAREASVYTGMTLAEYYRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGFPAYLSARLSEFYERAGRAKTL-SGLE-----GSVSVVGAVSPSGGD-FSEPVTQGTLRIVR--VFW---XXLRARRHFPAINWLTSYS M0A871/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVRQA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFELI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A0D0SHP1/77-118_192-438 --------------VDLGPGLLGQVYDGLQNPLPLLAE--Q------A-G-W-FLERGV---YVDALDNE---QMSFKWPVKRAV------NCYTERLAPTETMETKVRLIDSFFPVAKGGTYCIPGPFGAGKTVLQHTTSKYADVDIVIIAACGERAGEVVETLTEFPELTDPK-------TGK--------SLMERTIIICNTSSMPVASREASVYTAVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGYVRLPDG------STGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIDPLIS-- M0A4I5/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVRQA-------RPAGDKETPTEPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTXRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAIDWNESYS A0A1F6GM84/76-117_191-435 --------------VQLGPGLLGMLFDGLQNPLNALAE--E------T-G-F-FTPRGH---HIAPLDLN---RLSFEWPVKKAI------RCYEERLMPTEPMVTQVRIVDSLFPVAKGGTYCIPGPFGAGKTVLQQITSRYAEVDIVIIAACGERANEVVETIKEFPELIDPR-------TGK--------SLMERTIIICNTSSMPVAARESSVYTAVTLGEYYRQMGLDVLMLADSTSRWAQALRERSGRLEEIPGEEAFPAYLESMIAGFYERAGRVRFKGG------EVGSLTIGGTVSPAGGN-FDEPVTKATLKVVG--AFHGLSRERSDARRFPAIDPL---- A0A0N9N6U5/78-119_188-435 --------------VDLGPGILDSIYDGVQRPLAVLEE--Q------M-G-A-FIDRGV---DAPGIDMD---TMHQEWPVSTS-------RPSEDKRTPREPLVTGQRVQDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELEDPK-------TGK--------PLMSRTSLIANTSNMPVAARESSIYTGITIAEYYRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGLFENL-NGSE-----GSVSVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0CI97/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDVLEE--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGEKETPTEPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A1F2S8M8/76-117_185-432 --------------VELGPGLLGQVVDGIERPLDALAA--R------T-G-D-FIVRGV---MHPALDRQ---SMLQRWPVRQR-------RPFLRRLTPERPFLTGQRVLDVFFPIAAGGTAIVPGGFGTGKTVLEQTLAKFAAADVIVYVGCGERGNEMTDVLAEFPRLKDPR-------TGS--------PLMERTVLVVNTSNMPVAAREASIYTGITLAEYFRDMSYQVALMVDSTSRWAEALREISARLSEMPGEEGYPTYLATRLGQFYERAGRVVPLSGDGE-----GAVTVTGAVSPPGGD-FSEPVTQASLRVAG--ALWALTTDLAHRRHFPAIDWTQSF- A0A172T6Y0/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-D-FIARGI---EVSSLDRT---RMAHYWPVRAP-------RPVAKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELVDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVTTL-GGES-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS A0A037Z4G6/74-115_187-434 --------------VKLGPGIIGNIFDGIERPLQKMND--I------Y-Y-G-FIQEGI---GLISIDSN---KLYQMWPVRNP-------RPIKERKRLSTPLITGQRILDSFFPIAKGGTVAIPGGFGTGKTMTQHQLAKWSDADIIIYIGCGERGNEMTEVLEDFPKLIDPK-------TNT--------SLMNRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYHVAIMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRIAEFYERAGYTENL-NGTE-----GSVTVIGAVSPAGGD-FSEPVTQNTKRFVS--AFLSLDRKLAYSRHYPAINWLTSYS A0A0A7KCP8/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-D-FIARGI---EVSSLDRT---RLAHYWPVRAP-------RPVAKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGN--------PLMQRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-GGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS A0A150J2T8/80-121_190-437 --------------VDLGPGLLGSIYDGVQRPLPKLSQ--L------M-G-E-FIKRGA---ESPGIDRE---KMYQRWPVKVP-------RPFKDKMIPNVPLVTGKRIIDVLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDTKVVVYIGCGERGNEMIDVLTEFPKLVDPV-------TGG--------PLMDRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLSSFYERAGIVLTL-GG-----KIGSVTVIGAVSPPGGD-FSEPVVQNTLRITK--TFWALDSNLSQKRHFPSINWLESYS A0A0F7WRY5/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEVLAE--D------S---S-FLQRGK---YVNAISDH---TMVQRWPIKQAF-------IEGEKIPAHKIMDVGLRILDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLIDPH-------TGE--------SLMHRTCIICNTSSMPVAARESSIYLGVTIAEYYRQMGLDILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLSSRIAAFYERGGAITTKDG------SEGSLTICGAVSPAGGN-FEEPVTQSTLAVVG--AFCGLSKARADARRYPSIDPLISWS A0A150J803/73-114_183-430 --------------VELGPGLLGSIYDGVQRPLPVLAN--M------M-G-E-FIKRGA---EAPGIDRA---KMYQRWPVKVP-------RPFKEKMMPTVPLVTGKRIIDVLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDTKVVVYIGCGERGNEMIDVLTEFPQLVDPV-------TGG--------PLMNRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLSSFYERAGRVITL-GG-----KVGSVTVIGAVSPPGGD-FSEPVVQNTLRITK--TFWALDSNLSQKRHFPAINWLESYS W5SSP1/76-117_191-437 --------------VELGPGLLSQVYDGLQNPLPELAA--Q------C-G-F-FLERGL---YLSALDRK---TMSFHWPVKVPI------TSYKERLIPSEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVILNNG------NFGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLES-- A0A1L6K6A9/76-117_191-437 --------------VELGPGLLSQVYDGLQNPLPELAA--Q------C-G-F-FLERGL---YLSALDRK---TMSFHWPVKVPI------TSYKERLIPSEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVILNNG------NFGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLES-- A0A0U5JBN1/87-127_201-448 ---------------ELGPGLLSSIFDGLQNPLVEVAD--L------S-G-F-FLPKGV---YLPALDRK---TMVQKWPVKNAM-------LQGEKIKPTKMMDTGERIIDTQFPLMKGGTFCTPGPFGAGKTVLQHHLSKYADVDIVLFVACGERAGEVVEVLREFPHLIDPH-------TGE--------TLMKRTVIICNTSSMPVAARESSIYMGITIAEYYRQMGLDVLVLADSTSRWAQALREMSGRLEEIPGEEAFPAYLASRIAEFYERSGVVALRHG------KPGSITIGGAVSPAGGN-FEEPVTQATLAVVG--AFLGLSRSRSDSRRYPAIDPLMSWS A0A0F7WUP9/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEVLAE--D------S---S-FLQRGK---HVNAISDH---TMVQRWPIKQAF-------IEGEKIPAHKIMDVGLRILDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLIDPH-------TGK--------SLMHRTCIICNTSSMPVAARESSIYLGVTIAEYYRQMGLDILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLSSRIAAFYERGGAITTKDG------SEGSLTICGAVSPAGGN-FEEPVTQSTLAVVG--AFCGLSKARADARRYPSIDPLISWS Q9Z993/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEVLAE--D------S---S-FLQRGK---HVNAISDH---TMVQRWPIKQAF-------IEGEKIPAHKIMDVGLRILDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLIDPH-------TGK--------SLMHRTCIICNTSSMPVAARESSIYLGVTIAEYYRQMGLDILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLSSRIAAFYERGGAITTKDG------SEGSLTICGAVSPAGGN-FEEPVTQSTLAVVG--AFCGLSKARADARRYPSIDPLISWS A0A0D6QMS9/72-113_181-427 --------------VELGPGLLGSVFDGVQRPLAELAA--R------E-G-D-FLGRGA---SLPALDRT---ALLERWPVRRP-------RPARRRLPPDVPFLTGQRVLDCFFPVSAGGTAVVPGGFGTGKTVLEQSLAKWAAADVVVYVGCGERGNEMSEVLDEFPRLEDPR-------TGG--------PLLARTVMIVNTSNMPVAAREASIYTGCAIAEYFRDMGRSVALMIDSTSRWAEALREISARLEEMPGEEGYPTYLASRLARFYERAGRVETL-GGAE-----GAVTMVGAVSPPGGD-LSEPVTQCSLRATG--ALWALSADLAHRRHYPAVDWSVSF- B5RLG8/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLPELAT--K------C-G-F-FLERGL---YLSALDRN---TMSFHWPVKVPV------TSYKKRLIPNETMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGDEAFPAYLESVIASFYERAGVVVLNNG------SVGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLD--- W6TGT6/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLPELAT--K------C-G-F-FLERGL---YLSALDRN---TMSFHWPVKVPV------TSYKKRLIPNETMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGDEAFPAYLESVIASFYERAGVVVLNNG------SVGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLD--- I0FBM2/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLPELAT--K------C-G-F-FLERGL---YLSALDRN---TMSFHWPVKVPV------TSYKKRLIPNETMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGK--------SLMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGDEAFPAYLESVIASFYERAGVVVLNNG------SVGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLD--- I7J757/82-123_191-438 --------------VELGPGLLTSIYDGIQRPLEVLVD--K------M-G-N-FIERGV---SAPGLSHE---AMLQRWPVRVP-------RPVKEKLNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDSEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVINL---NE---TDGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS Q5L5J0/83-122_196-443 ---------------ELGPGLLQEIFDGLQNRLQVLAE--S------S---F-FLKRGE---YVNALCKN---TMVQKWPIKQAF-------IQGDKVPCHEIMDVGVRILDTQVPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLTDPH-------TGK--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVRMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A1E7GEG4/73-114_182-429 --------------VELGPGILSSIYDGVQRPLHVLLE--K------M-G-S-FIRRGV---TADGLDHK---QMMQRWPVRRP-------RPVAKKLLPTKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYVGCGERGNEMADVLHDFPELEDPQ-------TGR--------PLMERTILIANTSNMPVAAREASVYTGITIAEYFRDMGFDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---KIGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLTSYS U1N8T2/80-122_191-438 --------------VDLGPGLLDTIYDGVQRPLDILED--K------M-GSP-YLDRGV---DAPGIELD---QMRQEWPVREP-------RPTVEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIIYVGCGERGNEMTEVIDDFPELEDPS-------TGN--------PLMARTSLIANTSNMPVAARESCVYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENV-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWDESYS E4NLU7/80-122_191-438 --------------VDLGPGLLDTIYDGVQRPLDVLED--K------M-GSP-YLDRGV---DAPGIELD---AMRQEWPVREA-------RPSETKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIIYVGCGERGNEMTEVIDDFPELEDPS-------TGN--------PLMARTSLIANTSNMPVAARESCVYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A016QUS6/68-109_177-424 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-D-FIARGI---EVSSLDRH---RMAHYWPVRAP-------RPVAQKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGVTLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS Q1Q3P5/88-128_202-448 ---------------ELGPGLLTQIFDGLQNPLPELAR--E------C-G-F-FLKRGV---YMDAIPRD---TMVQKWPVKVPL------KCYSERLMPTETLMTKIRILDTFFPAAKGGTFCVPGPFGAGKTVLQQLISRNADADIVVVAACGERAGEVVETLREFPRITDPR-------TGK--------SLMERTVIICNTSSMPVAAREASVYTGVTLAEYYRQMGLHVLLLADSTSRWAQALREVSGRMEEIPGDEAYPAYLESVIAAFYERAAIVRLHDG------SVGSVTIGGTVSPAGGN-FDEPVTQATLKVVG--AFHGLSKERSDARRYPSIHPLES-- L9XXZ1/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVRQA-------RPAGDKETPTEPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAIDWNESYS F7PNN2/81-123_192-439 --------------VDLGPGLLDNIYDGVQRPLEGLED--R------M-NSA-FLDRGV---DAPGIDLE---QMRQEWPVRQA-------RPAGDKETPTDPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPV-------TGK--------PLMSRTSLIANTSNMPVAARESSVYTGITMAEYYRDMGYDVALMADSTSRWAEALREISSRLEEMPGEEGYPAYLGARLSEFYERAGYYQNA-NGTE-----GSVTVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLADRRHFPAINWDESYS A0A1J4USX1/71-112_179-427 --------------VELGPGLLGTVFDGIQRPLNAVKA--A------S-G-A-FIKRGI---EVPSLDRK---QMMQKWSVRVA-------RPYKEKKPFTLPLVTGKRIIDTFFPVAKGGTSAIPGPFGSGKTVNQQDLAKYADAEIIVYIGCGERGNEMTEVLAEFPHLIDPS-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLGRKLAEFYERGGRIACL-GSQE---REGAITVVGAVSPPGGD-ISEPVSQGTLRITK--VFWCLDSSLSRRRHYPAINWLKSY- Q822J8/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQVLAE--S------S---F-FLKRGE---YVNALCKN---TMVQKWPIKQAF-------IQGDKVPCHEIMDVGIRILDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLTDPH-------TGE--------SLMHRTCIICNTSSMPVAARESSIYLGITVAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVRMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS L0JYV6/82-124_193-440 --------------VDLGPGMLNAIYDGVQRPLDELEE--K------M-GSA-FLDRGV---DAPGIDFE---TMHQEWPVRRA-------RPSDEKETPTVPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPK-------TGK--------PLMSRTCLIANTSNMPVAARESCIYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGKFQLI-NGDE-----GSISVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS L9W9Z2/82-124_193-440 --------------VDLGPGVLDAIYDGVQRPLDVLEE--K------M-GTA-FLDRGV---DAPGIDFE---TMHQEWPVRQA-------RPADTKETPTVPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPK-------TGK--------PLMSRTCLIANTSNMPVAARESCIYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQNI-NGTE-----GSVTAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS H9ZQR9/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVVTL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS A0A1G1A4E8/79-119_193-438 ---------------ELGPGLLTQIYDGLQNPLPRLAE--Q------C-G-F-FLERGV---YLTAIPRD---TMLQRWPVKIPI------QAFAERLRPADPLVTKIRIVDTFFPVARGGTYCIPGPFGAGKTVLQQITSRYADVDIVIIAACGERAGEVVETLREFPELIDPK-------TGR--------SLMDRTVIICNTSSMPVAAREASVYTAATIAAYYRQMGLHVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESVIAAFYERGGLVRLHDG------SFGSITIGGTVSPAGGN-FDEPVTQSTLKVVG--AFHGLSRARSDARRYPAIDPLD--- V5TIC3/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVDKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS G0HT31/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVDKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A0B3AHV9/74-115_182-429 --------------VELGPGMLTSIYDGIQRPLPILQK--Q------M-G-D-FILRGV---DAPGLDHK---KLMQKWPVRKP-------RPVTRKLAPLVPLITGQRIFDVLFPLAKGGTAAIPGPFGAGKTVSQQQLAKWCDADIIVYIGCGERGNEMTEVLNEFPHLQDPK-------TGR--------PLMNRTVLIANTSNMPVAAREASIYTGVTIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSTRLAEFYERAGKVIPL-GIE----KEGSVSIIGAVSPPGGD-FSEPVTQSTLRVTK--TFWALDAKLAQRRHFPSINWLTSY- L9Y3W8/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS F2NVT2/74-114_192-439 ---------------KLGPGLVGTIYDGIQRPLKEMYE--D------G-G-V-FLLPGQ---RTEPIDNK---SMSQYWPLRKP-------RPFSQKLEVSQPLVTGLRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAIAKWCDADLIVYIGCGERGNEMTDVLTEFPTLIDPR-------TGR--------SLMERTILIANTSNMPVAAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGYPAYLPTRLAEFYERAGRVNSL-CGKE-----GSVSVIGAVSPAGGD-FSEPVTQHTKRFIR--CFWALDRELANARHYPAIGWIDSYS A0A0F8E8D8/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLA--S------T-G-G-FIGRGV---TADGLDHK---QLMQRWPVRRP-------RPVRQKLTPDKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---NG---AKGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS L0JFM4/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGEKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLM-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS R5RXT8/77-117_192-438 --------------VELGPGLLTQVYDGLQNPLPKLAE--Q------C-G-F-FLERGV---YLDPIP-D---SMVFSWPVKQPI------RCYEERLRPDETLVTKIRCIDTFLPVAKGGTFCVPGPFGAGKTVLQHMEAKNADVDIVIVAACGERAGEVVEVLKEFPELTDPR-------TGR--------SLMERTIIICNTSSMPVAAREASVYTAVTMAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIAAFYERAGKVRLRNG------KIASVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPSIHPIDS-- L0H9H3/81-122_190-437 --------------VELGPGLLTSIYDGIQRPLSVLVD--K------M-G-N-FIERGV---SAPGLSHT---PMIQRWPVRVP-------RPVKEKLNPTIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPHLEDPK-------SGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGLVETL---NG---AGGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A1I3AUP7/81-123_196-443 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREP-------RPSANKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENV-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0FH96/82-124_197-444 --------------VDLGPGVLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPSANKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIIYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENV-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS V8TM40/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQELAE--D------S---S-FLQRGK---YVDPLSDQ---TMVQKWPIKQSL-------IEGERIAAHEIMDVGLRILDTQIPILKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEVLQEFPHLIDPH-------TKT--------SLMNRTCIICNTSSMPVAARESSVYLGITIAEYYRQMGLNVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLSSRIAAFYERSGVLRMRDG------SEGSLTICGAVSPAGGN-FEEPVTQSTLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A1F6QRN8/76-117_191-435 --------------VQLGPGILSQVYDGLQNPLPALAE--A------H-G-F-FLPKGV---VLDAIDFN---TMTFEWPVKVPI------KAYAQKHVPVEPMTTKVRIVDTFFPISKGGTYCIPGPFGAGKTVMQQITSRYAEVDIVIIAACGERAGEVVETLREFPELIDPR-------TGK--------SLMERTIIICNTSSMPVAAREASVYTAATLGEYYRQMGLNVLLLADSTSRWAQAMREVSGRLEEIPGEEAFPAYLESRIAEFYERAGYVELHDG------RFGSMTIGGTVSPAGGN-FEEPVTQATLKVVG--GFHGLSRERSNARKFPSIDPL---- A0A1G3WM26/74-113_186-433 ----------------LGPGLLKNIFDGIERPLKTIAK--N------E-G-I-YIPTGS---DVEALDRT---TLAQKWPIKTP-------RPVQKRLPITIPLVSGQRVIDTLFPIAKGGTAAVPGGFGTGKTMMQHQFAKWCDADLIVYVGCGERGNEMTQVLEEFSELIDPR-------TNK--------PLMERTVLIANTSNMPVAAREASIYTGVAIAEYYRDMGYHVAVMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRISQFYERAGYMMTL-SGEV-----GSISIIGAVSPQGAD-FSEPVTQNTKRFVR--SFWALDKQLAYMRHYAAINWNLSYS A0A1G3VUI7/74-113_186-433 ----------------LGPGLLKNIFDGIERPLKTIAK--N------E-G-I-YIPTGS---DVEALDRT---TLAQKWPIKTP-------RPVQKRLPITIPLVSGQRVIDTLFPIAKGGTAAVPGGFGTGKTMMQHQFAKWCDADLIVYVGCGERGNEMTQVLEEFSELIDPR-------TNK--------PLMERTVLIANTSNMPVAAREASIYTGVAIAEYYRDMGYHVAVMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRISQFYERAGYMMTL-SGEV-----GSISIIGAVSPQGAD-FSEPVTQNTKRFVR--SFWALDKQLAYMRHYAAINWNLSYS A0A1J0LQH6/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIQE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVVTL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS A0A179EF93/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGEKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLL-GGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS S7JB92/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQVLAE--S------S---I-FLKRGN---YVNALCRH---TMVQKWPIKQAF-------IRGEKIPCSEIMEVGVRILDTHIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLKDPH-------TGE--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLDVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGALLTPSG------SVGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS W8JFI5/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQVLAE--S------S---I-FLKRGN---YVNALCRH---TMVQKWPIKQAF-------IRGEKIPCSEIMEVGVRILDTHIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLKDPH-------TGE--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLDVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGALLTPSG------SVGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS U2N0H2/78-118_192-438 ---------------ELGPGLLGQVYDGLQNPLPLVAE--Q------A-G-F-FLERGV---YVAPLSKA---TMTFKWPVKRAV------DCYAERLAPSDAMVTKIRLIDTFFPVALGGTYCIPGPFGAGKTVIQHTTSRNAEVDIVIIAACGERAGEVVETIKDFPKLIDPR-------TGE--------SLMKRTIIICNTSSMPVASREASVYTSVTLAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLRDG------KTGSVTIGGTVSPAGGN-FDEPVTQATLKVVG--AFHGLARERSDARKYPAIDPLNS-- A0A1J5R3V1/98-135_203-449 -----------------GPGLLGQVFDGLMRPLSSAPT---------------WLTADR---APATEDAETLARLGEPWPMRVP-------RPFRNRPAGAVPLHTGQRVLDLLYPVARGAAAAVPGGFGTGKTVLLQQIAKWSDADVIVYVGCGERGNEMADVLDGLSQLVDAR-------TGG--------RLIDRTVIIANTSNMPMMAREASIYTGVSVAEFYRDMGYDVVVIADSTSRWAEALREFANRNGDLPAEDGYPADLASELAAFYERAGRVTTL-GGAE-----ASVTVIGAVSPPGGD-LTEPVTTDTQRFIR--SLWLLDRDLAYSRHYPAVSWTGSF- A0A075FJA6/73-114_182-429 --------------VQLGPGLLTQIYDGIQRPLPILLE--K------M-G-T-FITRGV---DADGLDQE---AMMQRWPVRAP-------RPYKQKYAPDTPLVTGMRILDFLFPLAKGGAAGIPGPFGSGKTVTQQSLAKFSDAQIVVYIGCGERGNEMTEVLDEFPELIDPN-------TGK--------PLMNRTVMIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLAEFYERAGRVETL-EGED-----GSVTVIGAVSPPGGD-ISEPVSQGTLRIVK--VFWGLDAPLARQRHFPAINWLNSYS A0B9K2/73-113_182-429 ---------------QLGPGILTQIYDGVQRPLPLLAE--K------S-G-D-FISRGL---FVDGVDHK---TMLQKWPVRQA-------RPVVRKLPPTIPLRTGQRVIDGFFPLAKGGTAAIPGGFGTGKTVMQQTLSKWSDVDIVIYVGCGERGNEMADLLHEFPELVDPR-------TNR--------PLLERSIVYANTSNMPVAAREASIYTGMTTAEYYRDMGYDVLMTADSTSRWAEAMRELASRLEEMPGEEGYPAYLAARLADFYERAGRAEVL-AGGE-----GSVAVVGAVSPPGGD-FTEPVTQNTLRIVK--VFWALDSRLTQRRHFPSINWLDSYS M0P0D5/64-106_179-426 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPSENKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENV-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS N0BNC8/74-115_183-430 --------------VELGPGLIKSFYDGIQRPLPALKE--S------S-G-D-FISRGI---QAPGLSRD---KLYHKWPVREA-------RPYQEKLPPLIPLMTGQRILDTFFPVAKGGTAAIPGPFGSGKTVTQHQLAKWSDTEIVVYVGCGERGNEMTEVLEEFPELIDPK-------SGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYNVAVQADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVKTL-GGN-----VGSVTVVGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAARRHFPAINWLQSYS B7XTI1/76-117_191-437 --------------VELGPGLLTQVYDGLQNPLPELAI--Q------C-G-F-FLERGV---YLRPLNKD---TMSFHWPIKIPI------TNYKERLIPSEPMLTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELIDPK-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNNG------DIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAISPLES-- A0A1G3B452/73-114_182-431 --------------VELGPGLLGGIFDGIQRPLDEIEK--Q------S-G-F-WMARGL---IVNRLDRE---SMIQKWPVRRP-------RPFRKKTPPEEPFITGQRVFDLLFPITLGGNAIVPGGFGTGKTVVEQTLAKYSNADILVYVGCGERGNEITDVLTEFPHLEDPK-------TGG--------PLMSRTILVVNTSNMPIAAREASIYTGITLAEYYRDMGFNVALMADSTSRWAEALREISSRLEEMPGEEGFPTYLATRLASFYERSGRVECL-GGPG---RLGSVTIVGAVSPPGGD-FSEPVTQHSMRVSG--AFWALDAHLAYRRHFPAINWHKSYT A0A1G3BGC7/73-114_182-431 --------------VELGPGLLGGIFDGIQRPLDEIEK--Q------S-G-F-WMARGL---IVNRLDRE---SMIQKWPVRRP-------RPFRKKTPPEEPFITGQRVFDLLFPITLGGNAIVPGGFGTGKTVVEQTLAKYSNADILVYVGCGERGNEITDVLTEFPHLEDPK-------TGG--------PLMSRTILVVNTSNMPIAAREASIYTGITLAEYYRDMGFNVALMADSTSRWAEALREISSRLEEMPGEEGFPTYLATRLASFYERSGRVECL-GGPG---RLGSVTIVGAVSPPGGD-FSEPVTQHSMRVSG--AFWALDAHLAYRRHFPAINWHKSYT H8GUN3/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-D-FIARGI---EVSSLDRE---RLAHYWPVRAP-------RPVQKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGVTLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS U4KN18/74-113_186-433 ----------------LGPGLIKNIFDGIERPLKTIAA--T------S-G-I-YIPTGS---DVEALDRN---TLVQKWPIKTP-------RPVSKRLPISEPLISGQRVIDTLFPIAKGGAAAVPGGFGTGKTMMQHQFAKWCDADLIVYVGCGERGNEMTQVLEEFSELIDPR-------TNK--------PLLERTVLIANTSNMPVAAREASIYTGVVIAEYYRDMGYNVAVMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRISQFYERAGYVETL-SNLK-----GSVSIIGAVSPQGAD-FSEPVTQNTKRFVR--SFWALDKQLAYQRHYAAINWNTSYS S3JPN4/78-118_192-438 ---------------ELGPGLLGQVYDGLQNPLPLVAE--Q------A-G-F-FLERGV---YVAPLSKA---TMTFKWPVKRAV------DCYAERLAPSDAMVTKIRLIDTFFPVALGGTYCIPGPFGAGKTVIQHTTSRNAEVDIVIIAACGERAGEVVETIKDFPKLIDPR-------TGE--------SLMKRTIIICNTSSMPVASREASVYTSVTLAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLRDG------KTGSVTIGGTVSPAGGN-FDEPVTQATLKVVG--AFHGLARERSDARKYPAIDPLNS-- H9UJL0/78-119_193-439 --------------VELGPGLLGQIYDGLQNPLPELAE--Q------C-G-F-FLDRGI---YLDALDRE---TMLFNWPVKRAI------ETYEERLKPEKTLVTKVRTVDTFFPVALGGTYCTPGPFGAGKTVLQQVTSRNAEVDVVIITACGERAGEVVETLKEFPELIDPR-------TGR--------TLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGLVRLRDG------SQGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPSIHPLES-- A0A0E3WTC6/50-91_159-406 --------------VELGPGLLSSIYDGIQRPLHVLLA--K------M-G-N-FIQRGV---TADGLDHK---QLMQKWPVRTP-------RPVAKKLLPTKPLVTGQRVLDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLSEFPALEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVTVSL---CG---ETGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A2SST5/76-117_186-433 --------------VELGPGLLTSIYDGIQRPLEVLIQ--K------M-G-N-FIARGV---TAPGLDHE---PMMQKWPVRVP-------RPYVEKHSPSIPLLTGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPELQDPK-------TGN--------SLMERTILIANTSNMPVAAREASVYTGITLAEYFRDMGYDVALMADSTSRWAEAMREICSRLEEMPGEEGYPAYLSSRLSEFYERAGLVEPL---AG---GSGSVSVIGAVSPAGGD-FSEPVTQNTLRIVK--VFWALDANLSRRRHFPAINWLQSYS A0A1J0NM10/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAD--T------S---L-FLRRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLTDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS H8I4H1/73-114_183-430 --------------VELGPGLLTSIYDGIQRPLPILKE--K------M-G-D-FIQRGV---MASGLSHE---KLMQKWPVRKA-------RPFKEKLRPDIPLVTGQRILDCLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPHLTDPK-------TGN--------PLMDRTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYGVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSQFYERAGRVITN---MG---QEGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAQRRHFPAINWLNSYS F5WTL7/71-112_179-426 --------------IELGPGLLGNIYDGIGRPLQGLSE--K------Y-G-S-YLDVGQ---SMRTLSEE---KLSVMWPIRHE-------RPVASRIDAKEPLITGQRVIDTLFPIVKGGSAAIPGGFGAGKTMLQHQLAKWCDADIIVYIGCGERGNEMAQVLEEFSELIDPK-------TGR--------TLMERTILIANTSNMPVAAREASIYTGITFAEYYRDMGYHVALMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLAAFYERSSYVDTL-NGDV-----GSISIIGAISPQGAD-FSEPVTQNTQRFIG--CFWALDKSLAYIRHFPSINYNLSYS R5XXV4/72-113_185-432 --------------ITLGPGILSNIFDGIENPLNDIAA--S------A-G-S-FIPRGL---HPSSLNEE---TLCRKWPIRTP-------RPISKRLPPEKPLITGQRVIDTLFPLAKGGAAAIPGGFGTGKTMTQHQLAKWCDADIIIYVGCGERGNEMTQALKEFGEITDPK-------SGR--------PLTDRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYHTAMMADSTSRWAEALREISGRLEEMPADEGFPAYLPSRLSEFYERAGYVETL-NGQD-----GSISVIGAVSPQGSD-FSEPVTQNTKRFTR--CFWALDKSLAYARHYPAINWNDSYS V4YAG2/81-123_192-439 --------------VDLGPGMLDSIYDGVQRPLDVLQE--K------M-DDA-FLDRGV---TAPGIDLD---QMRQEWPVREQ-------RPTGEKQTPTEPLISGQRIQDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTTLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENT-NGTE-----GSISVIGAVSPPGGD-FSEPVTQNTLRITK--CFWALDADLAERRHFPSINWNESYS M0MAT8/81-122_191-438 --------------VDLGPGMLYSIYDGVQRPLDVLED--R------M-G-A-FLDRGV---DAPGIDME---TMHQEWPVREA-------RPTLDKETPTTPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQSLAKFADADIVIYIGCGERGNEMTEVIDDFPELEDPN-------TGK--------PLMSRTCLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFQNI-NGTE-----GSISAVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWDESYS A0A1J1EW03/73-114_182-376 --------------VELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVITL-GARR-----G-------------------------------------------------------- A0A0F7P7P4/78-119_188-435 --------------VDLGPGILDSIYDGVQRPLAVLEE--Q------M-G-A-FIDRGV---DAPGIDMD---TMHQEWPVREA-------RPSEDKRTPREPLVTGQRVQDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELEDPK-------TGK--------PLMSRTSLIANTSNMPVAARESSIYTGITIAEYYRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGLFENL-NGSE-----GSVSVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A0E3PIT0/50-91_160-407 --------------VELGPGLLSSIYDGVQRPLHVLLE--K------T-G-G-FIGRGV---TADGLDHE---QMMHRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVADTL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0W1STS2/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLES--K------M-NSA-FLDRGV---DAPGIDLE---TMHQEWPVRQA-------RPSTEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTI-NGDE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS L0IE93/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDALEE--K------M-GSA-FLDRGV---DAPGIDLE---SMHQEWPVRTA-------RPAAEKRTPTEPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAEFYERAGRFELQ-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWDESYS W5ST62/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLSELAA--Q------C-G-F-FLERGL---YLSALDRS---TMSFHWPVKVPI------TSYKDRLIPSEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDVVIIAACGERAGEVVETLKEFPELIDPR-------TGK--------ALMERTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNDG------NVGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLE--- A0A174G9Q3/2-227 ------------------------------------------------------------------------------------------------------PLVTGQRILDTMFPIAKGGTAAIPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEEFSELVDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASIYTGLTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQTL-NGAT-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS A0A1G1Q8Q8/63-104_178-423 --------------VELGPGLLGKVYDGLQNPLNRLAE--K------Y-G-F-FLKRGA---YLDALEEG---TMLQKWPVKVPI------EAYSKKLKPVDPLVTKIRIIDTLVPVAIGGTFCTPGPFGAGKTVLQHLLSRHAEVDIVIVAACGERAGEVVEILEEFPELIDPK-------TGK--------SLMERTIIICNTSSMPVAARESSVYTGATLAEYYRQMGLNVFLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESRIASFYERAGLVKLRDG------SKGSLTIGGAVSPAGGN-FEEPVTQATLKVVG--AFHGLSRDRANARKYPSIDPLD--- D4JUB4/72-112_185-432 ---------------TLGPGIISNIYDGIQRPLKAMTA--L------S-G-V-YVTEGS---AIAALDEE---TLVQKWPIRTP-------RPINKRLPISKPLITGQRIVDTVLPLAKGGTAAIPGGFGTGKTMTQHQLAKWCDADIIVYIGCGERGNEMTQVLEEFSELIDPK-------SNR--------PLTDRTVLIANTSNMPVAAREASIYTGITLAEYYRDMGYHIAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRLSEFYERAGYVETL-NGRE-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--CFWALDKNLAYARHYPAINWNMSYS P22662/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLE--K------M-G-S-FIQRGV---SADGLDHK---QMMQRWPVRRP-------RPVKAKLTPTRPLVTGMRILDGLFPVAKGGTAAIPGPFGSGKTVTQQSLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAESL---CG---ETGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A1D2X0G8/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLE--K------M-G-S-FIQRGV---SADGLDHK---QMMQRWPVRRP-------RPVKAKLTPTRPLVTGMRILDGLFPVAKGGTAAIPGPFGSGKTVTQQSLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAESL---CG---ETGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0G3CIZ2/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLE--K------M-G-S-FIQRGV---SADGLDHK---QMMQRWPVRRP-------RPVKAKLTPTRPLVTGMRILDGLFPVAKGGTAAIPGPFGSGKTVTQQSLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAESL---CG---ETGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS R4VVN1/82-124_193-440 --------------VDLGPGLLDTIYDGVQRPLDELEH--L------M-GSA-FLDRGV---DAPGIDLD---SMRQEWPVRRQ-------RPAEEKRTPREPLVSGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWADADIVVYIGCGERGNEMTEVIEDFPDLQDPK-------TGK--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAEFYERAGKFETI-GGRE-----GSISAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A075FSN8/74-115_183-430 --------------VKLGPGLLTQIYDGIQRPLEDLEE--T------M-G-V-FITRGV---DADGLDLT---AMMQEWPVRTP-------RPFIQKNAPDVPLVTGQRILDFLFPLAKGGTAGIPGPFGAGKTVTQQQLARWSDAQIVVYIGCGERGNEMTEVLTEFPHLMDPN-------TGK--------PLMNRTTMIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLAEFYERAGRVQTL-GGGD-----GSVSVIGAVSPPGGD-ISEPVSQGTLRIVK--VFWGLDAPLARQRHFPAINWLSSYS A0A075FPJ4/74-115_183-430 --------------VKLGPGLLTQIYDGIQRPLEDLEE--T------M-G-V-FITRGV---DADGLDLT---AMMQEWPVRTP-------RPFIQKNAPDVPLVTGQRILDFLFPLAKGGTAGIPGPFGAGKTVTQQQLARWSDAQIVVYIGCGERGNEMTEVLTEFPHLMDPN-------TGK--------PLMNRTTMIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLAEFYERAGRVQTL-GGGD-----GSVSVIGAVSPPGGD-ISEPVSQGTLRIVK--VFWGLDAPLARQRHFPAINWLSSYS L9VW36/82-124_193-440 --------------VDLGPGVLDAIYDGVQRPLDVLEE--K------M-GTA-FLDRGV---DAPGIDFE---TMHQEWPVREA-------RPAETKETPTIPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPQ-------TGK--------PLMSRTCLIANTSNMPVAARESCIYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQLL-NGDE-----GSVTAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A0Q0WWL8/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-D-FIARGI---EVSSLDRT---RMAHYWPVRAP-------RPVAKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-AGDD-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS A0A0E3NWW9/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLE--K------M-G-S-FIQRGV---SADGLDHN---QLMQRWPVRVP-------RPVNKKLTPTKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLSDFPDLEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAEFYERSGVAESL---CG---ETGSITVIGAVSPPGGD-FTEPVTQNTLRIVK--VFWALDSKLSQRRHFPAINWLNSYS F5YFH7/77-118_192-438 --------------VEVGPGLLGQVYDGLQNPLPQLAA--Q------T-G-S-FLERGV---YLDALPTD---ALSFRWPVKRPV------DCYEERLKPVDPMVTRVRLIDTFFPVARGGTYCIPGPFGAGKTVLQQITSRHADVDIVILAACGERAGEVVETLKEFPELTDPR-------TGR--------SLMERTIIICNTSSMPVAAREASVYTAVTLAEYYRQMGLHVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESTIASFYERAGLVRLKDG------SLGSVTVGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDS-- A0A0G3EDZ2/77-118_192-438 --------------VELGPGLLTQVYDGLQNPLPELAE--Q------C-G-Y-FLQRGV---YLKPLDRE---TMVQTWPVKIPI------NLYRERMRPGAPMVTQIRLVDTFFPVALGGTYCIPGPFGAGKTVLQQCTSRTAEVDVVIVAACGERAGEVVETLREFPELIDPR-------TGK--------SLMERTIIICNTSSMPVSARESSVYTAVTLAEYYRQMRLNVLLLADSTSRWAQALREMSGRLEEIPGEEAYPAYLESVIAAFYERAGRVKFDDE------GTGSVTIGGTVSPAGGN-FEEPVTQSTLKVVG--AFHGLSRARSDARRYPAIDPLDS-- M0FE42/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-DSA-FLDRGV---DAPGIDLD---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS M0FSS0/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-DSA-FLDRGV---DAPGIDLD---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A1J5E7T1/77-118_192-437 --------------VELGPGLLTQIFDGLQNPLPRLAT--E------C-G-F-FLQRGK---YLHALPRR---KMSQFWPIKIPI------KQYAERLRPDEPMVTQQRIIDTFFPVARGGTYCIPGPFGAGKTVLQQLTSRYADVDIVIFAACGERAGEVVETLREFPDLLDPR-------TGK--------SLMERTLIICNTSSMPVAAREASVYTGVTLAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESVIASFYERGGVVRLKDG------TKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDQRRFPAIHPLD--- A0A1M4MKC4/79-120_188-435 --------------VELGPGLLTSIYDGIQRPLEVLVD--K------M-G-N-FIERGV---SAPGLSHE---VMLQRWPVRVP-------RPVKEKLNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVVSL---NG---EGGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS Q255D9/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLQVLAE--S------S---F-FLKRGE---YVNALCRK---TMVQKWPIKQAF-------IQGDKVPSHEIMDVGVRILDTHIPVLKGGTFCTPGPFGAGKTVLQHHLSKYSSVDIVILCACGERAGEVVEVLQEFPHLTDPH-------TGK--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVRMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS L9Z256/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0GR69/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-NSA-FLDRGV---DAPGIDLE---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS D3PVL2/77-111_179-425 ----------------LGPGLLGGVFDGLLRPLSDAPD---------------FLGRGT---AAPSFGSH----MAQPWPVRRP-------RPVRNRLEQTAPLHTGQRVLDLLFPVPRGGSAAVPGGFGTGKTVLLQQVAKWCDADVIVYIGCGERGNEMAEVVAELLSLTDPR-------SGG--------RLADRTVVIANTSNMPMMAREASIHTGMTVAEYFRDMGLHVVLIADSTSRWAEALREFASRNRELPAEEGYPAGLASALAAFYERAGVVETL-GGRI-----GSVTVVGAVSPPGGD-LTEPVTAYTERFVR--CRWTLDRDLAYARHYPSVSWSGSF- C8X3W4/89-130_204-450 --------------VELGPGLLGQVFDGLQNPLYDMAE--T------Y-G-T-FLQRGA---SRPALDRT---GLYQEWPVKIPI------RAYADRLRPTKPLSTKIRLIDTFFPIARGGTYCIPGPFGAGKTVIQQLTSRHADVDVVIVAACGERAGEVVETIREFPELEDPR-------TGR--------SLMERTIIICNTSSMPVAAREASVYTAVTLAEYYRQMGLNVLLLADSTSRWAQALRELSGRLEEIPGEEAFPAYLESVIAAFYERAGTIRLHSG------DAGSVTIGGTVSPAGGN-FEEPVTQSTLKVVG--AFHGLSRQRSDARRYPAIDPLDS-- A0A0F7WKG7/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEVLAE--D------S---S-FLQRGK---HVNAISDH---TMVQRWPIKQAF-------IEGEKIPAHKIMDVGLRILDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVILCACGERAGEVVEVLQEFPHLIDPH-------TGK--------SLMHRTCIICNTSSMPVAARESSIYLGVTIAEYYRQMGLDILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLSSRIAAFYERGGAITTKDG------SEGSLTICGAVSPAGGN-FEEPVTQSTLAVVG--AFCGLSKARADARRYPSIDPVISWS A0A0X8H1Z5/71-112_179-426 --------------VDLGPGLLGNIFDGIGRPLKQIEK--K------F-G-S-YLEVGQ---DVPTLDAT---TLVNTWPIRHE-------RPVKERIDAKEPLITGQRVIDTLFPIVKGGSAAIPGGFGAGKTMLQHQLAKWCDADIIVYIGCGERGNEMAQVLEEFGELVDPK-------TGR--------TLLERTILIANTSNMPVAAREASIYTGITFAEYYRDMGYHVALMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLAAFYERSSFVKNL-NDSI-----GSISIVGAISPQGAD-FSEPVTQNTKRFIG--CFWALDKNLAYIRHFPSINYNQSYS V4GVS7/82-124_193-440 --------------VDLGPGMLDAIYDGVQRPLDVLES--K------M-DSA-FLDRGV---DAPGIDLD---TMRQEWPVRQK-------RPASNKRTPRTPLVSGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHSLAKFADADIIIYVGCGERGNEMTEVIEDFPELEDPK-------NGN--------PLMARTSLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGYFENV-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWDESYS A0A0A7LD87/73-114_181-427 --------------VELGPGLLTSVYDGIQRPLPVLRD--K------M-G-D-YIFRGV---TAPGLDRE---SLMQKWPVRES-------RPVKDKHQPAEPLVTGLRVLDTMFPLAKGGAAAIPGAFGTGKTVTQQSLAKYSNAKIVVYIGCGERGNEMTEVLTEFPELLDPS-------TGE--------SLMNRTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGFPAYLAGRLSEFYERACKAQALSG------AEGSISVIGAVSPPGGD-LSEPVTQNTLRIVR--VFWALDTKLRERRHFPSINWLTSY- D5E704/71-112_180-427 --------------VELGPGLLESIYDGIQRPLEVLQQ--K------M-G-D-FIERGV---TANGLTRE---SLMQKWPVRGP-------RPVGKKLSPTRPLVTGQRILDGMFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLNEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGAVHSL---AG---LDGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAINWLTSYS A0A0Q5IL02/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-D-FIARGI---EVSSLDRE---RLAHFWPVRAP-------RPVQKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGN--------PLMQRTILIANTSNMPVAAREASVYTGVTLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS Q2IQ95/72-113_181-427 --------------VELGPGLLGSVFDGVQRPLSELAA--R------E-G-D-FLGRGA---SLPALDRA---ALLERWPVRRP-------RPARRRLPPDVPFLTGQRVLDCFFPVSAGGTAVVPGGFGTGKTVLEQSLAKWAAADVVVYVGCGERGNEMSEVLDEFPRLEDPR-------TGG--------PLLARTVMIVNTSNMPVAAREASIYTGAAIAEYFRDMGRSVALMIDSTSRWAEALREISARLEEMPGEEGYPTYLASRLARFYERAGRVETL-GGAE-----GAVTMVGAVSPPGGD-LSEPVTQCSLRATG--ALWALSADLAHRRHYPAVDWSVSF- A0A0B5I1A9/73-114_184-431 --------------VKLGPGLLTSIYDGIQRPLPVLSK--K------M-G-D-YIQRGV---TASGLDES---RLSHEWPVRVP-------RRLAEKSAPNMPLITGQRIFDGLFPLAKGGVAAIPGPFGAGKTVSQQQLAKWSDADIVVYIGCGERGNEMTEVLTEFPHLKDPK-------TGK--------PLMNRTVLIANTSNMPVAAREASIYTGITIAEYYRDQGYSVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSTRLAEFYERAGIGKTL---SG---DIGSVSVIGAVSPPGGD-FSEPVTQNTLRVTK--TFWALDAKLSQRRHFPSINWLTSYS Q60186/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAINWLNSYS A0A0F8P8C6/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMQRWPVRKP-------RPVKRKLTPEKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAETL---CG---EKGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPAINWLNSYS A0A1J5T1K6/73-114_182-429 --------------VELGPGLLRSIYDGIQRPLPVLQE--R------M-G-D-YIQRGV---SAPGLDHD---KLMHKWPVRVP-------RPFTVKHPPDIPLVTGTRTLDGLFPLAKGGTAAIPGGFGTGKTVTQQTLAKWSDAQVVVYVGCGERGNEMTEVLTEFPHLKDPK-------TGG--------PLMDRTVLIANTSNMPVAAREASVYTGITLAEYYRDQGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVESL---SG---EDGSVTVIGAVSPAGGD-FSEPVTQNTLRIVK--VFWALDSKLAQRRHFPAINWLTSYS A0A061AFQ5/72-113_185-432 --------------VMLGPGLMGEIFDGILRPLSKIKA--E------T-G-D-FIEAGS---DIPSLDLE---NLYQTWAIKTP-------RPVLERLEMNTPLLTGQRIIDTLFPIAKGGTAAIPGGFGTGKTMMQHQFAKWCDADIIVYIGCGERGNEMTQVLEEFSELVDPR-------TKE--------TLMERTILIANTSNMPVAAREASIYTGLTIAEYYRDMGYDVAVMADSTSRWAEALREISARLEEMPAEEGFPSYLPSRISKFYERAGMMINL-NRST-----GSVSIIGAVSPQGSD-FSEPVTQNTKRFVR--AFWALDKQLAYQRHFAAVNWNLSYS E7NSP2/77-118_192-440 --------------VDLGPGLLGQIYDGLQNPLPQLAE--Q------A-G-Y-FLERGV---YLEGLSRE---TLSFRWPVKRPI------DCYAERLKPTEPLITKIRTIDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNAEVDIVVIAACGERAGEVVETLKEFPELTDPR-------TGR--------SLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIATFYERAGIVRLKDG------SMGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDSWS J0S286/68-109_178-425 --------------VELGPGLLKSIYDGIQRPLEVLME--K------M-G-S-FIERGV---TAPGLDRA---TMMQKWPVRVP-------RPVTEKMNPDIPLVTGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQALAKWSDAQIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDQGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGRVTTL---SN---EKGSVTVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0W1RHQ1/81-123_192-439 --------------VDLGPGMMDAIYDGVQRPLDVLES--K------M-DSA-FLDRGV---DAPGIDLD---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS Q0SP70/76-117_191-437 --------------VELGPGLLTQVYDGLQNPLPELAI--K------C-G-F-FLERGV---YLRPLNKD---TMSFHWPVKIPI------TNYKQRLIPSEPMLTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNADVDIVIIAACGERAGEVVETLKEFPELIDPK-------TGK--------SLMDRTCIICNTSSMPVAAREASVYTAITIGEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNNG------DIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAISPLES-- I7CJZ6/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS R6EHR4/72-113_185-432 --------------ITLGPGILSNIFDGIENPLNDIAA--S------A-G-S-FIPRGL---HPSSLNEE---SLCRKWPIRTP-------RPIAKRLPPEKPLITGQRVIDTLFPLAKGGAAAIPGGFGTGKTMTQHQLAKWCDADIIIYVGCGERGNEMTQALKEFGEITDPK-------SGR--------PLTDRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYHTAMMADSTSRWAEALREISGRLEEMPADEGFPAYLPSRLSEFYERAGYVETL-NGQD-----GSISVIGAVSPQGSD-FSEPVTQNTKRFTR--CFWALDKSLAYARHYPAINWNDSYS A0A0E3SSX5/64-105_173-420 --------------VELGPGLLESIYDGIQRPLQVLQE--K------M-G-N-FIERGV---TANGLNRD---PMMQKWPVRGP-------RPVAKKLMPTKPLITGQRILDGMFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMAEVLNEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSSSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGSVNSL---AG---LDGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPSINWLTSYS A0A1F9ZJI7/75-116_183-430 --------------VELGPGLLSSVYDGVQRPLPVLRD--K------Q-G-D-FVSRGV---TAPGLDRT---KLMQRWPVRHS-------RPYAEKLLPDIPLVTGQRVLDMLFPLAKGGTAAIPGGFGTGKTVTSQQLSKWSDAQIVVYVGCGERGNEMTEVLTSFPELEDPK-------TGK--------PLMGRTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERCGRVKTH---SG---NIGSISVIGAVSPSGGD-FSEPVTQNTLRIVK--VFWALDSKLRERRHFPAINWLTSYS M0BIL0/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDALEE--K------M-GSA-FLDRGV---DAPGIDLE---SMHQEWPVRTA-------RPAAEKRTPTEPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAEFYERAGRFELQ-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWDESYS A0A1G1HM33/72-113_181-430 --------------IELGPGLLSSIFDGIQRPLAEIAGEYK------S-----FIPTGV---ALPSLNRS---RLIQKWPVRRP-------RPFKKKITSHTPFITGQRIIDTLFPVASGGSVIIPGGFGTGKTVLEQTLAKFAKSDVIIYIGCGERGNEIAEVLTYFPELIDPY-------TGY--------LLMDRTVLVVNTSNMPVAAREASIYTGITIGEYYRDMGYNVAILADSISRWAEAMREISGRLEELPGEEGFPMYLASRLASFYERAGMIECT-DDGN---RRGSITICTAISPPGGD-FSEPVTQSALRVTG--AMWALDTNLARRRHFPAISWGRSFS A0A1D8TCM9/76-117_191-436 --------------VELGPGLLSQVYDGLQNPLPALAA--Q------C-G-F-FLDRGV---YLSALDKT---TMSFHWPVKIPI------TNYKDRLIPNEPMVTQTRIIDTFFPVAKGGTFCIPGPFGAGKTVLQQVTSRNANVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGK--------SLIERTCIICNTSSMPVSAREASVYTAITIAEYYRQMGLDILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVVLNDG------NIGSVTVGGSVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKFPAINPLE--- F0GUI7/72-113_183-430 --------------VRLGPGMLGNMFDGIQRPLKKIMD--E------N-G-A-FIPSGI---GFENLDEN---KLYQYWPVRKQ-------RPVKSSMPIEKLFETGQRVLDVFFPLAKGGTVAIPGGFGTGKTMLQHQLAQYSDVDIIIYIGCGERGNEMTQVLEEFPDLIDPN-------TGK--------GLMERTILIANTSNMPVAAREASIYTGITMAEYFRDMGYDVALMADSSSRWAEALREISGRLEEIPAEEGYPAYLGSRLSQFYERAGYFKNL-NGSE-----GSVTLIGAVSPSGGD-FSEPVTENTRRCVN--VFLGLDRKLAYSRHYPAINWLSSYS A0A0N8W6S7/73-114_181-430 --------------VELGPGLISSIYDGVQRPLPVLVE--R------T-G-N-FISRGV---TIPGLDHE---TLMQRWPVRKG-------RPYRKKLDPTLPLLTGQRIFDTLFPVTKGGTAMIPGGFGTGKTVSEQTLAKWSDTQIVVYIGCGERGNEMTDVLTEFPELTDPR-------TGH--------PLIHRTILIANTSNMPVAAREASIYTGITIGEYFRDMGYDVALMADSTSRWGEALREVSGRLEEMPGEEGYPAYLASRLAAFYERAGRVTCL-GTDE---RMGSVTIVGAVSPPGGD-FSEPITQNTLRIAG--TFWALDTTLAHARHFPAINWIKSYS S3LC95/77-118_192-440 --------------VELGPGLLGRVYDGLQNPLPDLAE--K------A-G-Y-FLERGI---YLNALPTE---TMSFRWPVKRAI------DCYTERLKPSETLVTKIRTVDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNAEVDIVIIAACGERAGEVVETLKEFPELTDPR-------TGR--------TLMERTVIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLKDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDSWS A0A1D8MTE8/70-111_178-426 --------------VELGPGLLGSIYDGLQRPLPQLQD--Q------T-G-D-FIARGE---SAAGIDLD---QMRQEWPIRQE-------RPVEDDKRPEVPLITGQRVLDGMFPIAKGGTAAIPGPFGSGKTVTQQSLAKFSDADIIVYIGCGERGNEMTEVLEEFPELEDPQ-------TGD--------KIINRTVLIANTSNMPVAAREASIYTGVTIAEYFRDMGLDVALMADSTSRWAEAMREVSARLEEMPGERGYPAYLASRLAEFYERAGRVEPL-ADED----PGSVSIIGAVSPPGGD-FSEPVTQNTLRVVK--NFWALDSDLAEKRHFPAINWEDSYS M0MW92/81-122_191-438 --------------VDLGPGMLYSIYDGVQRPLDELED--Q------L-G-A-FLDRGV---DAPGIEMD---TMHQEWPVREA-------RPTVDKETPKTPLITGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQSLAKYADADIVIYIGCGERGNEMTEVIDDFPELEDPN-------TGK--------PLMSRTCLIANTSNMPVAARESCVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFQNI-NGTE-----GSISAVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAIDWDESYS M0D416/81-123_196-443 --------------VDLGPGMLDSIYDGVQRPLDVLED--K------M-GSA-FLDRGV---DAPGIDLE---QMRQEWPVREA-------RPTEDKQTPTEPLTSGQRILDGLFPLAKGGTAAIPGPFGSGKTVTQQSLAKFADADIVVYIGCGERGNEMTEVIDDFPELPDPQ-------TGN--------ALMARTCLIANTSNMPVAARESCVYTGITIAEHYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSQFYERAGYFDNI-NGTE-----GSISAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDSDLAEKRHFPAIDWNDSYS H6KTY7/78-119_196-443 --------------VRLGPGLIGTIYDGIQRPLERLFQ--E------D-G-A-FLRPGA---RSQPLDGS---FLSQYWPVRRA-------RPFSKKLAVCEPLVTGQRAIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADIIVYIGCGERGNEMTDVLSEFPKLIDPR-------TGR--------SLMERTILIANTSNMPVSAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVETC-VARE-----GSVSIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELAHARHYPAIGWIDSYS A0A1E3X8N7/76-117_191-435 --------------VELGPGLLGQLYDGLQNPLHELAR--E------L-G-F-FLQRGK---HINALPEE---SMMFEWPIKRPV------TSYRERLDPAEPLITRIRIMDTLFPVAKGGTYCIPGPFGAGKTVLQQITSRNAKVDIVIVAACGERAGEVVETIKEFPKIIDPF-------TGR--------SLVERTIIVCNTSSMPVAAREASVYTAITMAEYYRQMGLDVLLLADSTSRWAQAMRERSSRLEEIPGEEAFPAYLESTIAGFYERSGPVRLRDG------STGSITIGGTVSPAGGS-FEEPVTQATLKVVG--AFHGLSLERSDARRYPAIDPL---- A0A0A0X5B6/77-118_192-440 --------------VELGPGLLGRVYDGLQNPLPDLAE--K------A-G-Y-FLERGI---YLNALSTE---TMSFRWPVKRAI------DCYAERLKPSETLVTKIRTVDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNAEVDIVIIAACGERAGEVVETLKEFPELIDPR-------TGR--------TLMERTVIICNTSSMPVAAREASVYTGVTLAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLKDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDSWS A0A1F8JJC9/80-121_195-443 --------------IELGPGLLGEIFDGLQNPLEKVAL--R------T-G-L-FLERGV---YIPALDRE---QMLQKWPIKFPL-------IEGNKMRPEEMMTTGMRIIDTMIPIAKGGTGCNPGPFGAGKTVTQQIVAKYSNVDIVVLTACGERAGEVVEVLKTFPELQDVF-------TNE--------PLMHRTTIICNTSSMPVAARESSVYVGMTIGEYYRQMGLDVLVLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLASRIAAFYERAGLVLLRDG------KKGSLTVIVAVSPSGGNIMGDPVSRATMSIVG--AFICLSREYSDARRYPAIDPLKSWS U1QN93/80-122_191-438 --------------VDLGPGILDAIYDGTQRPLDVLES--K------M-NSA-FLDRGV---DAPGIDLD---TMHQEWPVRTP-------RPTKEKTTPTEPLVSGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEFFRDMGYDVAIMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSQFYERAGYFENT-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A1B2GIM4/87-122_190-437 ---------------RLSPGLLGGVFDGLLRPLTDFGD---------------RLAPGT---GTDAPPAR---SVTE-WPVRRP-------RPVRERVPARTLLTTGQRVIDLLFPVARGSTVAVPGGFGTGKTLLLQQIAKWCDADVIVYIGCGERGNEMADVITEFAELTDPR-------TGG--------RLADRTVIIANTSNMPMMARETSIHTGATVAEYFRDMGHDVVVIADSTSRWAEALREFASRTGELPAEEGYPAGLASALAAFYERAGAVTTL-GAGP-----GSVTVFGAVSPPGGD-LAEPVTAHTERCVR--GRWTLDRDLAYARHYPAVSWSHSFS U2NLE4/73-113_185-432 ---------------KLGPGLLGSIFDGIERPLEKINE--D------S-D-G-FIPEGI---GLISIDEE---KLYQLWPVRKP-------RPVKEKKTIFRPLITGQRIIDMFFPLAKGGTCAIPGGFGTGKTMTQHQLAKWSDADIIVYIGCGERGNEMTEVLEDFPKLIDPR-------TNL--------ALMNRTILIANTSNMPVAAREASIYTGITLAEYFRDMGYHVAIMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRIAEFYERAGYVDTL-NEEE-----GSVTVIGAVSPAGGD-FSEPVTQNTKRFVS--AFLGLDKKLAYARHYPAINWLASYS A0A1G1KNE5/76-117_189-436 --------------VELGPGLMGNIYDGIQRPLEALEK--A------E-G-F-YIKKGV---HVLALDRT---LMYQRWPVRKP-------RPYKEKLTVREPLITGQRVIDTLFPLAKGGCVAVPGGFGTGKTVVEHQIAKWSDAEVVIFVGCGERGNEMTDVLLNFPKLIDPR-------TGK--------PLTERTVFIANTSNMPVAAREASIYTGITIAEYYRDMGYNVALIADSTSRWAEALRELAGRLEEMPVEEGFPAYLPARLAEFYERAGRINTL-NGDG-----ASVTIIASVSPPGGD-FSEPVTSHTKRFIR--CFWALDRDLAYSRHYPAIGWVESYS A0A1G1KQ90/76-117_189-436 --------------VELGPGLMGNIYDGIQRPLEALEK--A------E-G-F-YIKKGV---HVLALDRT---LMYQRWPVRKP-------RPYKEKLTVREPLITGQRVIDTLFPLAKGGCVAVPGGFGTGKTVVEHQIAKWSDAEVVIFVGCGERGNEMTDVLLNFPKLIDPR-------TGK--------PLTERTVFIANTSNMPVAAREASIYTGITIAEYYRDMGYNVALIADSTSRWAEALRELAGRLEEMPVEEGFPAYLPARLAEFYERAGRINTL-NGDG-----ASVTIIASVSPPGGD-FSEPVTSHTKRFIR--CFWALDRDLAYSRHYPAIGWVESYS L0KUG8/73-114_182-429 --------------VELGPGLLESIYDGIQRPLKVLQE--Q------M-G-D-FIQRGV---SANGLDRD---QMMQKWPVRAP-------RPVSKKLLPKTPLITGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLNEFPELQDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSSSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYVKSL---AG---VEGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAQRRHFPSINWLTSYS D1YVD9/73-114_183-430 --------------VELGPGLLTSIYDGIQRPLPILKS--K------M-G-N-FIERGV---TASGLSHE---RLLQKWPVRKP-------RPFKEKLRPDIPLVTGQRILDCLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLSEFPHLTDPK-------SGN--------PLMDRTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYGVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSQFYERAGRVITN---MG---KEGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLAQRRHFPAINWLNSYS A0A120MIK2/73-114_181-428 --------------VELGPGLLTSVYDGIQRPLPVLRE--M------T-G-D-FIGRGA---TAPGLSRE---PMMQKWPVRQP-------RPVIEKYSPDVPLVTGLRVLDTMFPLAKGGAAAIPGAFGTGKTVTQQSLAKYSDADIVVYIGCGERGNEMTEVLTEFPALEDPR-------TGE--------SLMKRTVLIANTSNMPVAAREASVYTGMTIAEYFRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSGRLSEFYERACRGKSLCG------ADGSISVIGAVSPPGGD-LSEPVTQNTLRIVR--VFWALDTKLRERRHFPTINWLTSYT F5Y7W1/73-114_198-445 --------------VLLGPGLIGTIYDGIQRPLEALFK--Q------S-G-A-FMESGS---RGDPLDSE---PLAQWWPVRIP-------RPNAERLSPEMPLVTGQRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAIAKWCDADVIIYIGCGERGNEMTDVLTEFPHLIDPR-------SGR--------SLMERTVLIANTSNMPVAAREVSIYTGVTLAEFYRDMGYHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVKTL-SGQE-----GSVSIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRDLANARHYPAISWIDSYS G2MHI8/81-123_192-439 --------------VDLGPGMLDSIYDGVQRPLDVLEE--K------M-GSP-FLDRGV---DAPGIDME---AMHQEWPVREA-------RPVKEKQTPTEPLVSGQRILDGLFPLAKGGTAAIPGPFGSGKTVTQQSLAKFADADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMERTTLIANTSNMPVAARESCVYTGITIGEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSQFYERAGYFENN-NGTE-----GSISVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDSDLAERRHFPAINWNESYS F5YR77/77-118_192-437 --------------VEVGPGLLGQVYDGLQNPLPKLAA--V------A-G-N-FLERGV---YLDPLSVD---TMSFRWPVKRPI------DCFVERYKPTEPMVTRVRLIDTFFPVARGGTYCIPGPFGAGKTVLQQITSRYADIDIVILAACGERAGEVVETLKEFPELTDPK-------TGK--------SLMERTIIICNTSSMPVASREASVYTAVTLAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESTIASFYERAGTVRLRDG------SIGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKFPAIHPLD--- A0A0N8KR22/73-114_182-429 --------------VELGPGLLESIYDGIQRPLPVLKE--K------M-G-D-FIKRGV---SANGLSRE---TMMQKWPVRKP-------RPVSKKMTPGTPLITGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLYEFPEIKDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGKVKAL---SG---KEGSITVIGAVSPPGGD-FSEPITQNTLRIVK--VFWALDAKLAQRRHFPSINWLNSYS S3K4T5/73-114_184-431 --------------VRLGPGLVGTIYDGIQRPLKNMFD--A------E-G-S-FLKPGL---RTDPLDTS---TLAQYWPVRKP-------RPYAQKMTVSQPLITGQRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAIAKWCDADLIVYIGCGERGNEMTDVLTEFPSLIDPR-------TGR--------SLMERTILIANTSNMPVAAREVSLYSGITLAEYYRDMGMAVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVSSL-CGKE-----GSVSIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELANARHYPAIGWIESYS A0A1G3YGK9/77-118_192-437 --------------VELGPGLLGQVYDGLQNPLPKLAE--E------A-G-Y-FLERGI---YLDALPLD---TMSFRWPVKRAV------DCYDERLKPGEPMVTQVRLIDTFFPVARGGTYCIPGPFGAGKTVLQQITSRHADVDVVIVAACGERAGEVVETLKEFPELLDPK-------TGR--------SLMERTVIICNTSSMPVAAREASVYTAVTLAEYYRQMGLHVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVRLRTG------ELGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLD--- H7EKD2/76-116_188-435 ---------------RLGPGLVGTIYDGIQRPLESMYE--N------S-G-A-FLVPGE---RTEPIDEK---KLSHYWPLRRP-------RPFSKKLTVSQPLVTGQRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAIAKWCDADLIVYIGCGERGNEMTDVLTEFPTLIDPR-------TGR--------SLMERTILIANTSNMPVAAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVTSL-CGEE-----GSVSVIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELANARHYPAIGWIESYS D5EEX9/76-116_186-435 --------------VDLGPGILGSVFDGIGRPLEILGK---------D---SIYLKKGI---HLPAIDSR---TMKQRWEVRRP-------RPVLSRLSFDAPLLTGQRILDTLFPIAIGGAAVLPGGFGTGKTVTQQSLAKWCNAEIIIYIGCGERGNEMTEVLEEFPELSDPF-------HNA--------PLMERMVLIANTSNMPVAAREASVYLGMTLAEYFRDMGYNTAIMADSTSRWAEALREIGGRLEEMPGEEGYPAYLGTRLAQYYERAGRAKLL-GLPE---REGSVTVINAVSPAGGD-FSEPVTQASLRLSG--AFWALDKRLAQQRHFPAINWQQSYT A0A1G0Y5T6/77-118_192-437 --------------VDLGPGLLTKIYDGLQNPLPELAE--Q------C-G-F-FLQRGT---YLPALDRK---TMVQSWPVKMPI------KCYSERLRPEEPLTTKVRIVDTFFPVARGGTYCIPGPFGAGKTVLQQITSRYADVDIVIIAACGERAGEVVETLREFPELTDPR-------TGK--------SLMERTLIICNTSSMPVAAREASVYTAVTIAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESVIAAFYERGGVVRLNDG------STGSVTIGGTVSPAGGN-FEEPVTQSTLKVVG--AFHGLSRERSDARRFPAINPLD--- A0A0B0SDM1/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVVTL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS C0QT21/74-109_175-422 ----------------LSPGLLGKAFDGIQRPLNRLGR--K-------------IKKGE---RYFPVDRD---KMLREHPLRVP-------LRFKKRLKPDIPMITGQRIIDFLFPIAKGGTASIPGGFGTGKTVLQQTLAKWSDADLIVYIGCGERGNEMTEVLNEFPQLEDPY-------TGK--------KLIERTVLIANTSDMPVSAREASIYLGITIAEYFRDMGYHVALMADSTSRWAEAIRELSARINEIPAEEGFPADLASKIASVYERAGYVEAF-SGKK-----GSITVIGAVSPPGGD-FSEPVTRHTRRFTT--VFWALDKELASSRFYPAINYMLSYS D1Z0Z0/73-114_181-430 --------------VELGPGLISSIYDGIQRPLPALYE--N------S-G-S-FISRGI---SVPGLDRK---RLMHEWPVRKG-------RPYRKKLDTSLPLITGQRVFDLIFPVTKGGTAMIPGGFGTGKTVSEQTLAKWSDARIVVYIGCGERGNEMTDVLTEFPELVDPR-------TKL--------PLIQRTIMIANTSNMPVAAREASIYTGITMAEYFRDMGYDVALMADSTSRWGEALREVSGRLEEMPGEEGYPAYLPTRLAAFYERAGRMVCL-GSGD---RVGSVTVVGAVSPPGGD-FSEPITQNTLRTVG--TFWALDTSLAYRRHFPSVNWIKSYS M0C7C4/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGEKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLM-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS L9XIU2/82-124_193-440 --------------VDLGPGMLNAIYDGVQRPLDELEE--K------M-GSA-FLDRGV---DAPGIDFE---TMHQEWPVRRA-------RPSDEKETPTEPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPK-------TGK--------PLMSRTCLIANTSNMPVAARESCIYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGKFQLI-NGEE-----GSISVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A0B3ALE8/94-135_204-393 --------------VELGPGLLTSIYDGIQRPLPVLEK--Q------M-G-S-FIQRGV---DAPGLDHN---TMAQRWPVRKP-------RPVRKKLPPTAPLITGQRIFDVLFPVAKGGTAAIPGPFGAGKTVSQQQLAKWSDADIIVYVGCGERGNEMTEVLTEFPHLKDPK-------SGR--------PLMNRTVLIANTSNMPVAAREASVYTGATIAEYFRDMGYDVAMMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSTRLAEFYERASQVIPL------------------------------------------------------------------- A0A1G1NLF2/63-104_178-423 --------------VELGPGLLGQIFDGLQNPLPQLAR--Q------H-G-F-FLKRGA---YLKALDDK---KMAQNWPVKVAI------KAYAQKLKPTQPLVTKLRIIDTLVPVAIGGTFCTPGPFGAGKTVLQHLLSRHAEVDIVIVVACGERAGEVVEILEEFPHLVDPR-------TGK--------TLMERTIIICNTSSMPVAARESSVYTGVTLAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESRIANFYERAGLVKLRDG------GTGSVTIGGAVSPAGGN-FEEPVTQATLKVVG--AFHGLSRDRANARKYPSIDPLD--- B8GFQ8/82-123_191-438 --------------VELGPGLLTSIYDGIQRPLEVLMD--K------M-G-N-FIERGV---SAPGISRE---TMMQRWPVRIP-------RPVAEKMNPTIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGK--------PLMERTILIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGLVKTL---NG---QEGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLDSYS A0A174LWT2/1-194 --------------------------------------------------------------------------------------------------------------------------------------MTQHQLAKWSDADIIVYLGCGERGNEMTQALEEFSELLDPK-------SQQ--------PLMNRTILIANTSNMPVAAREASVYTGMTIAEYYRDMGYHVALMADSTSRWAEALREISGRLEEMPAEEGFPAYLASRLAEFYERAGYVKTL-EGKE-----GSVTVIGAVSPQGGD-FSEPVTQNTKRYVR--TFWGLDRALAYARHFPSINWLTSYS A0A0N0BQ06/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVEKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A1E4BBD6/73-114_182-431 --------------VTLGPGLLGSVLDGVGRPLARVAA--A------T-G-D-FITPGA---TAATLDED---RLSHAWPVRVP-------RPFHRRLPPSRPFITGQRVFDLLFPVAEGGACIVPGGFGTGKTIVQQSLAKFAEADVVVYVGCGERGNEMTDVLTEFPALIDPR-------TTR--------PVMDRAVLVVNTSNMPVAAREASIYLGVTIAEYYRDMGYRVALMVDSTSRWAEALREMAARLQEMPGEEGYPTYLASRLGQFMERAGRVQAA-GAPE---RHGAVTIISAISPPGGD-FSEPVTQAALRVAG--AMWALDASLAHQRHYPAVDWDTSFS A0A0D0NU99/72-112_180-427 ---------------ELGPGLLNGIFDGILRPLDKIQA--V------S-G-I-FISRGI---EVSSLDRT---RLAHYWPVRKP-------RPFTRKLDPNQPFLTGMRILDVLFPLAAGGTAAIPGPFGSGKTVTQQSIAKYGDANIVVYVGCGERGNEMTDVLVEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASLYTGITLAEYFRDQGYKVSLMADSTSRWAEALREIASRLEEMPAEEGYPPYLASRLSSFYERAGKVITL-AGEQ-----GAVSVIGAVSPAGGD-FSEPVTQSTLRITG--GFWALDAQLARARHFPAINWARSYS A0A161W7H8/72-112_180-427 ---------------ELGPGLLNGIFDGILRPLDKIQA--V------S-G-I-FISRGI---EVSSLDRT---RLAHYWPVRKP-------RPFTRKLDPNQPFLTGMRILDVLFPLAAGGTAAIPGPFGSGKTVTQQSIAKYGDANIVVYVGCGERGNEMTDVLVEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASLYTGITLAEYFRDQGYKVSLMADSTSRWAEALREIASRLEEMPAEEGYPPYLASRLSSFYERAGKVITL-AGEQ-----GAVSVIGAVSPAGGD-FSEPVTQSTLRITG--GFWALDAQLARARHFPAINWARSYS F5YGX5/74-115_193-440 --------------VLLGPGLIGTIYDGIQRPLEALFK--Q------S-G-A-FMDPGA---RGEALDSS---TLAQWWPVRVP-------RPSAARLPQDQPLVTGQRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAIAKWCDAEVIIYIGCGERGNEMTDVLTEFPHLTDPR-------SGR--------SLMERTILIANTSNMPVAAREVSIYTGVTLAEFYRDMGYHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVKTL-SGLE-----GSVSIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRDLANARHYPAISWIDSYS A0A151CGA3/74-109_178-425 ----------------LGPGLLGSIYDGIQRPLKLVGT--Q-------------MQKGL---KLDPLDRE---SMLQRWPVRMA-------RPFKERVSSGKPMITGQRIIDFLFPISEGGSASIPGGFGTGKTILQQTLAKWSDADIIVYIGCGERGNEMTEVLQEFPQLEDPK-------TGK--------RLIERTVLIANTSDMPVSAREASIYMGLTIAEYFRDMGYTVALMADSTSRWAEAMRELSGRMNELPAEEGFPSYLASRIASVYERAGAVKTL-GGGV-----GALTMIGAVSPPGGD-FSEPVTRYTQRFTS--VFWALDKELANARFYPSINHLQSHS A0A0B7GVM1/77-118_192-440 --------------VDLGPGLLGQIYDGLQNPLPQLAE--Q------A-G-Y-FLERGV---YLEGLSRE---TLSFRWPVKRPI------DCYAERLKPTEPLITKIRTIDTFFPVAKGGTYCIPGPFGAGKTVLQHATSRNAEVDIVVIAACGERAGEVVETLKEFPELTDPR-------TGR--------SLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIATFYERAGIVRLKDG------SMGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPLDSWS C9RNV2/85-126_200-446 --------------VELGPGLLTQVFDGLQNPLPKLAD--E------C-G-F-FLQRGK---YLKALPRD---TMVQTWPVKMPI------KAFEERLRPSKPLTMQQRIIDTFFPVMQGGTFCTPGPFGAGKTVLQQLMSRYADVDIVILAACGERAGEVVETLREFPELIDPR-------TGK--------SLMERTLIICNTSSMPVAAREASVYTGVTLAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESVIASFYERGGVVRLKDG------STGSVTICGSVSPAGGN-FEEPVTQATLKVVG--AFLGLSRERSDQRRFPAIHPLDS-- A0A1M7INH1/85-126_200-446 --------------VELGPGLLTQVFDGLQNPLPKLAD--E------C-G-F-FLQRGK---YLKALPRD---TMVQTWPVKMPI------KAFEERLRPSKPLTMQQRIIDTFFPVMQGGTFCTPGPFGAGKTVLQQLMSRYADVDIVILAACGERAGEVVETLREFPELIDPR-------TGK--------SLMERTLIICNTSSMPVAAREASVYTGVTLAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESVIASFYERGGVVRLKDG------STGSVTICGSVSPAGGN-FEEPVTQATLKVVG--AFLGLSRERSDQRRFPAIHPLDS-- A0A126QSJ7/73-114_180-426 --------------VELGPGLLTSVYDGIQRPLPVLRE--K------M-G-D-FIFRGV---AAPGLDHA---KMMQYWPVRNP-------RPVQEKYQPDIPLVTGLRVLDTMFPLAKGGAAAIPGAFGTGKTVTQQSLAKYSDAEIVVYIGCGERGNEMTEVLTEFPELVDPK-------TGE--------SLMKRTVLIANTSNMPVAAREASVYTGMTIAEYFRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAGRLSEFYERAARAKVLCG------ADGSVSVIGAVSPPGGD-LSEPVTQNTLRIVR--VFWALDTKLRERRHFPTINWLTSY- A0A075G526/47-88_156-403 --------------VKLGPGLLTQIYDGIQRPLEDLEA--T------M-G-V-FIRRGV---DADGLDMK---AMMQEWPVRTP-------RPFVQKYAPGVPLVTGQRILDFLFPLAKGGTAGIPGPFGSGKTVTQQQLAKWSDAQIVVYIGCGERGNEMTEVLSEFPHLIDPN-------TGK--------PLMNRTTMIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRLAEFYERAGRVETL-AGDD-----GSISVIGAVSPPGGD-ISEPVSQGTLRIVK--VYWGLDAGLARQRHFPSINWLSSYS A0A0U1CEW7/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEILAD--T------S---L-FLRRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLTDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHILLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS M0LXD6/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGNKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLI-NGDE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A0F8NHP0/73-114_182-429 --------------VELGPGLLSSIYDGVQRPLHVLLA--S------T-G-G-FIGRGV---TADGLDHK---QLMQRWPVRRP-------RPVREKLTPDKPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTEIVVYIGCGERGNEMADVLSEFPELEDPQ-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGLDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERSGVAESL---NG---AKGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A1B1TG62/73-114_182-429 --------------VSLGPGLLTQIYDGIQRPLATLEE--V------M-G-V-FITRGV---DADAFDLE---QMMQKWPVRTP-------RPYRQKYAPDTPLVTGMRILDFLFPLAKGGAAGIPGPFGSGKTVTQQSLAKYSDAQLVVYIGCGERGNEMTEVLDEFPHLIDPN-------TGK--------PLMERTVMIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSSRIAEFYERAGRVETL-NGDD-----GSVTVIGAVSPPGGD-ISEPVSQGTLRIVK--VFWGLDAGLARQRHFPAINWLNSYS A0A1D8S6K1/77-118_187-434 --------------VDLGPGLLDSIYDGVQRPLEILEA--E------M-G-A-FLDRGV---DAPGIDLD---TMHQEWPVRTA-------RPSAEKQTPTTPLISRQRILDGLFPLAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPI-------SGN--------PLMARTTLIANTSNMPVAARESSVYTGITMAEYFRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLGSRLAQFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVN--VFWALDADLAERRHFPAINWNESYS A0A1J1AET1/77-118_187-434 --------------VDLGPGLLDSIYDGVQRPLEILEA--E------M-G-A-FLDRGV---DAPGIDLD---TMHQEWPVRTA-------RPSAEKQTPTTPLISRQRILDGLFPLAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPI-------SGN--------PLMARTTLIANTSNMPVAARESSVYTGITMAEYFRDMGYNVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLGSRLAQFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVN--VFWALDADLAERRHFPAINWNESYS L9ZC10/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS U2M5B3/77-118_192-437 --------------VELGPGLLGQVFDGLQNPLPQLAE--Q------A-G-Y-FLERGV---YIDALNDN---TMSFNWPVKRAI------DCYAERLKPEETMVTKIRLIDTFFPVAKGGTYCIPGPFGAGKTVLQHTTSRNADVDVVIVAACGERAGEVVEILKEFPELTDPR-------TGR--------SLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLHVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------SLGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAINPLD--- U2YUR3/79-120_189-436 --------------VDLGPGVLDTIYDGVQRPLDVLED--E------M-G-A-FLDRGV---DSPGIDLE---TMHQEWPVRQA-------RPSEEKFTPTEPLITGQRVQDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPDLTDPK-------SGN--------PLMARTTLIANTSNMPVAARESCIYTGITIAEFYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEGGYPAYLAARLAQFYERAGRFETL-RGEE-----GSVSVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAESRHFPSINWTESYS R6RNK3/72-112_185-432 ---------------TLGPGIISNIYDGIQRPLKAMTA--L------S-G-V-YVTEGS---AIAALDEE---TLVQKWPIRTP-------RPINKRLPISKPLITGQRIVDTVLPLAKGGTAAIPGGFGTGKTMTQHQLAKWCDADIIVYIGCGERGNEMTQVLEEFSELIDPK-------SNR--------PLTDRTVLIANTSNMPVAAREASIYTGITLAEYYRDMGYHIAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRLSEFYERAGYVETL-NGRE-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--CFWALDKNLAYARHYPAINWNMSYS S5ZNT4/79-120_197-444 --------------VRLGPGLIGTIYDGIQRPLKTLYE--K------T-G-S-FLKPGA---KTSPIDEE---YLSHYWPVRKA-------RPYSQKLTVSEPLITGQRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADIIVYIGCGERGNEMTDVLTEFPQLIDPR-------TNR--------SLMERTILIANTSNMPVAAREVSLYSGITLAEYYRDMGMDVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRIQTL-NKGH-----GSVSVIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELANARHYPAIGWIESYS A0A078L8T4/88-128_202-449 ---------------ELGPGLLTSIFDGLENPLENVAN--A------A-G-F-FLSRGI---YMAPLDRK---TMVQKWPIKMPL-------VHGERVKPSKMMDTGMRIIDTQFPIVKGGTFCSPGPFGAGKTVLQHHLSKYSSVDIVVVVACGERAGEVVEILREFPHLIDPH-------TGE--------TLMTRTVIICNTSSMPVAARESSIYMGVTIAEYYRQMGYDILLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLASRIAEFYERSGVLSLKNN------KLGSLTIGGAVSPAGGN-FEEPVTQATLAVVG--DFLGLSRERSDSRRYPAIDPLISWS A0A1D8GGQ4/76-116_188-435 ---------------KLGPGMLGNIFDGIQRPLDKINT--L------S-E-G-FIPEGI---GLISIDTE---KMYQEWSVREP-------RPSKERKPIERPLVTGQRILDIFFPIAKGGTAAIPGGFGTGKTMTQHQLAKWSDADIIVYIGCGERGNEMTEVLEDFPKLIDPK-------SDK--------PIMERTILIANTSNMPVAAREASIYTGITMAEYFRDMGYHVAIMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRLAEFYERAGYVTTF-NDQE-----ASVTVIGAVSPAGGD-FSEPVTENTKRFVN--AFLGLDRKLAYARHYPAINWLTSYS E6UFV6/77-117_191-438 ---------------TLGPGILDNMFDGIERPLKKLEE--I------S-G-A-FISEGA---NVPALDPK---TLCQKWPIRTP-------RPCAERMPMSRPLITGQRIIDTVVPVAKGGTAAIPGGFGTGKTMNQHQIAKWCDADIIVYVGCGERGNEMTQVLEEFSELIDPK-------TQR--------PLTDRTTMIANTSNMPVAAREASIYTGITLAEYYRDMGYHIAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRISEFYERAGYVKTL-GGSE-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--CFWALDKALAYARHYPAINWNTSYS A0A1G0Z168/78-119_193-440 --------------VELGPGLLTQVYDGLQNPLNELAE--Q------S-G-F-FLKRGV---YLPALDYE---SMMQEWPVKIPI------SCYKEKLIPAETLITQQRIIDTFFPVAVGGTFCTPGPFGAGKTVLQHALSRYAEADIVIVAACGERAGEVVEILREFPHLDDPK-------TGR--------SLMERSIIICNTSSMPVAAREASVYTAVTLAEYYRQMGLNCLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESLIAGFYERAGLVKLNDG------RNGSVTIGGAVSPAGGN-FEEPVTQATLKVVG--AFLGLSRERSDARRFPAIHPLDSW- F4LL16/77-118_192-438 --------------VELGPGLLGQVFDGLQNPLPQLAE--K------A-G-Y-FLERGI---YLEALPGE---TMSFQWPVKRAV------DCYAERLKPEETMVTKVRLIDTFFPVAKGGTYCIPGPFGAGKTVLQHTTSRNADVDVVIVAACGERAGEVVEILKEFPELTDPR-------TGR--------SLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLHVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGVVRLSDG------SIGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--SFHGLSRERSDARKYPAINPYDS-- A0A0C1EKI1/89-129_203-450 ---------------ELGPGLLSSILDGLQNPLEKVAE--H------A-G-Y-FLPRGL---YLVPLDRA---TMVQKWPIKNAL-------FEGEKIKPTKMMDTGLRIIDTQFPVMKGGTFCTPGPFGAGKTVIQHHLSKYSSVDIVVVTACGERAGEVVEILREFPHLTDPH-------TGN--------TLMERTVIICNTSSMPVAARESSIYLGMTIAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLASRIAAFYERSGVIALRNE------KQGSVTVGGAVSPAGGN-FEEPVTQATLAVVG--AFLGLSRERSDSRRYPAIDPLISWS D7E6E6/73-114_183-430 --------------VELGPGLLESIYDGIQRPLQVLQD--K------M-G-D-FIARGA---TANGIDRE---SMLQKWPVRTP-------RPTKRKLKPDKPLLTGQRILDGMFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYVGCGERGNEMADVLDEFPELEDPK-------AGR--------PLMERTVLIANTSNMPVAAREASVYTGITISEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYVKSN---SG---YDGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLTSYS A0A1F8J2P7/78-118_192-438 ---------------ELGPGLLTMIFDGLQNPLEKVAL--E------T-G-V-YLSRGV---YLPPLDRG---TMCQKWPVKAPL-------IEGKKVRASQMMETGLRILDTQFPVVKGGTFCSPGPFGAGKTVIQHHLSKYADVDIVVIVACGERAGEVVEVLRTFPQLIDPH-------TNE--------SLMKRTVMICNTSSMPVAAREASVYMGAAIAEYYRQMGFDVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLASRISAFYERSGVIELKDG------GKGSLTIGGSVSPAGGN-FEEPVTQASLSIVG--AFHGLSRTRSDARRYPAIDPLISW- F7XM36/71-112_180-427 --------------VELGPGLLESIYDGIQRPLKVLEE--K------M-G-N-FIERGV---TANGLDRE---TMMQEWPVRIP-------RPVAKKLMPSKPLITGQRVLDGMFPVAKGGTAAIPGPFGSGKTVTQQQLAKWSDTDIVVYIGCGERGNEMADVLNEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSGRLSEFYERAGYVMAH---SG---NEGSITVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQKRHFPSINWLTSYS A0A1J4YZZ1/79-120_194-442 --------------VELGPGLLGQIFDGLQNPLPRLAE--Q------C-G-F-FLKRGV---YIDSLDDN---FLKQIWPVKIPI------KAYAEKLKPTEPLVTKMRLIDSLFPVAKGGTYCIPGPFGAGKTVLQQLTSRHAEVDIVIIAACGERAGEVVETLKTFPKITDPR-------TGK--------PLSDRTVIICNTSSMPVAARESSVYTAVTIAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLGSRIASFYERAGTVKLHDG------QTGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPAIDPLISWS A0A1A8XJ26/77-118_192-438 --------------VELGPGLLTQIFDGLQNPLPQLAE--Q------C-G-F-FLQRGI---YLDPLPRD---TLMQRWPVKIPI------RAYAERLRPSEPLVTKVRIVDTFYPVARGGTYCIPGPFGAGKTVLQQITSRYADVDIVIVAACGERAGEVVETLREFPQLTDPR-------TGK--------SLMERTLIICNTSSMPVAAREASVYTAVTIAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESVIAAFYERGGIVRLKDG------SLGSVTIGGTVSPAGGN-FEEPVTQSTLKVVG--AFHGLSRERSDQRRFPAIDPLDS-- U1FA53/75-115_192-439 ---------------RLGPGLVGTIYDGIQRPLESMYE--D------G-T-A-FLLPGQ---RTEPLDTK---KLSQYWPVRTP-------RPYTEKLTVSEPLVTGLRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADLIVYIGCGERGNEMTDVLTEFPEIVDPR-------TGR--------SIMERTILIANTSNMPVAAREVSLYSGITLAEYYRDMGMAVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLASFYERAGRINSL-CGRE-----GSVSVIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRDLANARHYPAIGWIDSYS A0A061JD56/83-122_196-443 ---------------ELGPGLLQGIFDGLQNRLEVLAD--T------S---L-FLKRGE---YVNAICRE---TMVQKWPIKQAF-------LEGEKVPSHEIMDVGLRVLDTQIPVLKGGTFCTPGPFGAGKTVLQHHLSKYAAVDIVVLCACGERAGEVVEILQEFPHLTDPH-------TGQ--------SLMHRTCIICNTSSMPVAARESSIYLGITIAEYYRQMGLHVLLLADSTSRWAQALREISGRLEEIPGEEAFPAYLASRIAAFYERGGAVKMKDG------SEGSLTICGAVSPAGGN-FEEPVTQATLSVVG--AFCGLSKARADARRYPSIDPMISWS A0A1G3L041/76-117_191-436 --------------VELGPGLLGQIYDGLQNPLPELAE--K------C-G-F-FLDRGV---YLSALNRK---TMKFTWPVKRAI------KAYAERLKPVDTLITQVRIIDTFIPVARGGTFCVPGPFGAGKTVLQQVTSRNADVDVVIVAACGERAGEVVETLKEFPELIDPR-------TGR--------TLMERTIIICNTSSMPVASREASVYTAVTLAEYYRQMGLHVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESLIAAFYERAGLVRLKTG------EIASVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLTRERSDARKYPAIHPLD--- F2NSV1/77-118_192-437 --------------VEVGPGLLGQVYDGLQNPLPLLAE--K------S-G-Y-FLERGV---YLPALDEN---SMSFKWPVKRAV------NCYAERLSPDEPMVTKVRLIDTFFPVAKGGTYCIPGPFGAGKTVLQHTTSRNADVDIVIIAACGERAGEVVETLTEFPELKDPR-------TGR--------SLMERTIIICNTSSMPVASREASCYTGVTLAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESTIASFYERAGIVKLRDG------NVGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPSIDPLD--- A0A0A2WWC5/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIRE--R------T-G-I-YITRGV---VVQALDRE---RMYHTWPVRRA-------RPARRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERAGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS A0A167RY63/79-120_188-435 --------------VELGPGLLTSIYDGIQRPLEVLVD--K------M-G-N-FIERGV---SAPGLSHE---AMLQRWPVRVP-------RPVKEKLNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDSEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVINL---NE---TDGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS M0JEB8/81-123_192-438 --------------VDLGPGMMDAIYDGVQRPLDVLEE--K------M-NSA-FLDRGV---DAPGIDLE---TMHQEWPVRQA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGEE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESY- A0A166T3Q2/82-123_192-439 --------------VELGPGMLYSIYDGVQRPLDVLES--K------M-G-A-FLDRGV---DAPGIDQE---SMQQEWPVREA-------RPSVDKKTPLTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHSLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPR-------TGK--------PLMSRTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAQFYERAGKFDNI-NGTE-----GSVTAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWEESYS M0GV62/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLES--K------M-GSP-YLDRGV---DAPGIDLE---TMHQEWPVRKA-------RPAAEKKTPREPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELDDPK-------TGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGYFTTV-NGNE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A0X8D7K6/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPVQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFSVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVVTL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS M0NTK3/82-124_193-440 --------------VDLGPGMLDAIYDGVQRPLDVLEG--K------M-GSP-YLDRGV---DAPGIDLE---SMHQEWPVREA-------RPANDKKTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKYADADIIVYVGCGERGNEMTEVIEDFPELEDPA-------NGN--------PLMARTSLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPTYLAARLAQFYERAGYFENI-NGTE-----GSVSAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A1F3CI30/74-115_183-432 --------------VELGPGLLTGIFDGIQRPLEAIRR--Q------K-G-D-FIARGA---VTEAIDRA---RLMQRWPVRQS-------RPVGRKLDPREPFISGQRIIDVLFPVAMGGAASIPGPFGSGKTVMQQTLAKWSNADVIIYVGCGERGNEMTHVLDEFPELEDPR-------TGR--------PLMERTIIIANTSNMPVAAREASVYTGITMAEYWRDQGYKVALMADSTSRWAEAMREISSRLEEMPAEEGYPPYLSSRLAAFYERAGRIICL-GAPE---RGGSVTVVGAVSPPGGD-LSEPVTQSTLRITG--TFWSLDASLANRRHFPAIHWLRSYS A0A1J4UP77/71-112_178-427 --------------VELGPGLLGSVFDGIQRPLETIRS--Q------Q-G-D-FIARGV---YVNALDRN---IMLQCAAVRNP-------RAYKEKKHLEPPLITGKRIVDSFFPLAKGGTASIPGPFGSGKTVNQTDLAKYADAEIVVYVGCGERGNEMTEVLMQFPQLTDPR-------TKR--------PLMERTVLVANTSNMPVAAREASIYTGITLAEYYRDMGYDVALMADSTSRWAEAMREISGRMEEMPGEEGYPAYLGKKLAEFYERAGRITCL-GSDE---RTGSISVVGAVSPAGGD-LSEPVSQATLRVTK--VFWALDANLSRRRHYPAINWLKSYS F7XSX8/78-119_196-443 --------------VRLGPGLIGTIYDGIQRPLERLFQ--E------D-G-A-FLRPGA---RSQPLDGS---FLSQYWPVRRA-------RPFSKKLAVCEPLVTGQRAIDVFFPLSKGGTAAIPGGFGTGKTMTQHAVAKWCDADIIVYIGCGERGNEMTDVLSEFPKLIDPR-------TGR--------SLMERTILIANTSNMPVSAREVSLYSGITLAEYYRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLAEFYERAGRVETC-VARE-----GSVSIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELAHARHYPAIGWIDSYS H0AAA7/71-112_180-428 --------------VELGPGLLGSIYDGLQRPLEKLQE--M------T-G-D-FISRGE---DAPGIDLE---SMRQEWPIRDA-------RPSEDDLKPEVPLVTGQRVLDGLFPMAKGGTAAVPGGFGTGKTVTQQSLAKFSDADIIVYIGCGERGNEMTEVLEEFPELEDPQ-------TGD--------KIINRTVLIANTSNMPVAAREASIYTGVTIAEYFRDMGLDVALMADSTSRWAEAMREISARLEEMPGERGYPAYLSSRLAEFYERAGRVEPL-GMDD----PGSVSIVGAVSPPGGD-FSEPVTQNTLRVVK--NFWALDKDLAEKRHFPSINWDDSYS A0A180F7K1/76-114_188-436 --------------VTLGPGMLSRNYDGLQNDLDKME------------G-I-FLKRGE---YTFPLQNE---NMIQKWPVKKAI------TCYKAKPRPFKLLETGVRTMDTLNPIVEGGTGFIPGPFGTGKTVMQHAISKQAEADIVIIAACGERANEVVEVFAEFPHLDDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRGMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAVVANFYARAGYVELNNG------STGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADRKRYPAINPIDSYS A0A0B0ENN4/76-117_191-436 --------------VELGPGLLGQLYDGLQNPLHKLAG--E------L-G-F-FLHRGK---HINALPED---SMMFEWPIRIPV------TLYRERLDPAEPLITRIRIIDTLFPVAKGGTFCIPGPFGAGKTVLQQITSRNAKVDIVIVAACGERAGEVVETIKEFPEIIDPF-------TGR--------PLMERTIIVCNTSSMPVAAREASVYTAITMAEYYRQMGLDVLILADSTSRWAQAMRERSSRLEEIPGEEAFPAYLESTIAGFYERSGFVRLRDG------NTGSITIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRDRSDARRYPAIDPLE--- I0XAA2/74-114_186-433 ---------------RLGPGLVGNIYDGIQRPLKDMYD--A------S-G-A-FLLPGE---RTEPLDVK---RLAHYWAVRKP-------RPYTQKLGVSEPLITGQRVIDVFFPLSKGGTAAIPGGFGTGKTMTQHAIAKWCDADLIVYIGCGERGNEMTEVLSEFPELIDPR-------TGR--------SIMERTILIANTSNMPVAAREVSLYSGITLAEYFRDMGMHVAIMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRLASFYERAGRVISL-EGQE-----GSVSIIGAVSPPGGD-FSEPVTQHTKRFIR--CFWALDRELANARHYPAIGWIDSYS I7J5R6/73-114_185-432 --------------VKLGPGIIGNIFDGIERPLNKIKE--Y------S-G-N-FINEGI---GLISIDPN---KMYQEWPVRIP-------RPVKRRFPIEKPLITGQRVIDTFFPIAKGGTAAIPGGFGTGKTMTQHQLAKWSDADVIVYIGCGERGNEMTEVLEDFPKLIDPN-------SNL--------PLMNRTILIANTSNMPVAAREASIYTGITIAEYFRDMGYNVAIMADSTSRWAEALREISGRLEEMPAEEGYPAYLASRLAEFYERAGYVETL-SGKE-----ASVSIIGAVSPAGGD-FSEPVTQNTKRFVS--VFLSLDRNLAYSRHYPAINWLSSYS M0IXE9/81-123_192-439 --------------VDLGPGMLDAIYDGVQRPLDVLEE--K------M-GSA-FLDRGV---DAPGIDLE---QMHQEWPVRQQ-------RPTVEKETPTEPLISGQRVLDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPT-------TGN--------ALMDRTCLIANTSNMPVAARESCVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLSEFYERAGYFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS M0ASZ9/82-124_193-440 --------------VDLGPGVLDAIYDGVQRPLDVLEE--K------M-GTA-FLDRGV---DAPGIDFE---TMHQEWPVRQA-------RPADTKETPTVPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHQLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPK-------TGK--------PLMSRTCLIANTSNMPVAARESCIYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAASLSEFYERAGKFQNI-NDTE-----GSVTAIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A1G3MPH6/77-117_192-438 --------------VELGPGLLTQIYDGLQNPLPELAE--Q------C-G-F-FLQRGV---YLQPIP-D---SMVFTWPIKRPI------TNYVERLRPTEPLVTQVRIIDTFLPVAKGGTYCIPGPFGAGKTVLQHMTSRNADIDIVIIAACGERAGEVVETLKEFPELIDPR-------TGK--------TLMERTIIICNTSSMPVAAREASVYTAVTIAEYYRQMGLHILLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGIVKLGDG------SKGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAVHPLDS-- A0A1D2QIN9/82-123_192-439 --------------VDLGPGMLYSIYDGVQRPLDVLED--K------M-G-A-FLDRGV---DAPGIDQG---AMQQEWPVREA-------RPSVDKQTPRTPLVSGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQHSLAKWADADIVVYVGCGERGNEMTEVIEDFPELEDPR-------TGK--------PLMSRTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLAEFYERAGKFENI-NGTE-----GSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWDESYS D7BEZ3/71-112_180-427 --------------VELGPGMLNGIFDGIQRPLDKIQE--A------S-G-M-YISRGI---EVSPLDRT---RLSHRWPVRKA-------RPIQRKLDPNEPFLTGMRILDVLFPLAAGGTAAIPGPFGSGKTVTQQSIAKYGDADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASLYTGITVAEYFRDQGYKVSLMADSTSRWAEALREIASRLEEMPAEEGYPPYLSSRLSAFYERSGKVITL-AGEQ-----GAVSVIGAVSPAGGD-FSEPVTQATLRITG--GFWALDAQLARARHFPAINWARSYS A0A0H1R8M8/79-120_188-435 --------------VELGPGLLTSIYDGIQRPLEVLVD--K------M-G-N-FIERGV---SAPGLSHE---AMLQRWPVRVP-------RPTKEKLNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGK--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVISL---NG---EGGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A1G6KYT9/82-124_193-440 --------------VDLGPGMLDSIYDGVQRPLDVLEE--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGEKETPTEPLVTGQRIQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPAINWNESYS A0A072NC13/76-117_185-432 --------------VELGPGMLNGIYDGIQRPLDKIRE--A------S-G-D-FIARGI---EVSSLDRT---RLAHYWPVRAP-------RPVAKKLDPSLPFLTGMRILDVLFPLVMGGAAAIPGPFGSGKTVTQQSVAKYGNADIVVYVGCGERGNEMTDVLVEFPELEDPK-------TGG--------PLMHRTILIANTSNMPVAAREASVYTGITLAEYFRDQGYSVSLMADSTSRWAEALREISSRLEEMPAEEGYPPYLGAKLAAFYERAGAVKTL-AGED-----GAVSVIGAVSPAGGD-MSEPVTQATLRITG--AFWRLDAGLARRRHFPAINWNGSYS A0A0E3SMH9/50-91_159-406 --------------VELGPGLLSSIYDGVQRPLHVLLE--R------T-G-G-FIGRGV---TADGLDHK---QMMHRWPVRKP-------RPVKKKLTPTRPLVTGQRILDGLFPVAKGGTAAIPGPFGSGKTVTQQQLSKWSDTEIVVYIGCGERGNEMADVLWEFPELEDPQ-------TGR--------PLMERTILVANTSNMPVAAREASVYTGMTLAEYYRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLSARLAEFYERAGVAQTL---CG---EEGSITAIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS A0A0M9AFN3/73-114_182-429 --------------VELGPGMLNGIYDGIQRPLERIRE--K------T-G-I-YITRGV---VVHALDRE---KMYHTWPVRRA-------RPIQRKLDPNTPFLTGMRILDVLFPVAMGGTAAIPGPFGSGKTVTQQSLAKWSNADVVVYVGCGERGNEMTDVLVEFPELTDPK-------TGG--------PLMHRTVLIANTSNMPVAAREASIYVGVTIAEYFRDQGFAVALMADSTSRWAEALREISSRLEEMPAEEGYPPYLAARLAAFYERSGKVITL-GGEE-----GAVTIVGAVSPPGGD-MSEPVTQSTLRIVG--AFWRLDASLAFRRHFPAINWNGSYS L9ZC68/82-124_193-440 --------------VDLGPGMMDSIYDGVQRPLDVLED--K------M-GTA-FLDRGV---DAPGIDLE---QMHQEWPVREA-------RPAGDKETPTEPLVTGQRVQDGLFPLAKGGTAAIPGPFGSGKTVTQQQLAKWSDADIVVYIGCGERGNEMTEVIEDFPELPDPQ-------TGN--------PLMARTCLIANTSNMPVAARESCIYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAAALSEFYERAGKFQLI-NGGE-----GSISVVGAVSPPGGD-FSEPVTQNTLRIVK--TFWALDADLAERRHFPSINWNESYS A0A124FS35/79-120_188-435 --------------VELGPGLLTSIYDGIQRPLEVLVN--K------M-G-N-FIERGV---SAPGLSHE---AMLQRWPVRVP-------RPVKQKLNPDIPLITGQRILDGLFPIAKGGTAAIPGPFGSGKTVTQQQLAKWSDAEIVVYIGCGERGNEMTEVLTEFPELEDPR-------TGR--------PLMERTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVSLMADSTSRWAEAMREISSRLEEMPGEEGYPAYLAARLSEFYERAGRVITL---ND---ASGSVSVIGAVSPPGGD-FSEPVTQNTLRIVK--VFWALDAKLSQRRHFPAINWLNSYS R0A0K1/72-115_187-436 -------------SVELGPGLIGSIYDGIQRPLDAIME--K------T-GGN-LLNRGV---EVPSLKRE---SLMQKWPVRKG-------RPYQRKLSPDMPLVTGQRVIDCLFPIAKGGVAAVPGPFGSGKTVVQHQLAKWADADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGK--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGRVISL-GQDN---REGALSVIGAVSPAGGD-ISEPVTQATLRIVK--VFWSLDADLAYKRHFPAINWLTSYS A8RXX7/72-115_187-436 -------------SVELGPGLIGSIYDGIQRPLDAIME--K------T-GGN-LLNRGV---EVPSLKRE---SLMQKWPVRKG-------RPYQRKLSPDMPLVTGQRVIDCLFPIAKGGVAAVPGPFGSGKTVVQHQLAKWADADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGK--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGRVISL-GQDN---REGALSVIGAVSPAGGD-ISEPVTQATLRIVK--VFWSLDADLAYKRHFPAINWLTSYS R0BME3/72-115_187-436 -------------SVELGPGLIGSIYDGIQRPLDAIME--K------T-GGN-LLNRGV---EVPSLKRE---SLMQKWPVRKG-------RPYQRKLSPDMPLVTGQRVIDCLFPIAKGGVAAVPGPFGSGKTVVQHQLAKWADADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGK--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGRVISL-GQDN---REGALSVIGAVSPAGGD-ISEPVTQATLRIVK--VFWSLDADLAYKRHFPAINWLTSYS N9XPB1/72-115_187-436 -------------SVELGPGLIGSIYDGIQRPLDAIME--K------T-GGN-LLNRGV---EVPSLKRE---SLMQKWPVRKG-------RPYQRKLSPDMPLVTGQRVIDCLFPIAKGGVAAVPGPFGSGKTVVQHQLAKWADADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGK--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGRVISL-GQDN---REGALSVIGAVSPAGGD-ISEPVTQATLRIVK--VFWSLDADLAYKRHFPAINWLTSYS I3D3B7/73-115_188-437 -------------SVLLGPGIIGQLYDGIQRPLRELSK--A------S-G-S-FIGRGI---TTTAVDMT---KMYHKWPVRKP-------RPYNKRYDPTVPLLTGQRVIDTFFPIAKGGTGSIPGAFGTGKTVTLHQIAKWADSQVVVYIGCGERGNEMTEVLVEFPHLKDPR-------SGK--------PLMDRTVLVANTSNMPVAAREASIYTGVTIAEYYRDMGKDVVLVADSTSRWAESLREMSGRLEEMPAEEGYPSYLASRLAEFYERAGRVKAT-GSPD---RDGSVTLIGAVSPSGGD-FTEPVTTHTMRFIK--TFWALDAKLAYSRHYPSINWMNSYS G4KPG4/71-113_185-434 -------------SVELGPGMIEGIYDGIQRPLEKIVE--K------V-G-A-NITRGV---EIPALDHD---PMVQRWPVRVG-------RPYQHKYPPKRPLCSGQRIIDTMFPIAKGGTAAVPGPFGSGKTVVQHQLAKWSDVDIVVYIGCGERGNEMTDVLREFPELKDPR-------TGE--------SLMKRTVLIANTSDMPVAAREASVYTGITIAEYFRDMGYDVAVIADSTSRWAEALREMSGRLEEMPGEEGYPAYLSSRLAQFYERAGSVECI-GSDE---RRGSLTAVGAVSPPGGD-LSEPVSQATMRIVK--VFWALDSALAYKRHFPAINWLNSYS A0A101G3D5/72-114_186-438 -------------SVELGPGMLEAVYDGVQRPLDALRA--K------S-G-A-FLGRGV---SAPGLDRD---TMMQKWPVRVP-------RPYRRKITTGEPLVTGTRVIDTFFPLVKGGVACIPGPFGAGKTVTQHQVAKWSNAQVVIFIGCGERGNEMTDVLMEFPELTDPY-------SGE--------PLMKRTVLVANTSNMPVAAREASVYTGITMAEYFRDMGYEVVLQADSTSRWAEAMREISGRLEEMPGDEGFPAYLGTKLAAFYERAGAVECL-GGSLAALRTGSVSVVGSVSPPGGD-LSEPVVQNTLRVVK--VYWALQDQLAFQRHFPAIDWLTSYS A0A0P8Y2D7/72-114_184-433 -------------SVQLGPGLLKSIYDGIQRPLDVLRE--Q------S-G-D-FISRGK---IIPALDQK---GLSSWWTVRIP-------RPVLKKLPPEEPLITGQRVIDTFFPVAKGGTAAIPGPFGSGKTVIQQQLAKWADSEIIVYIGCGERGNEMCEVLTEFPKLIDPK-------SKR--------PLMERTILVANTSNMPVAAREASIYTGITIGEYYRDMGYGVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLGRRLAEFYERSGKSILI-SPEQ---RQGSLTLIGAVSPPGGD-FSEPVSQNTLRVTR--VFWALDASLANRRHFPSINWLTSYS R9N6R7/75-117_190-437 -------------SVTLAPGILNNIFDGIERPLERIAD--N------G-G-A-FITRGV---SVDSLDQE---TMTQRWPIRVP-------RPVSQRFPASVPLVTGQRILDTMFPIAKGGTAAIPGGFGTGKTMTQHQIAKWADADIIIYIGCGERGNEMTQVLEEFSELVDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASIYTGLTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQTL-NGES-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYSRHFPAIHWLSSYS G6BES8/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRT---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDE---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS T4H9F5/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRT---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDE---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS A0A0J0UDZ8/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRT---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDE---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS A0A031WCN8/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRT---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDE---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS A0A1F2CSI6/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRT---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDE---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS A0A125V996/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRT---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDE---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS C9YQC4/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRT---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDE---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS G6B4D2/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRT---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDE---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS A0A0H3NA96/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRT---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDE---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS A0A1F1LR06/72-115_187-435 -------------SVELGPGMMSQMFDGIQRPLERFRS--Q------TES-D-YLIRGV---ALPVLDRE---TLMQKWPVRKG-------RPFARKLIPVEPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKFANVDIVVYVGCGERGNEMTDVLNEFPELIDPA-------SGK--------SIMERTILIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVEVL-GSG----LEGTITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAGLAQRRHFPSINWLNSYS A0A0T5ZDG1/73-115_188-437 -------------SVLLGPGIIGQIYDGIQRPLKELSK--K------S-G-S-FIGRGI---TTTPVDMT---KMYHKWPVRKP-------RPYQKRYDPTIPLLTGQRVIDTFFPLAKGGTGSIPGAFGTGKTVTLHQIAKWADSQVVVYIGCGERGNEMTEVLVEFPELKDPR-------TGK--------PLMERTVLVANTSNMPVAAREASIYTGVTIAEYYRDMGMDVVLVADSTSRWAEALREMSGRLEEMPAEEGYPSYLASRLAEFYERAGRVRAL-GSPE---RDGSVSLVGAVSPSGGD-FTEPVTTHTMRFIK--TFWALDAKLAYSRHYPSINWMNSYS A0A0E2UC40/72-115_187-436 -------------SVELGPGLLSEMFDGIQRPLDRFKS--V------TKS-N-FLIRGA---EVPSLDRE---SLMQKWPVRKG-------RPVAKKLIPVEPLITGQRVIDTFFPVAKGGAAAVPGPFGAGKTVVQHQIAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPN-------TGQ--------SIMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRFQVL-GTDG---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAPLAQRRHFPAINWLNSYS A0A0A2G0K6/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGS---YTYALDEG---TMVQRWPVKKAI------TCYREKPRPFKLLETGVRIIDTLNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFKEFPELIDSH-------TGR--------KLMERTIIIANTSNMPVASREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAIVANFYARAGFVYLNNG------SSGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQERADRKRYPAVNPIDSYS T1DTW0/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGS---YTYALDEG---TMVQRWPVKKAI------TCYREKPRPFKLLETGVRIIDTLNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFKEFPELIDSH-------TGR--------KLMERTIIIANTSNMPVASREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAIVANFYARAGFVYLNNG------SSGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQERADRKRYPAVNPIDSYS K9DSH6/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGQ---YTYPLDKG---NMIQKWPVKRAM------TNYKEKPRPFKLLETGVRVIDTINPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDLSSIISNFYGRAGYVVLGNG------ETGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADKKRYPAVNPIDSYS A0A1F0GK71/72-114_185-434 -------------SVELGPGMIEQMFDGIQRPLVGLRD--E------A-G-D-FLERGV---TVNPLNRD---NMIQRWPVRKG-------RPYKKKVDPKEPLITGQRVIDTFFPITKGGTAAIPGPFGSGKTVVQHQLAKWADAQIVVYVGCGERGNEMTDVLMEFPELIDPN-------TGE--------SIMKRTVLIANTSNMPVAAREASIYTGITISEYFRDMGYSVAMMADSTSRWAEALREMSGRLEEMPGDEGYPAYLASRIAEFYERAGRVLVN-GKEE---REGALSVIGAVSPPGGD-ISEPVTQNTLRIVK--IFWKLDYDLSYQRHFPAINWIDSYS A0A0N1CRA7/74-117_188-437 -------------SVELAPGLLAQMFDGIQRPLDTFMS--Q------TES-D-FLERGV---TIDPLNRR---TMVQKWPVRKP-------RPVSTKLNPGEPLVTGQRVIDTFFPVAKGGSVAVPGPFGAGKTVVQHQIAKWSDVDIVVYVGCGERGNEMRDVMNEFPELIDPN-------TGE--------SIMERTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYSVAIMADSTSRWAEALREMSGRLQEIPGDEGYPAYLGSRIAEYYERAGRFQTL-GTQP---REGSITAIGAVSPAGGD-ISEPVTQNTLRIVK--VFWALDSTLAQKRHFPSINWMNSYS A0A182U8P0/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDINE--M------T-S-SIYIPKGI---NVPCLSRT---TMLQVWPVRQP-------RPVTEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIVYVGCGERGNEMSEVLRDFPELSVEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS A0A182XE81/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDINE--M------T-S-SIYIPKGI---NVPCLSRT---TMLQVWPVRQP-------RPVTEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIVYVGCGERGNEMSEVLRDFPELSVEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS A0A182HJ42/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDINE--M------T-S-SIYIPKGI---NVPCLSRT---TMLQVWPVRQP-------RPVTEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIVYVGCGERGNEMSEVLRDFPELSVEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS A0A182LC98/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDINE--M------T-S-SIYIPKGI---NVPCLSRT---TMLQVWPVRQP-------RPVTEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIVYVGCGERGNEMSEVLRDFPELSVEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS A0A0S8KBE1/72-114_185-434 -------------SVELGPGMVSAIYDGIQRPLSVIRD--Q------V-G-D-YVARGV---DIPGLDRK---TMMQRWPVRRP-------RPYRKKLIPTEPLYSGQRVLDTFFPVGKGGTACVPGPFGSGKTVIQHQLAKWADADIVVYIGCGERGNEMCDVLTEFPELKDPR-------TGE--------PLMKRTVLIANTSNMPVAAREASVYTGITCAEYFRDMGYSVAVMADSTSRWAEAMREISGRLEEMPGEEGYPAYLGTRVAEFYERAGKVVCE-CSDN---RQGSLTVIGAVSPPGGD-LSDPVVQATLRVVK--VFWSLEDLLAFKRHFPAISWLNSYS U2SKQ3/72-114_185-434 -------------SVELGPGLLEAMFDGIQRPLKEFQE--V------A-G-D-YLNKGV---AVPSLNRE---QLMQKWPVRRG-------RKYKQKLNPEAPLVTGQRVIDTFFPVTKGGTACVPGPFGSGKTVVQHQLAKWADAQIIVYVGCGERGNEMTDVLMEFPEIIDPN-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAADFYERSGKVICL-GKDG---REGALTVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDANLAYRRHFPAINWLNSYS A6NZG8/72-114_187-434 -------------SVKLGPGLLSNIFDGIARPLNVIEE--K------A-G-P-FITRGI---NISALDEE---CLAQDCRIRTP-------RPMAERLPISRPLITGQRIIDTLFPIGKGGAAAIPGPFGAGKTMTQHQLAKWSDADIIVYLGCGERGNEMTQALEEFSELLDPK-------SHQ--------PLMNRTILIANTSNMPVAAREASVYTGMTIAEYYRDMGYHVALMADSTSRWAEALREISGRLEEMPAEEGFPAYLASRLAEFYERAGYVKTL-EGKE-----GSVTVIGAVSPQGGD-FSEPVTQNTKRYVR--TFWGLDRALAYARHFPSINWLTSYS A0A1C6C7I3/72-114_187-434 -------------SVKLGPGLLSNIFDGIARPLNVIEE--K------A-G-P-FITRGI---NISALDEE---CLAQDCRIRTP-------RPMAERLPISRPLITGQRIIDTLFPIGKGGAAAIPGPFGAGKTMTQHQLAKWSDADIIVYLGCGERGNEMTQALEEFSELLDPK-------SHQ--------PLMNRTILIANTSNMPVAAREASVYTGMTIAEYYRDMGYHVALMADSTSRWAEALREISGRLEEMPAEEGFPAYLASRLAEFYERAGYVKTL-EGKE-----GSVTVIGAVSPQGGD-FSEPVTQNTKRYVR--TFWGLDRALAYARHFPSINWLTSYS C0DAB6/72-115_187-436 -------------SVELGPGLIGSIYDGIQRPLDAIME--V------T-GGN-LLNRGV---EVPSLKRD---GLMQKWPVRRG-------RPYKTKLSPDMPLVTGQRVIDTLFPIAKGGVAAVPGPFGSGKTVVQHQLAKWADADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGK--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGRVISL-GSEG---REGALSVIGAVSPAGGD-ISEPVTQATLRIVK--VFWSLDSNLAYKRHFPAVNWLTSYS A0A1G3L8E8/73-114_186-435 --------------VELGPGIMENFYDGIQRPLHKLAE--A------S-G-A-FISRGL---MIPGLDRD---MMMQKWPVRKG-------RPYSKKILPREPLFTGQRVIDALFPIVKGGTACIPGPFGSGKTVTQHQLAKWADAQIVVYIGCGERGNEMTDVLIEFPELEDPK-------SGQ--------PLMKRTVLIANTSNMPVAAREASIYTGITLAEYFRDMGYDVALMADSTSRWAEAMREMSGRLEEMPGEEGYPAYLGTRIAEFYERAGRVEAL-GSPQ---RVGSVSAIGAVSPPGGD-LSDPVVQATLRVVK--VFWGLEASLAYKRHFPAINWLRSYS A0A081N536/96-137_210-464 --------------VDLGPGILGMIYDGLQNPLERLAA--I------H-G-K-FLQRGV---AVESLDRA---TMYQKWPVRRSISETLQKKGKTTRQYPNTPLVTTQRIVDTFFPIARGGTGCIPGPFGSGKTVLMHSFSRYSNADIVIVTACGERAGEVVETIEEFPHLQDPT-------TGG--------ALIDRTVIICNTSSMPVAAREASIYTGLTLGEYYRQMGYNILALADSTSRWAQAMRETSNRLEEIPGEEGFPAYMDSAIKGVYERCGVITNEEE------QEGSLTMIGSVSPAGGN-FEEPVTQATLGTVK--TFLGLSYDRAYKRFYPAIDPLISWS A0A142BFN8/96-137_210-464 --------------VDLGPGILGMIYDGLQNPLERLAA--I------H-G-K-FLQRGV---AVESLDRA---TMYQKWPVRRSISETLQKKGKTTRQYPNTPLVTTQRIVDTFFPIARGGTGCIPGPFGSGKTVLMHSFSRYSNADIVIVTACGERAGEVVETIEEFPHLQDPT-------TGG--------ALIDRTVIICNTSSMPVAAREASIYTGLTLGEYYRQMGYNILALADSTSRWAQAMRETSNRLEEIPGEEGFPAYMDSAIKGVYERCGVITNEEE------QEGSLTMIGSVSPAGGN-FEEPVTQATLGTVK--TFLGLSYDRAYKRFYPAIDPLISWS A0A1F0GID5/72-114_187-434 -------------SVKLGPGMIRGIFDGIERPLESIKK--E------H-G-S-FMPEGI---GLISLDEE---KMYQNWPVRIP-------RPVKERLPIDKLLVTGQRVFDVFFPIAKGGTTAVPGGFGTGKTMTQHQIAKYCDADIIIYIGCGERGNEMTEVLEDFPQLIDPN-------TGK--------ALMDRTILIANTSNMPVAAREASIYTGVTMAEYFRDMGYHVALMGDSTSRWAEALREISGRLEEMPAEEGYPAYLPSRIAGFYERAGYVNTL-SGAE-----GSVTLIGAVSPAGGD-FSEPVTENTKRFVN--VFLALDKELAYSRHYPAINWMNSYS X8IEV8/72-114_185-433 -------------SIELGPGMLEQMFDGIQRPLLKIQE--A------V-G-D-FLLKGV---SVPALDRE---NMIQKWPVRKG-------RPYLRKLNPVKPLITGQRIIDTFFAVTKGGTAAIPGPFGSGKTVIQHQLAKWADAEVVVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLSSRIAEFYERAGLVECL-GNG----EEGALTVIGAVSPPGGD-ISEPVSQSTLRIAK--VFWGLDYALSYRRHFPAINWLNSYS A0A174EIR1/72-115_186-435 -------------SVELGPGLIASIYDGIQRPLDDIMK--A------T-GSN-NLKRGV---EVPSLKRD---TMMQKWPVRKG-------RPYLKKLPPETPLVTGQRVVDSFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGY--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVVCL-GKDG---REGALSAIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSSLAAKRHFPAINWLTSYS G5FF29/72-115_186-435 -------------SVELGPGLIASIYDGIQRPLDDIMK--A------T-GSN-NLKRGV---EVPSLKRD---TMMQKWPVRKG-------RPYLKKLPPETPLVTGQRVVDSFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGY--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVVCL-GKDG---REGALSAIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSSLAAKRHFPAINWLTSYS A0A1C6H3U6/72-115_186-435 -------------SVELGPGLIASIYDGIQRPLDDIMK--A------T-GSN-NLKRGV---EVPSLKRD---TMMQKWPVRKG-------RPYLKKLPPETPLVTGQRVVDSFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGY--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVVCL-GKDG---REGALSAIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSSLAAKRHFPAINWLTSYS E7GI64/72-115_186-435 -------------SVELGPGLIASIYDGIQRPLDDIMK--A------T-GSN-NLKRGV---EVPSLKRD---TMMQKWPVRKG-------RPYLKKLPPETPLVTGQRVVDSFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGY--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVVCL-GKDG---REGALSAIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSSLAAKRHFPAINWLTSYS U2DF78/72-115_186-435 -------------SVELGPGLIASIYDGIQRPLDDIMK--A------T-GSN-NLKRGV---EVPSLKRD---TMMQKWPVRKG-------RPYLKKLPPETPLVTGQRVVDSFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGY--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVVCL-GKDG---REGALSAIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSSLAAKRHFPAINWLTSYS F4HM98/669-866 ------------------------------------------------------------------------------------------------------------------------------------NTVTQHQLAKWSDAQVVVYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKLAEFYERAGRVITL-GSDN---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLTSYS R0D031/73-115_188-435 -------------SVTLAPGILSNIFDGIERPLSEIAR--G------S-G-Y-YISRGI---SVNSLDTD---TMTQKWPIRVA-------RPSAKRFPAVKPLITGQRILDTMFPLAKGGTAAIPGGFGTGKTMTQHQVAKWSDADVIIYIGCGERGNEMTQVLEEFSELIDPK-------TGN--------PLMDRTTLIANTSNMPVAAREASLYSGLTLAEYYRDMGYHVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQNL-NGTE-----GSVTIIGAVSPQGGD-FSEPVTMNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS A0A0E2H6S6/73-115_188-435 -------------SVTLAPGILSNIFDGIERPLSEIAR--G------S-G-Y-YISRGI---SVNSLDTD---TMTQKWPIRVA-------RPSAKRFPAVKPLITGQRILDTMFPLAKGGTAAIPGGFGTGKTMTQHQVAKWSDADVIIYIGCGERGNEMTQVLEEFSELIDPK-------TGN--------PLMDRTTLIANTSNMPVAAREASLYSGLTLAEYYRDMGYHVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQNL-NGTE-----GSVTIIGAVSPQGGD-FSEPVTMNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS G6A6R7/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLARFQT--V------TQS-D-FLVRGV---QLPNLNRE---NLMQRWPVRRG-------RPFAQKLIPEEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPV-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSDE---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS I0S7D8/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLARFQT--V------TQS-D-FLVRGV---QLPNLNRE---NLMQRWPVRRG-------RPFAQKLIPEEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPV-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSDE---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS A0A151E501/76-118_190-439 -------------SVELGPGLLTNIYDGIQRPLPGISE--K------T-G-D-FIERGV---EVPALDRK---QMMQKWPVRKP-------RPIAKKYDPTLPLITGQRIIDTFFPVAKGGTAAIPGGFGTGKTVMLHQLAKWSDAQVVIYVGCGERGNEMTDVLREFPELEDPK-------SGE--------PLMNRTVLIANTSNMPVAARDASVYTGITIAEYYRDMGYDVALMADSTSRLAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVKLL-GSKD---KEGSVSVMGAVSPPGGD-FSEPVAQNTLRIVK--VFWALDADLADRRHFPSINWLKSYS A0A0X8V926/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKLFE--A------S-GTN--IQKGI---EVKSLDRD---SMMQKWPVRRE-------RPYKVKKSPDSLLVTGQRVVDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLCEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEFFRDMGYNVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGRVVSL-GKEE---RIGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLSSYS A0A0C1U5V8/72-115_186-435 -------------SVELGPGLIESMFDGIQRPLDAFME--A------AKS-S-FLSKGV---SVKSLNRD---NLIQKWPVRRG-------RPYSRKLNPVEPMITGQRVIDTFFPVAKGGAAAVPGPFGAGKTVVQHQIAKWGDAEIVVYVGCGERGNEMTDVLNEFPELKDPK-------TGE--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVSIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLADYYERAGKVIAL-GSDG---REGAVTAIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDANLAYRRHFPAINWLDSYS A0A0A7FT31/72-115_186-435 -------------SVELGPGLIEAMFDGIQRPLDAFMK--A------ANS-D-FLIKGV---SVKSLNRD---TMMQKWPVRKG-------RPYANKLNPIAPLTTGQRVIDTFFPVVKGGAAAVPGPFGAGKTVVQHQVAKWGDAEIVVYVGCGERGNEMTDVLNEFPELKDPK-------TGE--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLADYYERAGKVVCL-GKDG---REGAVTAIGAVSPPGGD-ISEPVTQSTLRIVK--VFWGLDAQLAYQRHFPSINWLNSYS A0A101E5Y3/72-114_186-435 -------------SVELGPGMLEGIFDGIQRPLDVIEK--K------V-G-S-FITRGI---EVPALNRE---TMMQKWPVRKA-------RPYKEKLPPEIPMATGQRVIDTFFPVTKGGTACIPGPFGSGKTVVQHQLAKWADAEVVVYIGCGERGNEMTDVLLEFPELKDPK-------TGE--------PLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLSRRLAEFYERAGRVICL-GSDN---REGALTVVGAVSPPGGD-LSEPVTQATLRVVK--VFWALDSELAYARHFPAINWLTSYS A0A1D2RGW9/74-116_188-437 -------------SVELGPGILKSIYDGVQRPLELIKD--K------A-G-T-YITRGI---SVPPIDKN---PIMQVWPVRKP-------RPYKKKLSPNIPLLTGQRVFDTFFPIAKGGAAAIPGPFGAGKTVSQHQLAKWCDAKVIIYVGCGERGNEMTEVLEEFPHLIDPH-------TNL--------PLMERTSMIANTSNMPVAAREASVYTGITMAEYYRDMGYDTALMADSTSRWAESMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVVTL-GAED---RMASTSIIGAVSPPGGD-FSEPVTQNTLRVTR--VFWALDASLADRRHFPSINWLTSYS A6BFA3/49-91_164-411 -------------SVTLAPGILNNIFDGIERPLERIAD--K------G-G-A-FITRGV---SVDALDRQ---SMTQHWPIRVP-------RPVNRRFPASVPLVTGQRILDTMFPIAKGGTAAIPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEEFSELVDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASIYTGLTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQTL-NGAT-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS A0A1F0RC79/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLARFQA--V------TQS-D-FLVRGV---QLPHLNRE---SLMQKWPVRRG-------RPFAQKLIPEEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPA-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSDE---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS A7VGZ1/72-114_185-434 -------------SVELGPGLISSIYDGIQRPLDDIMK--I------C-GNN--LQRGV---EVPSLKRD---TLMQKWPVRKG-------RPYAEKIPPVMPLITGQRVVDAFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGY--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLQEMPGEEGYPAYLGSRLAQFYERAGMVKTL-GSEG---RTGALSVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSALAYKRHFPAINWLTSYS T0TPH1/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLERFQE--V------TAS-D-FLVRGV---QVPNLDRD---TLMQKWPVRRG-------RPFAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPT-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GTTA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS I2NQZ6/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLERFQE--V------TAS-D-FLVRGV---QVPNLDRD---TLMQKWPVRRG-------RPFAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPT-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GTTA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS S4CUU7/80-123_194-443 -------------SVDLAPGLLSQMFDGIQRPLDKFMA--Q------TES-D-FLERGV---TIDPLDWQ---PMLQRWPVRVP-------RPFQTKLKPGEPLVTGQRVIDTFFPVAKGGSAAVPGPFGAGKTVVQHQIAKWADVDIVVYVGCGERGNEMKDVINEFPELIDPQ-------TGE--------SIMERTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYSVAIMADSTSRWAEALREMSGRLQEIPGDEGYPAYLGSRIAEYYERAGRFRSL-GSEP---REGSITAIGAVSPAGGD-ISEPVTQNTLRIVK--VFWALDSLLAQKRHFPAIDWLTSYS V4K248/73-122_197-446 -------------SVELGPGVIGSIFDGIQRPLPLIAQQ-IAKANPAR-S-I-FVERGV---NVPPIPRD---YLSHRWPVRIP-------RPYSAKLDPTEPLITGMRIIDLLFPMAKGGTGMIPGGFGTGKTVTLHSLAQWSSANVIIYIGCGERGNEMTEVLERFPTYKDPW-------TGR--------PLMERTILIANTSNMPVAAREASIYVGITMAEYYRDMGYDVLLVADSTSRWAEALREIAGRLEEMPAEEGYPSYLASRLAEFYERAGRVRTM-GSPE---RLGSVTVVGAVSPPGGD-FTEPVTTHTRRFTK--VFWALDTALAYSRHYPAINWILSYS U2CYZ7/73-115_189-436 -------------SVLLGPGIIHNIFDGIQRPLAEIAQ--A------S-G-K-YISRGV---SVDSLDTE---ALAQKWPIRVP-------RPTYKRFPASVPLLTGQRILDTLFPIAKGGTAAVPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEDFSKLIDPK-------SGN--------LMMDRTTLIANTSNMPVAAREASIYTGVTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASKLSAFYERAGMMQNL-NGTE-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKALAYARHFPAIQWLTSYS A0A0H5E466/83-131_208-452 -------FSENLLEAELGPGLLTSIFDGLQNPLEKVAE--E------A-G-F-FLPRGI---YLPPLDRK------QRWPIKNPL-------QMGEKQKPSKMMVTGCRIIDTQFPVMKGGTFCTPGPFGAGKTVLQHHLSKYSSVDIVVVCACGERAGEVVEILKEFPHLEDPH-------TGE--------TLMKRTVIICNTSSMPVAARESSIYQGVTIAEYYRQMGLDVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLSSRIAEFYERSGVVALRSG------KTGSVTIGGAVSPAGGN-FEEPVTQATLSVVG--AFLGLSRERSDSRRYPAIDPLISWS W0E3E1/95-136_209-463 --------------VELGPGLLGEVYDGLQNPLEKIAI--T------H-G-V-FLPRGV---DLDALDRN---DLIQRWPVRRALTEHMLRTRTTERLYPSEPMTTSIRLIDTFFPIARGGTGCIPGPFGAGKTVLQHLLAKHAAVDIVIVVACGERAGEVVETISEFPQLADPK-------TGG--------SLMDRTIIICNTSSMPVASREASIYTGITLGEYYRQMGYQVLLLADSTSRWAQAMRETSGRLEEIPGEEAFPAYLDSAIRGVYERAGVVRTADS------SVGSLTMIGTVSPAGGN-FEEPVTQSTLSTVK--CFLGLSYDRAYKRFYPAIDPLISWS A0A1B2I4M3/77-120_192-441 -------------SVELAPGLIEEFFDGIQRPLEAIEQ--K------AES-P-YILRGI---SVPAVSRT---KLLQRWPVRSP-------RPVVKRLPPEVPLTTGQRVVDTFFPIARGGTACVPGPFGSGKTVIQHQLAKWADAEIVVYIGCGERGNEMTDVLLEFPELEDPR-------SGQ--------PLMKRTLLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGTRLASFYERAGRAICF-GKDG---REGAVSVIGAVSPPGGD-LSEPVTQNTLRVTK--VFWGLDAQLAYQRHFPAINWLNSYS A0A151ETS2/76-118_190-439 -------------SVELGPGLLTNIYDGIQRPLPGIYE--K------T-G-D-FIERGV---EVPALDRN---QMMQKWPVRKP-------RPIAKKFDPTLPLITGQRIIDTFFPVAKGGTAAIPGGFGTGKTVMLHQLAKWSDAQVVIYVGCGERGNEMTDVLREFPELEDPK-------SGE--------PLMNRTVLIANTSNMPVAARDASVYTGITIAEYYRDMGYDVALMADSTSRLAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVRLL-GSKD---REGSVSVMGAVSPPGGD-FSEPVAQNTLRIVK--VFWALDADLADRRHFPSINWLKSYS S4B3H4/72-115_186-434 -------------SVELAPGIMSQMFDGIQRPLETFMS--V------TQS-N-FLTRGV---QLPALDHE---TMLQKWPVRHS-------RPVKQKLNPVEPMITGQRVIDTFFPIAKGGASAVPGPFGAGKTVVQHQIAKWADVDLVVYVGCGERGNEMTDVMNEFPELIDPR-------SGE--------SLMARTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGKAICL-GSD----QEGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDATLAQKRHFPSIDWLKSYS A0A134AKE2/73-115_188-435 -------------SVRLGPGLIGNMFDGIERPLNRINE--E------Y-G-Y-FIPEGI---GMMNLDLE---AMSQRWPVRIP-------RPVNEFLDANQLLTTGQRVLDVFFPIAKGGTVAIPGGFGTGKTMTQHSIAKFCDADIIVYIGCGERGNEMTEVLEDFPKLIDPN-------TGK--------PLMERTILIANTSNMPVAAREASIYTGITIAEYFRDQGYDVAMMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRIASFYERNGSVITL-SGKN-----GSVTTIGAVSPAGGD-FSEPVTENTRRFVN--VFLALDKDLAYSRHYPAIHWLKSYS B3T375/72-114_184-433 -------------SLQLGPGLLTSIYDGIQRPLDVLAA--E------S-G-D-FISRGK---IIPALDQK---GLSSWWTVRIP-------RPVLRKLPPDQPLLTGQRVLDTFFPVAKGGSAAIPGPFGSGKTVTQQQLAKWADSEIIVYIGCGERGNEMCEVLTQFPKLIDPK-------SKR--------PLMERTILVANTSNMPVAAREASIYTGITMGEYYRDMGYGVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLGRRLAEFYERGGRCIVI-SPEE---REGSLSIVGAVSPPGGD-FSEPVSQNTLRVTR--VFWGLDANLANRRHFPAINWLTSYS H1KWT7/72-115_187-436 -------------SVELGPGMMKAMYDGIQRPLTAIED--K------T-G-SIFIPRGV---DVPALPRD---TLMQKWPVRKP-------RPYKEKLPPVIPLITGQRVEDTFFGLAKGGTAAIPGPFGSGKTVTQHQLAKWADADVVVYIGCGERGNEMTEVIEEFPHLEDIK-------TGN--------KLMDRTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYGVLLTADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAQFYERAGRVVTL-GQDD---RQGFVCIVGAVSPPGGD-FSEPVTSNTLRIVK--VFWALDANLARRRHFPAINWLQSYS A0A1D2W8T9/72-114_186-435 -------------SVELGPGILTSIYDGIQRPLENIKA--L------T-G-D-YIERGV---DVPALPKD---QMVQKWPVRVG-------RPYKAKLDPDIPWVTGQRAQDTFFTVAKGGTAAMPGPFGSGKTVTQQQLAKWADADIVVYIGCGERGNEMTEVLTEFPELEDPK-------TGK--------PLMDRTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYDVALMADSTSRWAEAMREISGRLEEMPGEEGYPAYLASKLAQFYERAGRVTTV-GTED---KVASLTVVGAVSPPGGD-LSEPVTQNTLRISK--VFWALDSSLADKRHFPSIDWLQSYS A0A0H5SFD0/72-114_186-435 -------------SVELGPGLISSIFDGIQRPLVDIME--A------I-GTN--LQRGI---EIPALNRE---TLMQKWPVRRG-------RPYKQKLSPDKPLVTGQRVIDTLFPIAKGGVAAVPGPFGSGKTVVQHQLAKWADADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGK--------SLMERTVLIANTSDMPVAAREASIYVGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLASRLAQFYERAGRVISL-GKEG---REGALSVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDSNLAYRRHFPAINWLTSYS B5CXA7/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKME------------G-V-FLKRGQ---YTYPLDKE---NMIQKWPVKKAM------TNYKEKPRPYKLLETGVRVIDTMNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIVANTSNMPVAAREASVYTAMTMAEFYRAMGLKVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDISAIISNFYGRAGYVHLNNG------STGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQERADRKRYPAVNPIDSYS A0A0S7Z7B7/72-108_179-426 -------------SVRLGPALLGRIFDGLLRPLDCADDF--------------RLTTGT-------LSCET--AMSEQWPVRTP-------RPCRERLPPNAPMITGQRILDTLFPVARGGRAALPGGFGTGKTILQEAIAKWCDADVIVYVGCGERGNEMAEVLDEFPQLEDPR-------TGR--------PLMERAVIIANTSNMPVAAREASIYTAITVAEYFRDQGRHVALMADSTSRWAEALREVSGRLGELPGEAGYPAYLSSRLAGFYERAARVRTL-GGKE-----GSVTVIGAVSPPAGD-FSEPVTLHTKRFVR--CFWALDAERARARFYPAIHPLTSYS A0A109Y677/72-115_186-434 -------------SVELAPGIMSQMFDGIQRPLETFMS--V------TQS-N-FLTRGV---QLPALDHE---TMLQKWPVRHS-------RPVKQKLNPVEPMITGQRVIDTFFPIAKGGASAVPGPFGAGKTVVQHQIAKWADVDLVVYVGCGERGNEMTDVMNEFPELIDPR-------SGE--------SLMARTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGKAICL-GSD----QEGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDATLAQKRHFPSIDWLKSYS S4CK55/72-115_186-434 -------------SVELAPGIMSQMFDGIQRPLETFMS--V------TQS-N-FLTRGV---QLPALDHE---TMLQKWPVRHS-------RPVKQKLNPVEPMITGQRVIDTFFPIAKGGASAVPGPFGAGKTVVQHQIAKWADVDLVVYVGCGERGNEMTDVMNEFPELIDPR-------SGE--------SLMARTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGKAICL-GSD----QEGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDATLAQKRHFPSIDWLKSYS A0A1L8VLW2/72-115_186-435 -------------SVELAPGILSQMFDGIQRPLDTFME--I------TKS-N-FLARGV---QLPALDHE---TMLQKWPVRRS-------RPIKEKLNPDAPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWADVDLVVYVGCGERGNEMTDVLNEFPELIDPK-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERAGRVIAL-GSDH---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSLLAQKRHFPSIDWLQSYS R3TMF3/72-115_186-435 -------------SVELAPGILSQMFDGIQRPLDTFME--I------TKS-N-FLARGV---QLPALDHE---TMLQKWPVRRS-------RPIKEKLNPDAPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWADVDLVVYVGCGERGNEMTDVLNEFPELIDPK-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERAGRVIAL-GSDH---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSLLAQKRHFPSIDWLQSYS A0A0F2CBZ3/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLERFQT--I------TKS-D-FLVRGV---QLPNLDRE---TLMQKWPVRRG-------RPFAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPT-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSTA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS A0A174KS97/72-114_187-434 -------------SVTLGPGILRNIYDGIERPLEEIAK--E------S-G-A-FIPTGS---AVEPLDTK---TLTQRWPIKTP-------RPVHKRLPISMPLVTGQRVIDTLFPIAKGGTAAVPGGFGTGKTMTQHQLAKWCDADIIVYVGCGERGNEMTQVLEEFCELVDPK-------SGK--------PLVDRTVLIANTSNMPVAAREASIYTGVTLAEYYRDMGYHVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRLSQFYERAGYMENL-NNTN-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--TFWALDKALAYARHYFAINWNLSYS A0A174J6I1/72-114_187-434 -------------SVTLGPGILRNIYDGIERPLEEIAK--E------S-G-A-FIPTGS---AVEPLDTK---TLTQRWPIKTP-------RPVHKRLPISMPLVTGQRVIDTLFPIAKGGTAAVPGGFGTGKTMTQHQLAKWCDADIIVYVGCGERGNEMTQVLEEFCELVDPK-------SGK--------PLVDRTVLIANTSNMPVAAREASIYTGVTLAEYYRDMGYHVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRLSQFYERAGYMENL-NNTN-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--TFWALDKALAYARHYFAINWNLSYS A0A0P1E7U7/98-139_212-466 --------------VELGPGLLGQVFDGLQSPLTKVAA--E------F-G-T-FLPRGA---DVAPLDDQ---TLCQKWPVRRPLPETILKRALSERLYPTEPVLTSQRLIDTFFPIARGGTACIPGPFGAGKTVLQNLIARNSKVDIVIVVACGERAGEVVETIHEFPKMTDPM-------SGG--------SLMDRTIIICNTSSMPVAAREASIFTGITLGEYYRQMGYDVLLIADSTSRWAQAMRETSGKLEEIPGEEGFPAYLESSIKGLYERAGAMKTNDG------DLGSLTLIGTVSPAGGN-FDEPVTQSTLSTVK--CFLGLSSERAYKRFYPAVDPMLSWS A4HB86/83-126_199-450 -------------SLDLGPGIMSEIFDGIQRPLDTIYQ--M------V-Q-NVFIPKGV---QVSALNMK---RLMQRWPVRTP-------RPVAVKESGNHPLLTGQRVLDALFPSVQGGTCSIPGAFGCGKTVISQALSKYSNSDCVIYVGCGERGNEMAEVLMEFPTLTTVI-------DGREE------SIMKRTCLVANTSNMPVAAREASIYTGITLAEYYRDMGKHIAMMADSTSRWAEALREISGRLAEMPADGGYPAYLSARLASFYERAGLVTCI-GGPK---RQGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLEKRLAQRKHFPSVNWLISYS F0LJM9/70-112_185-434 -------------SVELGPGLLTSIYDGIQRPLEVLRE--K------S-G-D-FIARGL---TAPALPRD---KMYQKWPVRKK-------RPYKEKLPPHVPLITGQRTIDTFFPQAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVVYIGCGERGNEMTDVLEEFPKLKDPR-------SGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKIAEFYERAGRVVTL-GSDY---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLMSYS A0A024X524/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS W7JJ39/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS A0A024VW17/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS W4IB19/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS A0A0L1I7N0/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS A0A024V4K7/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS A0A0L0CU30/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS W4IXS0/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS W7FQ27/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS A0A024WMA2/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS A0A060RWQ0/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS W7EWW3/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS A0A0L7KB49/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS Q03498/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS A0A0L7LWG2/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS W7JQK8/80-123_198-449 -------------SVELGPGILDNIYDGIQRPLERIAN--V------C-G-DVYIYKGI---DMTSLDHD---GLSHLWPVRDP-------RPVLEKVTGDTLLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCVSQALSKYSNSEVIIYVGCGERGNEMAEILSDFPELTTKV-------DNEDV------GIMQRTCLVANTSNMPVAAREASIYTGITLCEYFRDMGYNATMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGKVKCI-GSPS---RIGSITIVGAVSPPGGD-FSDPVTTATMSIVQ--AFWGLDKKLAQRKHFPSVNWSTSFS A0A174SDU5/74-114_187-434 ---------------ALGPGILSNIFDGIERPLREIAA--A------N-G-A-FIPAGG---DLPALDMQ---SLTQFWPIREP-------RPVARRLPIDRPLITGQRVIDTLFPVAKGGTAAIPGGFGTGKTMTQHQLAKWSDADIIVYIGCGERGNEMTQVLKEFGELEDPK-------SKK--------PLTDRTVLIANTSNMPVAAREASIYTGITLAEYYRDMGYHVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLSSRISQFYERAGYMQTL-CGAE-----GSVTIIGAVSPQGAD-FSEPVTQNTKRFVR--CFWALDKALAYARHYPAINWTTSYS A0A133V6V9/70-112_185-434 -------------SLELGPGLIGRVFDGIQRPLSIIRE--K------T-G-S-FIERGV---GANALPRD---NMIQSWPVRKP-------RPYEEKLGPEIPLISGQRIIDTLFPVAKGGTAGIPGGFGTGKTVMLHQMAKWADTKIVVYVGCGERGNEMTDVLLHFPQLEDPR-------SGK--------PLMDRTALVANTSNMPVAAREASIYTGITIGEYFRDMGYDVALMADSTSRWAEALREVSGRLEEMPSEEGFPAYLASRLAEFYERAGRVITL-GSRK---QTGSVTVMGAVSPPGGD-FSEPVTQNTLRIIK--TFWGLDTDLADKRHFPAINWLTSYS U7SLP8/72-114_185-433 -------------SIELGPGMLEQMFDGIQRPLLKIQE--A------V-G-D-FLLKGV---SVPALDRE---NMIQKWPVRKG-------RPYLRKLNPVKPLITGQRIIDTFFAVTKGGTAAIPGPFGSGKTVIQHQLAKWADAEVVVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLSSRIAEFYERAGLVECL-GNG----EEGALTVIGAVSPPGGD-ISEPVSQSTLRIAK--VFWGLDYALSYRRHFPAINWLNSYS R5B4K6/73-115_187-437 -------------SVELGPGMLENIYDGIQRPLPEIRD--L------T-G-S-NITRGI---EVPALNRE---NMIQRWPVRIA-------RPYAQKFAPNKPMNSGQRIIDTLFPIAKGGTAAVPGPFGSGKTVVQHQLAKWSDVDVVVYIGCGERGNEMTDVLMEFPELTDPR-------NGE--------PLMKRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYDVAVLADSTSRWAEALREMSGRLEEMPGEEGYPAYLASRIAQFYERAGCIRCI-GSEG--DRRGSVTAIGAVSPPGGD-ISEPVSQATMRIVK--VFWALDSSLAYARHFPAINWLTSYS F2BP38/99-142_214-463 -------------SVELGPGLISQMFDGIQRPLERFQT--I------TAS-D-FLVRGV---QLPNLDRE---TLMQKWPVRRG-------RPFAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPA-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSTA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS A9AAQ4/72-115_186-435 -------------SVELGPGMLKAMYDGIQRPLNEIEN--A------T-D-SIYIPRGV---SVPSISRE---MMMQKWPVRKP-------RPSKGKQAPVIPLITGQRVEDTFFGLAKGGASAIPGPFGSGKTVTQHQLAKWSDVDVVVYIGCGERGNEMTEVIEEFPHLDDIK-------TGN--------KLMDRTVLIANTSNMPVAAREASVYTGITIAEYFRDQGLGVLLTADSTSRWAEAMREISGRLEEMPGEEGYPAYLSSKLAQFYERAGRVECL-GSEN---KQGFVCIVGAVSPPGGD-FSEPVTSNTLRIVK--VFWALDANLARRRHFPAINWLTSYS A8RJ11/73-115_188-435 -------------SVTLAPGILSNIFDGIERPLSEIAK--G------S-G-Y-YISRGI---SVNSLDTD---TMTQKWPIRVA-------RPSARRFPAVKPLITGQRILDTMFPLAKGGTAAIPGGFGTGKTMTQHQVAKWSDADVIIYIGCGERGNEMTQVLEEFSELIDPK-------TGN--------PLMDRTTLIANTSNMPVAAREASLYSGLTLAEYYRDMGYHVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQNL-NGTE-----GSVTIIGAVSPQGGD-FSEPVTMNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS R0A2M6/73-115_188-435 -------------SVTLAPGILSNIFDGIERPLSEIAK--G------S-G-Y-YISRGI---SVNSLDTD---TMTQKWPIRVA-------RPSARRFPAVKPLITGQRILDTMFPLAKGGTAAIPGGFGTGKTMTQHQVAKWSDADVIIYIGCGERGNEMTQVLEEFSELIDPK-------TGN--------PLMDRTTLIANTSNMPVAAREASLYSGLTLAEYYRDMGYHVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQNL-NGTE-----GSVTIIGAVSPQGGD-FSEPVTMNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS E0NNU4/72-114_187-434 -------------SVKLGPGLISNMFDGIERPLQKIKD--E------H-G-N-FMPEGI---GLISLDEE---KMYQEWPVRIP-------RPVKNRLPIDRLLVTGQRVFDVFFPIAKGGTTAVPGGFGTGKTMTQHQIAKYCDADIIVYIGCGERGNEMTEVLEDFPKLIDPH-------TNK--------PLMDRTILIANTSNMPVAAREASIYTGVTIAEYFRDQGYHVALMGDSTSRWAEALREISGRLEEMPAEEGYPAYLPSRIAEFYERAGYAETL-SNNE-----GSVTLIGAVSPAGGD-FSEPVTENTKRFVN--VFLALDKELAYSRHYPAINWMNSYS R6AFQ1/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGQ---YTYPLDKE---NMIQKWPVKRAM------TNYKEKPRPFKLLETGVRVIDTVNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDLSSIISNFYGRAGYVKLNNG------ETGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADKKRYPAVNPIDSYS S3YGF1/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGQ---YTYPLDKE---NMIQKWPVKRAM------TNYKEKPRPFKLLETGVRVIDTVNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDLSSIISNFYGRAGYVKLNNG------ETGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADKKRYPAVNPIDSYS A0A108T5A1/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGQ---YTYPLDKE---NMIQKWPVKRAM------TNYKEKPRPFKLLETGVRVIDTVNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDLSSIISNFYGRAGYVKLNNG------ETGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADKKRYPAVNPIDSYS B0NTP4/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGQ---YTYPLDKE---NMIQKWPVKRAM------TNYKEKPRPFKLLETGVRVIDTVNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDLSSIISNFYGRAGYVKLNNG------ETGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADKKRYPAVNPIDSYS A0A1C5R258/73-115_189-436 -------------SVLLGPGIIHNIFDGIQRPLAEIAQ--A------S-G-K-YISRGV---SVDSLDTE---ALAQKWPIRVP-------RPTYKRFPASVPLLTGQRILDTLFPIAKGGTAAVPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEDFSKLIDPK-------SGN--------LMMDRTTLIANTSNMPVAAREASIYTGVTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASKLSAFYERAGMMQNL-NGTE-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKALAYARHFPAIQWLTSYS A0A0D5C0N7/73-115_188-437 -------------SVLLGPGIIGQLYDGIQRPLRELSK--A------S-G-S-FIGRGI---TTTPVDMT---KMYHKWPVRKP-------RPYNKRYDPTVPLLTGQRVIDTFFPIAKGGTGSIPGAFGTGKTVTLHQIAKWADSQVVVYIGCGERGNEMTEVLVEFPHLKDPR-------SGK--------PLMDRTVLVANTSNMPVAAREASIYTGVTIAEYYRDMGKDVVLVADSTSRWAEALREMSGRLEEMPAEEGYPSYLASRLAEFYERAGRVQAS-GSPE---RDGSVTLIGAVSPSGGD-FTEPVTTHTMRFIK--TFWALDAKLAYSRHYPSINWMNSYS A0A1G3Q678/77-120_192-442 -------------SVELGPGLLGNFFDGIQRPLEGISK--A------S-G-SAFIARGI---DVRPLDNT---TMTHKWPVRIP-------RPVKKKLPPKIQMYTGQRIVDTFFPLVKGGTAAIPGPFGSGKTVTQHQLAKWSDAEVVVYIGCGERGNEMTDVLMEFPELIDPK-------SGK--------PLMDRTVLIANTSNMPVAAREASIYTGITLAEYFRDMGYNVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLASFYERAGMVQIL-NSKK--DIVASISVIGAVSPPGGD-FSEPVTQNTLRVVK--VFWALDSNLAYQRHFPAINWLVSYS A0A134AX74/83-121_195-443 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGS---YTYALDEE---TMKQKWPVKRPI------TCYADKPRPHKLLETGVRMIDTMNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEVFKEFPELLDPN-------TGR--------PLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAIVANFYARAGFVHLKNG------QTGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQERADRKRYPAINPIDSYS A0A134B2Y3/83-121_195-443 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGS---YTYALDEE---TMKQKWPVKRPI------TCYADKPRPHKLLETGVRMIDTMNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEVFKEFPELLDPN-------TGR--------PLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAIVANFYARAGFVHLKNG------QTGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQERADRKRYPAINPIDSYS B4MWL7/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDIGV--M------T-S-SIYIPKGV---NTPALSRS---TMLQVWPVRQP-------RPVTEKLPANHPLFTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTCEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVAMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLATFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS A0A0U3P1S8/72-115_187-436 -------------SVELAPGMISQMFDGIQRPLDKFMD--K------TES-N-YLIRGV---SIEALSRT---TMLQKWPVRQG-------RPTAKKLNPVEPMITGQRVIDTLFPVAKGGAAAVPGPFGAGKTVVQHQIAKWADVDLVVYVGCGERGNEMTDVINEFPQLIDPN-------TGE--------SIMERTILIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEFYERAGKIITL-GTEG---REGSITAIGAVSPPGGD-TSEPVTQNTLRVAK--VFWSLDNLLAQKRHFPSIDWLASYS T3D7B4/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKMYD--I------S-GTN--ITKGV---EVSSLDRA---TMMQKWPVRKE-------RPYREKKTPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLLEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGKVNCL-GMDD---REGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS A0A075GYG4/73-115_188-437 -------------SVLLGPGIIGQIYDGIQRPLKDLAA--K------S-G-S-FIGRGI---TTTPVDME---KMYHKWPVRQP-------RPYLKRYDPTVPLLTGQRVIDTFFPLAKGGTGSIPGAFGTGKTVTLHQIAKWADSQVVVYIGCGERGNEMTEVLVEFPELKDPR-------TGK--------PLMDRTVLVANTSNMPVAAREASIYTGVTIAEYYRDMGYDVVLVADSTSRWAEALREMSGRLEEMPAEEGYPSYLASRLAEFYERAGRVRAR-GSPE---RDGSVSLVGAVSPSGGD-FTEPVTTHTMRFIK--TFWALDASLAYSRHYPSINWMNSYS B0MD75/73-115_188-435 -------------SVSLAPGILHNIFDGIERPLEQIAA--Q------S-G-K-YISRGT---QVDSLDYQ---PMMQQWPIRVP-------RPVSLRYPASRPLITGQRILDTMFPIAKGGTACIPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEEFSKLVDPK-------NGN--------PLMDRTVLIANTSNMPVAAREASIYTGLTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMKNL-NGTE-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYSRHFPAIHWLTSYS A0A1E9EQL2/72-114_185-433 -------------SIELGPGMLEQMFDGIQRPLLKIQE--E------V-G-D-FLLKGV---SVPALDRE---NMIQKWPVRKG-------RPYLRKLNPVKPLITGQRIIDTFFAVTKGGTAAIPGPFGSGKTVIQHQLAKWADAEVVVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLSSRIAEFYERAGLVECL-GNG----EEGALTVIGAVSPPGGD-ISEPVSQSTLRIAK--VFWGLDYALSYRRHFPAINWLNSYS R6YAQ5/76-114_188-436 --------------VTLAPGLLSRNYDGLQNDLEKMD------------G-L-FIARGS---ITDPVDFS---TMVQKWPVKQAV------RCYVEKPRPSRVMETGVRAIDTFNPMAEGGTGFIPGPFGAGKTVLQHAISKQADADIIIMVACGERANEVVEIFKEFPELIDPR-------TGH--------NLMERTIIVCNTSNMPVAAREASVYTGMTIGEYYRAMGLKVLVMADSTSRWAQALREMSNRLEELPGQDAFPMDLSAIISNFYSRAGLVKLTNG------ETGSVTFLGTVSPAGGN-LKEPVTESTKKAAR--CFYALSQGRADSKRYPAIDPLESYS A3Z0H3/89-130_203-457 --------------VKLGPGLLTQVYDGLQNPLAGLAA--G------Y-G-T-FLPRGA---AVAPLDTE---TLAQDWPVRRALPELLLQNRYCERLYPEEPMITTQRIVDTFLPIARGGTGCIPGPFGAGKTVLQNLISRHSDVDVVLVVACGERAGEVVETITEFPKLTDPK-------TGG--------SLMDRTIIICNTSSMPVAAREASIYTGLTLGEYYRQMGCNVLLIADSTSRWAQAMRETSGRLEEIPGEDAFPAYLDSAIKGVYERAGIIRTNDG------SVGSLTMIGTVSPAGGN-FEEPVTQSTLSTVK--AFLGLSAERAYKRCYPAVDILLSWS A6VFZ2/72-115_186-435 -------------SVELGPGMLKAMYDGIQRPLNEIEN--A------T-D-SIYIPRGV---SVPSISRV---QMMQKWPVRKP-------RPSKGKQAPVIPLITGQRVEDTFFGLAKGGASAIPGPFGSGKTVTQHQLAKWSDVDVVVYIGCGERGNEMTEVIEEFPHLDDIK-------TGN--------KLMDRTVLIANTSNMPVAAREASVYTGITIAEYFRDQGLGVLLTADSTSRWAEAMREISGRLEEMPGEEGYPAYLSSKLAQFYERAGRVECL-GSEN---KQGFVCIVGAVSPPGGD-FSEPVTSNTLRIVK--VFWALDANLARRRHFPAINWLTSYS A7B5C5/72-114_185-434 -------------SVELGPGLITSIYDGIQRPLDDIMK--I------S-GNS--LKRGV---EVPSLKRN---TLMQKWPVRKG-------RPYQRKLPPKMPLVTGQRVIDTFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGQ--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVISL-GKDG---REGALSVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSALAYKRHFPAINWLNSYS A0A0S7WII7/72-114_185-434 -------------SVELGPGLIESIYDGIQRPLDLIEK--M------V-G-D-YIQRGV---SLPGLDRE---NLFHRWPVRIP-------RPYKKKFSPHEPLVTGQRVIDTFFPTGKGGTACCPGPFGSGKTVIQHQLAKWADADIIVYIGCGERGNEMTDVLLEFPELKDPR-------SGE--------PLMKRTVLIANTSNMPVAAREASVYTGITIAEYFRDMGYSVAVMADSTSRWAEAMREISGRMEEMPGEEGYPAYLGARIAEFYERAGRVQCL-GSDS---REGALSVVGAVSPPGGD-LSDAVVQATLRVVK--VFWSLEDRLAARRHFPAISWLNSYS Q7WU82/70-112_185-432 -------------SVALGPGLLGNIYDGIQRPLKVLLE--S------S-G-P-FIGRGI---QAFGLDTE---KLYQEWPVRVP-------RPVKRFLELSIPLITGQRVIDIFFPISKGGTAAIPGGFGTGKTITQHQLAKWADADVVVYIGCGERGNEMTEVLEEFPHLQDPR-------TGK--------PLMDRTVLIANTSNMPVSAREASIYTGITIAEYFRDMGYHVALMADSTSRWAEALRELSGRLEEMPVEEGYPAYLASRIAQFYERAGLCENL-NGTT-----GSVTIIGAVSPPGGD-FSEPVTQHTKRFVR--CFWALDRNLAYSRHYPSINWITSYS D3MQF2/71-113_186-435 -------------SVELGPGLIENMFDGIQRPLEKFRA--V------A-G-D-FLTKGV---EVPSLDRD---QMMQKWPVRKS-------RRIKEKIAPRVPLITGQRVVDTFFPVTKGGTACVPGPFGSGKTVVQHQFAKWADAQIVVYVGCGERGNEMTDVLNEFPELIDPH-------TGE--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAVMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAAEFYERAGKVICK-GSDN---REGALTIIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLNANLAYRRHFPAISWIDSYS B6FPS4/73-115_188-435 -------------SVTLAPGILNNIFDGIERPLERIAE--N------S-G-A-FISRGV---SVDSLDKE---TMTQKWPIRVP-------RPTHHRFPASVPLITGQRILDTMFPIAKGGTACVPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEEFTKLVDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASIYTGLTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMHNL-NGTD-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS N1ZEN2/72-114_186-435 -------------SVELGPGLISTIYDGIQRPLEKLYE--V------S-GTN--IQRGV---EVDSLNRE---TMMQKWPVRKE-------RPYKEKQSPDSLLVTGQRVIDTFFPITKGGVAAIPGPFGSGKTVTQHQLAKWADADIVVYIGCGERGNEMTDVLNEFPELKDPR-------TGE--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEFFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGRVICL-GNEG---RMGTLTAIGAVSPPGGD-TSEPVSQATLRIVK--VFWGLDASLAYKRHFPAINWLTSYS A0A0F5J0N2/76-114_188-436 --------------VTLGPGMLSRNYDGLQNDLDKMD------------G-V-FLKRGE---YTFALDND---NMIQRWPVKRAV------TCYKEKPRPYKLLETGVRTIDTVNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELIDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTLAEYYRSMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAIVANFYARAGFVELNNG------KTGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQERADRKRYPAVNPIDSYS A0A1C6HT37/70-112_185-432 -------------SLTLGPGIISNIYDGVQRPLGDIEQ--I------S-G-A-FIANGL---EVSPLPAD---GLTQKWPIRTP-------RPSKSRLPISRPLITGQRILDTMFPIAKGGAAAVPGGFGTGKTMTQHQIAKWCDADLIIYIGCGERGNEMTQVLEEFGSLVDPK-------TGR--------PLTDRTVLIANTSNMPVAAREASIYTGITLAEYYRDMGYHVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRIATFYERAGYMVNL-NDTE-----GSITIIGAVSPQGGD-LSEPVTQNTKRFVR--CFWALDKSLAYARHYPAINWTTSYS C9L5A4/72-114_185-434 -------------SVELGPGLITSIYDGIQRPLDDIMK--V------C-GTN--LKRGV---EVPSLKRN---TMMQKWPVRRG-------RPYLKKLPPEMPLVTGQRVVDTFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGQ--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVISL-GKDK---REGALSVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSSLAYKRHFPAINWLTSYS D7N863/72-114_185-434 -------------SVELGPGLIEQMFDGIQRPLEALKD--T------T-G-D-FLVKGA---EVQKLNRE---NMIQKWPVRRG-------RKVTKKIDPTTPLVTGQRVIDTFFPITKGGTAAIPGPFGSGKTVVQHQLAKWADAQIIVYVGCGERGNEMTDVLMEFPELIDAG-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITISEYYRDMGYSVAMMADSTSRWAEALREMSGRLEEMPGDEGYPAYLASRVAEFYERAGRVICL-GSDK---REGALSVIGAVSPPGGD-ISEPVSQSTLRIVK--IFWKLDYDLSYRRHFPAINWIDSYS F0IS07/99-142_214-463 -------------SVELGPGLISQMFDGIQRPLERFQN--I------TKS-D-FLVRGV---QLPNLDRE---TLMQKWPVRRG-------RPFAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPA-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSTA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS F2C9T1/99-142_214-463 -------------SVELGPGLISQMFDGIQRPLERFQN--I------TKS-D-FLVRGV---QLPNLDRE---TLMQKWPVRRG-------RPFAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPA-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSTA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS F0FQK9/99-142_214-463 -------------SVELGPGLISQMFDGIQRPLERFQN--I------TKS-D-FLVRGV---QLPNLDRE---TLMQKWPVRRG-------RPFAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPA-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSTA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS D7IQC1/76-114_188-436 --------------VTLGPGMLSRNYDGLQNDLDKME------------G-V-FLKRGD---YTFALDND---TMIQKWPVKKAI------TCYKEKPRPFKLLETGVRTIDTVNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEVFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAIVANFYARAGFVRLNNN------ATGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQERADRKRYPAVNPIESYS J6PJQ4/58-101_172-421 -------------SVELGPGIISQMFDGIQRPLDTFME--I------TQS-N-FLGRGV---QLPALDHE---TMLQKWPVRRS-------RPIKEKLNPDAPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWADVDMVVYVGCGERGNEMTDVLNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSEG---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSIDWIQSYS A0A0M1X5Z1/58-101_172-421 -------------SVELGPGIISQMFDGIQRPLDTFME--I------TQS-N-FLGRGV---QLPALDHE---TMLQKWPVRRS-------RPIKEKLNPDAPMITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWADVDMVVYVGCGERGNEMTDVLNEFPELIDPN-------TGE--------SLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGRVIAL-GSEG---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDSSLAQKRHFPSIDWIQSYS A0A0H2T2J2/69-111_183-430 -------------SVALGPGLLGSIYDGIQRPLNELIE--K------S-G-S-FIGRGI---DAFGLDTT---KMYHEWPVKIP-------RPVKNRLEPKIPLITGQRVIDLFFPISKGGTAAIPGGFGTGKTITQHQLAKWADADIIVYIGCGERGNEMTEVLEEFPNLKDPK-------TGA--------PLMDRTVLIANTSNMPVSAREASIYTGITIAEYFRDMGYNVAVMADSTSRWAEALRELSGRLEEMPAEEGYPSYLASRIGQFYERAGITENI-NGTV-----GSVTIIGAVSPPGGD-FSEPVTQNTKRFVK--CFWGLDKNLAYSRHYPSINWLTSYS A0A1G3PN45/74-117_189-439 -------------SVELGPGLLGNFFDGIQRPLEGISK--A------S-G-SAFIARGI---DVRPLDKD---TMTHKWPVRVP-------RPVKKKLPPKIQMYTGQRIVDTFFPIVKGGTAAIPGPFGSGKTVTQHQLAKWSDAEVVVYIGCGERGNEMTDVLMEFPELIDPK-------SGK--------PLMDRTVLIANTSNMPVAAREASIYTGITLAEYFRDMGYNVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLATFYERAGMVQIL-NSKK--DITASISVIGAVSPPGGD-FSEPVTQNTLRVVK--VFWALDSNLAYQRHFPAINWLVSYS C7REU3/72-114_185-434 -------------SVELGPGMLEKMYDGIQRPLEKLQD--L------A-G-E-FLERGV---TSTALDRE---SMLQKWPVRQA-------RPSRRKIDPDEPLITGQRVIDTFFPVAKGGTAAIPGPFGSGKTVVQHQIAKFADADIVIYVGCGERGNEMTDVLNEFPELIDPK-------TGE--------SIMKRTVLIANTSNMPVAAREASIYTGVTLAEYFRDMGYNVAMMADSTSRWAEALREMSGRLEEMPGDEGFPAYLASRIADFYERAGKVEVL-GSRN---DIGSLSVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDYDLSYQRHFPAINWLSSYS A0A064AJ74/72-114_185-433 -------------SIELGPGMLEQMFDGIQRPLLNLQK--A------A-G-D-FLTKGV---SVPSLNRE---TMMQKWPVRKG-------RPYLKKLNPISPLVTGQRIIDTFFPVTKGGAAAIPGPFGSGKTVIQHQLAKWADAEIVVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLASRIAEFYERAGLVQCL-GNE----KEGALTVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDYALSYRRHFPAINWLNSYS J6H557/72-114_185-433 -------------SIELGPGMLEQMFDGIQRPLLNLQK--A------A-G-D-FLTKGV---SVPSLNRE---TMMQKWPVRKG-------RPYLKKLNPISPLVTGQRIIDTFFPVTKGGAAAIPGPFGSGKTVIQHQLAKWADAEIVVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLASRIAEFYERAGLVQCL-GNE----KEGALTVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDYALSYRRHFPAINWLNSYS Q896K4/74-116_187-436 -------------SVELGPGLIEAMFDGIQRPLDAIEA--K------A-G-D-FITRGI---DVPSLSRE---TLMQKWPVRRG-------RPYKRKLNPSAPMVTGQRVVDTFFPVTKGGTACVPGPFGSGKTVVQHQLAKWADAQIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGE--------SLMKRTVLIANTSNMPVAAREASIYTGITIGEYFRDMGYSIALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAEFYERAGNVICL-GQDG---REGALTAIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDSQLAYRRHFPAINWLNSYS A0A1F2P3K4/73-115_186-435 -------------SAELGPGIITNFYDGVQRPLDAIRE--R------A-G-D-YITRGV---EVPALDRE---TMIQRWPVRIG-------RPYKEKLDPEVPLLTGQRIYDTFFPMAKGGAGAIPGGFGTGKTVSQHQLAKWSDAQVVVYVGCGERGNEMTEVLDTFPELDDPT-------TGE--------KLMERSVLIANTSNMPVAAREASIYTGITLAEYYRDMGYDVSLMADSTSRWAEALREVSGRLEEMPGEEGYPAYLATRLADFYERTGRVRVL-GSRE---EYGSVSVVGAVSPPGGD-LSEPVSQNTLRVVS--VFWALDSTLADRRHFPAINWLRSYS A0A135YRS7/71-113_186-435 -------------SVELGPGLIENMFDGIQRPLEKFRA--V------A-G-D-FLTKGV---EVPSLDRD---QMMQKWPVRKS-------RRIKEKIAPRVPLITGQRVVDTFFPVTKGGTACVPGPFGSGKTVVQHQFAKWADAQIVVYVGCGERGNEMTDVLNEFPELIDPH-------TGE--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAVMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAAEFYERAGKVICK-GSDN---REGALTIIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLNANLAYRRHFPAISWIDSYS R5J160/71-113_186-435 -------------SVELGPGLIENMFDGIQRPLEKFRA--V------A-G-D-FLTKGV---EVPSLDRD---QMMQKWPVRKS-------RRIKEKIAPRVPLITGQRVVDTFFPVTKGGTACVPGPFGSGKTVVQHQFAKWADAQIVVYVGCGERGNEMTDVLNEFPELIDPH-------TGE--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAVMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAAEFYERAGKVICK-GSDN---REGALTIIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLNANLAYRRHFPAISWIDSYS A0A1F8WXW3/74-116_184-433 -------------SVTLGPGLLTGIFDGIQRPLEKIRQ--A------A-G-G-FITRGI---KFEALDID---GLFQEWPVRKP-------RPFAAKLPPSTPFITGQRVFDTLLPVAEGGTAIVPGGFGTGKTVVEQSIAKFSRSDIVVYVGCGERGNEMSEILSDFPALKDPT-------SGL--------PLSLRTVIVVNTSNMPVAAREASIFTGITIAEYFRDMGYSVAMLADSISRWAEALREISSRLEEMPGEEGFPPYLATQLGIFYERSGKVRCL-GTDN---RTGSVTVISAVSPPGGD-FSEPVTQASLRFAG--SLWALDPDLAYRRHFPAVNWLASFS A0A1E9DFX2/72-114_185-434 -------------SVELGPGLLERMYDGIQRPLEKLEL--L------A-G-E-FLKRGV---TAPPLNRE---NMIQKWPVRSP-------RPFNRKLDPDTPLITGQRVIDTFFPVAKGGAASIPGPFGSGKTVIQHQIAKYADADVVIYVGCGERGNEMTDVLDEFPELIDPK-------TGE--------SIMKRTVLIANTSNMPVAAREASVYTGITMAEYYRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGFPAYLASRIADFYERSGKVIVN-GQVE---KEGSLSVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDYDLSYQRHFPAINWLNSYS A0A1C5W758/73-114_187-434 --------------VTLGPGILRNIFDGIERPLQAIAE--Q------S-G-A-FIEAGS---DVDSLDVE---TLCQKWPIKQA-------RPTLERLPISIPLVTGQRVIDTLFPIAKGGTAAIPGGFGTGKTMTQHQIAKWCDADIIIYVGCGERGNEMTQVLEEFSELIDPK-------SGK--------PLTDRTVLIANTSNMPVAAREASIYTGITLAEYYRDMGYHCAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRLSQFYERAGYMKTL-NGQE-----GSVSIIGAVSPQGAD-FSEPVTQNTKRFVR--CFWALDKALAYARHYFAINWTQSYS R7FY87/72-114_185-434 -------------SVELGPGLITSIYDGIQRPLDDIMK--I------S-GNN--LKRGV---EVASLKRD---TMMQRWPVRKG-------RPYQKKLPPVKPLVTGQRVIDTFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGQ--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVVSL-GKEG---REGALSVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSALAYKRHFPAINWLTSYS A0A174MD56/72-114_185-434 -------------SVELGPGLITSIYDGIQRPLDDIMK--I------S-GNN--LKRGV---EVASLKRD---TMMQRWPVRKG-------RPYQKKLPPVKPLVTGQRVIDTFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGQ--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVVSL-GKEG---REGALSVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSALAYKRHFPAINWLTSYS R6REB8/72-114_185-434 -------------SVELGPGLITSIYDGIQRPLDDIMK--I------S-GTN--LKRGV---EVPSLKRN---TMMQKWPVRKG-------RPYLKKLPPEMPLVTGQRVVDTFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGQ--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVVSL-GKDK---REGALSVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSSLAYKRHFPAINWLTSYS A0A1B2I701/81-123_196-443 -------------SIELGPGLIGSFFDGIGRPLDSLLE--K------E-G-M-YISPGT---SVNMIDRE---PMIQRWPVRTP-------RPYRERLLPNEPFVTGQRVIDGLFPLAKGGTACIPGGFGTGKTVTQHQLAKWGDAQVVIYIGCGERGNEMTDVLEQFPVLEDPR-------SGR--------PLMERTILIANTSNMPVAAREASIYTGITIAEYFRDMGYDVAIMADSTSRWAEALRELSGRLEEIPAEEGFPAYLPSRLAEFYERAGRVVTI-GGEN-----GSVSVIGAVSPPGGD-FTEPVTRHTKRFIR--CFWGLDKNLANARHYPAISWTDSYS C9M9Q6/72-115_187-436 -------------SVELGPGLIEQFYDGIQRPLRDIET--V------AKS-P-YIAKGI---SVSPLDHS---TMMQRWPVRKG-------RPVARRLPPNTPLTTGQRVVDTFFPIAMGGTACVPGPFGSGKTVIQHQLAKWAEAQIVVYIGCGERGNEMTDVLLEFPELEDPR-------SGQ--------PLMKRTVLIANTSNMPVAAREASVYTGITIAEYYRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLASFYERAGRVVCL-GKAR---AEGSVSAIGAVSPPGGD-LSEPVTQNTLRVTK--VFWGLDANLAYQRHFPAINWLTSYS F0GZP7/71-113_183-430 -------------SVRLGPGMIGNMFDGIQRPLDKIKA--K------H-G-S-FIPSGL---GLSNLDEE---KLYQYWPVRVQ-------RPIKRSKQLSELLLTGQRVLDIFFPIAKGGTVAIPGGFGTGKTMLQHQLAQYSNADIIIYIGCGERGNEMTQVLEDFPDLIDPN-------TGR--------GLMERTILIANTSNMPVAAREASIYTGITMAEYFRDMGYDVALMADSTSRWAEALREISARLEEIPAEEGYPAYLGSRLSQFYERAGDFDNL-NGSH-----GSVTLIGAVSPTGGD-FSEPVTENTRRSVN--VFLGLDKNLAYSRHYPAINWLTSYS F9PTL0/73-115_188-435 -------------SVTLGPGIIGNIFDGIQRPLEQIYS--M------T-G-E-FIAEGI---GLVSIDKE---KMYHKWPVRIP-------RPIDVRMPISRPLVTGQRVLDVFFPIAKGGTSALPGGFGTGKTMTQHQLAKWSDADIIVYIGCGERGNEMTDVLEEFPKLIDPR-------TSK--------PLMERTILIANTSNMPVAAREASIYTGITIAEYYRDMGYHVAIMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRIAQFYERAGYVETL-SKKE-----GSITVIGAVSPPGGD-FSEPVTENTKRFVS--AFIGLDKNLAYIRHYPAVNYLTSYS E6LSE0/73-115_188-435 -------------SVTLAPGILNNIFDGIERPLSEIAK--K------E-G-A-YISRGV---SVDSLDTK---TMTQHWPIRVP-------RPTKKRFPASVPLITGQRILDTLFPLAKGGTAAVPGGFGTGKTMTQHQIAKWSDANIIIYIGCGERGNEMTQVLEEFSELIDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASLYSGLTLAEYYRDMGYDVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLASRLSAFYERAGMMQNL-NGSE-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKRLAYARHFPAIQWLDSYS H6LDB9/76-118_191-438 -------------SLKLGPGMLKNMFDGIQRPLEKIQE--I------S-P-I-FIPEGI---GLLSIDEQ---KMAHEWPVRTP-------RPNAYRRETLVPLITGQRVIDIFFPIAKGGTAAIPGGFGTGKTMTQHQLAKWSDADIIVYIGCGERGNEMTEVIEDFPKLIDPR-------SGK--------SIMERTVLIANTSNMPVAAREASIYTGVTIAEYYRDMGYAVAMMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRIAEFYERAGSIETL-GGND-----GSITIIGAVSPAGGD-FSEPVTENTKRFVN--VFLALDKSLAYARHYPAINWLESYS T0LL95/70-112_183-432 -------------SVELGPGLLKSIYDGIQRPLDVIRE--K------T-G-D-FIMRGY---TAPPLDQN---RLKQEWPVRVS-------RRVQSKLPPQIPLITGQRVIDSLFPVAKGGTVAVPGPFGSGKTVVQHQLSKWADSDIVVYVGCGERGNEMTEILTTFPELQDPK-------SGK--------PLMERTILIANTSNMPVAAREASIYTGITIAEYYRDMGYGIALMADSTSRWAEALREISGRLEEMPGEEGYPAYLGRRLSEFYERSGNSRVF-GLPE---RIGSITIVGAVSPPGGD-ISEPVSQNTLRVTR--VFWALDASLASRRHFPSINWLNSYS A0A174RNL4/4-20_91-340 -----------------------------------------------S-GNN--LKRGV---EVPSLKRN---TLMQKWPVRKG-------RPYKKKLSPDMPLVTGQRVIDTFFPLAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGQ--------SLMQRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVISL-GKEE---REGALSVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSALAYKRHFPAINWLNSYS Q1JNS8/72-115_187-436 -------------SVELGPGLISEMFDGIQRPLDRFQK--A------TDS-D-FLIRGV---AIPSLDRK---SLMQTWPVRQS-------RPVAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPN-------TGQ--------SIMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLQEMPGDEGYPAYLGSRIAEYYERAGRVRTL-GSQE---REGTITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAPLAQRRHFPAINWLTSYS Q1JDX0/72-115_187-436 -------------SVELGPGLISEMFDGIQRPLDRFQK--A------TDS-D-FLIRGV---AIPSLDRK---SLMQTWPVRQS-------RPVAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPN-------TGQ--------SIMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLQEMPGDEGYPAYLGSRIAEYYERAGRVRTL-GSQE---REGTITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAPLAQRRHFPAINWLTSYS W4V4I8/72-114_186-435 -------------SVELGPGLIENIFDGIQRPLEKMRE--M------V-GSN--ITRGI---DVTSLDRK---CMMQKWPVRIG-------RPYKEKLPPSSPLVTGQRVIDTLFPLAKGGVAAVPGPFGSGKTVVQHQLAKWADAEIVIYIGCGERGNEMTDVLKEFPELKDPR-------TGE--------SLMKRTVLIANTSDMPVAAREASIYTGMTIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGRVVCL-GSEG---REGALTAIGAVSPPGGD-LSEPVTQATLRIIK--VFWGLDSSLAYRRHFPAINWLQSYS A0A0W0UBC0/90-131_204-458 --------------VTLGPGLLGMIYDGLQNPLTNFAN--K------Y-G-F-FLPRGV---REEPIDPH---SMLQKWPVRFSIAQTLMKNNLAERLYPSEPMMTTLRLIDTFFPIARGGTACIPGPFGAGKTVLQNLIARYSDVDIVIIVACGERAGEVVETITEFPKLVDPK-------MGG--------TLMDRTIIICNTSSMPVAAREASIYTGITLGEYYRQMGFNVLLIADSTSRWAQAMRETSGRMEEIPGEEGFPAYLDSSIRGLYERAGIIQGHEQ------SKGSLTIVGTVSPAGGN-FEEPVTQSTLSSVK--TFLGLSYDRAYKRFYPAVDPLISWS C9A6Q7/72-115_186-434 -------------SVELAPGIMSQMFDGIQRPLETFMS--V------TQS-N-FLTRGV---QLPALDHE---TMLQKWPVRHS-------RPVKQKLNPVEPMITGQRVIDTFFPIAKGGASAVPGPFGAGKTVVQHQIAKWADVDLVVYVGCGERGNEMTDVMNEFPELIDPR-------SGE--------SLMARTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERSGKAICL-GSD----QEGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDATLAQKRHFPSIDWLKSYS V9S6M7/73-116_188-437 -------------SVELGPGLMGGIFDGLQRPLDRIAES-V------K-S-P-FVTRGV---KVPALDRN---KLYQRWPVRIP-------RPFKEKLEPTEPLLTGTRVVDTIFPIAKGGTAAIPGPFGSGKTVTLQSLAKWSEAKVVIYVGCGERGNEMTDELRQFPKLKDPW-------TGK--------PLLQRTILVANTSNMPVAARESSIYVGVTMAEYFRDQGYDVLLVADSTSRWAEALRELGGRMEEMPAEEGFPSYLPSRLAEYYERAGRVIAL-GNPE---RFGSVSIASAVSPPGGD-FTEPVTSNTLRFVR--VFWPLDVALAQARHYPAINWIQGFS F0Z3D3/72-114_185-434 -------------SVELGPGLISSIYDGIQRPLDDIMK--V------S-GNN--LKRGV---EVPSLKRD---TLMQRWPVRKG-------RPYKKKLPPEMPLVTGQRVVDTFFPIAKGGVAAVPGPFGSGKTVIQHQLAKWAEADIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGQ--------SLMERTVLIANTSDMPVAAREASIYTGITIAEYFRDMGFSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGHVICL-GKDG---REGALSAIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSALAYKRHFPAINWLNSYS A0A101K6W7/72-114_185-433 -------------SIELGPGMLEQMFDGIQRPLLKIQE--A------V-G-D-FLLKGV---SVPALDRE---NMIQKWPVRKG-------RPYLRKLNPEKPLITGQRIIDTFFAVTKGGTAAIPGPFGSGKTVIQHQLAKWADAEVVVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLASRIAEFYERAGLVECL-GNG----EEGALTVIGAVSPPGGD-ISEPVSQSTLRIAK--VFWGLDYALSYRRHFPAINWLNSYS A0A1F5TSN2/75-117_184-433 -------------SVELGPGLLTNFYDGIQRPLRLLEE--A------A-G-P-FITRGI---SVPGLDRA---CMLQIWPIRAP-------RPTKNKLAPREPMITGQRVIDTFFPVVQGGTACVPGPFGAGKTVVQHQLAKWSDTEIVIFIGCGERGNEMTDVLLEFPELEDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYRVALMADSTSRWAEALREISGRLGEMPGEEGYPAYLGSKTAAFYERAGKVKCL-GSES---REGALTVVGAVSPPGGD-LSEPVTQNTLRVAK--VFWGLDDKLAFKRHFPAINWLNSYS A0A073IP18/77-120_192-441 -------------SVELAPGLIEEFFDGIQRPLESIEQ--K------AES-P-YILRGI---SVPAVSRA---KLLQRWPVRTP-------RPVVKRLPPEVPLTTGQRVVDTFFPIARGGTACVPGPFGSGKTVIQHQLAKWADAEIVVYIGCGERGNEMTDVLLEFPELEDPR-------SGQ--------PLMKRTLLIANTSNMPVAAREASVYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGTRLASFYERAGRAICF-GRDG---REGAVSVIGAVSPPGGD-LSEPVTQNTLRVTK--VFWGLDAQLAYQRHFPAINWLNSYS A0A0C5BXB1/73-115_188-437 -------------SVLLGPGIIGQLYDGIQRPLRELSK--A------S-G-S-FIGRGI---TTTPVDMT---KMYHRWPVRKP-------RPYKNRYDPTVPLLTGQRVIDTFFPIAKGGTGSIPGAFGTGKTVTLHQIAKWADSQVVVYIGCGERGNEMTEVLVEFPHLKDPR-------SGK--------PLMDRTVLVANTSNMPVAAREASIYTGVTIAEYYRDMGKDVVLVADSTSRWAEALREMSGRLEEMPAEEGYPSYLASRLAEFYERAGRVRAS-GSPD---RDGSVTLIGAVSPSGGD-FTEPVTTHTMRFIK--TFWALDAKLAYSRHYPSINWMNSYS G4RL56/72-116_190-439 ---------------WLGPGLLGRIYDGVQRPLKLIFETTK------T---P-FVARGIGYDQAPPLDLK---KMWHKWPVRRP-------RPFKEKLPPVEPLITGVRTIDTMFPVAKGGAASIPGPFGSGKTVTIRTLFLYAQARIVVPVLCGERGNEAADALQGLLKLKDPF-------TGK--------SLLERTSIIVNTSNMPVAAREASIYTGATIGEYFRDMGYDVLVSADSTSRWAEAMREVALRIGEMPSEEGYPAYLPTRLAEFYERAGRVILI-GREE---RVGSLTIAASVSPPGGD-FTEPVTSNTLRFIG--AFWPLSPRLAYSRHYPAIDWLMGFS I0SC45/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLARFQT--V------TQS-D-FLVRGV---QLPHLNRE---SLMQKWPVRRG-------RPFDQKLIPEEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPT-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSDE---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS S0K1Q1/72-115_186-435 -------------SVELGPGIVSQMFDGIQRPLDTFKE--Q------TDS-N-FLSRGV---QIPALDHT---SMLQKWPVRRG-------RPVSEKLNPEAPMITGQRVIDTFFPVVKGGAAAVPGPFGAGKTVVQHQIAKWADVDIVVYVGCGERGNEMTDVLNEFPELIDPT-------TGE--------SLMERTILIANTSNMPVAAREASIYTGITIAEYFRDMGYNIAIMADSTSRWAESLREMSGRLEEMPGDEGYPAYLGSRLAEYYERAGRVIAL-GNDG---REGSITAISAVSPSGGD-TSEPVTQNTLRVVK--VFWGLSATLAQQRHFPSIDWMESYS A0A1B1YAS9/72-114_186-435 -------------SVELGPGLLENIYDGIQRPLEVMRR--Q------V-G-P-NITRGI---NINALDRS---KMMQKWPVRKQ-------RPYKEKLAPDEPMITGQRTIDTLFPIAKGGVAAIPGPFGSGKTVVQHQLAKWADADLVVYIGCGERGNEMTDVLMEFPELKDPK-------TGH--------PLMKRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLASRLAQFYERAGKVVTL-GSDR---RTGSVSVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDANLAYKRHFPAINWLISYS L7VKU6/72-114_186-435 -------------SVELGPGLLENIYDGIQRPLEVMRR--Q------V-G-P-NITRGI---NINALDRS---KMMQKWPVRKQ-------RPYKEKLAPDEPMITGQRTIDTLFPIAKGGVAAIPGPFGSGKTVVQHQLAKWADADLVVYIGCGERGNEMTDVLMEFPELKDPK-------TGH--------PLMKRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLASRLAQFYERAGKVVTL-GSDR---RTGSVSVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDANLAYKRHFPAINWLISYS I3XSR3/74-116_184-433 -------------SAELGPGLIKSIFDGIQRPLPVIEAL--------S-G-I-FVRKGV---RATPLPRD---SMLQKWPVRRP-------RPYKEKLEPREPFITGIRVIDFLFPLAKGGKAAVPGGFGTGKTVLLHSITKWSEADITIYIGCGERGNEMADALNSFIKLIDPK-------TGK--------PMMERSIFIANTSNMPVAAREASIFLGVTLGEYYRDMGYNVILVADSTSRWAEAMREISGRLEELPGEEGFPAYLASRLAQFYERSGYVKTI-GSAE---RTGSLTIMGAVSPPGAD-FSEPVTQSTLRLIR--ALYALDVNLAYRRHYPSINWLTSFS A0A151E2W5/76-118_190-439 -------------SVELGPGLLTNIFDGIQRPLPAIKE--K------T-G-D-FITRGV---EVHAIDQK---KMMQRWPVRKA-------RPVVEKYDPSLPLITGQRVIDTFFPITKGGTAAIPGGFGTGKTVMLHALAKWSDAQVVIYVGCGERGNEMTDVLREFPKLVDPT-------SGE--------PLMNRTVLIANTSNMPVAARDASVYTGITIAEYYRDMGYDVALMADSTSRWAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRAKLL-SSEH---REGSVSVMGAVSPPGGD-FSEPVAQNTLRIVK--VFWALDADLADRRHFPSINWLKSYS R7GJH0/72-114_187-434 -------------SVTLGPGILRNIYDGIERPLEEIAK--E------S-G-A-FIPTGS---AVEPLDTK---TLTQKWPIKTP-------RPVNKRLPISMPLVTGQRVIDTLFPIAKGGTAAIPGGFGTGKTMTQHQLAKWCDADIIVYVGCGERGNEMTQVLEEFRELVDPK-------SGK--------PLVDRTVLIANTSNMPVAAREASIYTGVTLAEYYRDMGYHVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLPSRLSQFYERAGYMENL-NNTN-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--TFWALDKALAYARHYFAINWNLSYS A0A1F3IMW5/81-119_193-441 --------------VTLGPGILSKNFDGLQNDLDKME------------G-V-FLKRGE---QTNPLEDD---TMVQKWPVKIPI------KAYKEKPRPFKLLETGVRVIDTLNPIAEGGTGFIPGPFGTGKTVLQHAISKQAEADMIIVAACGERANEVVEIFTEFPELDDPR-------TGR--------KLMERTTIIANTSNMPVAAREASVYTAMTLGEYYRAMGLKVLMLADSTSRWAQALREMSNRMEELPGQDAFPMDLPAIISNFYSRAGFVYLNNG------ASGSITFIGTVSPAGGN-LKEPVTESTKKAAR--CFYALSQQRADSKRYPAIDPLDSYS R2TKM3/72-115_186-435 -------------SVELAPGLISEMFDGIQRPLDTFAE--I------TKS-N-FLSRGV---QIPALDRT---SMMQKWPVRRS-------RPILEKLNPAVPLLTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWADVDLVVYVGCGERGNEMTDVLNEFPELIDPS-------TGE--------SVMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERAGQVVAL-GKDH---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDATLAQKRHFPSINWLQSYS K0XD66/73-115_188-435 -------------SVTLAPGILNNIFDGIERPLSEIAK--V------D-G-T-YISRGV---SVDSLDTK---TMTQHWPIRVP-------RPIKKRFPASVPLITGQRILDTLFPLAKGGTAAVPGGFGTGKTMTQHQIAKWSDANIIIYIGCGERGNEMTQVLEEFSELIDPK-------TGN--------PLMDRTTLIANTSNMPVAAREASLYSGLTLAEYYRDMGYDVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLASRLSAFYERAGMMQNL-NGSE-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKRLAYARHFPAIQWLDSYS R7C075/73-115_188-435 -------------SVTLAPGILDNIFDGIERPLERIAE--N------A-G-A-FITRGI---SVDSLDTQ---TMIQRWPIRVP-------RPVYDRIPACVPLVTGQRILDTMFPIAKGGTAAIPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEEFSELVDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASIYTGLTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMHNL-NGTD-----GSVTIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS A0A136JL55/82-125_197-446 -------------SVALAPGLLESIYDGVQRPLKAIEE--A------S-G-SVYIKRGI---DAEALDKN---AMLQYWPIREP-------RPKNKKIFPSEPLLTGGRSIDTLFPIAKGGAGCIPGPFGAGKTVTQQSISKYCNAEVIVYIGCGERGNEMTEVLSEFPHLIDPN-------SGE--------PLMKRTILIANTSNMPVAAREASVYTGITIAEYYRDMGYNVALMADSTSRWAEAMREISGRLEEMPGEEGYPAYLSSRTAQFYERAGVVETL-GSEG---RQGSLTVIGAVSPPGGD-LSEPVSQSTLRVTK--TFWSLDAGLAYKKHFPSINWLGSYS B3MNH7/270-313_386-637 -------------SVELGPGIMGSIFDGIQRPLRKINE--L------T-N-SIYVPKGI---DVPSLSRD---TMLQVWPVRRP-------RPSDDKLPSTTPLLTGQRVLDAFFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDCIIYVGCGERGNEMSEVLRDFPQLEIEV-------NGTME------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYHVSMMADSTSRWAEALREISGRLAEMPADAGYPAYLGARLASFYERAGLVKCL-GGPE---RFGSVSIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLSQRKHFPSVNWLHSYS D7IHR0/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKMD------------G-V-FLKRGQ---YTYPLDKE---TMIQKWPVKRAM------TNYKEKPRPFKLLETGVRVIDTLNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMSLAEYYRSMGLKVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDISSIISNFYGRAGYVKLGND------ETGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADKKRYPAVNPIDSYS D9RYN5/72-114_186-433 -------------SVKLGPGILGNIFDGIERPLSHIYK--E------E-S-G-FIPPGI---GLISLDEE---KMCQEWPVREP-------RPVAKRMPIGKLLVTGQRVIDTFFPLAKGGTAAIPGGFGTGKTITQHQLAKWSDADIIVYIGCGERGNEMTEVLEDFPKLQDPR-------TGK--------PLMDRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYNVALMADSTSRWAEALREIAGRLEEMPAEEGYPAYLASRLAQFYERAGYFKNL-NGSE-----GSITIIGAVSPAGGD-FSEPVTQATKRVVG--AFLALDKELAYARHFPSINWLLSYS A0A090BUQ5/73-115_190-437 -------------SVELGPGLMGQIFDGVQRPLNTIVA--R------S-G-D-YIARGL---ILDSLSRE---RLFHRWPVRTP-------RPYFNRDHAVVPLLTGQRILDTFFPLLKGGKGAVPGPFGAGKTMLQQQIARWANADIVIYVGCGERGNELVDILETFPTLTDPH-------TGR--------SLMERTLLVANTSNMPVVAREASIYVGVTIAEYYRDLGYDVVMVADSTSRWAEALREVAGRLGQMPVEEGHPAYLASRLAAFYERAGRVTTL-SGQK-----ASVTLIGAVSPPGGD-FSEPVTSHTKEIVQ--TFWALSKELADARHYPSIDWNDSFS G5K9X4/72-115_187-436 -------------SVELGPGLLAEMFDGIQRPLERYQK--T------TQS-D-FLLRGI---HIPSLDRE---TLMQKWPVRKN-------RPTKQKLIPMEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPT-------TGQ--------SIMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREISGRLEEMPGDEGYPAYLGSRIAEYYERAGRFRLL-GSDA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAPLAQRRHFPAINWLTSYS A0A174MT90/71-114_186-436 -------------SVELGPGIIENIYDGIQRPLEGIMR--K------A-GSN-NLPRGV---EVPALDRE---TMVQKWPVRVG-------RPYKHKYPPRTPLLSGQRIVDAMFPVAKGGTAAIPGPFGSGKTVMQHQLAKWSDVDIVVYIGCGERGNEMTDVLREFPELVDPR-------TGE--------SLMKRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYDVAVIADSTSRWAEALREMSGRLEEMPGEEGYPAYLSSRLAQFYERAGMVECI-GSDE--HRRGSLTAVGAVSPPGGD-LSEPVSQATMRIVK--VFWALDASLAYKRHFPAINWLNSYS Q4U8X7/100-143_218-468 -------------SVELGPGLLDSVFDGTQRPLIQIRD--V------F-Q-KYYVPVGV---NLPPLDRK---NMYQIWPVRQP-------RPILKKIQGTEPLLTGQRVLDSLFPSVKGGTCAIPGAFGCGKTCISHALAKYSNTDVTVYVGCGERGNEIAEVLKEFPHLTTRV-------NGKDV------PIMGRTCLVANTSNMPVAAREASIYTGITISEYFRDMGFNACMMADSTSRWAEALREISGRLGEMPADSGYPAYLSSRLSAFYERAGVAQCL-GSSD---RTGSVTIVGAISPPGGD-FSDPVTSATMSIVH--VFWGLDKKLAQRKHFPSVNWTNSF- S8CG08/31-73_144-393 -------------SVELGPGLIEAMFDGIQRPLNAIKA--K------A-G-D-FITKGV---EVHSLDRD---MMMQKWPVRRG-------RPYGRKLNPAQPMITGQRVIDTFFPVTKGGTACVPGPFGSGKTVVQHQLAKWADAQIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGE--------PLMKRTVLIANTSNMPVAAREASIYTGITIGEYFRDMGYSIALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAAEFYERAGNVVSI-GSEE---REGALTVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDAQLAYRRHFPAINWLNSYS A0A133LLD8/72-114_185-434 -------------SVELGPGLLERMYDGIQRPLEKLEL--L------A-G-E-FLKRGV---TAPPLNRE---NMIQKWPVRSP-------RPFNRKLDPDTPLITGQRVIDTFFPVAKGGAASIPGPFGSGKTVIQHQIAKYADADVVIYVGCGERGNEMTDVLDEFPELIDPK-------TGE--------SIMKRTVLIANTSNMPVAAREASVYTGITMAEYYRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGFPAYLASRIADFYERSGKVIVN-GQVE---KEGSLSVIGAVSPPGGD-LSEPVTQSTLRIVK--VFWGLDYDLSYQRHFPAINWLNSYS A0A0X8FA81/72-115_187-436 -------------SVELGPGLLSKMFDGIQRPLDDFMQ--R------TQS-N-FLERGV---QVNALDHK---GLAQHWPVRRG-------RPVQRKMLPHDVMTTGQRVIDTFFPITKGGAAAIPGPFGAGKTVLQHQIAKYADADVVVYVGCGERGNEMTEVINEFPKLIDPK-------TGE--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERAGMVETL-GNPG---RIGAVTAVGAVSPPGGD-TSEPVTQNTMRVVK--VYWGLDASLSQQRHFPAVNWLDSYS B3MNH8/85-128_201-452 -------------SVELGPGIMGSIFDGIQRPLKDINE--L------T-S-SIYIPKGV---NVPSLSRV---SMLQVWPVRQP-------RPVTEKLPANHPLLTGQRVLDSLFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPELSVEI-------DGVTE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVSIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSINWLISYS A0A1C6IU06/72-115_186-435 -------------SLELGPGLIESMFDGIQRPLDAFEK--A------ANS-P-FLEKGI---SVNSLNRE---TMMQKWPARKG-------RPYETKLKPTVPMTTGQRVIDTFFPVAKGGAAAVPGPFGAGKTVTQHQIAKWGDAEIVVYVGCGERGNEMTDVLNEFPELIDPK-------TGE--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVSIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERAGKVVCL-GKDG---REGSVTAIGAVSPPGGD-LSEPVTQSTLRIVK--VFWGLDAQLAYKRHFPAINWLSSYS A0A0T5Z6Y4/74-116_191-438 -------------SVELGPGLIGSIFDGVQRPLEKIFL--Q------A-G-D-MIPRGI---SPPALDRE---KLYHRWPVRRP-------RPYTQRLHGSEPLITGQRILDTFFPLLKGGKGAVPGPFGAGKTVVQQQIARWSNADIVIYVGCGERGNELVDVLDSFPKLQDPY-------SGR--------PLMERTLLVANTSNMPVVAREASIYVGITIAEYYRDMGYDVVMLADSTSRWAEALREVAGRLAQMPVEEGYPAYLASRLAAFYERAGQVETA-DCGQ-----GSVTLIGAVSPPGGD-FSEPVTSHTKEIIQ--TFWALSKELADARHYPAIDWVDSFS H1LYQ5/73-115_188-435 -------------SVTLAPGILNNIFDGIERPLSEIAK--K------E-G-A-YISRGV---SVDSLDTK---TMTQHWPIRVP-------RPTKKRFPASIPLITGQRILDTLFPLAKGGTAAVPGGFGTGKTMTQHQIAKWSDANIIIYIGCGERGNEMTQVLEEFSELIDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASLYSGLTLAEYYRDMGYDVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLASRLSAFYERAGMMQNL-NGTE-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKRLAYARHFPAIQWLDSYS A0A133ZE22/73-115_188-435 -------------SVTLAPGILNNIFDGIERPLSEIAK--K------E-G-A-YISRGV---SVDSLDTK---TMTQHWPIRVP-------RPTKKRFPASIPLITGQRILDTLFPLAKGGTAAVPGGFGTGKTMTQHQIAKWSDANIIIYIGCGERGNEMTQVLEEFSELIDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASLYSGLTLAEYYRDMGYDVAIMADSTSRWAEALREISGRLEEMPAEEGFPAYLASRLSAFYERAGMMQNL-NGTE-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKRLAYARHFPAIQWLDSYS U2WHW1/72-114_186-435 -------------SVELGPGLIEAMFDGIQRPLKEYQE--I------A-G-D-FLDKGV---EVNPLNRD---QMMQKWPVRRG-------RKYKQKLNPEAPLITGQRVIDTFFPVTKGGTACVPGPFGSGKTVVQHQMAKWADAEIIVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAAEFYERAGKVICL-GQDG---REGALTVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDANLAYRRHFPAINWLNSYS X8IUK5/72-114_186-435 -------------SVELGPGLIETIYDGIQRPLSVLLE--K------T-G-T-NIARGV---SEPALDHD---KMLQRWPVRVE-------RPYKEKLSPDEPLITGQRVIDTMFPIAKGGVAAVPGPFGSGKTVVQHQLAKWADADIVVYIGCGERGNEMTDVLNEFPELVDPK-------TGE--------SLMRRTVLIANTSDMPVAAREASVYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLASRLAQFYERAGKVVCL-GSDG---RVGALSAIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDANLAHARHFPAINWMNSYS R6GRP7/72-115_186-435 -------------SLELGPGLIESMFDGIQRPLDAFER--A------AKS-P-FLVRGI---AVNALDRE---SLMQKWPARKG-------RPYATKLKPDAPMTTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVTQHQIAKWGDAEIVVYVGCGERGNEMTDVLNEFPELIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVSIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERAGRVICL-GKDG---REGAVTAIGAVSPPGGD-ISEPVTQSTLRIVK--VFWGLDAQLAYKRHFPAINWLSSYS I0GKJ7/74-116_188-437 -------------SVELGPGLIGSIYDGVQRPLDELMA--K------Y-G-E-FVQRGI---FATPLNRE---KMYHKWPVRFA-------RPVKTRIPPDEPLVTGQRTIDMFFPIAKGGTACVPGPFGSGKTVVQHQLSKWADADVIVFIGCGERGNEMTDVLIEFPELKDPK-------SGR--------PLMERTVLVANTSNMPVAAREASVFTGITIAEYYRDMGYNVALMADSTSRWAEAMREMSGRLEEMPGEEGYPAYLASRISSFYERAGKVYIL-GKNE---AVSSLSVIGAVSPPGGD-LSDPVVQATLRTVR--VFWSLDASLAYARHFPAIHWLRSYS B0S2A2/72-114_185-434 -------------SIELGPGILEQMFDGIQRPLKSLQE--K------A-G-D-FLLRGV---SAPSLNRE---NMIQRWPVRDG-------RPYKEKEDPIKPLITGQRVIDTFFPVAKGGTAAIPGPFGSGKTVVQHQLAKWADAEIVVYVGCGERGNEMTDVLNEFPELIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYSVAMMADSTSRWAEALREMSGRLEEMPGDEGYPAYLASRIADFYERAGKVKCL-GSDG---RDGSLTVIGAVSPPGGD-ISEPVTQSTLRIVK--VFWGLDYALSYMRHFPAINWINSYS R6GJI5/76-117_192-438 -------------SVELGPGLLTQVFDGLQNPLPELAQ--Q------C-G-F-FLQRGV---YLDPIP-N---TMVFSWPVKQPI------RCYEERLRPDETLVTKLRSIDTFLPVAKGGTFCVPGPFGAGKTVLQHMEAKNADVDIVIVAACGERAGEVVEVLKEFPELVDPR-------TGR--------SLMERTIIICNTSSMPVAAREASVYTAVTMAEYYRQMGLDVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIASFYERAGKVRLKSG------KIASVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPIDS-- R6TCR3/71-113_186-435 -------------SVELGPGMIEGIYDGIQRPLEKIVE--K------V-G-P-NITRGV---EVPAIDHD---PMMQKWPVRVG-------RPYQHKYPPKRPLCSGQRVIDTMFPIAKGGTAAVPGPFGSGKTVVQHQLAKWSDVDIVVYIGCGERGNEMTDVLREFPELKDPR-------TGE--------SLMKRTVLIANTSDMPVAAREASVYTGITIAEYFRDMGYDVAVIADSTSRWAEALREMSGRLEEMPGEEGYPAYLASRLAQFYERAGSVECI-GSDE---RRGSLTAVGAVSPPGGD-LSEPVSQATMRIVK--VFWALDSSLAYKRHFPAINWLNSYS R5NGJ0/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKME------------G-V-FLRRGQ---YTYPLDKD---TMVQKWPVKVAM------TNYKEKPRPFKLLETGVRTIDTMNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEFYRSMGLRVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDLSAIISNFYGRAGYVYLNNG------EVGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADKKRYPAVNPIDSYS G5SNL1/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKME------------G-V-FLRRGQ---YTYPLDKD---TMVQKWPVKVAM------TNYKEKPRPFKLLETGVRTIDTMNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEFYRSMGLRVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDLSAIISNFYGRAGYVYLNNG------EVGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQDRADKKRYPAVNPIDSYS A0A174C8W6/73-116_189-436 -------------SVTLAPGILNNIFDGIERPLEQIANV-G------G-G-A-FITRGV---SVDSLDRD---NMIQHWPIRKA-------RPTSYRFPASVPLITGQRILDTMFPIAKGGTAAIPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEEFSELVDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASIYTGLTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMHNL-NGSD-----GSVTIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS W8P2J0/70-112_185-434 -------------SVELGPGLLTSMYDGIQRPLEKLRE--L------S-G-D-FIARGL---TAPALPRD---KMYHKWPVRVK-------RPYKNKLPPEVPLITGQRTIDTFFSIAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVVYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDQGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKIAEFYERAGRVVTL-GSEP---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLRSYS O06504/70-112_185-434 -------------SVELGPGLLTSMYDGIQRPLEKLRE--L------S-G-D-FIARGL---TAPALPRD---KMYHKWPVRVK-------RPYKNKLPPEVPLITGQRTIDTFFSIAKGGTAAIPGPFGSGKTVTQHQLAKWSDAQVVVYIGCGERGNEMTDVLEEFPKLKDPK-------TGK--------PLMERTVLIANTSNMPVAAREASIYTGITIAEYFRDQGYDVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLASKIAEFYERAGRVVTL-GSEP---RVGSVSVIGAVSPPGGD-FSEPVVQNTLRVVK--VFWALDADLARRRHFPAINWLRSYS A0A124ITA8/75-119_192-441 ---------------WLGPGIINQVYDGVQRPLRNIFELTQ------R---P-FVARGINYERTPPLDFK---KMWHKWPVRRP-------RPFREKLPPIEPLITGIRVIDTLFPIAIGGAAAIPGPFGSGKTVTIRTLAMYSQARYVIPVLCGERGNEAADALQGLLKLIDPT-------TGR--------PLMERTTIIVNTSNMPVAAREASIYMGVTIAEYFRDQGYDAFLMADSTSRWAEAMREVALRIGEMPSEEGFPAYLPTRLAEFYERSGRVVTL-GKEG---RLGSVTIAASVSPPGGD-FTEPVTSHTLRFVG--AFWPLDAKLAYSRHYPAINWLMGFS A0A101WUE9/75-119_192-441 ---------------WLGPGIINQVYDGVQRPLRNIFELTQ------R---P-FVARGINYERTPPLDFK---KMWHKWPVRRP-------RPFREKLPPIEPLITGIRVIDTLFPIAIGGAAAIPGPFGSGKTVTIRTLAMYSQARYVIPVLCGERGNEAADALQGLLKLIDPT-------TGR--------PLMERTTIIVNTSNMPVAAREASIYMGVTIAEYFRDQGYDAFLMADSTSRWAEAMREVALRIGEMPSEEGFPAYLPTRLAEFYERSGRVVTL-GKEG---RLGSVTIAASVSPPGGD-FTEPVTSHTLRFVG--AFWPLDAKLAYSRHYPAINWLMGFS A0A1C7IEF4/73-115_188-435 -------------SVMLGPGILDNIFDGIQRPLSVIAE--Q------S-G-K-YISRGM---QVDSLDTE---KLAQKWPIRIP-------RPTNKRYPATIPLVTGQRILDTLFPIAKGGTAAVPGGFGTGKTMTQHQIAKWSDADIIVYIGCGERGNEMTQVLEDFSKLHDPK-------TGN--------ALMARTTLIANTSNMPVAAREASIYTGISLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQNL-NGTE-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS F3UP89/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLERFQT--I------TAS-D-FLVRGV---QLPNLDRE---TLMQKWPVRRG-------RPFAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPA-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSTA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS A0A072X9G4/72-114_185-434 -------------SVELGPGLIESMFDGIQRPLEAIAK--K------A-G-S-YLTKGI---EVFSLNRD---KLMQKWPVRKG-------RPYAKKLNPEAPLVTGQRIIDTFFPVAKGGAAAVPGPFGSGKTVVQHQLAKWGDAQIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGK--------SIMERTVLIANTSNMPVAAREACIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLADFYERAGKVVCL-GDDE---REGAITAIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDAQLAYRRHFPAINWLNSYS A0PZC6/72-114_185-434 -------------SVELGPGLIESMFDGIQRPLEAIAK--K------A-G-S-YLTKGI---EVFSLNRD---KLMQKWPVRKG-------RPYAKKLNPEAPLVTGQRIIDTFFPVAKGGAAAVPGPFGSGKTVVQHQLAKWGDAQIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGK--------SIMERTVLIANTSNMPVAAREACIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLADFYERAGKVVCL-GDDE---REGAITAIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDAQLAYRRHFPAINWLNSYS A0A1J4V700/76-119_190-439 -------------SVELGPGLLESVYDGIQRPLKAIRE--Q------S-N-SHFITRGI---EAHGIDRM---SMIQYWPIRKP-------RPTKGKIFPDEPMITGGRSIDTFFPIVKGGAGCIPGPFGAGKTVTQQSIAKYCDAQVIVYIGCGERGNEMTEVLDEFPHLIDPN-------SGE--------PLMKRTILIANTSNMPVAAREASIYTGITIAEYYRDMGYSVALMADSTSRWAEAMREISGRMEEMPGEEGYPAYLASRTAEFYERAGSVICL-GSDG---RKGALTAIGAVSPPGGD-LSEPVSQSTLRVTK--CFWGLDGSLAYKKHFPSINWLSSYS A0A1C5VL38/70-117_195-440 -------FTGELMSVELGPGLLTQVFDGLQNPLPDLAE--Q------C-G-F-FLERGV---YLDPIPDI-------TQPIKKAV------KCYEERLRPDEPLVTQIRCIDSFLPVAKGGTFCVPGPFGAGKTVLQHMEAKNGEADIVIVAACGERAGEVVEILKEFPELEDPK-------TGR--------SLMERTIIICNTSSMPVAAREASCYTAVTLAEYYRQMGLDVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESTIASFYERAGKVRLKDG------KIASVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPMDSWS S3K1A9/76-118_192-437 -------------SVELGPGLLGQVFDGLQNPLPQLAE--K------A-G-F-FLERGI---YLDALPDE---TMSFNWPVKRAI------DCYAERLKPEETMVTKIRLIDTFFPVAKGGTYCIPGPFGAGKTVLQHTTSRNADVDIVIVAACGERAGEVVEILKEFPELTDPR-------TGR--------SLMERTIIICNTSSMPVAAREASVYTGVTLAEYYRQMGLHVLLLADSTSRWAQALREMSGRLEEIPGEEAFPAYLESYIAAFYERAGIVRLSDG------ALGSVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAINPLD--- A0P1I7/93-134_207-461 --------------VALGPGLLSTVFDGLQNPLADIAA--E------H-G-F-FLPRGV---LTNALDQN---TMVQHWPVRRAIPEAMVKAGQSERLYPSEPLITTLRLIDTFFPIARGGMGCIPGPFGAGKTVLQSLISRFSAVNIVIVVACGERAGEVVETITEFPHQPDPS-------GDG--------TLMDRTVIICNTSSMPVAAREASIYTGITLGEYYRQMGYDVLLIADSTSRWAQAMRETSGRLEEIPGEEAFPAYLDSAIKGIYERAGVLRTASG------ETGSLTMIGTVSPAGGN-FEEPVTQSTLGTVK--TFLGLSSERAYKRFYPAVDPLLSWS D3RSX7/75-117_192-439 -------------SVELGPGLMGGIFDGVQRPLLKLAL--Q------S-G-D-YIRRGL---SVPALDRD---SLYQRWPVRKP-------RPYRRRDDGISPLITGQRVIDTFFPQLKGGKGAVPGPFGAGKTVVQQQIARWSNADIVIYVGCGERGNELVDVLETFPQLDDPY-------SGR--------KLMERTLLVANTSNMPVVAREASVYVGITMAEYYRDMGYDVVMLADSTSRWAEALREVSGRLGQMPVEEGYPAYLASRLAAVYERAGRVETF-GAGS-----GSVTLIGAVSPPGGD-FSEPVTSHTKDIIE--TFWALSKELADARHYPSIDWVTSFS A0A0E1L0T9/72-114_185-434 -------------SVELGPGLIEAMFDGIQRPLNVIKD--K------A-G-D-FITRGV---EVHSLDRD---MMMQKWPVRKG-------RPYGRKLNPVQPMITGQRVIDTFFPVTKGGTACVPGPFGSGKTVVQHQLAKWADAQIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGE--------PLMKRTVLIANTSNMPVAAREASIYTGITIGEYFRDMGYSIALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAAEFYERAGNVLSL-GSEE---REGALTVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDAQLAYRRHFPAINWLNSYS A0A1G3QGS8/69-117_194-436 -------FSAGLLSSTVGPGLLGQIYDGLQNPLPQLAE--Q------C-G-F-FLERGV---YLDPLPGD------FNWPVKRAV------DAYAERLKPVDPLVTQIRIIDTLFPVCRGGTYCIPGPFGSGKTVLQQLISRYADIDIVIIAACGERAGEVVETLREFPGLPDPR-------TGR--------TLMERTIIICNTSSMPVAAREASVYTAVTLGEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESVIAAFYERSGIVRNKDG------SIGSITIGGTISPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARRYPAIHPLE--- B3N3B4/200-243_317-568 -------------SVELGPGIMGSIFDGIQRPLRSISE--L------T-N-SIYVPKGI---DTPSLPRN---TMLQVWPVRKC-------RPVEDKLPSTSPLLTGQRVLDAFFPCVQGGTTAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMSEVLRDFPQLEVEV-------NGTME------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGFHVSMMADSTSRWAEALREISGRLAEMPADAGYPAYLGARLASFYERAGLVTCL-GSPE---REGSVSIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLQSYS C0C1W4/76-118_191-438 -------------SVTLAPGILDNIFDGIERPLERIAD--T------G-G-A-FVTRGV---SVNALDTD---SMTQYWPIRVP-------RPVHHRYPASVPLITGQRILDTMFPIAKGGTAAIPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEEFGELVDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASIYTGLTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQTL-NGSV-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYSRHFPAIHWLTSYS A0A1C5YV72/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKME------------G-V-FLKRGQ---YTYPLDKE---NMIQKWPVKKAM------TNYKEKPRPYKLLETGVRVIDTMNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIVANTSNMPVAAREASVYTAMTMAEFYRAMGLKVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDLSAIISNFYGRAGFVHLNNG------QTGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQERADRKRYPAVNPIDSYS A0A0P0N6Q0/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLARFQT--V------TQS-D-FLVRGV---QLPHLNRE---SLMQKWPVRRG-------RPFDQKLIPEEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPT-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSDE---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS A0A139NN58/72-115_187-436 -------------SVELGPGLLSQMFDGIQRPLERFQS--E------TES-D-FLIRGV---QLPNLDRE---SLMQTWPVRKG-------RPFAQKLIPLEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFADVDIVIYVGCGERGNEMTDVLHEFPGLLDPA-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GSSE---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS D7N842/72-114_187-434 -------------SVKLGPGMIKNMFDGIQRPLTKIRS--E------Y-G-N-FMPEGI---GLISIDEE---KMYQEWPVRIP-------RPIKERLPIDRLLVSGQRVFDVFFPIAKGGTAAIPGGFGTGKTMTQHQIAKYCDADIIVYIGCGERGNEMTEVLEDFPKLIDPN-------TGN--------PLMDRTILIANTSNMPVAAREASIYTGVTIAEYFRDQGYHVALMADSTSRWAEALREISGRLEEMPAEEGYPAYLPSRIAQFYERAGYVDTL-SGDE-----GSVTLIGAVSPVGGD-FSEPVTENTKRFVN--VFLALDKELAYARHYPAINWMNSYS A0A1C6DQL1/75-117_190-437 -------------SVTLAPGILHNIFDGIERPLSEIAK--A------G-G-M-YITRGL---SVDALDRN---SMTQKWPIRVP-------RPTNKRYAASEPLITGQRILDTLFPIAKGGTAAIPGGFGTGKTMTQHQVAKWSDADIIVYIGCGERGNEMTQVLEEFSELIDPK-------SGN--------PLMDRTVLIANTSNMPVAAREASIYTGLTLAEYYRDMGYHVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASKLSAFYERAGMMHNL-NGSV-----GSVTIIGAVSPQGSD-FSEPVTQNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS B2IP43/80-123_195-444 -------------SVELGPGLISQMFDGIQRPLDRFKL--A------THN-D-FLVRGV---EVPSLDRD---TLMQKWPVRKA-------RPVSKRLIPEEPLITGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFSNVDIVIYVGCGERGNEMTDVLNEFPELIDPN-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITMAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRSQVL-GIPE---REGTITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAPLAQRRHFPAINWLTSYS U7UW70/72-114_185-434 -------------SVELGPGLLETMFDGIQRPLVALKD--K------A-G-D-FLLRGS---EVHSLNRE---TMIQKWPVRRG-------RPYKKKVDPKTPLVTGQRVIDTFFPVTKGGTAAIPGPFGSGKTVVQHQLAKWADAEIVVYVGCGERGNEMTDVMMEFPELIDAK-------TGE--------SIMKRTVLIANTSNMPVAAREASIYTGITISEYYRDMGYSVAMMADSTSRWAEALREMSGRLEEMPGDEGYPAYLASRVADFYERAGRVICN-GHDG---REGALTAIGAVSPPGGD-ISEPVSQATLRIVK--VFWKLDYDLSYKRHFPAINWLDSYS A0A143ZSB2/83-125_197-446 -------------SVELGPGLIGSIYDGIQRPLDAIMA--K------A-GTN--LERGV---TVPSLDRE---PLMQKWPVRRG-------RPYQKKLSPDVPLISGQRVIDTLFPIARGGVASIPGPFGSGKTVVQHQLAKWADADIVVYIGCGERGNEMTDVLNEFPELKDPR-------TGY--------SLMKRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGEEGYPAYLGSRLAQFYERAGRVITL-GDDN---REGALSVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDSSLAYKRHFPAVNWLTSYS A0A0B4BF92/84-125_198-452 --------------VALGPGLLGQVYDGLQAPLKQVAN--A------Y-G-I-FLPRGA---DVDPLDRA---PLSQRWPVRRPMAGDLLKSGAVQRKYPDTPVLTSQRLIDTFFPIGRGGTACIPGPFGAGKTVLQNLIARNAQVDVVIVVACGERAGEVVETITEYPEMTDPT-------SGG--------SLMDRTIIICNTSSMPVAAREASIFTGITLGEYYRQMGLDVLLIADSTSRWAQAMRETSGRLEEIPGEEGYPAYLESSIKGLYERAGVMTAVDG------ATGSLTMIGTVSPAGGN-FDEPVTQATLSTVK--CFLGLSSERAYKRFYPAVDPLLSWS R5TXJ7/70-117_195-440 -------FTGELMSVELGPGLLTQVFDGLQNPLPDLAE--Q------C-G-F-FLERGV---YLDPIPDI-------SQPIKQPV------KCYEERLRPDEPLVTQIRCIDSFLPVAKGGTFCVPGPFGAGKTVLQHMEAKNGEADIVIVAACGERAGEVVEILKEFPELEDPK-------TGR--------SLMERTIIICNTSSMPVAAREASCYTAVTLAEYYRQMGLNVLLLADSTSRWAQAMREMSGRLEEIPGEEAFPAYLESTIASFYERAGKVRLKNG------KIASVTIGGTVSPAGGN-FEEPVTQATLKVVG--AFHGLSRERSDARKYPAIHPMDSWS D1AWR5/71-113_184-433 -------------SVELGPGLLENMFDGIQRPLDKIKQ--R------V-G-D-FLLKGV---EVNALDRE---NMIQRWPVRKG-------RKYAKKINPDEPLITGQRVIDTFFPVSKGGTACVPGPFGSGKTVVQHQFAKWGDAQVVVYVGCGERGNEMTDVLMEFPEIIDPL-------TGK--------SLMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVSIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLSSRAADFYERAGKVVCL-GEDE---RIGALTVIGAVSPPGGD-ISEPVSQSTLRIVK--VFWGLDAQLAYRRHFPAINWLNSYS A4FXD4/72-115_186-435 -------------SVELGPGMLKAMYDGIQRPLNEIEN--A------T-D-SIYIPRGV---SVPSISRD---QMMQKWPVRKP-------RPSKGKQPPVIPLITGQRVEDTFFGVAKGGAAAIPGPFGSGKTVTQHQLAKWSDVDVVVYIGCGERGNEMTEVIEEFPHLDDIK-------TGN--------KLMDRTVLIANTSNMPVAAREASVYTGITIAEYFRDQGLGVLLTADSTSRWAEAMREISGRLEEMPGEEGYPAYLSSKLAQFYERAGRVQCL-GSED---KHGFVCIVGAVSPPGGD-FSEPVTSNTLRIVK--VFWALDANLARRRHFPAINWLTSYS U5MTE3/72-115_186-435 -------------SVELGPGLIESMFDGIQRPLDAFME--A------AQS-N-FLTKGI---SVPSLNRT---TLMQKWPVRKG-------RPYKSKINPVEPMITGQRVIDTFFPVTKGGAAAIPGPFGAGKTVTQHQIAKWGDTEIVVYVGCGERGNEMTDVLNEFPELIDPK-------TGE--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVSIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLADYYERAGKVECL-GDEG---RIGSITAVGAVSPPGGD-ISEPVSQSTLRIVK--VYWGLDAELAYQRHFPSINWLSSYS R6MMH0/76-114_188-436 --------------VTLGPGMLSKNYDGLQNDLDKME------------G-V-FLKRGQ---YTYPLDKE---NMIQKWPVKKAM------TNYVEKPRPYKLLETGVRVIDTMNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELVDPH-------TGR--------KLMERTIIVANTSNMPVAAREASVYTAMTMAEFYRAMGLKVLLMADSTSRWAQALREMSNRMEELPGPDAFPMDISAIISNFYGRAGFVHLYNG------ATGSITFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQERADRKRYPAVNPIDSYS A0A0M0A103/72-114_185-434 -------------SVELGPGLIEAMFDGIQRPLNAIKA--K------A-G-D-FITKGV---EVHSLDRD---MMMQKWPVRRG-------RPYGRKLNPAQPMITGQRVIDTFFPVTKGGTACVPGPFGSGKTVVQHQLAKWADAQIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGE--------PLMKRTVLIANTSNMPVAAREASIYTGITIGEYFRDMGYSIALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAAEFYERAGNVVSI-GSEE---REGALTVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDAQLAYRRHFPAINWLNSYS A0A1E5HE45/72-115_186-435 -------------SVELAPGLISEMFDGIQRPLDTFAQ--V------TES-N-FLSRGV---QIPALDRS---TMMQKWPVRRS-------RPILEKVNPDVPLLTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQIAKWADVDLVVYVGCGERGNEMTDVLNEFPELIDPN-------TGE--------SVMERTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLAEYYERAGKVVAL-GKDH---REGSITAISAVSPSGGD-ISEPVTQNTLRVVK--VFWGLDATLAQKRHFPSINWLQSYS W2C6J7/76-114_188-436 --------------VTLGPGMLSRNYDGLQNDLDKMD------------G-V-FLKRGE---YTYPLDND---TMIQKWPVKRAN------TCYKEKPRPYKLLETGVRIIDTVNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFVEFPELVDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTIAEYYRSMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAIVANFYARAGMVVLNNG------KTGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQARADRKRYPAVNPIDSYS A0A101GPM1/77-120_191-440 -------------SVELGPGLIEQFYDGVQRPLNLIEK--A------AES-P-FISRGI---NVPAIGRS---AMLRRWPVRSP-------RPVLQRLAPNVPLTTGQRVIDTFFPLSRGGAACVPGPFGSGKTVIQHQLAKWADAEIVVYVGCGERGNEMTDVLLEFPELEDPR-------SGE--------PLMKRTVLIANTSNMPVAAREASIYTGITIAEYYRDMGYSVALMADSTSRWAEALREISGRLEEMPGEEGYPAYLGTRLASFYERAGRAICL-GNDG---REGSITSIGAVSPPGGD-LSEPVSQNTLRVTK--VFWGLDANLAYQRHFPAINWLSSYS C1FTN7/74-116_187-436 -------------SVELGPGLIEAMFDGIQRPLNVIKD--K------A-G-D-FITKGV---EVHSLDRD---MMMQKWPVRRG-------RPYGRKLNPAQPMITGQRVIDTFFPVTKGGTACVPGPFGSGKTVVQHQLAKWADAQIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGE--------PLMKRTVLIANTSNMPVAAREASIYTGITIGEYFRDMGYSIALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAAEFYERAGNVLSL-GSEE---REGALTVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDAQLAYRRHFPAINWLNSYS A0A175LHG7/74-116_187-436 -------------SVELGPGLIEAMFDGIQRPLNVIKD--K------A-G-D-FITKGV---EVHSLDRD---MMMQKWPVRRG-------RPYGRKLNPAQPMITGQRVIDTFFPVTKGGTACVPGPFGSGKTVVQHQLAKWADAQIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGE--------PLMKRTVLIANTSNMPVAAREASIYTGITIGEYFRDMGYSIALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRAAEFYERAGNVLSL-GSEE---REGALTVIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDAQLAYRRHFPAINWLNSYS A0A139NBR7/2-214 ---------------------------------------------------------------------------------------------------------------------TKGGAAAVPGPFGAGKTVVQHQIAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPN-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRARVL-GQEG---REGTITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAPLAQRRHFPAINWLTSYS A0A1F0YBU3/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLERFQE--V------TAS-D-FLVRGV---QVPNLDRD---TLMQKWPVRRG-------RPFAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPT-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GTTA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS A0A151EBI9/76-118_190-439 -------------SVDLGPGLLTNIYDGIQRPLPAIEK--K------T-G-E-FIARGV---EADAIDRK---HMIQRWPVRKP-------RPVAKKYDPTLPMITGQRIIDTFFPIAKGGTAAIPGGFGTGKTVMLHQLAKWSDAQVVVYVGCGERGNEMTDVLREFPELEDPK-------SGE--------PLMNRTVLIANTSNMPVAARDASVYTGITIAEYYRDMGYDVALMADSTSRLAEAMREISGRLEEMPGEEGYPAYLASRLAEFYERAGRVKLL-GSKD---KEGSVSVMGAVSPPGGD-FSEPVAQNTLRIVK--VFWALDADLADRRHFPSINWLKSYS M5RN66/70-110_182-436 ---------------TLGPGLLGRVFDGLQNPLHDLAK--E------H-G-F-FLPRGV---SAPPLDTQ---TMVQRWPVRRTIPDSLLRRRYAERLYAQEPLTTGTRIIDTFFPIANGGTGCIPGPFGAGKTVLQSTIARYAAVDVVVVVACGERAGEVVETITMYPETQDPR-------TGG--------TLMDRTIIICNTSSMPVAAREASIYMGVTLAEYYRQMGLNVLLIADSTSRWAQAMRETSGRMEEIPGEEAFPAYLDSSIKSVYERAGTIRCPDD------SQGSLTMIGTVSPAGGN-FEEPVTQSTLGTVK--TFLGLSYDRAYKRFYPAIDPLISWS A0A1F9ITX0/75-115_209-458 --------------IRLGPGLLSNVFDGIQRPLESLRL--K------T-G-D-FIKKGI---SFDVL-LD---SLYQEWPVRQP-------RPFKERLSPDTPFITGQRVFDMLFPVAEGGAAIVPGGFGTGKTIVEQALARFAKSDIIVYVGCGERGNEMTEVLTDFPKLLDPS-------TGL--------PLSLRTVLIVNTSNMPVAAREASIFIGATIAEYFRDMGYKVALMTDSISRWAEALREISSRMEEMPGEEGYPPYLATRLGNFYERAGKVKCL-GNEE---RTGSVTIVSAVSPPGGD-FSEPVTQASLRVAG--ALWALDTDLAYRRHFPAVDWNKSFS A0A1G3Q547/75-117_189-436 -------------SVELGPGMIGTIYDGIERPLEELFK--A------S-G-N-FIGKGV---ISTALNRK---SMLQKWPIRNP-------RPVAERLPLSIPLITGQRVIDTLFPIAKGGTVAIPGGFGTGKTMTQHAIAKWCDADIIVYIGCGERGNEMTDVLTEFPKLIDPR-------TGK--------SLMERTVLIANTSNMPVSAREASIYTGATIAEYFRDQGCHVAVMADSTSRWAEALRELSGRMEEMPAEEGFPAYLPTRIAEFYERAGYMQAL-CGKP-----GSVSIIGAVSPPGGD-FSEPVTQHTKRFVR--CFWGLDRQLANARHYPAISWLESYS B0ERI5/81-124_196-447 -------------SVELGPGIMTSIFDGIQRPLVSIAE--K------S-G-SIFIPRGI---SVASLDHQ---SMAHHWPVRKP-------RPTAEKITSTTPLVTGQRILDSLFPCIQGGTCAIPGAFGCGKTVISQALSKYSNSDVIIYVGCGERGNEMAEVLRDFPALSIKV-------GDKEE------SIMTRTALVANTSNMPVAAREASIYTGITLSEYYRDMGYNVAMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGMVECL-GSPK---RNGSVSIVGAVSPPGGD-FSDPVTTSTLNIVQ--VFWGLDKKLAQRKHFPAVNWNISFS A0A0B4S2H1/72-114_185-433 -------------SIELGPGMLEQMFDGIQRPLEALQA--K------A-G-D-FLLRGV---SVSPLDRE---NMIQKWPVRRG-------RPYSRKLDPIRPLVTGQRIIDTFFPVAKGGAAAIPGPFGSGKTVVQHQLAKWADAEIVVYVGCGERGNEMTDVLMEFPEILDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIGEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLASRVADFYERAGYVKCL-GED----REGALTVIGAVSPPGGD-ISEPVSQATLRIVK--VFWGLDYALSYRRHFPAINWLNSYS A0A133PAM7/72-114_185-433 -------------SIELGPGMLEQMFDGIQRPLLKIQE--A------V-G-D-FLLKGV---SVPALDRE---NMIQKWPVRKG-------RPYLRKLNPVKPLITGQRIIDTFFAVTKGGTAAIPGPFGSGKTVIQHQLAKWADAEVVVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLSSRIAEFYERAGLVECL-GNG----EEGALTVIGAVSPPGGD-ISEPVSQSTLRIAK--VFWGLDYALSYRRHFPAINWLNSYS A0A1E3AAF6/73-115_188-435 -------------SVTLAPGILNNIFDGIERPLEEVAR--I------S-G-D-YISRGF---AVDSLDIH---TMVQKWPIRRP-------RPSAKRFPVSQPLVTGQRILDTLFPIAKGGTAAIPGGFGTGKTMTQHSIAKWSDADIIIYIGCGERGNEMTEVLEDFSKLIDPK-------SGN--------PLMDRTVLIANTSNMPVAAREASVYTGVTLAEYYRDMGYHVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMVQNL-NGTE-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKGLAHERHFPAISWLSSYS F7K5T9/73-115_188-435 -------------SVTLAPGILNNIFDGIERPLEEVAR--I------S-G-D-YISRGF---AVDSLDIH---TMVQKWPIRRP-------RPSAKRFPVSQPLVTGQRILDTLFPIAKGGTAAIPGGFGTGKTMTQHSIAKWSDADIIIYIGCGERGNEMTEVLEDFSKLIDPK-------SGN--------PLMDRTVLIANTSNMPVAAREASVYTGVTLAEYYRDMGYHVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMVQNL-NGTE-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKGLAHERHFPAISWLSSYS A0A1C6FVN3/75-117_190-437 -------------SVTLAPGILNNIFDGIERPLERIAD--S------G-G-A-FITRGV---SVDSLNRE---TMTQRWPIRVA-------RPTHHRFPASVPLITGQRILDTMFPIAKGGTAAIPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEEFSQLIDPR-------SGN--------PLMDRTTLIANTSNMPVAAREASIYTGLTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMHNL-NGTD-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYSRHFPAIHWLTSYS Q90647/87-130_204-455 -------------SVELGPGIMGAIFDGIQRPLSDIST--L------T-K-SIYIPRGV---NVSALSRD---TMVQVWPVRQV-------RPVTEKLPANHPLLTGQRVLDALFPCVQGGTTAIPGAFGCGKTVISQSLSKYSNSDVIIYVGCGERGNEMSEVLRDFPELTMEV-------DGKVE------SIMKRTALVANTSNMPVAAREASIYTGITLSEYFRDMGYHVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERAGRVKCL-GNPE---REGSVTIVGAVSPPGGD-FSDPVTSATLGIVQ--VFWGLDKKLAQRKHFPSVNWLISYS C3NEU3/72-115_187-436 -------------SIELGPGLIGKIFDGLQRPLDSIKEL-T------K-S-P-FIARGI---KVPSVDRK---RLMQRWPVRIP-------RPFREKLEPTEPLLTGTRVLDTIFPIAKGGTAAIPGPFGSGKTVTLQSLAKWSAAKIVIYVGCGERGNEMTDELRQFPSLKDPW-------TGR--------PLLERTILVANTSNMPVAAREASIYVGITMAEYFRDQGYDTLLVADSTSRWAEALRDLGGRMEEMPAEEGFPSYLPSRLAEYYERAGRVKTV-GKPE---RFGSVTVASAVSPPGGD-FTEPVTSQTLRFVK--VFWPLDVSLAQARHYPAINWLQGFS D7DRU1/72-115_186-435 -------------SVELGPGMLKAMYDGIQRPLNAIED--A------T-D-SIYIPRGV---NVPSLSRT---IMMQKWPVRQP-------RPNKEKLPPVIPLITGQRVEDTFFGLAKGGASAIPGPFGSGKTVTQHQLAKWSDVDIVVYIGCGERGNEMTEVIEEFPHLDDLK-------TGN--------KLMDRTVLIANTSNMPVAAREASVYTGITIAEYFRDMGFGVLLTADSTSRWAEAMREISGRLEEMPGEEGYPAYLSSKLAQFYERAGRVDCL-GSDD---RKGFVCIVGAVSPPGGD-FSEPVTSNTLRIVK--VFWALDANLARRRHFPAINWLTSYS A0A0M4SRU9/72-114_185-433 -------------SIELGPGMLEQMFDGIQRPLLKIQE--A------V-G-D-FLLKGV---SVPALDRE---NMIQKWPVRKG-------RPYLRKLNPVKPLITGQRIIDTFFAVTKGGTAAIPGPFGSGKTVIQHQLAKWADAEVVVYVGCGERGNEMTDVLMEFPEIIDPK-------TGQ--------SLMKRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLSSRIAEFYERAGLVECL-GNG----EEGALTVIGAVSPPGGD-ISEPVSQSTLRIAK--VFWGLDYALSYRRHFPAINWLNSYS A0A0A0ISD5/72-114_185-434 -------------SVELGPGLIESMFDGIQRPLKAISE--K------A-G-S-YLTKGI---EVPSLNRE---KLMQKWPVRKG-------RPYSKKLNPEAPLVTGQRIIDTFFPVAKGGAAAVPGPFGSGKTVVQHQLAKWGDAEIVVYIGCGERGNEMTDVLNEFPELKDPK-------TGE--------SLMKRTVLIANTSNMPVAAREACIYTGITIAEYFRDMGYSVALMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRLADFYERAGKVICL-GENE---REGAITAIGAVSPPGGD-LSEPVTQATLRIVK--VFWGLDAQLAYRRHFPAINWLNSYS A0A174T7Y5/75-117_190-437 -------------SVTLAPGILNNIFDGIERPLERIAD--K------G-G-A-FITRGV---SVDALDRQ---SMTQHWPIRVP-------RPVSRRFPASVPLVTGQRILDTMFPIAKGGTAAIPGGFGTGKTMTQHQIAKWSDADIIIYIGCGERGNEMTQVLEEFSELVDPK-------SGN--------PLMDRTTLIANTSNMPVAAREASIYTGLTLAEYYRDMGYDVAIMADSTSRWAEALRELSGRLEEMPAEEGFPAYLASRLSAFYERAGMMQTL-NGAT-----GSVSIIGAVSPQGGD-FSEPVTQNTKRFVR--CFWGLDKSLAYARHFPAIHWLTSYS U5PAF2/72-115_187-436 -------------SVELGPGLISQMFDGIQRPLERFQE--V------TAS-D-FLIRGV---QVPNLDRN---TLMQKWPVRRG-------RPFAQKLIPVEPLVTGQRVIDTFFPVTKGGAAAVPGPFGAGKTVVQHQVAKFANVDIVIYVGCGERGNEMTDVLNEFPELIDPT-------TGQ--------SIMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVAIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLGSRIAEYYERAGRVKTL-GTTA---REGSITAIGAVSPPGGD-ISEPVTQNTLRIVK--VFWGLDAQLAQRRHFPAINWLSSYS A0A1G2XBG2/75-117_189-438 -------------SVELGPGLIESIYDGIQRPLDELYK--A------Q-G-S-YILRGS---HLPGLNRQ---KMMQKWPVRLG-------RASKQRLSPDSILQTGQRVIDTFFPIAKGGTACVPGPFGTGKTVVQHQLAKWVDADVVVYVGCGERGNEMTDVLIEFPELKDPR-------SGQ--------PLMKRSVLIANTSDMPVAAREASVYTGITIAEYFRDMGYTVALMADSTSRWAEAMREISTRLEEMPAEEGYPAYLAARIASFYERAGKVECL-GKPE---RQGALSIIGAVSPPGGD-LSDSVVQATLHVVK--VFWSLMAKLAQQRHFPAIDWLTSYS A0A139Y3R6/85-128_203-454 -------------SVELGPGLLDNIFDGIQRPLERIAQ--V------A-Q-SVFVPKGV---DVPALDHK---QMAHDWPVREP-------RPCLEKLSGNTPLLTGQRVLDSLFPTVQGGTCAIPGAFGCGKTCISQALSKYSNSQVIIYVGCGERGNEMAEVLTEFPELTTVV-------NGQEE------GIMQRTCLVANTSNMPVAAREASIYTGITLGEYFRDMGYHVAMMADSTSRWAEALREISGRLAEMPADSGYPAYLGARLASFYERASRVRCV-GSPE---REGSVTIVGAVSPPGGD-FSDPVTTSTMSIVQ--VFWGLDKKLAQRKHFPSVNWTTSFS R5CTD8/71-113_185-434 -------------SVELGPGMLENIYDGIQRPLPEIRE--R------V-G-S-TISRGV---DVPALNRE---SMMQKWPVRIN-------RPYAKKFMPSRPMNSGQRIIDTLFPIAKGGTAAVPGPFGSGKTVVQHQLAKWSDVDIVVYIGCGERGNEMTDVLMEFPELTDPR-------NGE--------PLMKRTVLIANTSDMPVAAREASIYTGITIAEYFRDMGYDVAVLADSTSRWAEALREMSGRLEEMPGEEGYPAYLASRIAQFYERAGCVECL-GAGE---RHGSVTAIGAVSPPGGD-ISEPVSQATMRIVK--VFWALDSSLAYARHFPAINWLTSYS Q946X7/90-133_206-458 -------------SVELGPGILGNIFDGIQRPLKTIAK--I------S-G-DVYIPRGV---SVPALDKD---TMLQTWPVRTP-------RPVASKVAADTPLLTGQRVLDALFPSVLGGTCAIPGAFGCGKTVISQALSKYSNSDTVVYVGCGERGNEMAEVLMDFPQLTMTL------PDGREE------SVMKRTTLVANTSNMPVAAREASIYTGITIAEYFRDMGYNVSMMADSTSRWAEALREISGRLAEMPADSGYPAYLAARLASFYERAGKVKCL-GGPE---RTGSVTIVGAVSPPGGD-FSDPVTSATLSIVQ--VFWGLDKKLAQRKHFPSVNWLISYS A0A1J5HDG5/76-114_188-436 --------------VTLGPGLLSRNYDGLQNDLDKLT------------G-V-FLQRGE---YNYPLDTE---TMVQKWPVKKAI------TVHTEKPRPFKLLETGVRIIDTANPIVEGGTGFIPGPFGTGKTVMQHAISKQAEADIVIIAACGERANEVVEIFVEFPELEDPH-------TGR--------KLMERTIIIANTSNMPVASREASVYTAMTISEYYRAMGLRVLMMADSTSRWAQALREMSNRMEELPGQDAFPMDLSAIIATFYSRAGYVYLKNG------QTGSITFIGTVSPAGGN-LKEPVTEGTKKVAR--CFYALEQARADRKRYPAVNPIDSYS A0A0F5IXE9/76-114_188-436 --------------VTLGPGMLSRNYDGLQNDLDKMD------------G-V-FLKRGE---YTFALDND---NMIQRWPVKRAV------TCYKEKPRPYKLLETGVRTIDTVNPIVEGGTGFIPGPFGTGKTVLQHAISKQAEADIVIIAACGERANEVVEIFTEFPELIDPH-------TGR--------KLMERTIIIANTSNMPVAAREASVYTAMTLAEYYRSMGLKVLLMADSTSRWAQALREMSNRLEELPGPDAFPMDLSAIVANFYARAGFVELNNG------KTGSVTFIGTVSPAGGN-LKEPVTENTKKVAR--CFYALEQERADRKRYPAVNPIDSYS #=GC scorecons 0000000000000165888866336788576783353400300000030502066368500034346544000363638877340000000553347435336647758658457855688645688688488874664567456566776568999779656673788683774000000067400000000578488467699968888898777877686788796785485668898898878788686887879677779788456664888978363340521200021876655878885887066888765866575004855864356347678676543756 #=GC scorecons_70 ________________****_*___***_****____________________*__**________*_______*___****______________*_____**_**_*__*__**___***__***_**_****_**__**____****__*********_***_***_*_**________**__________**_**_*******************************__*_***************_*_***************___**_******_*_____________****__*****_***_*_*****_**__*____*__**___*__******____*_* #=GC scorecons_80 ________________****______**_*_**________________________*____________________****______________*________*__*__*__**___**____**_**_****______*______**___****__*____*_***_*_**_________*__________**_**__*_***_*******_*_***_*_*****_**__*___**********_**_*_****_*_**_*****______******_______________**____*****_**____****__*________*__*_______*_**_*____*__ #=GC scorecons_90 ________________*_**______**____*________________________*____________________**____________________________*__*___*___**____**_**_***___________________****__*_______**_*__________________________**____***_*******___*___*__**_*__*______********_*_**_*_**_*_*_____*_**______****_*_______________*_____*_***_**____***___*________*__*__________*_________ //