# STOCKHOLM 1.0 #=GF ID 3.40.50.970/FF/36197 #=GF DE Pyruvate synthase, subunit alpha #=GF AC 3.40.50.970/FF/36197 #=GF TP FunFam #=GF DR CATH: 4.2 #=GF DR DOPS: 95.252 #=GS O73986/3-252 AC O73986 #=GS O73986/3-252 OS Pyrococcus horikoshii OT3 #=GS O73986/3-252 DE Pyruvate synthase subunit PorA #=GS O73986/3-252 DR GENE3D; 1e6dce16f44f45c81f7ed7c8ee84dd7b/3-252; #=GS O73986/3-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS O73986/3-252 DR EC; 1.2.7.1; #=GS O58413/6-253 AC O58413 #=GS O58413/6-253 OS Pyrococcus horikoshii OT3 #=GS O58413/6-253 DE Ketoisovalerate oxidoreductase subunit VorA #=GS O58413/6-253 DR GENE3D; e456ae86da196ff360b4e1bdd664fdbf/6-253; #=GS O58413/6-253 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS O58413/6-253 DR EC; 1.2.7.7; #=GS Q8L3B1/18-275 AC Q8L3B1 #=GS Q8L3B1/18-275 OS Azoarcus evansii #=GS Q8L3B1/18-275 DE NADH-dependent phenylglyoxylate dehydrogenase subunit alpha #=GS Q8L3B1/18-275 DR GENE3D; 7841949e873224526c4b8019c8a375d6/18-275; #=GS Q8L3B1/18-275 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Azoarcus; Azoarcus evansii; #=GS Q8L3B1/18-275 DR GO; GO:0006558; GO:0047110; GO:0051287; #=GS Q8L3B1/18-275 DR EC; 1.2.1.58; #=GS Q57715/4-255 AC Q57715 #=GS Q57715/4-255 OS Methanocaldococcus jannaschii DSM 2661 #=GS Q57715/4-255 DE Pyruvate synthase subunit PorA #=GS Q57715/4-255 DR GENE3D; 88b4ac3b6f1e6db451fe06f4e4d5af14/4-255; #=GS Q57715/4-255 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus jannaschii; #=GS Q57715/4-255 DR EC; 1.2.7.1; #=GS P56810/2-250 AC P56810 #=GS P56810/2-250 OS Methanothermobacter thermautotrophicus str. Delta H #=GS P56810/2-250 DE Pyruvate synthase subunit PorA #=GS P56810/2-250 DR GENE3D; c9dc516c26c82609815d8a7d5fb82384/2-250; #=GS P56810/2-250 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter thermautotrophicus; #=GS P56810/2-250 DR EC; 1.2.7.1; #=GS Q6LX47/1-252 AC Q6LX47 #=GS Q6LX47/1-252 OS Methanococcus maripaludis S2 #=GS Q6LX47/1-252 DE Pyruvate oxidoreductase (Synthase) subunit alpha #=GS Q6LX47/1-252 DR GENE3D; dc157f32a01761ba0d2fe2a886373d16/1-252; #=GS Q6LX47/1-252 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS Q6LX47/1-252 DR EC; 1.2.7.1; #=GS A5UKN6/2-251 AC A5UKN6 #=GS A5UKN6/2-251 OS Methanobrevibacter smithii ATCC 35061 #=GS A5UKN6/2-251 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit, PorA #=GS A5UKN6/2-251 DR GENE3D; e68e37ad253b427bb6bfba8004ff3ee8/2-251; #=GS A5UKN6/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter smithii; #=GS A5UKN6/2-251 DR EC; 1.2.7.1; #=GS O05651/5-254 AC O05651 #=GS O05651/5-254 OS Thermotoga maritima MSB8 #=GS O05651/5-254 DE Pyruvate synthase subunit PorA #=GS O05651/5-254 DR GENE3D; ef2871564f94aa3b0df62143a15a1cad/5-254; #=GS O05651/5-254 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga maritima; #=GS O05651/5-254 DR EC; 1.2.7.1; #=GS G4FGT3/5-254 AC G4FGT3 #=GS G4FGT3/5-254 OS Thermotoga maritima MSB8 #=GS G4FGT3/5-254 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS G4FGT3/5-254 DR GENE3D; ef2871564f94aa3b0df62143a15a1cad/5-254; #=GS G4FGT3/5-254 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga maritima; #=GS G4FGT3/5-254 DR EC; 1.2.7.1; #=GS I6TWJ5/6-253 AC I6TWJ5 #=GS I6TWJ5/6-253 OS Pyrococcus furiosus COM1 #=GS I6TWJ5/6-253 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS I6TWJ5/6-253 DR GENE3D; 0875cae4efe2e7e61b669b7094fed1a9/6-253; #=GS I6TWJ5/6-253 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus furiosus; #=GS I6TWJ5/6-253 DR EC; 1.2.7.7; #=GS Q51801/6-253 AC Q51801 #=GS Q51801/6-253 OS Pyrococcus furiosus DSM 3638 #=GS Q51801/6-253 DE Ketoisovalerate oxidoreductase subunit VorA #=GS Q51801/6-253 DR GENE3D; 0875cae4efe2e7e61b669b7094fed1a9/6-253; #=GS Q51801/6-253 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus furiosus; #=GS Q51801/6-253 DR EC; 1.2.7.7; #=GS A0A150JL20/2-251 AC A0A150JL20 #=GS A0A150JL20/2-251 OS Arc I group archaeon ADurb1213_Bin02801 #=GS A0A150JL20/2-251 DE Ketoisovalerate oxidoreductase subunit VorA #=GS A0A150JL20/2-251 DR GENE3D; 0b79048ff7b9aab65568f183b2410b41/2-251; #=GS A0A150JL20/2-251 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon ADurb1213_Bin02801; #=GS A0A150JL20/2-251 DR EC; 1.2.7.7; #=GS A0A090I281/2-250 AC A0A090I281 #=GS A0A090I281/2-250 OS Methanobacterium formicicum #=GS A0A090I281/2-250 DE Pyruvate synthase subunit PorA #=GS A0A090I281/2-250 DR GENE3D; 0cdf3e28d90ee8bb565deb8e36beeb46/2-250; #=GS A0A090I281/2-250 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium formicicum; #=GS A0A090I281/2-250 DR EC; 1.2.7.1; #=GS F6BF20/1-252 AC F6BF20 #=GS F6BF20/1-252 OS Methanotorris igneus Kol 5 #=GS F6BF20/1-252 DE Pyruvate synthase #=GS F6BF20/1-252 DR GENE3D; 124af3b445fd226a01b5ad1124b9ea32/1-252; #=GS F6BF20/1-252 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanotorris; Methanotorris igneus; #=GS F6BF20/1-252 DR EC; 1.2.7.1; #=GS A0A160VSM4/6-253 AC A0A160VSM4 #=GS A0A160VSM4/6-253 OS Thermococcus chitonophagus #=GS A0A160VSM4/6-253 DE Ketoisovalerate oxidoreductase subunit VorA #=GS A0A160VSM4/6-253 DR GENE3D; 1305bb098da318ef5b9a6632b57367fa/6-253; #=GS A0A160VSM4/6-253 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus chitonophagus; #=GS A0A160VSM4/6-253 DR EC; 1.2.7.7; #=GS Q9P9E5/1-252 AC Q9P9E5 #=GS Q9P9E5/1-252 OS Methanococcus maripaludis #=GS Q9P9E5/1-252 DE Pyruvate oxidoreductase alpha subunit #=GS Q9P9E5/1-252 DR GENE3D; 151012b11de4062dc685158cb837df9a/1-252; #=GS Q9P9E5/1-252 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS Q9P9E5/1-252 DR EC; 1.2.7.1; #=GS G0HLX9/6-254 AC G0HLX9 #=GS G0HLX9/6-254 OS Thermococcus sp. 4557 #=GS G0HLX9/6-254 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS G0HLX9/6-254 DR GENE3D; 1e05c46ec836a6e1a749deb8acc7317b/6-254; #=GS G0HLX9/6-254 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sp. 4557; #=GS G0HLX9/6-254 DR EC; 1.2.7.7; #=GS W9DQZ4/9-260 AC W9DQZ4 #=GS W9DQZ4/9-260 OS Methanolobus tindarius DSM 2278 #=GS W9DQZ4/9-260 DE 2-oxoacid:ferredoxin oxidoreductase, alpha subunit #=GS W9DQZ4/9-260 DR GENE3D; 217a8b425083cb2cb96dd221047fa96a/9-260; #=GS W9DQZ4/9-260 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanolobus; Methanolobus tindarius; #=GS W9DQZ4/9-260 DR EC; 1.2.7.1; #=GS A0A0E3P081/9-258 AC A0A0E3P081 #=GS A0A0E3P081/9-258 OS Methanosarcina sp. MTP4 #=GS A0A0E3P081/9-258 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3P081/9-258 DR GENE3D; 21f1f4d72d384d386544374ac40492d2/9-258; #=GS A0A0E3P081/9-258 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. MTP4; #=GS A0A0E3P081/9-258 DR EC; 1.2.7.1; #=GS Q9UYZ4/3-252 AC Q9UYZ4 #=GS Q9UYZ4/3-252 OS Pyrococcus abyssi GE5 #=GS Q9UYZ4/3-252 DE Pyruvate synthase subunit PorA #=GS Q9UYZ4/3-252 DR GENE3D; 229506b63d5d637c59757e0fa0569452/3-252; #=GS Q9UYZ4/3-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus abyssi; #=GS Q9UYZ4/3-252 DR EC; 1.2.7.1; #=GS Q9UYZ1/7-254 AC Q9UYZ1 #=GS Q9UYZ1/7-254 OS Pyrococcus abyssi GE5 #=GS Q9UYZ1/7-254 DE Ketoisovalerate oxidoreductase subunit VorA #=GS Q9UYZ1/7-254 DR GENE3D; 27414096ffc92953397162687b2ea03b/7-254; #=GS Q9UYZ1/7-254 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus abyssi; #=GS Q9UYZ1/7-254 DR EC; 1.2.7.7; #=GS A0A0S1XDR1/2-251 AC A0A0S1XDR1 #=GS A0A0S1XDR1/2-251 OS Thermococcus barophilus #=GS A0A0S1XDR1/2-251 DE Ketoisovalerate oxidoreductase subunit #=GS A0A0S1XDR1/2-251 DR GENE3D; 27435e4633de9522978148d92164feb7/2-251; #=GS A0A0S1XDR1/2-251 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus barophilus; #=GS A0A0S1XDR1/2-251 DR EC; 1.2.7.7; #=GS A0A0U3SEA3/1-252 AC A0A0U3SEA3 #=GS A0A0U3SEA3/1-252 OS Thermococcus sp. 2319x1 #=GS A0A0U3SEA3/1-252 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0U3SEA3/1-252 DR GENE3D; 2ef46da5d485fffbf064c875644ecf41/1-252; #=GS A0A0U3SEA3/1-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sp. 2319x1; #=GS A0A0U3SEA3/1-252 DR EC; 1.2.7.1; #=GS A0A0E3LGD9/8-257 AC A0A0E3LGD9 #=GS A0A0E3LGD9/8-257 OS Methanosarcina vacuolata Z-761 #=GS A0A0E3LGD9/8-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3LGD9/8-257 DR GENE3D; 2f122e75eb52736b2338586cd818d448/8-257; #=GS A0A0E3LGD9/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina vacuolata; #=GS A0A0E3LGD9/8-257 DR EC; 1.2.7.1; #=GS A0A0E3Q9Z0/8-257 AC A0A0E3Q9Z0 #=GS A0A0E3Q9Z0/8-257 OS Methanosarcina sp. Kolksee #=GS A0A0E3Q9Z0/8-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3Q9Z0/8-257 DR GENE3D; 2f122e75eb52736b2338586cd818d448/8-257; #=GS A0A0E3Q9Z0/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. Kolksee; #=GS A0A0E3Q9Z0/8-257 DR EC; 1.2.7.1; #=GS A0A0S1XE10/1-252 AC A0A0S1XE10 #=GS A0A0S1XE10/1-252 OS Thermococcus barophilus #=GS A0A0S1XE10/1-252 DE Pyruvate synthase #=GS A0A0S1XE10/1-252 DR GENE3D; 2fae501d3595c46ac8809612e29d7ca7/1-252; #=GS A0A0S1XE10/1-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus barophilus; #=GS A0A0S1XE10/1-252 DR EC; 1.2.7.1; #=GS A0A062V809/3-252 AC A0A062V809 #=GS A0A062V809/3-252 OS Candidatus Methanoperedens nitroreducens #=GS A0A062V809/3-252 DE 2-oxoacid:ferredoxin oxidoreductase, alpha subunit #=GS A0A062V809/3-252 DR GENE3D; 2ff2e359429eea33208d6474134e9a51/3-252; #=GS A0A062V809/3-252 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Candidatus Methanoperedenaceae; Candidatus Methanoperedens; Candidatus Methanoperedens nitroreducens; #=GS A0A062V809/3-252 DR EC; 1.2.7.1; #=GS D5E9N4/10-260 AC D5E9N4 #=GS D5E9N4/10-260 OS Methanohalophilus mahii DSM 5219 #=GS D5E9N4/10-260 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS D5E9N4/10-260 DR GENE3D; 3a1446c17e1e9413ef3c8ab0bbf5efee/10-260; #=GS D5E9N4/10-260 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanohalophilus; Methanohalophilus mahii; #=GS D5E9N4/10-260 DR EC; 1.2.7.1; #=GS A0A101HCF5/2-250 AC A0A101HCF5 #=GS A0A101HCF5/2-250 OS Methanobacterium sp. 42_16 #=GS A0A101HCF5/2-250 DE Pyruvate synthase #=GS A0A101HCF5/2-250 DR GENE3D; 3a29fbce1fcf7c9136b3a658c0985a43/2-250; #=GS A0A101HCF5/2-250 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. 42_16; #=GS A0A101HCF5/2-250 DR EC; 1.2.7.1; #=GS A0A089Z9W1/2-250 AC A0A089Z9W1 #=GS A0A089Z9W1/2-250 OS Methanobacterium formicicum #=GS A0A089Z9W1/2-250 DE Pyruvate ferredoxin oxidoreductase alpha subunit PorA #=GS A0A089Z9W1/2-250 DR GENE3D; 3a29fbce1fcf7c9136b3a658c0985a43/2-250; #=GS A0A089Z9W1/2-250 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium formicicum; #=GS A0A089Z9W1/2-250 DR EC; 1.2.7.1; #=GS P80900/2-250 AC P80900 #=GS P80900/2-250 OS Methanothermobacter marburgensis str. Marburg #=GS P80900/2-250 DE Pyruvate synthase subunit PorA #=GS P80900/2-250 DR GENE3D; 3abd1467d012de4cc8049e79dd7aad60/2-250; #=GS P80900/2-250 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter marburgensis; #=GS P80900/2-250 DR EC; 1.2.7.1; #=GS A0A150IRX2/2-251 AC A0A150IRX2 #=GS A0A150IRX2/2-251 OS Arc I group archaeon U1lsi0528_Bin089 #=GS A0A150IRX2/2-251 DE Ketoisovalerate oxidoreductase subunit VorA #=GS A0A150IRX2/2-251 DR GENE3D; 4111da70911ed436bda58ca19eb46a0c/2-251; #=GS A0A150IRX2/2-251 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon U1lsi0528_Bin089; #=GS A0A150IRX2/2-251 DR EC; 1.2.7.7; #=GS F0T9J2/2-251 AC F0T9J2 #=GS F0T9J2/2-251 OS Methanobacterium lacus #=GS F0T9J2/2-251 DE Pyruvate synthase #=GS F0T9J2/2-251 DR GENE3D; 4a660995c674fd8454cc5d121646b7c9/2-251; #=GS F0T9J2/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium lacus; #=GS F0T9J2/2-251 DR EC; 1.2.7.1; #=GS A0A0E3NI73/8-257 AC A0A0E3NI73 #=GS A0A0E3NI73/8-257 OS Methanosarcina thermophila CHTI-55 #=GS A0A0E3NI73/8-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3NI73/8-257 DR GENE3D; 55c4d46ef685f155f5cca36afe34956c/8-257; #=GS A0A0E3NI73/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina thermophila; #=GS A0A0E3NI73/8-257 DR EC; 1.2.7.1; #=GS A0A1I6ZHX4/8-257 AC A0A1I6ZHX4 #=GS A0A1I6ZHX4/8-257 OS Methanosarcina sp. DSM 11855 #=GS A0A1I6ZHX4/8-257 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS A0A1I6ZHX4/8-257 DR GENE3D; 55c4d46ef685f155f5cca36afe34956c/8-257; #=GS A0A1I6ZHX4/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. DSM 11855; #=GS A0A1I6ZHX4/8-257 DR EC; 1.2.7.1; #=GS A0A0E3NCR5/8-257 AC A0A0E3NCR5 #=GS A0A0E3NCR5/8-257 OS Methanosarcina thermophila TM-1 #=GS A0A0E3NCR5/8-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3NCR5/8-257 DR GENE3D; 55c4d46ef685f155f5cca36afe34956c/8-257; #=GS A0A0E3NCR5/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina thermophila; #=GS A0A0E3NCR5/8-257 DR EC; 1.2.7.1; #=GS A0A0P0J907/8-257 AC A0A0P0J907 #=GS A0A0P0J907/8-257 OS Methanosarcina sp. 795 #=GS A0A0P0J907/8-257 DE Pyruvate ferredoxin oxidoreductase #=GS A0A0P0J907/8-257 DR GENE3D; 55c4d46ef685f155f5cca36afe34956c/8-257; #=GS A0A0P0J907/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. 795; #=GS A0A0P0J907/8-257 DR EC; 1.2.7.1; #=GS F7YW96/4-254 AC F7YW96 #=GS F7YW96/4-254 OS Pseudothermotoga thermarum DSM 5069 #=GS F7YW96/4-254 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS F7YW96/4-254 DR GENE3D; 59c1baf4359231647a17a24aea25609f/4-254; #=GS F7YW96/4-254 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Pseudothermotoga; Pseudothermotoga thermarum; #=GS F7YW96/4-254 DR EC; 1.2.7.1; #=GS A0A0E3PU88/8-258 AC A0A0E3PU88 #=GS A0A0E3PU88/8-258 OS Methanosarcina siciliae C2J #=GS A0A0E3PU88/8-258 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3PU88/8-258 DR GENE3D; 65106d681659cd51068d95ccc8c31567/8-258; #=GS A0A0E3PU88/8-258 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina siciliae; #=GS A0A0E3PU88/8-258 DR EC; 1.2.7.1; #=GS A0A166A5S8/2-251 AC A0A166A5S8 #=GS A0A166A5S8/2-251 OS Methanobrevibacter curvatus #=GS A0A166A5S8/2-251 DE Pyruvate synthase subunit PorA #=GS A0A166A5S8/2-251 DR GENE3D; 673cce81d90ffc329cd4f2251c8f36f1/2-251; #=GS A0A166A5S8/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter curvatus; #=GS A0A166A5S8/2-251 DR EC; 1.2.7.1; #=GS A0A0E3NMQ3/8-258 AC A0A0E3NMQ3 #=GS A0A0E3NMQ3/8-258 OS Methanosarcina sp. WWM596 #=GS A0A0E3NMQ3/8-258 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3NMQ3/8-258 DR GENE3D; 6d39c1ea9018e168a5c807bfed3e82be/8-258; #=GS A0A0E3NMQ3/8-258 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. WWM596; #=GS A0A0E3NMQ3/8-258 DR EC; 1.2.7.1; #=GS A0A0E3NW06/8-258 AC A0A0E3NW06 #=GS A0A0E3NW06/8-258 OS Methanosarcina sp. WH1 #=GS A0A0E3NW06/8-258 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3NW06/8-258 DR GENE3D; 6d39c1ea9018e168a5c807bfed3e82be/8-258; #=GS A0A0E3NW06/8-258 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. WH1; #=GS A0A0E3NW06/8-258 DR EC; 1.2.7.1; #=GS A0A160VS31/3-252 AC A0A160VS31 #=GS A0A160VS31/3-252 OS Thermococcus chitonophagus #=GS A0A160VS31/3-252 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A160VS31/3-252 DR GENE3D; 6d668b47652014a156e0a0264a1c59b1/3-252; #=GS A0A160VS31/3-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus chitonophagus; #=GS A0A160VS31/3-252 DR EC; 1.2.7.1; #=GS Q51804/2-252 AC Q51804 #=GS Q51804/2-252 OS Pyrococcus furiosus DSM 3638 #=GS Q51804/2-252 DE Pyruvate synthase subunit PorA #=GS Q51804/2-252 DR GENE3D; 76240f8260f8dc31e74412387f8e73fb/2-252; #=GS Q51804/2-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus furiosus; #=GS Q51804/2-252 DR EC; 1.2.7.1; #=GS I6UPL5/2-252 AC I6UPL5 #=GS I6UPL5/2-252 OS Pyrococcus furiosus COM1 #=GS I6UPL5/2-252 DE Pyruvate ferredoxin oxidoreductase subunit alpha #=GS I6UPL5/2-252 DR GENE3D; 76240f8260f8dc31e74412387f8e73fb/2-252; #=GS I6UPL5/2-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus furiosus; #=GS I6UPL5/2-252 DR EC; 1.2.7.1; #=GS F6D5W3/2-251 AC F6D5W3 #=GS F6D5W3/2-251 OS Methanobacterium paludis #=GS F6D5W3/2-251 DE Pyruvate synthase #=GS F6D5W3/2-251 DR GENE3D; 7ac65708a88f961c1affc92ff347b94c/2-251; #=GS F6D5W3/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium paludis; #=GS F6D5W3/2-251 DR EC; 1.2.7.1; #=GS A0A0E3SQ32/8-257 AC A0A0E3SQ32 #=GS A0A0E3SQ32/8-257 OS Methanosarcina barkeri 3 #=GS A0A0E3SQ32/8-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3SQ32/8-257 DR GENE3D; 7b20ed2a003c5f3f0773c1d15d7a5eb7/8-257; #=GS A0A0E3SQ32/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3SQ32/8-257 DR EC; 1.2.7.1; #=GS A0A0E3P9I6/8-258 AC A0A0E3P9I6 #=GS A0A0E3P9I6/8-258 OS Methanosarcina siciliae T4/M #=GS A0A0E3P9I6/8-258 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3P9I6/8-258 DR GENE3D; 8524fbdd96675aa65441ad3b3069236e/8-258; #=GS A0A0E3P9I6/8-258 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina siciliae; #=GS A0A0E3P9I6/8-258 DR EC; 1.2.7.1; #=GS A0A150J245/2-251 AC A0A150J245 #=GS A0A150J245/2-251 OS Arc I group archaeon BMIXfssc0709_Meth_Bin006 #=GS A0A150J245/2-251 DE Ketoisovalerate oxidoreductase subunit VorA #=GS A0A150J245/2-251 DR GENE3D; 8608b5720c601dbc07b5354969c41efa/2-251; #=GS A0A150J245/2-251 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon BMIXfssc0709_Meth_Bin006; #=GS A0A150J245/2-251 DR EC; 1.2.7.7; #=GS A0A150ILX2/2-251 AC A0A150ILX2 #=GS A0A150ILX2/2-251 OS Arc I group archaeon B03fssc0709_Meth_Bin005 #=GS A0A150ILX2/2-251 DE Ketoisovalerate oxidoreductase subunit VorA #=GS A0A150ILX2/2-251 DR GENE3D; 8608b5720c601dbc07b5354969c41efa/2-251; #=GS A0A150ILX2/2-251 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon B03fssc0709_Meth_Bin005; #=GS A0A150ILX2/2-251 DR EC; 1.2.7.7; #=GS A0A150IUK5/2-251 AC A0A150IUK5 #=GS A0A150IUK5/2-251 OS Arc I group archaeon B15fssc0709_Meth_Bin003 #=GS A0A150IUK5/2-251 DE Ketoisovalerate oxidoreductase subunit VorA #=GS A0A150IUK5/2-251 DR GENE3D; 8608b5720c601dbc07b5354969c41efa/2-251; #=GS A0A150IUK5/2-251 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon B15fssc0709_Meth_Bin003; #=GS A0A150IUK5/2-251 DR EC; 1.2.7.7; #=GS A0A0E3PI46/8-258 AC A0A0E3PI46 #=GS A0A0E3PI46/8-258 OS Methanosarcina siciliae HI350 #=GS A0A0E3PI46/8-258 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3PI46/8-258 DR GENE3D; 88382abab4d6a7e6a873c31f10f3d11f/8-258; #=GS A0A0E3PI46/8-258 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina siciliae; #=GS A0A0E3PI46/8-258 DR EC; 1.2.7.1; #=GS F8AMT0/1-252 AC F8AMT0 #=GS F8AMT0/1-252 OS Methanothermococcus okinawensis IH1 #=GS F8AMT0/1-252 DE Pyruvate synthase #=GS F8AMT0/1-252 DR GENE3D; 8b5743d0d4f48800eb9613ace4d72029/1-252; #=GS F8AMT0/1-252 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanothermococcus; Methanothermococcus okinawensis; #=GS F8AMT0/1-252 DR EC; 1.2.7.1; #=GS A0A0E3R8C5/8-257 AC A0A0E3R8C5 #=GS A0A0E3R8C5/8-257 OS Methanosarcina barkeri 227 #=GS A0A0E3R8C5/8-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3R8C5/8-257 DR GENE3D; 94279cdbc2ff4841dc59fb78fdc14c38/8-257; #=GS A0A0E3R8C5/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3R8C5/8-257 DR EC; 1.2.7.1; #=GS A0A0E3QZQ9/8-257 AC A0A0E3QZQ9 #=GS A0A0E3QZQ9/8-257 OS Methanosarcina barkeri MS #=GS A0A0E3QZQ9/8-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3QZQ9/8-257 DR GENE3D; 94279cdbc2ff4841dc59fb78fdc14c38/8-257; #=GS A0A0E3QZQ9/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3QZQ9/8-257 DR EC; 1.2.7.1; #=GS A0A1D2WR68/8-257 AC A0A1D2WR68 #=GS A0A1D2WR68/8-257 OS Methanosarcina sp. A14 #=GS A0A1D2WR68/8-257 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1D2WR68/8-257 DR GENE3D; 94279cdbc2ff4841dc59fb78fdc14c38/8-257; #=GS A0A1D2WR68/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. A14; #=GS A0A1D2WR68/8-257 DR EC; 1.2.7.1; #=GS A0A0E3WYR0/10-260 AC A0A0E3WYR0 #=GS A0A0E3WYR0/10-260 OS Methanococcoides methylutens MM1 #=GS A0A0E3WYR0/10-260 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3WYR0/10-260 DR GENE3D; 973d8c98e9de39fffd2b42606c200c1a/10-260; #=GS A0A0E3WYR0/10-260 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanococcoides; Methanococcoides methylutens; #=GS A0A0E3WYR0/10-260 DR EC; 1.2.7.1; #=GS D3E1J0/2-251 AC D3E1J0 #=GS D3E1J0/2-251 OS Methanobrevibacter ruminantium M1 #=GS D3E1J0/2-251 DE Pyruvate ferredoxin oxidoreductase alpha subunit PorA #=GS D3E1J0/2-251 DR GENE3D; 9774d27700548b716b7a883c6ffb4284/2-251; #=GS D3E1J0/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter ruminantium; #=GS D3E1J0/2-251 DR EC; 1.2.7.1; #=GS Q2Y4G6/10-260 AC Q2Y4G6 #=GS Q2Y4G6/10-260 OS uncultured archaeon #=GS Q2Y4G6/10-260 DE Pyruvate synthase, alpha subunit #=GS Q2Y4G6/10-260 DR GENE3D; 97e3cb47ce426be5c56ff700b5bf14d6/10-260; #=GS Q2Y4G6/10-260 DR ORG; Archaea; uncultured archaeon; #=GS Q2Y4G6/10-260 DR EC; 1.2.7.1; #=GS U6EEW1/2-250 AC U6EEW1 #=GS U6EEW1/2-250 OS Methanobacterium sp. MB1 #=GS U6EEW1/2-250 DE Pyruvate synthase subunit PorA #=GS U6EEW1/2-250 DR GENE3D; 9bd3f074ec0a1ef060bcb7d7e86f0d63/2-250; #=GS U6EEW1/2-250 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. MB1; #=GS U6EEW1/2-250 DR EC; 1.2.7.1; #=GS A0A0U3R7Q7/2-252 AC A0A0U3R7Q7 #=GS A0A0U3R7Q7/2-252 OS Thermococcus sp. 2319x1 #=GS A0A0U3R7Q7/2-252 DE 2-Ketoisovalerate oxidoreductase subunit VorA #=GS A0A0U3R7Q7/2-252 DR GENE3D; 9deb18a5f30aced8fec17ce9387d6954/2-252; #=GS A0A0U3R7Q7/2-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sp. 2319x1; #=GS A0A0U3R7Q7/2-252 DR EC; 1.2.7.7; #=GS W8CQR1/3-252 AC W8CQR1 #=GS W8CQR1/3-252 OS Thermococcus guaymasensis #=GS W8CQR1/3-252 DE Pyruvate ferredoxin oxidoreductase subunit alpha #=GS W8CQR1/3-252 DR GENE3D; 9efc2ec797b94a51f7ec9c13e9ead4fe/3-252; #=GS W8CQR1/3-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus guaymasensis; #=GS W8CQR1/3-252 DR EC; 1.2.7.1; #=GS F2KRX2/2-250 AC F2KRX2 #=GS F2KRX2/2-250 OS Archaeoglobus veneficus SNP6 #=GS F2KRX2/2-250 DE Pyruvate synthase #=GS F2KRX2/2-250 DR GENE3D; ac0513fd0fbaba79ce3a31508555bc6d/2-250; #=GS F2KRX2/2-250 DR ORG; Archaea; Euryarchaeota; Archaeoglobi; Archaeoglobales; Archaeoglobaceae; Archaeoglobus; Archaeoglobus veneficus; #=GS F2KRX2/2-250 DR EC; 1.2.7.1; #=GS C6A485/1-252 AC C6A485 #=GS C6A485/1-252 OS Thermococcus sibiricus MM 739 #=GS C6A485/1-252 DE Pyruvate:ferredoxin oxidoreductase (POR), subunit alpha #=GS C6A485/1-252 DR GENE3D; ad164581310e2fe85e4bc82ab6b26036/1-252; #=GS C6A485/1-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sibiricus; #=GS C6A485/1-252 DR EC; 1.2.7.1; #=GS C5A3F2/3-252 AC C5A3F2 #=GS C5A3F2/3-252 OS Thermococcus gammatolerans EJ3 #=GS C5A3F2/3-252 DE Pyruvate synthase subunit porA (Pyruvate oxidoreductase alpha chain) (Pyruvate ferredoxin oxidoreductase) (PorA) #=GS C5A3F2/3-252 DR GENE3D; b15dac348ba30be21205757565bcffb9/3-252; #=GS C5A3F2/3-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus gammatolerans; #=GS C5A3F2/3-252 DR EC; 1.2.7.1; #=GS A0B9N9/15-265 AC A0B9N9 #=GS A0B9N9/15-265 OS Methanosaeta thermophila PT #=GS A0B9N9/15-265 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS A0B9N9/15-265 DR GENE3D; b2b7f6bc58fc0da1485f55d0ed1c9b65/15-265; #=GS A0B9N9/15-265 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosaetaceae; Methanosaeta; Methanosaeta thermophila; #=GS A0B9N9/15-265 DR EC; 1.2.7.1; #=GS A0A1D2WER0/2-251 AC A0A1D2WER0 #=GS A0A1D2WER0/2-251 OS Methanosphaera sp. A6 #=GS A0A1D2WER0/2-251 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1D2WER0/2-251 DR GENE3D; b2f98e3b599b84dcaafa822eabe4c2bb/2-251; #=GS A0A1D2WER0/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanosphaera; Methanosphaera sp. A6; #=GS A0A1D2WER0/2-251 DR EC; 1.2.7.1; #=GS Q2NHW9/2-251 AC Q2NHW9 #=GS Q2NHW9/2-251 OS Methanosphaera stadtmanae DSM 3091 #=GS Q2NHW9/2-251 DE PorA #=GS Q2NHW9/2-251 DR GENE3D; b2f98e3b599b84dcaafa822eabe4c2bb/2-251; #=GS Q2NHW9/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanosphaera; Methanosphaera stadtmanae; #=GS Q2NHW9/2-251 DR EC; 1.2.7.1; #=GS A4FW18/1-252 AC A4FW18 #=GS A4FW18/1-252 OS Methanococcus maripaludis C5 #=GS A4FW18/1-252 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS A4FW18/1-252 DR GENE3D; b564b7c859d8573a7e9cd2c4864bc452/1-252; #=GS A4FW18/1-252 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS A4FW18/1-252 DR EC; 1.2.7.1; #=GS A0A0E3RPE4/7-257 AC A0A0E3RPE4 #=GS A0A0E3RPE4/7-257 OS Methanosarcina mazei S-6 #=GS A0A0E3RPE4/7-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3RPE4/7-257 DR GENE3D; b67ef66a0a9db2668d3e53adf684e835/7-257; #=GS A0A0E3RPE4/7-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0E3RPE4/7-257 DR EC; 1.2.7.1; #=GS A0A0F8EHB5/7-257 AC A0A0F8EHB5 #=GS A0A0F8EHB5/7-257 OS Methanosarcina mazei #=GS A0A0F8EHB5/7-257 DE Pyruvate ferredoxin oxidoreductase #=GS A0A0F8EHB5/7-257 DR GENE3D; b67ef66a0a9db2668d3e53adf684e835/7-257; #=GS A0A0F8EHB5/7-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0F8EHB5/7-257 DR EC; 1.2.7.1; #=GS Q8PX82/7-257 AC Q8PX82 #=GS Q8PX82/7-257 OS Methanosarcina mazei Go1 #=GS Q8PX82/7-257 DE Pyruvate synthase alpha subunit #=GS Q8PX82/7-257 DR GENE3D; b67ef66a0a9db2668d3e53adf684e835/7-257; #=GS Q8PX82/7-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS Q8PX82/7-257 DR EC; 1.2.7.1; #=GS A0A0E3Q257/7-257 AC A0A0E3Q257 #=GS A0A0E3Q257/7-257 OS Methanosarcina mazei WWM610 #=GS A0A0E3Q257/7-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3Q257/7-257 DR GENE3D; b67ef66a0a9db2668d3e53adf684e835/7-257; #=GS A0A0E3Q257/7-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0E3Q257/7-257 DR EC; 1.2.7.1; #=GS A0A0E3S004/7-257 AC A0A0E3S004 #=GS A0A0E3S004/7-257 OS Methanosarcina mazei C16 #=GS A0A0E3S004/7-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3S004/7-257 DR GENE3D; b67ef66a0a9db2668d3e53adf684e835/7-257; #=GS A0A0E3S004/7-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0E3S004/7-257 DR EC; 1.2.7.1; #=GS A0A0E3RBK7/7-257 AC A0A0E3RBK7 #=GS A0A0E3RBK7/7-257 OS Methanosarcina mazei SarPi #=GS A0A0E3RBK7/7-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3RBK7/7-257 DR GENE3D; b67ef66a0a9db2668d3e53adf684e835/7-257; #=GS A0A0E3RBK7/7-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0E3RBK7/7-257 DR EC; 1.2.7.1; #=GS A0A0E3RQR1/7-257 AC A0A0E3RQR1 #=GS A0A0E3RQR1/7-257 OS Methanosarcina mazei LYC #=GS A0A0E3RQR1/7-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3RQR1/7-257 DR GENE3D; b67ef66a0a9db2668d3e53adf684e835/7-257; #=GS A0A0E3RQR1/7-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS A0A0E3RQR1/7-257 DR EC; 1.2.7.1; #=GS M1Q3A8/7-257 AC M1Q3A8 #=GS M1Q3A8/7-257 OS Methanosarcina mazei Tuc01 #=GS M1Q3A8/7-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS M1Q3A8/7-257 DR GENE3D; b67ef66a0a9db2668d3e53adf684e835/7-257; #=GS M1Q3A8/7-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS M1Q3A8/7-257 DR EC; 1.2.7.1; #=GS A0A166CMI6/2-250 AC A0A166CMI6 #=GS A0A166CMI6/2-250 OS Methanobrevibacter cuticularis #=GS A0A166CMI6/2-250 DE Pyruvate synthase subunit PorA #=GS A0A166CMI6/2-250 DR GENE3D; b800ded2bb7d471b8e449913286c54f3/2-250; #=GS A0A166CMI6/2-250 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter cuticularis; #=GS A0A166CMI6/2-250 DR EC; 1.2.7.1; #=GS A0A0E3QQL5/8-257 AC A0A0E3QQL5 #=GS A0A0E3QQL5/8-257 OS Methanosarcina barkeri str. Wiesmoor #=GS A0A0E3QQL5/8-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3QQL5/8-257 DR GENE3D; b9b427aaeea7e01f867657c5db55a061/8-257; #=GS A0A0E3QQL5/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3QQL5/8-257 DR EC; 1.2.7.1; #=GS P80521/8-257 AC P80521 #=GS P80521/8-257 OS Methanosarcina barkeri str. Fusaro #=GS P80521/8-257 DE Pyruvate synthase subunit PorA #=GS P80521/8-257 DR GENE3D; b9b427aaeea7e01f867657c5db55a061/8-257; #=GS P80521/8-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS P80521/8-257 DR EC; 1.2.7.1; #=GS G0HLX6/2-252 AC G0HLX6 #=GS G0HLX6/2-252 OS Thermococcus sp. 4557 #=GS G0HLX6/2-252 DE Pyruvate ferredoxin oxidoreductase subunit alpha #=GS G0HLX6/2-252 DR GENE3D; bd9d95b3b3b7a493f736955184f2fff5/2-252; #=GS G0HLX6/2-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sp. 4557; #=GS G0HLX6/2-252 DR EC; 1.2.7.1; #=GS W8CQ03/2-250 AC W8CQ03 #=GS W8CQ03/2-250 OS Thermococcus guaymasensis #=GS W8CQ03/2-250 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS W8CQ03/2-250 DR GENE3D; bff414e6344bf662d70c862378905424/2-250; #=GS W8CQ03/2-250 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus guaymasensis; #=GS W8CQ03/2-250 DR EC; 1.2.7.7; #=GS A0A150JJX7/2-251 AC A0A150JJX7 #=GS A0A150JJX7/2-251 OS Arc I group archaeon ADurb1113_Bin01801 #=GS A0A150JJX7/2-251 DE Ketoisovalerate oxidoreductase subunit VorA #=GS A0A150JJX7/2-251 DR GENE3D; c31417bbaa01a0a25f1c95096be02c45/2-251; #=GS A0A150JJX7/2-251 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon ADurb1113_Bin01801; #=GS A0A150JJX7/2-251 DR EC; 1.2.7.7; #=GS A0A150JEJ0/2-251 AC A0A150JEJ0 #=GS A0A150JEJ0/2-251 OS Arc I group archaeon ADurb1013_Bin02101 #=GS A0A150JEJ0/2-251 DE Ketoisovalerate oxidoreductase subunit VorA #=GS A0A150JEJ0/2-251 DR GENE3D; c31417bbaa01a0a25f1c95096be02c45/2-251; #=GS A0A150JEJ0/2-251 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Arc I group archaeon ADurb1013_Bin02101; #=GS A0A150JEJ0/2-251 DR EC; 1.2.7.7; #=GS A0A0E3SAW4/8-258 AC A0A0E3SAW4 #=GS A0A0E3SAW4/8-258 OS Methanosarcina lacustris Z-7289 #=GS A0A0E3SAW4/8-258 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3SAW4/8-258 DR GENE3D; cb1fb38cc1a29d3e368b52536096bdae/8-258; #=GS A0A0E3SAW4/8-258 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina lacustris; #=GS A0A0E3SAW4/8-258 DR EC; 1.2.7.1; #=GS E3GXN3/1-248 AC E3GXN3 #=GS E3GXN3/1-248 OS Methanothermus fervidus DSM 2088 #=GS E3GXN3/1-248 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS E3GXN3/1-248 DR GENE3D; cdcdb45e73468a9ba88cd55c947a3d5e/1-248; #=GS E3GXN3/1-248 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanothermaceae; Methanothermus; Methanothermus fervidus; #=GS E3GXN3/1-248 DR EC; 1.2.7.1; #=GS A0A162FKQ3/2-251 AC A0A162FKQ3 #=GS A0A162FKQ3/2-251 OS Methanobrevibacter oralis #=GS A0A162FKQ3/2-251 DE Pyruvate synthase subunit PorA #=GS A0A162FKQ3/2-251 DR GENE3D; d4650766aa6ffbb9deeab9bb9ee78a3f/2-251; #=GS A0A162FKQ3/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter oralis; #=GS A0A162FKQ3/2-251 DR EC; 1.2.7.1; #=GS A0A165Z0Y4/1-249 AC A0A165Z0Y4 #=GS A0A165Z0Y4/1-249 OS Methanobrevibacter filiformis #=GS A0A165Z0Y4/1-249 DE Pyruvate synthase subunit PorA #=GS A0A165Z0Y4/1-249 DR GENE3D; dfb44d776defb4fd2e6b6c622a3f524c/1-249; #=GS A0A165Z0Y4/1-249 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter filiformis; #=GS A0A165Z0Y4/1-249 DR EC; 1.2.7.1; #=GS C5A3F5/7-254 AC C5A3F5 #=GS C5A3F5/7-254 OS Thermococcus gammatolerans EJ3 #=GS C5A3F5/7-254 DE Ketoisovalerate oxidoreductase subunit vorA (VorA) #=GS C5A3F5/7-254 DR GENE3D; e37de85b97f5fda770cb211e4bcaf420/7-254; #=GS C5A3F5/7-254 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus gammatolerans; #=GS C5A3F5/7-254 DR EC; 1.2.7.7; #=GS B9AGM3/2-251 AC B9AGM3 #=GS B9AGM3/2-251 OS Methanobrevibacter smithii DSM 2375 #=GS B9AGM3/2-251 DE Pyruvate flavodoxin/ferredoxin oxidoreductase, thiamine diP-binding domain protein #=GS B9AGM3/2-251 DR GENE3D; e68e37ad253b427bb6bfba8004ff3ee8/2-251; #=GS B9AGM3/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter smithii; #=GS B9AGM3/2-251 DR EC; 1.2.7.1; #=GS A0A1D2WRJ0/2-251 AC A0A1D2WRJ0 #=GS A0A1D2WRJ0/2-251 OS Methanobrevibacter sp. A54 #=GS A0A1D2WRJ0/2-251 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1D2WRJ0/2-251 DR GENE3D; e68e37ad253b427bb6bfba8004ff3ee8/2-251; #=GS A0A1D2WRJ0/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter sp. A54; #=GS A0A1D2WRJ0/2-251 DR EC; 1.2.7.1; #=GS A0A1M4MQ70/2-250 AC A0A1M4MQ70 #=GS A0A1M4MQ70/2-250 OS Methanothermobacter wolfeii #=GS A0A1M4MQ70/2-250 DE Pyruvate synthase subunit PorA #=GS A0A1M4MQ70/2-250 DR GENE3D; e79ce0e5a94aeddb6aa8c4795056bae4/2-250; #=GS A0A1M4MQ70/2-250 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter wolfeii; #=GS A0A1M4MQ70/2-250 DR EC; 1.2.7.1; #=GS A0A0E3SJR0/7-257 AC A0A0E3SJR0 #=GS A0A0E3SJR0/7-257 OS Methanosarcina horonobensis HB-1 = JCM 15518 #=GS A0A0E3SJR0/7-257 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS A0A0E3SJR0/7-257 DR GENE3D; e856dd60cb1bae2e63ea295aa8d1e2cd/7-257; #=GS A0A0E3SJR0/7-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina horonobensis; #=GS A0A0E3SJR0/7-257 DR EC; 1.2.7.1; #=GS H9UCP6/3-252 AC H9UCP6 #=GS H9UCP6/3-252 OS Fervidobacterium pennivorans DSM 9078 #=GS H9UCP6/3-252 DE 2-oxoacid:ferredoxin oxidoreductase, alpha subunit #=GS H9UCP6/3-252 DR GENE3D; eed5f53aeda9359120a4cfa5185493fc/3-252; #=GS H9UCP6/3-252 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Fervidobacteriaceae; Fervidobacterium; Fervidobacterium pennivorans; #=GS H9UCP6/3-252 DR EC; 1.2.7.1; #=GS A0A0A6N4P4/5-254 AC A0A0A6N4P4 #=GS A0A0A6N4P4/5-254 OS Thermotoga sp. Mc24 #=GS A0A0A6N4P4/5-254 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS A0A0A6N4P4/5-254 DR GENE3D; ef2871564f94aa3b0df62143a15a1cad/5-254; #=GS A0A0A6N4P4/5-254 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga sp. Mc24; #=GS A0A0A6N4P4/5-254 DR EC; 1.2.7.1; #=GS D2C708/5-254 AC D2C708 #=GS D2C708/5-254 OS Thermotoga naphthophila RKU-10 #=GS D2C708/5-254 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS D2C708/5-254 DR GENE3D; ef2871564f94aa3b0df62143a15a1cad/5-254; #=GS D2C708/5-254 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga naphthophila; #=GS D2C708/5-254 DR EC; 1.2.7.1; #=GS A5IL51/5-254 AC A5IL51 #=GS A5IL51/5-254 OS Thermotoga petrophila RKU-1 #=GS A5IL51/5-254 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS A5IL51/5-254 DR GENE3D; ef2871564f94aa3b0df62143a15a1cad/5-254; #=GS A5IL51/5-254 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga petrophila; #=GS A5IL51/5-254 DR EC; 1.2.7.1; #=GS A0A0F6AL76/5-254 AC A0A0F6AL76 #=GS A0A0F6AL76/5-254 OS Thermotoga sp. RQ2 #=GS A0A0F6AL76/5-254 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS A0A0F6AL76/5-254 DR GENE3D; ef2871564f94aa3b0df62143a15a1cad/5-254; #=GS A0A0F6AL76/5-254 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga sp. RQ2; #=GS A0A0F6AL76/5-254 DR EC; 1.2.7.1; #=GS A0A1D3L4E4/2-251 AC A0A1D3L4E4 #=GS A0A1D3L4E4/2-251 OS Methanobacterium congolense #=GS A0A1D3L4E4/2-251 DE Pyruvate synthase subunit PorA #=GS A0A1D3L4E4/2-251 DR GENE3D; f569e3867320a432f48c6cbc800fcada/2-251; #=GS A0A1D3L4E4/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium congolense; #=GS A0A1D3L4E4/2-251 DR EC; 1.2.7.1; #=GS V9NHA1/4-254 AC V9NHA1 #=GS V9NHA1/4-254 OS Pseudothermotoga hypogea #=GS V9NHA1/4-254 DE Pyruvate ferredoxin oxidoreductase subunit alpha #=GS V9NHA1/4-254 DR GENE3D; f65739a8d400ab0d010fced0e33d5a48/4-254; #=GS V9NHA1/4-254 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Pseudothermotoga; Pseudothermotoga hypogea; #=GS V9NHA1/4-254 DR EC; 1.2.7.1; #=GS A0A0X1KQ45/4-254 AC A0A0X1KQ45 #=GS A0A0X1KQ45/4-254 OS Pseudothermotoga hypogea DSM 11164 = NBRC 106472 #=GS A0A0X1KQ45/4-254 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS A0A0X1KQ45/4-254 DR GENE3D; f65739a8d400ab0d010fced0e33d5a48/4-254; #=GS A0A0X1KQ45/4-254 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Pseudothermotoga; Pseudothermotoga hypogea; #=GS A0A0X1KQ45/4-254 DR EC; 1.2.7.1; #=GS Q12U49/10-260 AC Q12U49 #=GS Q12U49/10-260 OS Methanococcoides burtonii DSM 6242 #=GS Q12U49/10-260 DE Pyruvate synthase subunit porA #=GS Q12U49/10-260 DR GENE3D; f799aade6175cdfcf32cb0f5e1cca43f/10-260; #=GS Q12U49/10-260 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanococcoides; Methanococcoides burtonii; #=GS Q12U49/10-260 DR EC; 1.2.7.1; #=GS C6A488/2-252 AC C6A488 #=GS C6A488/2-252 OS Thermococcus sibiricus MM 739 #=GS C6A488/2-252 DE 2-ketoisovalerate:ferredoxin oxidoreductase (VOR) subunit alpha #=GS C6A488/2-252 DR GENE3D; fb2212929ec9073e49d14091947212bd/2-252; #=GS C6A488/2-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sibiricus; #=GS C6A488/2-252 DR EC; 1.2.7.1; #=GS F4A245/2-252 AC F4A245 #=GS F4A245/2-252 OS Mahella australiensis 50-1 BON #=GS F4A245/2-252 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS F4A245/2-252 DR GENE3D; fc410467037a5be0689d49f890c41f6a/2-252; #=GS F4A245/2-252 DR ORG; Bacteria; Firmicutes; Clostridia; Thermoanaerobacterales; Thermoanaerobacterales Family IV. Incertae Sedis; Mahella; Mahella australiensis; #=GS F4A245/2-252 DR EC; 1.2.7.1; #=GS K2RT08/2-250 AC K2RT08 #=GS K2RT08/2-250 OS Methanobacterium formicicum DSM 3637 #=GS K2RT08/2-250 DE Pyruvate synthase #=GS K2RT08/2-250 DR GENE3D; 1c55a62fa3858f1ce054d264357a9817/2-250; #=GS K2RT08/2-250 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium formicicum; #=GS Q5JIK0/6-254 AC Q5JIK0 #=GS Q5JIK0/6-254 OS Thermococcus kodakarensis KOD1 #=GS Q5JIK0/6-254 DE 2-oxoisovalerate:ferredoxin oxidoreductase, alpha subunit #=GS Q5JIK0/6-254 DR GENE3D; 34408d52dfd761f18d1dc3fcd4b79612/6-254; #=GS Q5JIK0/6-254 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus kodakarensis; #=GS Q8TUN4/8-258 AC Q8TUN4 #=GS Q8TUN4/8-258 OS Methanosarcina acetivorans C2A #=GS Q8TUN4/8-258 DE Pyruvate synthase, subunit alpha #=GS Q8TUN4/8-258 DR GENE3D; 95cf60f3c211939e8940ed6af91c4d24/8-258; #=GS Q8TUN4/8-258 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina acetivorans; #=GS Q8TZ57/1-252 AC Q8TZ57 #=GS Q8TZ57/1-252 OS Methanopyrus kandleri AV19 #=GS Q8TZ57/1-252 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS Q8TZ57/1-252 DR GENE3D; a802feea979db28ba2e40d5bbca1c22a/1-252; #=GS Q8TZ57/1-252 DR ORG; Archaea; Euryarchaeota; Methanopyri; Methanopyrales; Methanopyraceae; Methanopyrus; Methanopyrus kandleri; #=GS Q5JIJ7/3-252 AC Q5JIJ7 #=GS Q5JIJ7/3-252 OS Thermococcus kodakarensis KOD1 #=GS Q5JIJ7/3-252 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS Q5JIJ7/3-252 DR GENE3D; caef679720d75d4ff35bb694ef88d984/3-252; #=GS Q5JIJ7/3-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus kodakarensis; #=GS A0A075LT26/1-251 AC A0A075LT26 #=GS A0A075LT26/1-251 OS Palaeococcus pacificus DY20341 #=GS A0A075LT26/1-251 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS A0A075LT26/1-251 DR GENE3D; 00da1fffeffc27b81ef020b0cb983040/1-251; #=GS A0A075LT26/1-251 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Palaeococcus; Palaeococcus pacificus; #=GS A0A096CWH8/2-253 AC A0A096CWH8 #=GS A0A096CWH8/2-253 OS Caloranaerobacter azorensis H53214 #=GS A0A096CWH8/2-253 DE Pyruvate ferredoxin oxidoreductase #=GS A0A096CWH8/2-253 DR GENE3D; 034696af1417daf073c4a6b6fba30ebc/2-253; #=GS A0A096CWH8/2-253 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Caloranaerobacter; Caloranaerobacter azorensis; #=GS A0A147JRX7/1-247 AC A0A147JRX7 #=GS A0A147JRX7/1-247 OS Hadesarchaea archaeon DG-33 #=GS A0A147JRX7/1-247 DE Pyruvate ferredoxin oxidoreductase #=GS A0A147JRX7/1-247 DR GENE3D; 043a18ccadf30d7ab8926a6cbffbfaa6/1-247; #=GS A0A147JRX7/1-247 DR ORG; Archaea; Euryarchaeota; Hadesarchaea; Hadesarchaea archaeon DG-33; #=GS A8F845/4-253 AC A8F845 #=GS A8F845/4-253 OS Pseudothermotoga lettingae TMO #=GS A8F845/4-253 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS A8F845/4-253 DR GENE3D; 0763f55efb51914f1bd0698250c966b5/4-253; #=GS A8F845/4-253 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Pseudothermotoga; Pseudothermotoga lettingae; #=GS A0A1F9IYZ2/8-257 AC A0A1F9IYZ2 #=GS A0A1F9IYZ2/8-257 OS Deltaproteobacteria bacterium RIFCSPLOWO2_12_FULL_43_16 #=GS A0A1F9IYZ2/8-257 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1F9IYZ2/8-257 DR GENE3D; 07bf6207021fe683f064b925ee4cfc20/8-257; #=GS A0A1F9IYZ2/8-257 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium RIFCSPLOWO2_12_FULL_43_16; #=GS A0A0P8VS92/2-253 AC A0A0P8VS92 #=GS A0A0P8VS92/2-253 OS Caloranaerobacter sp. TR13 #=GS A0A0P8VS92/2-253 DE Pyruvate ferredoxin oxidoreductase #=GS A0A0P8VS92/2-253 DR GENE3D; 082690f371c23bac84954cb752188b06/2-253; #=GS A0A0P8VS92/2-253 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Caloranaerobacter; Caloranaerobacter sp. TR13; #=GS J1L346/1-249 AC J1L346 #=GS J1L346/1-249 OS Methanofollis liminatans DSM 4140 #=GS J1L346/1-249 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS J1L346/1-249 DR GENE3D; 09d91861a0027206823d81f7b992c449/1-249; #=GS J1L346/1-249 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanofollis; Methanofollis liminatans; #=GS G7WRA8/1-249 AC G7WRA8 #=GS G7WRA8/1-249 OS Methanosaeta harundinacea 6Ac #=GS G7WRA8/1-249 DE Pyruvate:ferredoxin oxidoreductase subunit A #=GS G7WRA8/1-249 DR GENE3D; 0a96314c3dc13b02a95a9cc2386b2f36/1-249; #=GS G7WRA8/1-249 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosaetaceae; Methanosaeta; Methanosaeta harundinacea; #=GS E5KJZ0/1-249 AC E5KJZ0 #=GS E5KJZ0/1-249 OS Methanosaeta harundinacea #=GS E5KJZ0/1-249 DE Pyruvate:ferredoxin oxidoreductase subunit A #=GS E5KJZ0/1-249 DR GENE3D; 0a96314c3dc13b02a95a9cc2386b2f36/1-249; #=GS E5KJZ0/1-249 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosaetaceae; Methanosaeta; Methanosaeta harundinacea; #=GS A0A1D2X2L1/2-251 AC A0A1D2X2L1 #=GS A0A1D2X2L1/2-251 OS Methanosphaera sp. WGK6 #=GS A0A1D2X2L1/2-251 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1D2X2L1/2-251 DR GENE3D; 0b920e7da949efb76c264b76dd85b24f/2-251; #=GS A0A1D2X2L1/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanosphaera; Methanosphaera sp. WGK6; #=GS A0A172WGL3/6-254 AC A0A172WGL3 #=GS A0A172WGL3/6-254 OS Thermococcus piezophilus #=GS A0A172WGL3/6-254 DE Pyruvate ferredoxin oxidoreductase #=GS A0A172WGL3/6-254 DR GENE3D; 0c16d56a62fee2f584493dc2bf43b2c2/6-254; #=GS A0A172WGL3/6-254 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus piezophilus; #=GS A0A172WGR1/2-252 AC A0A172WGR1 #=GS A0A172WGR1/2-252 OS Thermococcus piezophilus #=GS A0A172WGR1/2-252 DE Pyruvate ferredoxin oxidoreductase #=GS A0A172WGR1/2-252 DR GENE3D; 10ffb7cc6ab00b9784d823cefc664bf2/2-252; #=GS A0A172WGR1/2-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus piezophilus; #=GS D7EBF1/10-260 AC D7EBF1 #=GS D7EBF1/10-260 OS Methanohalobium evestigatum Z-7303 #=GS D7EBF1/10-260 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS D7EBF1/10-260 DR GENE3D; 11aa7052aaef6af3e102c2edcfd3b6dd/10-260; #=GS D7EBF1/10-260 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanohalobium; Methanohalobium evestigatum; #=GS A0A1F9HLT6/7-257 AC A0A1F9HLT6 #=GS A0A1F9HLT6/7-257 OS Deltaproteobacteria bacterium RIFCSPLOWO2_02_44_9 #=GS A0A1F9HLT6/7-257 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1F9HLT6/7-257 DR GENE3D; 11e2bcf0922e9423e4c85415de7e2357/7-257; #=GS A0A1F9HLT6/7-257 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium RIFCSPLOWO2_02_44_9; #=GS I3REJ5/6-253 AC I3REJ5 #=GS I3REJ5/6-253 OS Pyrococcus sp. ST04 #=GS I3REJ5/6-253 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS I3REJ5/6-253 DR GENE3D; 11f9784f4c904d13f5290552f8dcfcd4/6-253; #=GS I3REJ5/6-253 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus sp. ST04; #=GS A7I630/1-249 AC A7I630 #=GS A7I630/1-249 OS Methanoregula boonei 6A8 #=GS A7I630/1-249 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS A7I630/1-249 DR GENE3D; 13883eb1e68f5444f77bcac8b0196603/1-249; #=GS A7I630/1-249 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanoregula; Methanoregula boonei; #=GS A0A1D2QX46/1-248 AC A0A1D2QX46 #=GS A0A1D2QX46/1-248 OS Candidatus Altiarchaeales archaeon WOR_SM1_SCG #=GS A0A1D2QX46/1-248 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1D2QX46/1-248 DR GENE3D; 19131bc98dae7fa7203a3724cb5c4b58/1-248; #=GS A0A1D2QX46/1-248 DR ORG; Archaea; Euryarchaeota; Candidatus Altiarchaeales; Candidatus Altiarchaeales archaeon WOR_SM1_SCG; #=GS A0A1F2P4V0/1-248 AC A0A1F2P4V0 #=GS A0A1F2P4V0/1-248 OS Candidatus Syntrophoarchaeum butanivorans #=GS A0A1F2P4V0/1-248 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS A0A1F2P4V0/1-248 DR GENE3D; 21845371e2b428164c5ebe9e1a410bbb/1-248; #=GS A0A1F2P4V0/1-248 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Candidatus Syntrophoarchaeum; Candidatus Syntrophoarchaeum butanivorans; #=GS A0A1J5JAH8/1-249 AC A0A1J5JAH8 #=GS A0A1J5JAH8/1-249 OS Candidatus Altiarchaeum sp. CG2_30_32_3053 #=GS A0A1J5JAH8/1-249 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1J5JAH8/1-249 DR GENE3D; 2621846195988fff2a228aec2c52a7b8/1-249; #=GS A0A1J5JAH8/1-249 DR ORG; Archaea; Euryarchaeota; Candidatus Altiarchaeales; Candidatus Altiarchaeum; Candidatus Altiarchaeum sp. CG2_30_32_3053; #=GS A0A147JV99/14-261 AC A0A147JV99 #=GS A0A147JV99/14-261 OS Hadesarchaea archaeon YNP_45 #=GS A0A147JV99/14-261 DE Pyruvate ferredoxin oxidoreductase #=GS A0A147JV99/14-261 DR GENE3D; 304e40b0d417467a14196b03f6e60a46/14-261; #=GS A0A147JV99/14-261 DR ORG; Archaea; Euryarchaeota; Hadesarchaea; Hadesarchaea archaeon YNP_45; #=GS A0A075LSK6/1-252 AC A0A075LSK6 #=GS A0A075LSK6/1-252 OS Palaeococcus pacificus DY20341 #=GS A0A075LSK6/1-252 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS A0A075LSK6/1-252 DR GENE3D; 3139c80cd5c0d536b134ce00765e8748/1-252; #=GS A0A075LSK6/1-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Palaeococcus; Palaeococcus pacificus; #=GS A0A0P8A6Y2/3-252 AC A0A0P8A6Y2 #=GS A0A0P8A6Y2/3-252 OS Candidatus Methanoperedens sp. BLZ1 #=GS A0A0P8A6Y2/3-252 DE Pyruvate synthase, subunit alpha #=GS A0A0P8A6Y2/3-252 DR GENE3D; 32cc4357bc3ec6f15e3c37d89a2cfe20/3-252; #=GS A0A0P8A6Y2/3-252 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Candidatus Methanoperedenaceae; Candidatus Methanoperedens; Candidatus Methanoperedens sp. BLZ1; #=GS A0A1F2PC22/1-248 AC A0A1F2PC22 #=GS A0A1F2PC22/1-248 OS Candidatus Syntrophoarchaeum caldarius #=GS A0A1F2PC22/1-248 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1F2PC22/1-248 DR GENE3D; 377d391c17adc474f9d8cdd23e32660d/1-248; #=GS A0A1F2PC22/1-248 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Candidatus Syntrophoarchaeum; Candidatus Syntrophoarchaeum caldarius; #=GS A0A101FA94/7-256 AC A0A101FA94 #=GS A0A101FA94/7-256 OS Thermotoga sp. 47_83 #=GS A0A101FA94/7-256 DE Pyruvate synthase subunit PorA #=GS A0A101FA94/7-256 DR GENE3D; 37a6cad1f0ebcaf35803513518199f46/7-256; #=GS A0A101FA94/7-256 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga sp. 47_83; #=GS A0A101EQD9/7-256 AC A0A101EQD9 #=GS A0A101EQD9/7-256 OS Thermotoga naphthophila #=GS A0A101EQD9/7-256 DE Pyruvate synthase subunit PorA #=GS A0A101EQD9/7-256 DR GENE3D; 37a6cad1f0ebcaf35803513518199f46/7-256; #=GS A0A101EQD9/7-256 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga naphthophila; #=GS A0A0P9FUF0/1-250 AC A0A0P9FUF0 #=GS A0A0P9FUF0/1-250 OS Candidatus Bathyarchaeota archaeon BA1 #=GS A0A0P9FUF0/1-250 DE Pyruvate synthase subunit PorA #=GS A0A0P9FUF0/1-250 DR GENE3D; 3dea0028f993075305d338c84535a4e0/1-250; #=GS A0A0P9FUF0/1-250 DR ORG; Archaea; Candidatus Bathyarchaeota; Candidatus Bathyarchaeota archaeon BA1; #=GS A0A117LFH4/1-249 AC A0A117LFH4 #=GS A0A117LFH4/1-249 OS Methanosaeta harundinacea #=GS A0A117LFH4/1-249 DE Pyruvate:ferredoxin oxidoreductase subunit A #=GS A0A117LFH4/1-249 DR GENE3D; 3fd83540e78db528eb8a5ea4d238185f/1-249; #=GS A0A117LFH4/1-249 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosaetaceae; Methanosaeta; Methanosaeta harundinacea; #=GS A6LJW1/5-255 AC A6LJW1 #=GS A6LJW1/5-255 OS Thermosipho melanesiensis BI429 #=GS A6LJW1/5-255 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS A6LJW1/5-255 DR GENE3D; 40bccd2dbc3f5628aff58d1b8f704510/5-255; #=GS A6LJW1/5-255 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Fervidobacteriaceae; Thermosipho; Thermosipho melanesiensis; #=GS A0A1L7BIH7/5-255 AC A0A1L7BIH7 #=GS A0A1L7BIH7/5-255 OS Thermosipho melanesiensis #=GS A0A1L7BIH7/5-255 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1L7BIH7/5-255 DR GENE3D; 40bccd2dbc3f5628aff58d1b8f704510/5-255; #=GS A0A1L7BIH7/5-255 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Fervidobacteriaceae; Thermosipho; Thermosipho melanesiensis; #=GS A7HLD3/3-252 AC A7HLD3 #=GS A7HLD3/3-252 OS Fervidobacterium nodosum Rt17-B1 #=GS A7HLD3/3-252 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS A7HLD3/3-252 DR GENE3D; 41c68ee25af99e31a8b91a65459037ea/3-252; #=GS A7HLD3/3-252 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Fervidobacteriaceae; Fervidobacterium; Fervidobacterium nodosum; #=GS A0A1L7BE76/5-255 AC A0A1L7BE76 #=GS A0A1L7BE76/5-255 OS Thermosipho sp. 1063 #=GS A0A1L7BE76/5-255 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1L7BE76/5-255 DR GENE3D; 48d194c5aedb3341cf2e86e6bcbb4374/5-255; #=GS A0A1L7BE76/5-255 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Fervidobacteriaceae; Thermosipho; Thermosipho sp. 1063; #=GS A0A1L2EIP1/5-255 AC A0A1L2EIP1 #=GS A0A1L2EIP1/5-255 OS Thermosipho sp. 1070 #=GS A0A1L2EIP1/5-255 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS A0A1L2EIP1/5-255 DR GENE3D; 48d194c5aedb3341cf2e86e6bcbb4374/5-255; #=GS A0A1L2EIP1/5-255 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Fervidobacteriaceae; Thermosipho; Thermosipho sp. 1070; #=GS L0KYP3/10-260 AC L0KYP3 #=GS L0KYP3/10-260 OS Methanomethylovorans hollandica DSM 15978 #=GS L0KYP3/10-260 DE 2-oxoacid:ferredoxin oxidoreductase, alpha subunit #=GS L0KYP3/10-260 DR GENE3D; 54f391070af650ac396f8c9ae75a940a/10-260; #=GS L0KYP3/10-260 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanomethylovorans; Methanomethylovorans hollandica; #=GS B6YY05/6-254 AC B6YY05 #=GS B6YY05/6-254 OS Thermococcus onnurineus NA1 #=GS B6YY05/6-254 DE 2-oxoisovalerate:ferredoxin oxidoreductase, alpha subunit #=GS B6YY05/6-254 DR GENE3D; 5b732b86c400e655a94e247589164a3d/6-254; #=GS B6YY05/6-254 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus onnurineus; #=GS A0A1G1PMA7/3-253 AC A0A1G1PMA7 #=GS A0A1G1PMA7/3-253 OS Omnitrophica WOR_2 bacterium RIFCSPLOWO2_12_FULL_51_24 #=GS A0A1G1PMA7/3-253 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1G1PMA7/3-253 DR GENE3D; 5c8af478fa4222e812f70e96f9ad4930/3-253; #=GS A0A1G1PMA7/3-253 DR ORG; Bacteria; Candidatus Omnitrophica; Omnitrophica WOR_2 bacterium RIFCSPLOWO2_12_FULL_51_24; #=GS A0A1F8YBT0/9-259 AC A0A1F8YBT0 #=GS A0A1F8YBT0/9-259 OS Deltaproteobacteria bacterium GWC2_42_11 #=GS A0A1F8YBT0/9-259 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1F8YBT0/9-259 DR GENE3D; 5df4411eae0deb8fbc3c56443809172c/9-259; #=GS A0A1F8YBT0/9-259 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium GWC2_42_11; #=GS B5ICZ2/1-250 AC B5ICZ2 #=GS B5ICZ2/1-250 OS Aciduliprofundum boonei T469 #=GS B5ICZ2/1-250 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS B5ICZ2/1-250 DR GENE3D; 5e9b3685d4881b661a363e928aefaf65/1-250; #=GS B5ICZ2/1-250 DR ORG; Archaea; Euryarchaeota; Aciduliprofundum; Aciduliprofundum boonei; #=GS F0LIS8/1-252 AC F0LIS8 #=GS F0LIS8/1-252 OS Thermococcus barophilus MP #=GS F0LIS8/1-252 DE Pyruvate:ferredoxin oxidoreductase alpha subunit #=GS F0LIS8/1-252 DR GENE3D; 5f3598ddbe23e77a8eaabbfcc406bb06/1-252; #=GS F0LIS8/1-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus barophilus; #=GS G3BMP0/4-253 AC G3BMP0 #=GS G3BMP0/4-253 OS uncultured candidate division JS1 bacterium #=GS G3BMP0/4-253 DE Putative uncharacterized protein #=GS G3BMP0/4-253 DR GENE3D; 5fd6f6758ca2c47134b7038a89c353a3/4-253; #=GS G3BMP0/4-253 DR ORG; Bacteria; Candidatus Atribacteria; uncultured candidate division JS1 bacterium; #=GS L0HNL6/1-250 AC L0HNL6 #=GS L0HNL6/1-250 OS Aciduliprofundum sp. MAR08-339 #=GS L0HNL6/1-250 DE 2-oxoacid:ferredoxin oxidoreductase, alpha subunit #=GS L0HNL6/1-250 DR GENE3D; 635ef202aef43ba2d4ce0fd078e3d7b1/1-250; #=GS L0HNL6/1-250 DR ORG; Archaea; Euryarchaeota; Aciduliprofundum; Aciduliprofundum sp. MAR08-339; #=GS A0A139CRU9/9-259 AC A0A139CRU9 #=GS A0A139CRU9/9-259 OS Methanolobus sp. T82-4 #=GS A0A139CRU9/9-259 DE Pyruvate synthase, alpha subunit #=GS A0A139CRU9/9-259 DR GENE3D; 641d35caa77bce892483cbb34e8df86d/9-259; #=GS A0A139CRU9/9-259 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanolobus; Methanolobus sp. T82-4; #=GS H0PU81/18-275 AC H0PU81 #=GS H0PU81/18-275 OS Azoarcus sp. KH32C #=GS H0PU81/18-275 DE Phenylglyoxylate acceptor oxidoreductase #=GS H0PU81/18-275 DR GENE3D; 647a430da070aaff4dbf264a8424a0b1/18-275; #=GS H0PU81/18-275 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Azoarcus; Azoarcus sp. KH32C; #=GS B5IDN9/1-250 AC B5IDN9 #=GS B5IDN9/1-250 OS Aciduliprofundum boonei T469 #=GS B5IDN9/1-250 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS B5IDN9/1-250 DR GENE3D; 665f3e7bfa445b6548f3bcff12dc2722/1-250; #=GS B5IDN9/1-250 DR ORG; Archaea; Euryarchaeota; Aciduliprofundum; Aciduliprofundum boonei; #=GS A0A101EW11/4-254 AC A0A101EW11 #=GS A0A101EW11/4-254 OS Thermotoga sp. 50_1627 #=GS A0A101EW11/4-254 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS A0A101EW11/4-254 DR GENE3D; 6fd019cb86e6d181b0b8f3535cebc55c/4-254; #=GS A0A101EW11/4-254 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga sp. 50_1627; #=GS A0A0P1MRS3/1-251 AC A0A0P1MRS3 #=GS A0A0P1MRS3/1-251 OS Candidatus Kryptonium thompsoni #=GS A0A0P1MRS3/1-251 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS A0A0P1MRS3/1-251 DR GENE3D; 762fac522899612e1f04c47867d0f44c/1-251; #=GS A0A0P1MRS3/1-251 DR ORG; Bacteria; Candidatus Kryptonia; Candidatus Kryptonium; Candidatus Kryptonium thompsoni; #=GS A6UWI7/1-250 AC A6UWI7 #=GS A6UWI7/1-250 OS Methanococcus aeolicus Nankai-3 #=GS A6UWI7/1-250 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS A6UWI7/1-250 DR GENE3D; 7be8fcd73ca76ea0caf8e93ed12eb837/1-250; #=GS A6UWI7/1-250 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus aeolicus; #=GS B7IFZ4/5-255 AC B7IFZ4 #=GS B7IFZ4/5-255 OS Thermosipho africanus TCF52B #=GS B7IFZ4/5-255 DE Pyruvate synthase subunit PorA #=GS B7IFZ4/5-255 DR GENE3D; 7cbff659656107bf15dddcead8a81c1f/5-255; #=GS B7IFZ4/5-255 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Fervidobacteriaceae; Thermosipho; Thermosipho africanus; #=GS K2PFH7/5-255 AC K2PFH7 #=GS K2PFH7/5-255 OS Thermosipho africanus H17ap60334 #=GS K2PFH7/5-255 DE Pyruvate synthase subunit PorA #=GS K2PFH7/5-255 DR GENE3D; 7cbff659656107bf15dddcead8a81c1f/5-255; #=GS K2PFH7/5-255 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Fervidobacteriaceae; Thermosipho; Thermosipho africanus; #=GS D5VTT6/1-248 AC D5VTT6 #=GS D5VTT6/1-248 OS Methanocaldococcus infernus ME #=GS D5VTT6/1-248 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS D5VTT6/1-248 DR GENE3D; 806c3b69bbcbcd87481c69e16baa0e83/1-248; #=GS D5VTT6/1-248 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus infernus; #=GS A0A0U3CRE7/2-251 AC A0A0U3CRE7 #=GS A0A0U3CRE7/2-251 OS Methanobrevibacter millerae #=GS A0A0U3CRE7/2-251 DE Pyruvate ferredoxin oxidoreductase alpha subunit PorA #=GS A0A0U3CRE7/2-251 DR GENE3D; 818958744ce96dee4447970b9df7df51/2-251; #=GS A0A0U3CRE7/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter millerae; #=GS A0A0P1P333/1-251 AC A0A0P1P333 #=GS A0A0P1P333/1-251 OS Candidatus Chrysopegis kryptomonas #=GS A0A0P1P333/1-251 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS A0A0P1P333/1-251 DR GENE3D; 86d7219a75d58c0c389fb76ec4f69ec0/1-251; #=GS A0A0P1P333/1-251 DR ORG; Bacteria; Candidatus Kryptonia; Candidatus Chrysopegis; Candidatus Chrysopegis kryptomonas; #=GS A0A1D2REB5/2-249 AC A0A1D2REB5 #=GS A0A1D2REB5/2-249 OS Candidatus Altiarchaeales archaeon IMC4 #=GS A0A1D2REB5/2-249 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1D2REB5/2-249 DR GENE3D; 88cda04a3ba4f124f1fd08429d4ad1ef/2-249; #=GS A0A1D2REB5/2-249 DR ORG; Archaea; Euryarchaeota; Candidatus Altiarchaeales; Candidatus Altiarchaeales archaeon IMC4; #=GS A0A1D2WLI0/2-251 AC A0A1D2WLI0 #=GS A0A1D2WLI0/2-251 OS Methanobrevibacter sp. A27 #=GS A0A1D2WLI0/2-251 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1D2WLI0/2-251 DR GENE3D; 8ad7d80e763b6cf301db13fc944d6b76/2-251; #=GS A0A1D2WLI0/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter sp. A27; #=GS A0A147K299/1-247 AC A0A147K299 #=GS A0A147K299/1-247 OS Hadesarchaea archaeon YNP_N21 #=GS A0A147K299/1-247 DE Pyruvate ferredoxin oxidoreductase #=GS A0A147K299/1-247 DR GENE3D; 8bd19ef3e3eb770417ce293cde10fa44/1-247; #=GS A0A147K299/1-247 DR ORG; Archaea; Euryarchaeota; Hadesarchaea; Hadesarchaea archaeon YNP_N21; #=GS A0A1J4Z5L8/2-247 AC A0A1J4Z5L8 #=GS A0A1J4Z5L8/2-247 OS Candidatus Omnitrophica bacterium CG1_02_43_210 #=GS A0A1J4Z5L8/2-247 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1J4Z5L8/2-247 DR GENE3D; 8dea08bd37583dbf44cd1293c58a7adf/2-247; #=GS A0A1J4Z5L8/2-247 DR ORG; Bacteria; Candidatus Omnitrophica; Candidatus Omnitrophica bacterium CG1_02_43_210; #=GS A0A1F4XAG9/1-246 AC A0A1F4XAG9 #=GS A0A1F4XAG9/1-246 OS candidate division Zixibacteria bacterium RBG_16_50_21 #=GS A0A1F4XAG9/1-246 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1F4XAG9/1-246 DR GENE3D; 9396aa6c22e02b314728442682837085/1-246; #=GS A0A1F4XAG9/1-246 DR ORG; Bacteria; candidate division Zixibacteria; candidate division Zixibacteria bacterium RBG_16_50_21; #=GS A0A0S4MT06/1-251 AC A0A0S4MT06 #=GS A0A0S4MT06/1-251 OS Candidatus Thermokryptus mobilis #=GS A0A0S4MT06/1-251 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS A0A0S4MT06/1-251 DR GENE3D; 95b9526e02e7b6965cb4e7ef1bce6f68/1-251; #=GS A0A0S4MT06/1-251 DR ORG; Bacteria; Candidatus Kryptonia; Candidatus Thermokryptus; Candidatus Thermokryptus mobilis; #=GS H3ZL60/1-252 AC H3ZL60 #=GS H3ZL60/1-252 OS Thermococcus litoralis DSM 5473 #=GS H3ZL60/1-252 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS H3ZL60/1-252 DR GENE3D; 9f7069eba837d1ff1123c9013b0de279/1-252; #=GS H3ZL60/1-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus litoralis; #=GS A0A177E6M8/1-251 AC A0A177E6M8 #=GS A0A177E6M8/1-251 OS Thermodesulfatator autotrophicus #=GS A0A177E6M8/1-251 DE Pyruvate ferredoxin oxidoreductase #=GS A0A177E6M8/1-251 DR GENE3D; a076a47a2ee034665341379ecb5b6b53/1-251; #=GS A0A177E6M8/1-251 DR ORG; Bacteria; Thermodesulfobacteria; Thermodesulfobacteria; Thermodesulfobacteriales; Thermodesulfobacteriaceae; Thermodesulfatator; Thermodesulfatator autotrophicus; #=GS A0A1D2WDZ1/1-249 AC A0A1D2WDZ1 #=GS A0A1D2WDZ1/1-249 OS Methanobacterium sp. A39 #=GS A0A1D2WDZ1/1-249 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1D2WDZ1/1-249 DR GENE3D; a16ed8aa42992e26a0f1edf960c39256/1-249; #=GS A0A1D2WDZ1/1-249 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. A39; #=GS A0A0F8CCW1/7-257 AC A0A0F8CCW1 #=GS A0A0F8CCW1/7-257 OS Methanosarcina mazei #=GS A0A0F8CCW1/7-257 DE Pyruvate ferredoxin oxidoreductase #=GS A0A0F8CCW1/7-257 DR GENE3D; a199e15cf0be09c187d01644ec1228af/7-257; #=GS A0A0F8CCW1/7-257 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina mazei; #=GS D7DUC2/1-252 AC D7DUC2 #=GS D7DUC2/1-252 OS Methanococcus voltae A3 #=GS D7DUC2/1-252 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS D7DUC2/1-252 DR GENE3D; a1ef304e20a9ea8c89b4263c6ddcdf1e/1-252; #=GS D7DUC2/1-252 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus voltae; #=GS H3ZL63/2-252 AC H3ZL63 #=GS H3ZL63/2-252 OS Thermococcus litoralis DSM 5473 #=GS H3ZL63/2-252 DE 2-ketoisovalerate ferredoxin oxidoreductase subunit alpha #=GS H3ZL63/2-252 DR GENE3D; a76b1824b0d4b6d9069ba392282997eb/2-252; #=GS H3ZL63/2-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus litoralis; #=GS H5ST48/6-254 AC H5ST48 #=GS H5ST48/6-254 OS Candidatus Acetothermus autotrophicum #=GS H5ST48/6-254 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS H5ST48/6-254 DR GENE3D; aa4c8fb14f3c7a3a1de6999ddb8dbd1d/6-254; #=GS H5ST48/6-254 DR ORG; Bacteria; Candidatus Acetothermia; Candidatus Acetothermum; Candidatus Acetothermus autotrophicum; #=GS H5SKF4/6-254 AC H5SKF4 #=GS H5SKF4/6-254 OS uncultured Acetothermia bacterium #=GS H5SKF4/6-254 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS H5SKF4/6-254 DR GENE3D; aa4c8fb14f3c7a3a1de6999ddb8dbd1d/6-254; #=GS H5SKF4/6-254 DR ORG; Bacteria; Candidatus Acetothermia; uncultured Acetothermia bacterium; #=GS A0A1E3G2A5/1-252 AC A0A1E3G2A5 #=GS A0A1E3G2A5/1-252 OS Fervidobacterium thailandensis #=GS A0A1E3G2A5/1-252 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1E3G2A5/1-252 DR GENE3D; b1c727aebb49989715680054f6eb5310/1-252; #=GS A0A1E3G2A5/1-252 DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Fervidobacteriaceae; Fervidobacterium; Fervidobacterium thailandensis; #=GS A0A125RB33/2-251 AC A0A125RB33 #=GS A0A125RB33/2-251 OS Methanobrevibacter sp. YE315 #=GS A0A125RB33/2-251 DE Pyruvate ferredoxin oxidoreductase #=GS A0A125RB33/2-251 DR GENE3D; b63c97eee7fcccfb83dde329c0b9ecd9/2-251; #=GS A0A125RB33/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter sp. YE315; #=GS B8GDG4/1-249 AC B8GDG4 #=GS B8GDG4/1-249 OS Methanosphaerula palustris E1-9c #=GS B8GDG4/1-249 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS B8GDG4/1-249 DR GENE3D; b6b2ee34128ca6c2bc28b58e24473722/1-249; #=GS B8GDG4/1-249 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanosphaerula; Methanosphaerula palustris; #=GS A0A101I255/1-251 AC A0A101I255 #=GS A0A101I255/1-251 OS candidate division TA06 bacterium 34_109 #=GS A0A101I255/1-251 DE Pyruvate ferredoxin oxidoreductase, alpha subunit #=GS A0A101I255/1-251 DR GENE3D; b80ca068e2af13cdec7ad6aa6be5a489/1-251; #=GS A0A101I255/1-251 DR ORG; Bacteria; candidate division TA06 bacterium 34_109; #=GS F0LIT1/2-251 AC F0LIT1 #=GS F0LIT1/2-251 OS Thermococcus barophilus MP #=GS F0LIT1/2-251 DE 2-oxoisovalerate:ferredoxin oxidoreductase alpha subunit #=GS F0LIT1/2-251 DR GENE3D; b8ca2716896730e624c68f47c3fc855e/2-251; #=GS F0LIT1/2-251 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus barophilus; #=GS A0A1D2RDD1/2-250 AC A0A1D2RDD1 #=GS A0A1D2RDD1/2-250 OS Candidatus Altiarchaeales archaeon WOR_SM1_79 #=GS A0A1D2RDD1/2-250 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1D2RDD1/2-250 DR GENE3D; ba17cb418e0c5aa60a5ecf2f6b560ccf/2-250; #=GS A0A1D2RDD1/2-250 DR ORG; Archaea; Euryarchaeota; Candidatus Altiarchaeales; Candidatus Altiarchaeales archaeon WOR_SM1_79; #=GS A0A117M5J6/5-254 AC A0A117M5J6 #=GS A0A117M5J6/5-254 OS candidate division TA06 bacterium 34_109 #=GS A0A117M5J6/5-254 DE Uncharacterized protein #=GS A0A117M5J6/5-254 DR GENE3D; c40ee26a0890ce3af49d0103e9d4f151/5-254; #=GS A0A117M5J6/5-254 DR ORG; Bacteria; candidate division TA06 bacterium 34_109; #=GS R9SMB3/2-251 AC R9SMB3 #=GS R9SMB3/2-251 OS Methanobrevibacter sp. AbM4 #=GS R9SMB3/2-251 DE Pyruvate ferredoxin oxidoreductase alpha subunit PorA #=GS R9SMB3/2-251 DR GENE3D; c8b1da7895fb229bc206fc2b14e967ce/2-251; #=GS R9SMB3/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter sp. AbM4; #=GS B9MQN2/2-252 AC B9MQN2 #=GS B9MQN2/2-252 OS Caldicellulosiruptor bescii DSM 6725 #=GS B9MQN2/2-252 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS B9MQN2/2-252 DR GENE3D; c9e621295ba896fed806aba06cde1bb9/2-252; #=GS B9MQN2/2-252 DR ORG; Bacteria; Firmicutes; Clostridia; Thermoanaerobacterales; Thermoanaerobacterales Family III. Incertae Sedis; Caldicellulosiruptor; Caldicellulosiruptor bescii; #=GS A6UQE8/1-252 AC A6UQE8 #=GS A6UQE8/1-252 OS Methanococcus vannielii SB #=GS A6UQE8/1-252 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS A6UQE8/1-252 DR GENE3D; d034af45174ae23656a735a5151d4931/1-252; #=GS A6UQE8/1-252 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus vannielii; #=GS A0A1F4YBR1/1-246 AC A0A1F4YBR1 #=GS A0A1F4YBR1/1-246 OS candidate division Zixibacteria bacterium RBG_16_48_11 #=GS A0A1F4YBR1/1-246 DE Uncharacterized protein #=GS A0A1F4YBR1/1-246 DR GENE3D; d041bd5c7b6b1b240f96e7e8b7074503/1-246; #=GS A0A1F4YBR1/1-246 DR ORG; Bacteria; candidate division Zixibacteria; candidate division Zixibacteria bacterium RBG_16_48_11; #=GS N6VTJ4/1-250 AC N6VTJ4 #=GS N6VTJ4/1-250 OS Methanocaldococcus villosus KIN24-T80 #=GS N6VTJ4/1-250 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain-containing protein #=GS N6VTJ4/1-250 DR GENE3D; d2045f633300af20b91be09ecd168715/1-250; #=GS N6VTJ4/1-250 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus villosus; #=GS A4XJH5/2-252 AC A4XJH5 #=GS A4XJH5/2-252 OS Caldicellulosiruptor saccharolyticus DSM 8903 #=GS A4XJH5/2-252 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS A4XJH5/2-252 DR GENE3D; d7dd6d52fc2dd6ef0db7358fb132689f/2-252; #=GS A4XJH5/2-252 DR ORG; Bacteria; Firmicutes; Clostridia; Thermoanaerobacterales; Thermoanaerobacterales Family III. Incertae Sedis; Caldicellulosiruptor; Caldicellulosiruptor saccharolyticus; #=GS L0HNJ1/2-251 AC L0HNJ1 #=GS L0HNJ1/2-251 OS Aciduliprofundum sp. MAR08-339 #=GS L0HNJ1/2-251 DE 2-oxoacid:ferredoxin oxidoreductase, alpha subunit #=GS L0HNJ1/2-251 DR GENE3D; da4062f272b6da18a88d6d7316cce58a/2-251; #=GS L0HNJ1/2-251 DR ORG; Archaea; Euryarchaeota; Aciduliprofundum; Aciduliprofundum sp. MAR08-339; #=GS A0A0P9E497/1-256 AC A0A0P9E497 #=GS A0A0P9E497/1-256 OS Candidatus Bathyarchaeota archaeon BA1 #=GS A0A0P9E497/1-256 DE Ketoisovalerate oxidoreductase subunit VorA #=GS A0A0P9E497/1-256 DR GENE3D; dd483442c43a11339336676774f12c7d/1-256; #=GS A0A0P9E497/1-256 DR ORG; Archaea; Candidatus Bathyarchaeota; Candidatus Bathyarchaeota archaeon BA1; #=GS B6YY08/2-252 AC B6YY08 #=GS B6YY08/2-252 OS Thermococcus onnurineus NA1 #=GS B6YY08/2-252 DE Pyruvate:ferredoxin oxidoreductase, alpha subunit #=GS B6YY08/2-252 DR GENE3D; e05759dfab26c532e55c71043156286e/2-252; #=GS B6YY08/2-252 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus onnurineus; #=GS C5CDT7/2-251 AC C5CDT7 #=GS C5CDT7/2-251 OS Kosmotoga olearia TBF 19.5.1 #=GS C5CDT7/2-251 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS C5CDT7/2-251 DR GENE3D; e3734c762671ef8611f3f60d5e0c4975/2-251; #=GS C5CDT7/2-251 DR ORG; Bacteria; Thermotogae; Thermotogae; Kosmotogales; Kosmotogaceae; Kosmotoga; Kosmotoga olearia; #=GS A0A126QY54/2-251 AC A0A126QY54 #=GS A0A126QY54/2-251 OS Methanobrevibacter olleyae #=GS A0A126QY54/2-251 DE Pyruvate ferredoxin oxidoreductase alpha subunit PorA #=GS A0A126QY54/2-251 DR GENE3D; e4c82cdcbb9a8f381be9e17ec8c710b7/2-251; #=GS A0A126QY54/2-251 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter olleyae; #=GS A0A1E7GGJ8/7-256 AC A0A1E7GGJ8 #=GS A0A1E7GGJ8/7-256 OS Methanosarcina sp. Ant1 #=GS A0A1E7GGJ8/7-256 DE Pyruvate ferredoxin oxidoreductase #=GS A0A1E7GGJ8/7-256 DR GENE3D; e550c7a695c9ae6447cbd26bbbc9ffe5/7-256; #=GS A0A1E7GGJ8/7-256 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. Ant1; #=GS A0A151F7V1/1-249 AC A0A151F7V1 #=GS A0A151F7V1/1-249 OS Theionarchaea archaeon DG-70 #=GS A0A151F7V1/1-249 DE Pyruvate ferredoxin oxidoreductase #=GS A0A151F7V1/1-249 DR GENE3D; efa712fa57330a6c9932997d752f403c/1-249; #=GS A0A151F7V1/1-249 DR ORG; Archaea; Euryarchaeota; Theionarchaea; Theionarchaea archaeon DG-70; #=GS A0A117L7P2/7-255 AC A0A117L7P2 #=GS A0A117L7P2/7-255 OS Methanosarcinales archeaon 56_1174 #=GS A0A117L7P2/7-255 DE 2-oxoacid:ferredoxin oxidoreductase, alpha subunit #=GS A0A117L7P2/7-255 DR GENE3D; f2f83233db5839a5722a55dd050b5116/7-255; #=GS A0A117L7P2/7-255 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinales archeaon 56_1174; #=GS A0A101DXB5/7-255 AC A0A101DXB5 #=GS A0A101DXB5/7-255 OS Euryarchaeota archaeon 55_53 #=GS A0A101DXB5/7-255 DE 2-oxoacid:ferredoxin oxidoreductase, alpha subunit #=GS A0A101DXB5/7-255 DR GENE3D; f2f83233db5839a5722a55dd050b5116/7-255; #=GS A0A101DXB5/7-255 DR ORG; Archaea; Euryarchaeota; Euryarchaeota archaeon 55_53; #=GS K4MF40/10-259 AC K4MF40 #=GS K4MF40/10-259 OS Methanolobus psychrophilus R15 #=GS K4MF40/10-259 DE Pyruvate synthase, alpha subunit #=GS K4MF40/10-259 DR GENE3D; f4389cb6e3ded80f6d8a7af34d2552f4/10-259; #=GS K4MF40/10-259 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanolobus; Methanolobus psychrophilus; #=GS F7XL36/10-260 AC F7XL36 #=GS F7XL36/10-260 OS Methanosalsum zhilinae DSM 4017 #=GS F7XL36/10-260 DE Pyruvate flavodoxin/ferredoxin oxidoreductase domain protein #=GS F7XL36/10-260 DR GENE3D; f6ec906c1d8d9332cbad306161460120/10-260; #=GS F7XL36/10-260 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosalsum; Methanosalsum zhilinae; #=GS A0A117LD26/8-259 AC A0A117LD26 #=GS A0A117LD26/8-259 OS Synergistales bacterium 54_24 #=GS A0A117LD26/8-259 DE Pyruvate synthase subunit PorA #=GS A0A117LD26/8-259 DR GENE3D; f7aac145ace1f3caf0f651f3ccb923c2/8-259; #=GS A0A117LD26/8-259 DR ORG; Bacteria; Synergistetes; Synergistia; Synergistales; Synergistales bacterium 54_24; #=GS A0A0S8HS18/1-247 AC A0A0S8HS18 #=GS A0A0S8HS18/1-247 OS Deltaproteobacteria bacterium SM23_61 #=GS A0A0S8HS18/1-247 DE Pyruvate ferredoxin oxidoreductase #=GS A0A0S8HS18/1-247 DR GENE3D; f9b85a94a59d82cb2ac12a431d28bed4/1-247; #=GS A0A0S8HS18/1-247 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium SM23_61; #=GF TC 339.8 4.0E-104 #=GF SQ 200 O73986/3-252 --IRTVMKANEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVANGEL-DAEFIKVESEHSAISAVVGASAAGVRTFTATASQGLALMHEVLFIAAGMRLPIVMAIGNRSLSAPINIWNDWQDSISQRDTGWIQFYAENNQEALDLILLAYKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYEPKH-AYL-DPK-RPITQGTLA------FPA-----HYMEAKYLVWDAMEKARKVIDEAFAEFEKRFGRKYQ O58413/6-253 --IKKVVSGNYAAAYAALHARVQVVAAYPITPQTSIIEKIAEFIANGEA-DIQYIPVESEHSAMAACIGASATGARVFTATSAQGLALMHEMLHWAAGSRLPIVMVNVNRAMAPPWSVWDDQTDSLSQRDTGWMQFYAENNQEVYDGVLMAYKVAE--TVNIPTMIIESAFILSHTYEVVNMIPQELVDEFLPPRKPLY-T-LTDFE-NPIAVGALA------TPA-----DYYEFRYKIAKAHEEAKKVIKSVGKEFGERFGRDYS Q8L3B1/18-275 -QKVILAEGNEAAALGVALARPDMVSVYPITPQSSLVEHVAKLIADGRM-DADIVDAEGEHSVLSVLQGGALAGARTYTATCGPGLAFMFEPYFRTSGMRLPIVLTIVTRDGITPQSVWGGHQDAMTVREAGWIQVYCESVQEVLDTTVMAFKIAEHHDVMLPVNVCLDGNYLSYGASRVELPDQAVVDEFMGEKNVNWHVAL-DPL-RPMAVDPLTGGTTGKGPQ-----TFVRYRKGQCRGMQNALSVIEEVHADWAKRIGRSFA Q57715/4-255 MCEVKVITGTSAAAEAAKLADVDVIAAYPITPQTTCVEKLAEFVANGEL-DAEYIKVESEHSAMSACIGAAATGARTFTATASQGLALMHEMLFIASGMRLPIVMMVANRALSAPINIWNDHQDSIAERDSGWIQIYVEDNQETLDSIIQAYKIAENEDVLLPVMVCLDGFILTHTVEPVTIPKAERVREFLGVYEPKH-AYL-DPD-RPITQGPVG------VPD-----CYMETRKQIEEAMERAKKVIRDVNEEFAEWFKRKYG P56810/2-250 --VLKVISANQAVAEAAKLAKPKVIPVYPITPQTSISEYLAKFVADGEL-KAEYIRVESEHSAMSACVGASGAGVRVFTATSSQGLALMHEIVYAAAGLRNPIVMANANRALSAPLSIWNDQQDSIAERDSGWMQIYVESGQEALDSVLLSYRVSEDRDVLLPSMVCLDGFILTHTVEPVDIPSQEDVDSFLPEFQPQ--VML-DPD-EPMSLGTFT------DPD-----YYMEARYEVEKAMERSRKIIERACREFSEMFGREYG Q6LX47/1-252 MCEVKVITGTSAAAEAAKLADVDVIAAYPITPQTTCVEKLADFVANGEL-NAEYIKVESEHSAMSASIGASAAGARAFTATSSQGLALMHEVLFSAAGMRVPVVMMNANRALSAPINIWNDQQDSLSQRDTGWIQLYAEDNQEVLDLVIQAFKIAEDEKVLLPVMVNLDGFILTHTVEPVTVPKQENVLDFIGTYEPKH-AYL-DPK-KPMTQGALG------DPN-----YYMETRYAIETAMRNAEKVIADVHDAFAEKFNRAYG A5UKN6/2-251 --TKEVMTANKAVAEAVRLAKPQVIPVYPITPQTTISEYLAQYVADEKI-DAKYVKVESEHSAISASVGASSAGVRVFTATSSQGLMLMHEILFAAAGMRTPIVLADANRAISAPLNIWNDQQDSIAQRDAGWLQIYVESAQEALDTTLMAYKISENYDVLLPSMVCLDGFILTHTVEPVEIPTQEDVDKFLPPYVPKH-AFL-DPN-EPMSIGTLA------DPD-----YYLEARHDMQVAMEKSIPVIEETCKEFAEIFGREYG O05651/5-254 -VERVAVTGAEAVANAMRQIEPDVVAAYPITPQTPIVEYFARFVADGVV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSANGLALMHEIVYIAASYRLPIVMPVVNRALSGPINIHCDHSDAMAERDSGWIQLFAETNQEAYDFTILAVRLAEHEDVRLPVMVNLDGFILSHGVEPVEFYPDELVKKFVGELKPMY-PLL-DTE-HPVTWGPLD------LYD-----YYFEHKRQQIEAMENVKKVFPEIAKEFEETFGRKY- G4FGT3/5-254 -VERVAVTGAEAVANAMRQIEPDVVAAYPITPQTPIVEYFARFVADGVV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSANGLALMHEIVYIAASYRLPIVMPVVNRALSGPINIHCDHSDAMAERDSGWIQLFAETNQEAYDFTILAVRLAEHEDVRLPVMVNLDGFILSHGVEPVEFYPDELVKKFVGELKPMY-PLL-DTE-HPVTWGPLD------LYD-----YYFEHKRQQIEAMENVKKVFPEIAKEFEETFGRKY- I6TWJ5/6-253 --IRKVVSGNYAAAYAALHARVQVVAAYPITPQTSIIEKIAEFIANGEA-DIQYIPVESEHSAMAACIGASATGARTFTATSAQGLALMHEMLHWAAGARLPIVMVDVNRAMAPPWSVWDDQTDSLSQRDTGWMQFYAENNQEVYDGVLMAYKVAE--TVNVPAMVVESAFILSHTYDVVEMIPQELVDEFLPPRKPLY-S-LANFD-EPIAVGALA------TPN-----DYYEFRYKLAKAHEEAKKVIKEVGKEFGERFGRDYS Q51801/6-253 --IRKVVSGNYAAAYAALHARVQVVAAYPITPQTSIIEKIAEFIANGEA-DIQYIPVESEHSAMAACIGASATGARTFTATSAQGLALMHEMLHWAAGARLPIVMVDVNRAMAPPWSVWDDQTDSLSQRDTGWMQFYAENNQEVYDGVLMAYKVAE--TVNVPAMVVESAFILSHTYDVVEMIPQELVDEFLPPRKPLY-S-LANFD-EPIAVGALA------TPN-----DYYEFRYKLAKAHEEAKKVIKEVGKEFGERFGRDYS A0A150JL20/2-251 --VKKIMTGNVAAAWGARLSRAEVIAAYPITPQTIIVEKLAQFVSNGDL-KAEYIHVESEHSAMAACIAASQTGARAFTATSSQGLVLMHEMLHWASGARVPIVMVNVNRALAPPWNVWVEHTDMISQRDTGWIQFYAESNQEVLDTLIMSYKLCEDIKIQLPAMIGLDAFYLSHTSEIVDIPDQEQVDKFLPKYESAY-P-L-DTE-NPLSIGSLS------MPN----QWYSEFRYKIYEAMERVLPKLNQIEKDFYKEFGRKYT A0A090I281/2-250 --VQKVYSSNRAVAEAVKMAKPNVVPVYPITPQTTISEYLAQFVADGDL-KAEYIRVESEHSAISAALGASGAGVRVFSATSSQGLALMHEILFAAAGMRSPIVLVDANRALSAPLSIWNDQQDSISERDSGWLQIYAENAQEALDAVLIAYRVAEDPEVLLPCMVCIDGYFLTHTVEPLDVPSQEEVDQFLPPYKP-Y-AFL-DPE-KPMSIGTFT------DPD-----YYMEARYAIEAAMEKSKNVISKANQEFKEVFGREYD F6BF20/1-252 MCKVKVITGTSAAAEAAKLADVDVIAAYPITPQTTCVEKLAEFVANGEL-DAEFIKVESEHSAMSACIGASATGARTFTATASQGLALMHEMLFIAAGMRLPIVMMNANRALSAPINIWNDQQDSISQRDTGWIQFYVEDNQETLDTILQAYRIGEHEDVLLPVMVNLDGFILTHTVEPVTIPSEENAKAFVGVYEPKH-AYL-DPD-RPITQGCVG------VPE-----CYMETRYAVEKAMENAKKVIKEIHDEFAEKFKRSYG A0A160VSM4/6-253 --IRKVVSGNYAAAYAALHARVQVVAAYPITPQTSIIEKIAEFIANGLA-DIQYIPVESEHSAMAACIGASATGARVFTATSAQGLALMHEMLHWASGARLPIVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWMQFYAENNQEVYDGVLMAYKIAE--TVNLPAMIIESAFILSHTYDIVEMIPQELVDEFLPPRKPLY-S-LANFD-EPFAVGGLA------TPN-----DYYEFRYKIAKAMEEAKRVIKEVGREFGERFGRDYS Q9P9E5/1-252 MCEVKVITGTSAAAEAAKLADVDVIAAYPITPQTTCVEKLADFVANGEL-NAEYIKVESEHSAMSASIGASAAGARAFTATSSQGLALMHEVLFAAAGMRVPVVMMNANRALSAPINIWNDQQDSLSQRDTGWIQLYAEDNQEVLDLVIQAFKIAEDEKVLLPVMVNLDGFILTHTVEPVTLPKQENVLDFIGTYEPKH-AYL-DPK-KPMTQGALG------DPN-----YYMETRYAIETAMENAKKVIADVHDAFAEKFNRAYG G0HLX9/6-254 --VRKVVSGNYAAAYAVKHARVEVVAAYPITPQTSIIEKIAEFIANGEIDNIQYVPVESEHSAMAASIGASATGARAFTATSAQGLALMHEMLHWAAGARLPIVMVDVNRAMAPPWSVWDDQTDSLSQRDTGWMQFYAENNQEVYDGVLMAFKIAE--TVNLPAMVIESAFILSHTYDVVEMIPQELVDEFLPPRKPLY-T-LTDFD-NPISVGALG------TPN-----DYYEFRYKLAKAMEDAKKVIHEVGKEFGERFGRDYS W9DQZ4/9-260 KSKMVVVEGSYAVAHAAKVCRPNVISAYPITPQTHIVEDLSQFMADGEIPNCEYINVESEFSALSALVGSSAAGARCYSATTSQGLELMHEVLFNISGMRLPVVMTIANRAVSAPISIWNDHQDAISQRDTGWLQLYAENTQEISDMTAQAYKIAEDKDILMPAMTCMDGFILSHVYEPVVLLEQDLTDEFLPTYEPEN-V-L-DPK-NPLSFGAFA------DPN-----YYTEFRFLQEQAMQKALKKIEDVANEFYDVYGRYYG A0A0E3P081/9-258 -DRMVVVEGSYAVAHAAKICRPNVISAYPITPQTHIVEDLSQFIADGEIPNCEYINVESEFSAISALVGSSAVGARSYSATTSQGLLLMHEVLFNAAGMRLPIIMTVANRAVSAPINIWNDHQDAISQRDTGWLQLYAEDLQESADMLPQIFKVAEDKDVLLPGMACMDGFILSHVYEPLVLLEQDLTDEFLPAYDPEH-V-L-DPA-NPMSFGAFA------APD-----TYEEFRFLQEKAMQAALPKIEAAAKEFGEIYGRFH- Q9UYZ4/3-252 --IRTVMKANEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVANGEL-DAEFIKVESEHSAISALVGASAAGVRTFTATASQGLALMHEVLFIAAGMRLPIVMAIGNRALSAPINIWNDWQDTISQRDTGWIQFYAENNQEALDLILLAYKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYEPKH-AYL-DPK-RPITQGTLA------FPA-----HYMEARYLVWEAMENARKVIDEAFAEFEKKFGRKYQ Q9UYZ1/7-254 --IKKVVSGNYAAAYAVLHARVQVVAAYPITPQTSIIEKIAEFIANGEA-DIQYIPVESEHSAMAACIGASATGARVFTATSAQGLALMHEMLHWAAGARLPIVMVDVNRAMAPPWSVWDDQTDSLSQRDTGWMQFYAENNQEVYDGVLMAFKVAE--TVNVPAMVVESAFILSHTYEIVNMIPQELVDEFLPPRKPLY-S-LADFE-NPIAVGALA------TPA-----DYYEFRYKLARAHEEAKKVIKDVGREFGERFGRDYS A0A0S1XDR1/2-251 --PKKVVSGNYAAAYAAKHARVEVVAAYPITPQTSIIEKIAEFIANGEA-NIQYVPVESEHSAMAACIGASAAGARAFTATSAQGLALMHEMLHWASGARLPIVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWMQFYAENNQEVYDGVLMAFKVAEHKKVNLPVMIIESAFILSHTYDIVDMPPQEEIDEFLPPREPLY-T-LTDFD-NPIAVGALA------TPA-----DYYEFRYKIEKAMEEARRVIKEVGKEFGERFGRDYS A0A0U3SEA3/1-252 MPMRKVMKGNEAAAWAAKLAKPKVVAAFPITPSTLVPEKISEFVADGEM-DAEFIKVESEHSAISACVGASAAGVRTFTATASQGLALMHEILFIAAGMRLPIVMAIGNRALSAPINIWNDWQDTISERDTGWIQFYAENNQEALDLILIAFKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYVPKH-AYL-DPA-RPITQGALG------FPA-----HYMEARYTVWEAMENARKVIKEVFDEFEKKFGRRYH A0A0E3LGD9/8-257 -KKMVVVEGSYAVAHSAKICRPNVISAYPITPQTHIVEHLSQFMADGEIPNCEYINVEAEFSAISALIGASAVGARTYSATTSQGLLLMHEALFNAAGMRLPILMTVANRAISAPINIWNDHQDAIAQRDTGWMQLYVEDVQEACDTLPQLYKIAEDNEIMVPGMVCMDGFILSHVYEPVVLLEQDLTDEFLPSFQPED-I-L-DPE-DPKTFGAFA------SPD-----TYEEFRYLHEQAMQKALPKIEAVAKEFGEVYGRYH- A0A0E3Q9Z0/8-257 -KKMVVVEGSYAVAHSAKICRPNVISAYPITPQTHIVEHLSQFMADGEIPNCEYINVEAEFSAISALIGASAVGARTYSATTSQGLLLMHEALFNAAGMRLPILMTVANRAISAPINIWNDHQDAIAQRDTGWMQLYVEDVQEACDTLPQLYKIAEDNEIMVPGMVCMDGFILSHVYEPVVLLEQDLTDEFLPSFQPED-I-L-DPE-DPKTFGAFA------SPD-----TYEEFRYLHEQAMQKALPKIEAVAKEFGEVYGRYH- A0A0S1XE10/1-252 MPMRKVMKGNEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVANGEL-DAEFIKVESEHSAISACVGASAAGVRTFTATASQGLALMHEILFIAAGMRLPIVMAIGNRALSAPINIWNDWQDTISERDTGWIQFYAENNQEALDLILIAFKVAEDERVLLPAMTGFDAFILTHTVEPVEIPDQELVDEFLGEYKPKH-AYL-DPK-RPITQGTLG------FPA-----HYMEARYKVWEAMENAREVIKEVFEEFEKKFGRKYQ A0A062V809/3-252 -NRMIVVEGSYAVAHAVKVCRPNVISAYPITPQTHIVENLSQFVADGEI-DCESMNVESEFSAISALIGASAAGARTYSSTTSQGLALMHEALFNASGMRLPIIMTVVNRALSAPINIWNDQQDSIAQRDTGWIQLYAEDVQESADMIPQLYKIAEDSEVLLPAMACMDGFILSHVYEPVILLEQSLTDEFLPSYSPEF-V-L-DPK-NPMSFGAFA------DPS-----TYTEFRYKQEKAMGEALERIEEVANEFMEKYGRYYG D5E9N4/10-260 -DKMDVAEGSYAVAHAVKVCRPNIISAYPITPQTHIVEDLSQFMADGEIPNCEYINVESEFSALSALVGSAAAGARCYSATTSQGLELMHEVLFNVSGMRLPVVMTIANRAVSAPINIWNDHQDSISQRDTGWIQMYAEDLQEISDMTAQAYRVAEDKDVMMPAMTCMDGFILSHVYEPVVLLEQDLVDEYLPAFEPEY-T-L-DPK-NPLTFGAFA------DPS-----AYTEFRYLQQQAMDNALPKIEEAANEFYEIFGRYYG A0A101HCF5/2-250 --VQKVYSSNRAVAEAVKMAKPNVVPVYPITPQTTISEYLAQFVADGDL-KAEYIRVESEHSAISAALGASGAGVRVFSATSSQGLALMHEILFAAAGMRSPIVLVDANRALSAPLSIWNDQQDSISERDSGWLQIYAENAQEALDAVLIAYRVAEDPEVLLPCMVCIDGYFLTHTVEPLDVPSQEEVDQFLPPYKP-Y-AFL-DPE-KPMSIGTFT------DPD-----YYMEARYAIEAAMEKSKNVISKANQEFKEVFGREYD A0A089Z9W1/2-250 --VQKVYSSNRAVAEAVKMAKPNVVPVYPITPQTTISEYLAQFVADGDL-KAEYIRVESEHSAISAALGASGAGVRVFSATSSQGLALMHEILFAAAGMRSPIVLVDANRALSAPLSIWNDQQDSISERDSGWLQIYAENAQEALDAVLIAYRVAEDPEVLLPCMVCIDGYFLTHTVEPLDVPSQEEVDQFLPPYKP-Y-AFL-DPE-KPMSIGTFT------DPD-----YYMEARYAIEAAMEKSKNVISKANQEFKEVFGREYD P80900/2-250 --VLKVISANQAVAEAAKLAKPKVIPVYPITPQTSISEYLAKYVADGEL-DAEYIRVESEHSAMSACVGASGAGVRVFTATSSQGLALMHEIVYAAAGLRNPIVMANANRALSAPLSIWNDQQDSIAERDSGWMQIYAESGQEALDSVLLSYRVSEDRDVLLPSMVCLDGFILTHTVEPVDIPSQDEVDTFLPEFQPQ--AVL-DPD-EPMSLGTFT------DPN-----YYMEARYEVERAMERSRKVIAKACQEFSEMFRREYG A0A150IRX2/2-251 --AKKIMTGNIAAAWGAKLSKAEVIAAYPITPQTIIVEKLAKFISDGEL-NAEYLRVESEHSAMAACIAASQTGARTFTATSSQGLALMHELLHWATGARTPIVMANVNRALAPPWNIWADHTDMMSQRDTGWIQIYAESNQEVLDTIIMSYKLCEDKKIHLPAMIGLDAFYLSHTSEIVDIPPQEEVDNFLPPYEALY-H-L-DVE-NPLSVGSLS------MPN----QWYSEFRYKIYKSMGEVIPKLNKIEKEFNKQFDRNYS F0T9J2/2-251 --VLKVMSSNQAIAEAVKLAKPKVIPVYPITPQTTISEYLAKYVADGDI-KAEYIRVESEHSAISACLGASGTGVRVFTATSSQGLALMHEIIFAAAGLRAPIVMADANRALSAPLSIWNDQQDSISERDSGWMQIYAENGQEALDSVLMSYKISENKEVLLPTMVCVDGFILTHTVDPVDVPEEEEVDKFLPDYNPDH-AYL-DPE-RPMSIGTFT------DPD-----YYMEARHDMEVAMEKAKTVISDVSQEFAETFGRKYD A0A0E3NI73/8-257 -EKMVVVEGSYAVAHAAKICHPNVISAYPITPQTHIVENLAQFIADGEIPNCEYINVEAEFSAISALIGASAVGARTYSATTSQGLLLMHEALFNASGMRLPIVMTVANRAVSAPINIWNDHQDAIAQRDTGWIQLYVEDVQEASDTLPQLYKIAEDNDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPAFQPEN-V-L-DPE-DPKTFGAFA------APD-----TYEEFRYLQEQAMQKALPKIEAVAKEFEEIFGRFH- A0A1I6ZHX4/8-257 -EKMVVVEGSYAVAHAAKICHPNVISAYPITPQTHIVENLAQFIADGEIPNCEYINVEAEFSAISALIGASAVGARTYSATTSQGLLLMHEALFNASGMRLPIVMTVANRAVSAPINIWNDHQDAIAQRDTGWIQLYVEDVQEASDTLPQLYKIAEDNDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPAFQPEN-V-L-DPE-DPKTFGAFA------APD-----TYEEFRYLQEQAMQKALPKIEAVAKEFEEIFGRFH- A0A0E3NCR5/8-257 -EKMVVVEGSYAVAHAAKICHPNVISAYPITPQTHIVENLAQFIADGEIPNCEYINVEAEFSAISALIGASAVGARTYSATTSQGLLLMHEALFNASGMRLPIVMTVANRAVSAPINIWNDHQDAIAQRDTGWIQLYVEDVQEASDTLPQLYKIAEDNDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPAFQPEN-V-L-DPE-DPKTFGAFA------APD-----TYEEFRYLQEQAMQKALPKIEAVAKEFEEIFGRFH- A0A0P0J907/8-257 -EKMVVVEGSYAVAHAAKICHPNVISAYPITPQTHIVENLAQFIADGEIPNCEYINVEAEFSAISALIGASAVGARTYSATTSQGLLLMHEALFNASGMRLPIVMTVANRAVSAPINIWNDHQDAIAQRDTGWIQLYVEDVQEASDTLPQLYKIAEDNDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPAFQPEN-V-L-DPE-DPKTFGAFA------APD-----TYEEFRYLQEQAMQKALPKIEAVAKEFEEIFGRFH- F7YW96/4-254 -KMIQAITGAEAAAYAMKQIEPDVVAAYPITPQTPIVEYYAKFVADGLV-KTEMIPVESEHSAMSAVVGAAAAGARAMTATSAVGLALMHEIVYIAASMRLPVVMHVVNRALSAPLNIHCDHSDAMAERDSGWIQLYCENAQEVYDLTILAVRLAEHEDVRLPVMVNQDGFIISHGVEPVELLPDEVVKAFVGELKPLY-PLL-DTD-HPVTYGSLD------LYD-----YYFEHKRQQIEAMKNVLKVFPQVAEEFYKISGRKYN A0A0E3PU88/8-258 KAKMVVVEGSYAVAHAAKTCRPNVISAYPITPQTHIVEDLSQFMADGEIPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLELMHEVLFNASGMRFPIIMTVANRAVSAPINIWNDHQDSIAQRDTGWLQIYAEDVQEAADLIPQLYKVTENKDVLLPGMVCMDGFILSHVYEPVVLLEQDLTDEFLPKYEPEY-V-L-DPK-NPLTFGAFA------DPS-----TYTEFRYLQEKAMQAALPKIGAVSKEFAEIFGRDH- A0A166A5S8/2-251 --VVKVITSNQAVAEAVKLSKPKVVPVYPITPQTTISEYLAQYVADGDL-DAEYIRVESEHSAISASIGASGAGVRVFTATSSQGLMLMHEIVYAAAGMRLPIVMADANRAISSPINIWNDQQDSIAQRDAGWIQLYCENAQESLDTIIQAYRIAENEDVLLPTMVCLDGFYLTHTVEPTEIPESDKVDSFVGEYVPKY-SFL-NPN-EPKSLGTLA------DPE-----YYMEARYEIDEALNNSLKVISDVGKEFGEIFGREYG A0A0E3NMQ3/8-258 KAKMVVVEGSYAVAQAAKVSRPNVISAYPITPQTHIVEDLSQFIADGEIPNCEYINVESEFSAISALVGAAAVGARTYSATTSQGLLLMHEVLFNAAGMRMPIIMTVANRAVSAPINIWNDHQDSIAQRDTGWLQLYAEDIQEAADMIPQIFKIAEDKDVLLPGMACMDGFILSHVYEPVVLLEQDLTDEFLPKYEPEY-V-L-DPK-NPLTFGAFA------DPS-----TYTEFRYLQEKAMQAALPKIEAVSKEFAEIFGRDH- A0A0E3NW06/8-258 KAKMVVVEGSYAVAQAAKVSRPNVISAYPITPQTHIVEDLSQFIADGEIPNCEYINVESEFSAISALVGAAAVGARTYSATTSQGLLLMHEVLFNAAGMRMPIIMTVANRAVSAPINIWNDHQDSIAQRDTGWLQLYAEDIQEAADMIPQIFKIAEDKDVLLPGMACMDGFILSHVYEPVVLLEQDLTDEFLPKYEPEY-V-L-DPK-NPLTFGAFA------DPS-----TYTEFRYLQEKAMQAALPKIEAVSKEFAEIFGRDH- A0A160VS31/3-252 --IRTVMKANEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVANGEL-DAEFIKVESEHSAISALVGAAAAGVRTFTATASQGLALMHEILFIAAGMRLPIVMAIGNRALSAPINIWNDWQDTISQRDTGWIQFYAENNQEALDLIIAAYKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYEPKH-AYL-DPQ-RPITQGALA------FPA-----HYMETRYLVWEAMERAKKVIDEVFEEFEKKFGRKYQ Q51804/2-252 -PIRKVMKANEAAAWAAKLAKPKVIAAFPITPSTLIPEKISEFVANGEL-DAEFIKVESEHSAISACVGAAAAGVRTFTATASQGLALMHEILFIAAGMRLPIVMAIGNRALSAPINIWNDWQDTISQRDTGWMQFYAENNQEALDLILIAYKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYEPKH-AYI-DPA-RPITQGSLA------FPA-----HYMESRYTVWEAMERAKKVIDEAFAEFEKKFGRKYQ I6UPL5/2-252 -PIRKVMKANEAAAWAAKLAKPKVIAAFPITPSTLIPEKISEFVANGEL-DAEFIKVESEHSAISACVGAAAAGVRTFTATASQGLALMHEILFIAAGMRLPIVMAIGNRALSAPINIWNDWQDTISQRDTGWMQFYAENNQEALDLILIAYKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYEPKH-AYI-DPA-RPITQGSLA------FPA-----HYMESRYTVWEAMERAKKVIDEAFAEFEKKFGRKYQ F6D5W3/2-251 --VLKVISANEAIAEAVKLAKPNVIPVYPITPQTTISEHLAKFVADGDI-DAEYIRVESEHSAISACVGASGAGVRVFTATSSQGLALMHEILFAAAGLRAPIVLADANRALSAPLCIWNDQQDSISQRDAGWMQIYVENCQEALDSILLGYKVSENHDVLLPSMVCLDGFILTHTVDPVDIPSAEDVDKFLPSYKPEH-AFL-DPK-QPMSIGSFT------DPD-----YYMEARYAMELAMERSKDVIAKANKEFAEIFGREYG A0A0E3SQ32/8-257 -KKMVVVEGSYAVAHSAKVCRPNVISAYPITPQTHIVENLSQFMADGEIPNCEYINVEAEFSAISALIGASAVGARTYSATTSQGLLLMHEALFNTSGMRLPVVMTVANRAVSAPINIWNDHQDAIAQRDTGWIQLYVEDVQEACDTLPQLYKIAEDNDIMVPGMVCMDGFILSHVYEPVILLEQDLTDNFLPTFQPED-I-L-DPE-DPKTFGAFA------APD-----TYEEFRYLHEQAMQKALPKIESVAKEFEEIFGRYH- A0A0E3P9I6/8-258 KAKMVVVEGSYAVAHAAKTCRPNVISAYPITPQTHIVEDLSQFMADGEIPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLELMHEVLFNASGMRFPIIMTVANRAVSAPINIWNDHQDSIAQRDTGWLQIYAEDVQEAADLIPQLYKVAENKDVLLPGMVCMDGFILSHVYEPVVLLEQDLTDEFLPKYEPEY-V-L-DPK-NPLTFGAFA------DPS-----TYTEFRYLQEKAMQAALPKIEAVSKEFAEIFGRDH- A0A150J245/2-251 --VKKIMTGNIAAAWGARLSRAEVIAAYPITPQTIIVEKLAQFVSDGEL-KAEYLHVESEHSAMAACIAASQTGARTFTATSSQGLVLMHELLHWASGARAPIVMANVNRALAPPWSVWVEHTDMMSQRDTGWIQFYAESNQEVLDTTIMCYKLCEDKDIQLPAMIGLDAFYLSHTSEIVDIPDQEKVDKFLPKFEPAY-P-L-DVE-NPLSIGSLS------MPH----QWYPEFRYKIQEAMERVIPKLNKIEEEFYKEFGRKYT A0A150ILX2/2-251 --VKKIMTGNIAAAWGARLSRAEVIAAYPITPQTIIVEKLAQFVSDGEL-KAEYLHVESEHSAMAACIAASQTGARTFTATSSQGLVLMHELLHWASGARAPIVMANVNRALAPPWSVWVEHTDMMSQRDTGWIQFYAESNQEVLDTTIMCYKLCEDKDIQLPAMIGLDAFYLSHTSEIVDIPDQEKVDKFLPKFEPAY-P-L-DVE-NPLSIGSLS------MPH----QWYPEFRYKIQEAMERVIPKLNKIEEEFYKEFGRKYT A0A150IUK5/2-251 --VKKIMTGNIAAAWGARLSRAEVIAAYPITPQTIIVEKLAQFVSDGEL-KAEYLHVESEHSAMAACIAASQTGARTFTATSSQGLVLMHELLHWASGARAPIVMANVNRALAPPWSVWVEHTDMMSQRDTGWIQFYAESNQEVLDTTIMCYKLCEDKDIQLPAMIGLDAFYLSHTSEIVDIPDQEKVDKFLPKFEPAY-P-L-DVE-NPLSIGSLS------MPH----QWYPEFRYKIQEAMERVIPKLNKIEEEFYKEFGRKYT A0A0E3PI46/8-258 KAKMVVVEGSYAVAHAAKTCRPNVISAYPITPQTHIVEDLSQFMADGEIPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLELMHEVLFNASGMRFPIIMTVANRAVSAPINIWNDHQDSIAQRDTGWLQIYAEDVQEAADLIPQLYKVAENKDVLLPGMVCMDGFILSHVYEPVVLLEQDLTDEFLPKYEPEY-V-L-DPK-NPLTFGAFA------DPS-----TYTEFRYLQEKAMQAALPKIEAVSKEFAEIFGRDH- F8AMT0/1-252 MSKVKIITGTSAAAEAARLCDVDVVSAYPITPQTTCVEKLADFVANGEL-DAEFIKVESEHSAISACVGASATGARTFTATSSQGLALMHEVLFIASGMRLPIVMMNANRALSAPINIWNDQQDSISQRDTGWIQIYVEDNQETLDSIIQAFKIAENENVLLPVMVNLDGFILTHTVEPVELPDEEEVRNFVGIYNPKH-AYL-DPD-KPITQGPVG------VPS-----CYMESKHDVQLAMDNAEKVIIDVNEEFAKKFGRKYG A0A0E3R8C5/8-257 -KKMVVVEGSYAVAHSAKVCRPNVISAYPITPQTHIVEHLSQFMADGEIPNCEYVNVEAEFSAISTLIGASAVGARTYSATTSQGLLLMHEALFNTSGMRLPVVMTVANRAVSAPINIWNDHQDAIAQRDTGWMQLYVEDVQEACDTLPQLYKIAEDNEIMVPGMVCMDGFILSHVYEPVVLLEQDLTDDFLPPFQPKD-I-L-DPE-DPKTFGAFA------SPD-----TYEEFRYLHEQAMQKALPKIEAVAKEFEEVYGRYH- A0A0E3QZQ9/8-257 -KKMVVVEGSYAVAHSAKVCRPNVISAYPITPQTHIVEHLSQFMADGEIPNCEYVNVEAEFSAISTLIGASAVGARTYSATTSQGLLLMHEALFNTSGMRLPVVMTVANRAVSAPINIWNDHQDAIAQRDTGWMQLYVEDVQEACDTLPQLYKIAEDNEIMVPGMVCMDGFILSHVYEPVVLLEQDLTDDFLPPFQPKD-I-L-DPE-DPKTFGAFA------SPD-----TYEEFRYLHEQAMQKALPKIEAVAKEFEEVYGRYH- A0A1D2WR68/8-257 -KKMVVVEGSYAVAHSAKVCRPNVISAYPITPQTHIVEHLSQFMADGEIPNCEYVNVEAEFSAISTLIGASAVGARTYSATTSQGLLLMHEALFNTSGMRLPVVMTVANRAVSAPINIWNDHQDAIAQRDTGWMQLYVEDVQEACDTLPQLYKIAEDNEIMVPGMVCMDGFILSHVYEPVVLLEQDLTDDFLPPFQPKD-I-L-DPE-DPKTFGAFA------SPD-----TYEEFRYLHEQAMQKALPKIEAVAKEFEEVYGRYH- A0A0E3WYR0/10-260 -KDMVVVEGSYAVASAVKACRPNVISAYPITPQTHIVEELSQFIADGEIPNCEYVMVESEFSALSALVGSSAAGARSYSATTSQGLELMHEVLFNVSGMRLPVVMTIANRAVSAPINIWNDQQDSISQRDTGWIQLYAEDTQEISDMTAQAFKIGEDPDILLPVMTCMDGFILSHVYEPVVLLDDDLVAEYLPPFEPEL-K-L-DPK-NPKTFGAFA------DPN-----SYTEFRYLQQQAMDKALKKIEDAADEFYDLFGRYYG D3E1J0/2-251 --AKEIMTTNRAVAEAVKLAKPQVVPVYPITPQTTISEYLAQFVADGDL-DAEYIRVESEHSAISATLGASEAGVRVFTATSSQGLMLMHEILFAAAGMRAPIVMADANRAISAPLNIWNDQQDSIAQRDAGWIQLYVENAQEAFDTVLQAYRIAEHEEVMLPVMVCLDGFILTHTVEPVDLLEQADVDTFLEPYVPKF-AFL-DPE-KPMSLGNFA------DPE-----YYTEARHDMQVAMDKSMDVIKEVGAEFGEKFGRTYG Q2Y4G6/10-260 -DKMVVVEGSYSIAHSVKICRPNVISAYPITPQTHIVEDLSQFMADGEIPNCEYINVESEFSALSALVGASAVGARSYSATTSQGLELMHEVLFNVSGMRLPVVMTVINRAVSAPINIWNDQQDSISQRDTGWIQLYAEDTQEMADMTAQAFKIAEDKDVLMPAMVCMDGFILSHVYEPVVLLEQDLVDKYLPTYNPEF-V-L-DPK-NPKSFGAFA------DPS-----TYTEFRFLQEKAMEVALQKIEDAANEFNELFGRYYG U6EEW1/2-250 --VQKVYSSNRAVAEAVKLAKPNVVPVYPITPQTTISEYLAQFVADGDL-KAEYIRVESEHSAISAALGASGAGVRVFTATSSQGLALMHEILFATAGMRSPIVLVDANRALSAPLSIWNDQQDSISERDSGWMQIYAENAQEALDAVLIAYRVAEDPEVLLPCMVCIDGYFLTHTVEPLDVPSQEEVDEFLPPYKP-Y-AFL-DPE-KPMSIGTFT------DPE-----YYMEARYAVEAAMEKSKNVFRKANQEFKEIFGREYD A0A0U3R7Q7/2-252 --PKKVVSGNYAAAYAAKHARVEVVAAYPITPQTSIIEKIAEFIANGEVENLQYVPVESEHSAMAACIGASATGARAFTATSAQGLALMHEMLHWAAGARLPIVMVDVNRAMAPPWSVWDDQTDSLSQRDTGWLQFYAENNQEVYDGVLMAFKIAEHEKVNLPVMVVESAFILSHTYDVVDMPEQEEIDEFLPPRKPLY-T-LTDFE-NPFSVGALG------TPA-----DYYEFRYKIAKAMEEAKKVIKEVGKEYGERFGRDYS W8CQR1/3-252 --IRTVMKANEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVANGEL-DAEFIKVESEHSAISACVGASAAGVRTFTATASQGLALMHEVLFIAAGMRLPIVMAIGNRSLSAPINIWNDWQDSISERDTGWLQFYAENNQEALDLILIAYKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQELVDEFLGEYEPKH-AYL-ASA-RPLTQGTLA------FPA-----HYMEARYTVWQANENAKKVIDEVFAEFEKRFGRKYQ F2KRX2/2-250 --KYVVQEGSHSIAEAVALCRPDVIAAFPITPQTHIVERLAELVANGTL-DAEFVNVESEHSALSLIAGAEACGMRTYTATSSQGLALMHEVLHAVSGMRLPVVMTVANRALSAPLNIWNDHSDSMSQRDTSWMQFYAESVQEAVDLTIQAYRIAESSDVMLPAMICMDGYVLTHTYEPVILPDRALVDEFLPPYEPEY-R-L-DPE-NPMTFGVYA------LPS-----DYMEFKWEQQKAMENAKRRIIRANREYRKMFGRTYG C6A485/1-252 MPMRKVMKGNEAAAWAAKLAKPKVVAAFPITPSTLVPEKISEFVADGEM-DAEFIKVESEHSAISACVGASAAGVRAFTATASQGLALMHEVLFIAAGMRLPIVMAIGNRSLSAPINIWNDWQDTISERDTGWMQFYAENNQEALDLILIAFKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYVPKH-AYF-DPA-KPITQGALG------FPA-----HYMEARFTVWEAMENARQVIAEAFDEFEKKFGRRYH C5A3F2/3-252 --IRTVMKANEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVANGEL-DAEFIKVESEHSAISACVGASAAGVRTFTATASQGLALMHEVLFIAAGMRLPIVMAIGNRSLSAPINIWNDWQDSISERDTGWLQFYAENNQEALDLILIAYKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYEPKH-AYV-DPK-RPITQGTLA------FPA-----HYMEARYTVWEANENARKVIDEAFAEFEKRFGRKYQ A0B9N9/15-265 MARMKVVEGSYAVAHAVKCCAPDVISAYPITPQTHIVEHLSQFVADGEL-DSEFLTVDSEFSAMSSLVGASAAGARCYSSTTSQGLALMWEVLYNAAGMRLPIVMTVANRALSAPLNIWNDQQDSVGARDSGWIQLYAEDVQEAADAIPQAYKIAEDPEILTPVMVCMDGFILTHVYEPVELLSVKDVERFLPPYRPEH-I-L-DPE-NPKTFGAFA------DPS-----YFTELRYMQWDAHRRALSKIETVAREFAEQFGRWYG A0A1D2WER0/2-251 --VKKVISSAEAVSEAVKRARPSVIPVYPITPQTKISEKLADYVADGDL-DAHYIKVESEHSAMSAAIGASGAGVRVFTATSSQGLAYMHEPVFAAAGMRVPIVMANANRALSAPINIWNDQQDSISERDSGWIQLYAETGQEAFDTILQAYKISENQDILLPTMVCIDGFILTHTVDPVEVLSQEEVDSFLPKYTRGY-SYL-DPE-DPMSLGTLA------DTE-----SYLEIRHDMEIAMEHSLDVIEEVGKEFGDLFGRYYG Q2NHW9/2-251 --VKKVISSAEAVSEAVKRARPSVIPVYPITPQTKISEKLADYVADGDL-DAHYIKVESEHSAMSAAIGASGAGVRVFTATSSQGLAYMHEPVFAAAGMRVPIVMANANRALSAPINIWNDQQDSISERDSGWIQLYAETGQEAFDTILQAYKISENQDILLPTMVCIDGFILTHTVDPVEVLSQEEVDSFLPKYTRGY-SYL-DPE-DPMSLGTLA------DTE-----SYLEIRHDMEIAMEHSLDVIEEVGKEFGDLFGRYYG A4FW18/1-252 MSEVKVITGTSAAAEAAKLADVDVIAAYPITPQTTCVEKLADFVANGEL-NAEYIKVESEHSAMSASIAASATGARTFTATSSQGLALMHEVLFAAAGMRVPVVMMNANRALSAPINIWNDQQDSLSQRDTGWIQLYAEDNQEVLDLVIQAFKIAEDEKVLLPVMVNLDGFILTHTVEPVTLPKQESVLDFIGSYEPKH-AYL-DPK-KPMTQGSLG------DPN-----YYMETRYAIETAMRNAEKVIADVHDAFAEKFNRAYG A0A0E3RPE4/7-257 KGKMVVVEGSYAVAHATKICRPNVISAYPITPQTHIVENLSQFMADGEVPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLLLMHEVLFNASGMRLPIIMTVANRAVGAPINIWNDHQDSIAQRDTGWLQLYVEDVQEAADTLPQIYKIAEDSDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPPFHPEN-I-L-DPE-DPQTFGAFA------APD-----TYEEFRFLQEQAMQKALPKIESVAKEFEEIFGRFH- A0A0F8EHB5/7-257 KGKMVVVEGSYAVAHATKICRPNVISAYPITPQTHIVENLSQFMADGEVPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLLLMHEVLFNASGMRLPIIMTVANRAVGAPINIWNDHQDSIAQRDTGWLQLYVEDVQEAADTLPQIYKIAEDSDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPPFHPEN-I-L-DPE-DPQTFGAFA------APD-----TYEEFRFLQEQAMQKALPKIESVAKEFEEIFGRFH- Q8PX82/7-257 KGKMVVVEGSYAVAHATKICRPNVISAYPITPQTHIVENLSQFMADGEVPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLLLMHEVLFNASGMRLPIIMTVANRAVGAPINIWNDHQDSIAQRDTGWLQLYVEDVQEAADTLPQIYKIAEDSDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPPFHPEN-I-L-DPE-DPQTFGAFA------APD-----TYEEFRFLQEQAMQKALPKIESVAKEFEEIFGRFH- A0A0E3Q257/7-257 KGKMVVVEGSYAVAHATKICRPNVISAYPITPQTHIVENLSQFMADGEVPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLLLMHEVLFNASGMRLPIIMTVANRAVGAPINIWNDHQDSIAQRDTGWLQLYVEDVQEAADTLPQIYKIAEDSDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPPFHPEN-I-L-DPE-DPQTFGAFA------APD-----TYEEFRFLQEQAMQKALPKIESVAKEFEEIFGRFH- A0A0E3S004/7-257 KGKMVVVEGSYAVAHATKICRPNVISAYPITPQTHIVENLSQFMADGEVPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLLLMHEVLFNASGMRLPIIMTVANRAVGAPINIWNDHQDSIAQRDTGWLQLYVEDVQEAADTLPQIYKIAEDSDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPPFHPEN-I-L-DPE-DPQTFGAFA------APD-----TYEEFRFLQEQAMQKALPKIESVAKEFEEIFGRFH- A0A0E3RBK7/7-257 KGKMVVVEGSYAVAHATKICRPNVISAYPITPQTHIVENLSQFMADGEVPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLLLMHEVLFNASGMRLPIIMTVANRAVGAPINIWNDHQDSIAQRDTGWLQLYVEDVQEAADTLPQIYKIAEDSDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPPFHPEN-I-L-DPE-DPQTFGAFA------APD-----TYEEFRFLQEQAMQKALPKIESVAKEFEEIFGRFH- A0A0E3RQR1/7-257 KGKMVVVEGSYAVAHATKICRPNVISAYPITPQTHIVENLSQFMADGEVPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLLLMHEVLFNASGMRLPIIMTVANRAVGAPINIWNDHQDSIAQRDTGWLQLYVEDVQEAADTLPQIYKIAEDSDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPPFHPEN-I-L-DPE-DPQTFGAFA------APD-----TYEEFRFLQEQAMQKALPKIESVAKEFEEIFGRFH- M1Q3A8/7-257 KGKMVVVEGSYAVAHATKICRPNVISAYPITPQTHIVENLSQFMADGEVPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLLLMHEVLFNASGMRLPIIMTVANRAVGAPINIWNDHQDSIAQRDTGWLQLYVEDVQEAADTLPQIYKIAEDSDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPPFHPEN-I-L-DPE-DPQTFGAFA------APD-----TYEEFRFLQEQAMQKALPKIESVAKEFEEIFGRFH- A0A166CMI6/2-250 --TLKVITANEAIAEAVKLSKPKVVPVYPITPQTTISEYLAKFVSNGDL-EAEYIRVESEHSALSAAIGASGTGVRVFTATSSQGLMLMHEIIFAAAGMRMPIVMADANRAISAPLNIWNDQQDSISQRDSGWMQIYVENAQEALDSVIQSYKVSENDNVLLPSMVCLDGFILTHTVEPVDIPDPELVEKFLPEFEPKY-AFL-DPT-RPMSLGSLT------DPD-----YYMEARYQVEEAMENSLEVIKNVDDEFGEIFGRKH- A0A0E3QQL5/8-257 -KKMVVVEGSYAVAHSAKVCRPNVISAYPITPQTHIVEHLSQFMADGEIPNCEYVNVEAEFSAISALIGASAVGARTYSATTSQGLLLMHEALFNTSGMRLPVVMTVANRAVSAPINIWNDHQDAIAQRDTGWMQLYVEDVQEACDTLPQLYKIAEDNEIMVPGMVCMDGFILSHVYEPVVLLEQDLTDNFLPPFQPED-I-L-DPE-DPKTFGAFA------SPD-----TYEEFRYLHEQAMQKALPKIEATAKEFEEVYGRYH- P80521/8-257 -KKMVVVEGSYAVAHSAKVCRPNVISAYPITPQTHIVEHLSQFMADGEIPNCEYVNVEAEFSAISALIGASAVGARTYSATTSQGLLLMHEALFNTSGMRLPVVMTVANRAVSAPINIWNDHQDAIAQRDTGWMQLYVEDVQEACDTLPQLYKIAEDNEIMVPGMVCMDGFILSHVYEPVVLLEQDLTDNFLPPFQPED-I-L-DPE-DPKTFGAFA------SPD-----TYEEFRYLHEQAMQKALPKIEATAKEFEEVYGRYH- G0HLX6/2-252 -PIRKVMKANEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVADGEL-DAEFIKVESEHSAISACVGASAAGVRTFTATASQGLALMHEILFIAAGMRLPIVIAVGNRSLSAPINIWNDWQDTISERDTGWLQFYAENNQEALDLILIAYKVAENEKVLLPAMVGFDAFILTHTVEPVEIPDQELVDEFLGEYEPKY-AYL-DPA-RPITQGTLA------FPA-----HYMEARYTVWEANENARKVIDEAFAEFEKKFGRKYQ W8CQ03/2-250 --PKKVVSGNYAAAYAVKHARVEVVAAYPITPQTSIIEKIAEFIANGEVENLQYVPVESEHSAMAACIGASAAGARAFTATSAQGLALMHEMLHWASGARLPIVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWMQFYAENNQEVYDGVLMAFKIAE--TVNLPAMIVESAFILSHTYDVVEMIPQELVDEFLPPRKPLY-D-LADFS-RPFSVGALG------TPA-----DYYEFRYKIAKAMEDAKKVIKDVGKEFGERFGRDYS A0A150JJX7/2-251 --VKKIMTGNVAAAWGARLSRTEVIAAYPITPQTSIVEKLAQFVSNGDL-KAEYIHVESEHSAMAACIAASQTGARAFTATSSQGLVLMHEMLHWASGARVPIVMVNVNRALAPPWNVWVEHTDMISQRDTGWIQFYAESNQEVLDTLIMSYKLCEDIKIQLPAMIGLDAFYLSHTSEIVDIPDQEQVDKFLPKYESAY-P-L-DTE-NPLSIGSLS------MPN----QWYSEFRYKIYEAMERVLPKLNQIEKDFYKEFGRKYT A0A150JEJ0/2-251 --VKKIMTGNVAAAWGARLSRTEVIAAYPITPQTSIVEKLAQFVSNGDL-KAEYIHVESEHSAMAACIAASQTGARAFTATSSQGLVLMHEMLHWASGARVPIVMVNVNRALAPPWNVWVEHTDMISQRDTGWIQFYAESNQEVLDTLIMSYKLCEDIKIQLPAMIGLDAFYLSHTSEIVDIPDQEQVDKFLPKYESAY-P-L-DTE-NPLSIGSLS------MPN----QWYSEFRYKIYEAMERVLPKLNQIEKDFYKEFGRKYT A0A0E3SAW4/8-258 KAKMVVVEGSYAVAHAAKISRPNVISAYPITPQTHIVEDLSQFIADGEIPNCEYINVESEFSAISALVGAAAVGARTYSATTSQGLLLMHEVLFNAAGMRMPIIMTVANRAVSAPINIWNDHQDAISQRDTGWLQLYAEDVQEAADMIPQIFKIAEDKDVLLPGMACMDGFILSHVYEPVVLLEQDLTDEFLPKYEPEY-V-L-DPK-NPMTFGAFA------DPS-----TYTEFRYLQEKAMQAALPKIEAVSKEFAEIFGRDH- E3GXN3/1-248 ---MEIMTGNKAVAEAVKLAKPKVISVYPITPQTTIAEHIAEYVANGEL-DAEYVKVESEHSAISVCVGASSTGVRTFTATSSQGLALMHEILFIAAGLRTPIVLANANRSLSAPINIWNDHQDSIAERDSGWLQFYVENAQEALDFTLIAYKVSENKDVLLPSMVCLDGFILTHTMEPVAVPSQKDVDNFLPSYKPE--VFL-DPD-NPVTIGAVA------DPN-----YYMEARYQIEVGMKKSLNVIHKANKEFKKIFGRKYG A0A162FKQ3/2-251 --TKEVMTANKAVAEAVRLAKPQVIPVYPITPQTTISEYLAQYVADERI-NAKYVKVESEHSAISAAVGASGAGVRVFTATSSQGLMLMHEILFAAAGMRTPIVLADANRAISAPLNIWNDQQDSIAQRDSGWLQIYVENAQEALDTTLMAYKISENPKVLLPSMVCLDGFILTHTVEPVEIPDEKAVDEFLPPYKPKH-SYL-DPN-EPMSVGTLA------DPD-----YYLEARYDIQVAMDNSLEVIQETCDEFAEKFGRKYG A0A165Z0Y4/1-249 -MTIKVMTANKAISEAVKLAKPQVIPVYPITPQTSISEYLAQYVADGDL-DAEYIRVESEHSAMSASMGASGTGVRVFTATSSQGLMYMHEVLYAAAGMRLPIVMADANRAISAPLSIWNDQQDSIVQRDAGWLQTYVENGQDALDSILMAYKISE--KVLLPSMVCLDGFILTHTVEPVEIPDESQVKKFLPPYKPKH-AFL-DPD-WSMSLGTLT------DPE-----YYMEARYQVEEAMEKSIAIINKVTKEFEDIFGRKYG C5A3F5/7-254 --IRKVVSGNYAAAYAVKHARVQVVAAYPITPQTSIIEKIAEFIANGEA-DIQYVPVESEHSAMAASIGASAAGARAFTATSAQGLALMHEMLHWASGARLPVVMVNVNRAMAPPWSVWDDQTDSLAQRDTGWMQFYAENNQEVYDGVLMSFKVAE--TVNVPAMVIESAFILSHTYDVVEMIPQELVDEFLPPRKPLY-D-LADFS-RAISVGALA------TPN-----DYYEFRYKLAKAMEDAKKVIKDVGKEFGERFGRDYS B9AGM3/2-251 --TKEVMTANKAVAEAVRLAKPQVIPVYPITPQTTISEYLAQYVADEKI-DAKYVKVESEHSAISASVGASSAGVRVFTATSSQGLMLMHEILFAAAGMRTPIVLADANRAISAPLNIWNDQQDSIAQRDAGWLQIYVESAQEALDTTLMAYKISENYDVLLPSMVCLDGFILTHTVEPVEIPTQEDVDKFLPPYVPKH-AFL-DPN-EPMSIGTLA------DPD-----YYLEARHDMQVAMEKSIPVIEETCKEFAEIFGREYG A0A1D2WRJ0/2-251 --TKEVMTANKAVAEAVRLAKPQVIPVYPITPQTTISEYLAQYVADEKI-DAKYVKVESEHSAISASVGASSAGVRVFTATSSQGLMLMHEILFAAAGMRTPIVLADANRAISAPLNIWNDQQDSIAQRDAGWLQIYVESAQEALDTTLMAYKISENYDVLLPSMVCLDGFILTHTVEPVEIPTQEDVDKFLPPYVPKH-AFL-DPN-EPMSIGTLA------DPD-----YYLEARHDMQVAMEKSIPVIEETCKEFAEIFGREYG A0A1M4MQ70/2-250 --VLKVISANQAVAEAVKLAKPEVIPVYPITPQTSISEYLAKFVADGEL-RAEYIRVESEHSAMSACVGASGAGARVFTATSSQGLALMHEIIYAAAGLRNPIVMANANRALSAPLSIWNDQQDSIAERDSGWMQIYVENGQEALDSVLLSYRVSEDSDVLLPSMVCLDGFILTHTVEPVDIPSEDDVASFLPEFQPQ--AVL-DPE-TPMSLGTFT------DPE-----YYMEARYEIEMAMENSRKVIERANREFMEIFGREYG A0A0E3SJR0/7-257 KGKMVVVEGSYAVAHAAKICRPNVISAYPITPQTHIVEDLSQFMADGEIPNCEYINVESEFSAISALIGASAVGARTYSATTSQGLLLMHEALFNASGMRLPIIMTVANRAVGAPINIWNDHQDSISQRDTGWIQLYVEDVQEASDTLPQLYKIAEDSEVMMPGMVCMDGFILSHVYEPVVLLEQELTDNFLPSFQPEN-V-L-DPE-DPKTFGAFA------APD-----TYEEFRYLQEQAMQKALPKIEAVAKEFEEVFGRFH- H9UCP6/3-252 --LKQAITGAEAIAYAMKQINPDVVAAYPITPQTPVVEYFAKYVADGVV-DTEMIPVESEHSAMSAVVGAAAAGARAFTATASVGLALMHEVVFIAASLRLPIVMAVANRALSGPINIHCDHSDAMAERDSGWIQLWAENAQEAYDFTVMAYRIAEHPDVRLPVMVNFDGFIISHGVEVVETLDDDVVKNFVGKPIKMY-PLL-DTS-KPVTYGPLD------LYD-----YYFEHKRQQIEAMKHVPRVFKEVAEEFAKISGRKYD A0A0A6N4P4/5-254 -VERVAVTGAEAVANAMRQIEPDVVAAYPITPQTPIVEYFARFVADGVV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSANGLALMHEIVYIAASYRLPIVMPVVNRALSGPINIHCDHSDAMAERDSGWIQLFAETNQEAYDFTILAVRLAEHEDVRLPVMVNLDGFILSHGVEPVEFYPDELVKKFVGELKPMY-PLL-DTE-HPVTWGPLD------LYD-----YYFEHKRQQIEAMENVKKVFPEIAKEFEETFGRKY- D2C708/5-254 -VERVAVTGAEAVANAMRQIEPDVVAAYPITPQTPIVEYFARFVADGVV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSANGLALMHEIVYIAASYRLPIVMPVVNRALSGPINIHCDHSDAMAERDSGWIQLFAETNQEAYDFTILAVRLAEHEDVRLPVMVNLDGFILSHGVEPVEFYPDELVKKFVGELKPMY-PLL-DTE-HPVTWGPLD------LYD-----YYFEHKRQQIEAMENVKKVFPEIAKEFEETFGRKY- A5IL51/5-254 -VERVAVTGAEAVANAMRQIEPDVVAAYPITPQTPIVEYFARFVADGVV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSANGLALMHEIVYIAASYRLPIVMPVVNRALSGPINIHCDHSDAMAERDSGWIQLFAETNQEAYDFTILAVRLAEHEDVRLPVMVNLDGFILSHGVEPVEFYPDELVKKFVGELKPMY-PLL-DTE-HPVTWGPLD------LYD-----YYFEHKRQQIEAMENVKKVFPEIAKEFEETFGRKY- A0A0F6AL76/5-254 -VERVAVTGAEAVANAMRQIEPDVVAAYPITPQTPIVEYFARFVADGVV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSANGLALMHEIVYIAASYRLPIVMPVVNRALSGPINIHCDHSDAMAERDSGWIQLFAETNQEAYDFTILAVRLAEHEDVRLPVMVNLDGFILSHGVEPVEFYPDELVKKFVGELKPMY-PLL-DTE-HPVTWGPLD------LYD-----YYFEHKRQQIEAMENVKKVFPEIAKEFEETFGRKY- A0A1D3L4E4/2-251 --VLKVISSNQAIAEAVKLAKPQVIPVYPITPQTTISEYLAKFVADGDI-DAEYIRVESEHSAISASVGASGAGVRVFTATSSQGLALMHEILFAAAGLRAPIVLADANRALSAPLSIWNDQQDSISQRDAGWLQVYAENGQEALDSVLMAYKISENPEVLLPSMVCVDGFILTHTVDPVDVPSQEEVDEFLPPYKPEH-AFL-DPA-NPMSIGSFT------DPD-----YYMEARYSMELAMERSKKVFKKVSEEFEAKFGRKYD V9NHA1/4-254 -KNLMAITGAEAAAYAMKQIEPDVVAAYPITPQTPIVEYFAKYVADGEV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSAQGLALMSEIVYIASSLRLPIVMGLVNRALSAPINIHCDHSDAMMVRDSGWIQLFCEDAQEVYDLTILAVRLAEHDDVRLPVMVNQDGFIISHGVEPVEVLPDDVVKKFVGELKPIY-PLL-DTD-HPVTYGALD------LYD-----YYFEHKRQQIEAMKHAYRVFPQIAEEFYKISGRKYD A0A0X1KQ45/4-254 -KNLMAITGAEAAAYAMKQIEPDVVAAYPITPQTPIVEYFAKYVADGEV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSAQGLALMSEIVYIASSLRLPIVMGLVNRALSAPINIHCDHSDAMMVRDSGWIQLFCEDAQEVYDLTILAVRLAEHDDVRLPVMVNQDGFIISHGVEPVEVLPDDVVKKFVGELKPIY-PLL-DTD-HPVTYGALD------LYD-----YYFEHKRQQIEAMKHAYRVFPQIAEEFYKISGRKYD Q12U49/10-260 -KNMVVVEGSYAVADAVKACRPNVISAYPITPQTHIVEDLSQFIADGEIPNCEYINVESEFSAISALVGSSAAGARSYSATTSQGLELMHEVLFNVAGMRLPVVMTVVNRAVSAPINIWNDQQDSISQRDTGWIQLHAEDTQEAADMTAQAFKIAEDPDVLLPVLACMDGFILSHVYEPVVLLDEDLVAEYLPPFEPKF-K-L-DPK-NPKTFGAFA------DPN-----SYTEFRYLQQQAMNKALKTIGDAADEFYDLFGRHYG C6A488/2-252 --PKKVISGNYAAAYAAKHARVEVVAAYPITPQTSIIEKIAEFIANGEVENLEYVPVESEHSAMAACIGASAAGARTFTATSAQGLALMHEMLHWAAGARLPVVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWLQFYAENNQEVYDGVLMAFKIGEHEKVNLPVMVIESAFILSHTYDIVDMLEQEEVDEFLPPRKPLY-S-LTDFD-NPFSIGALG------TPA-----DYYEFRYKIAKAMEEAKKIIKEVGKEFGEKFGRDYS F4A245/2-252 -AIRERLSGNEAVAFAMRQIDPDVVAAFPITPSTEVPQYFSQFVANGQV-HTEFVAVESEHSAMSACIGAEAAGARTMTATSSQGLALMWEMLYIAASMRLPIVMTAVNRALSAPINIHNDHSDAMGARDSGWIQIYNETNQEAYDSLIMAIRVAEHADVQLPVMVCYDGFITSHSVENIMLLEDELVKNFVGEYKPKY-SLL-DKE-HPVSMGMFD------LPA-----FYFEHKRQQAEAIKNAKQVLIDVQNEFAKISGRQYG K2RT08/2-250 --VQKVFTSNRAVAEAVKLAKPAVVPVYPITPQTTISEYLAQFVADGDL-KAEYIRVESEHSAISAALGASGAGVRVFSATSSQGLALMHEILFAAAGMRSPIVLVDANRALSAPLSIWNDQQDSISERDSGWLQIYAEDAQEALDSVLVAYRVAEDRDVLLPCMVCIDGYFLTHTVEPLEVPSQEDVDQFLPEYKP-Y-AFL-DPE-HPMSIGTFT------DPE-----YYMEARYAIEASMEGSKKVLAKAYHEFEEVFGRKYD Q5JIK0/6-254 --IRKVVSGNYAAAYAALHARVQVVAAYPITPQTSIIEKIAEFIANGEA-DIQYVPVESEHSAMAACIGASAAGARAFTATSAQGLALMHEMLHWASGARLPIVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWMQFYAENNQEVYDGVLMAFKVAE--TVNLPAMVVESAFILSHTYDVVEMIPQELVDEFLPPRKPLY-D-LADFEREPFSVGSLA------TPA-----DYYEFRYKIQKAMEEAKKVIKEVGREFGERFGRDYS Q8TUN4/8-258 KAKMVVVEGSYAVAHAAKVSRPNVISAYPITPQTHIVEDLSQFMADGEIPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLLLMHEVLFNAAGMRLPIVMTVANRAVSAPINIWNDHQDSIAQRDTGWLQLYAEDVQEAADMVPQIFKIAEDKDVLLPGMACMDGFILSHVYEPVVLLEQDLTDEFLPKYEPEY-V-L-DPK-NPLTFGAFA------DPS-----TYTEFRYLQEKAMQAALPKIEAVSKEFAEIYGRDH- Q8TZ57/1-252 MTEVHVINGNYAVAEAVRMVDVDVIAAYPITPQTPIVEYLSEFVSNGEL-DAEFIHVESEHSAISAVLGASATGARVFTATASQGLALMHEILFIASGLRLPIVMAVANRALSAPINIWCDHSDSVAQRDTSWIQLYCESNQEVFDTVVQAYRIAEHEDVLLPVMVCLDGFTLSHTLEPVELPEEEEVRSFVGKYEPTH-CYL-DPE-DPMTLGPVG------GPD-----SYMEFKKMQHDAMEKAREVIGEVNREFSDEFGRSYG Q5JIJ7/3-252 --IRTVMKANEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVANGEL-DAEFIKVESEHSAISACVGASAAGVRTFTATASQGLALMHEILFIAAGMRLPIVIAVGNRALSAPINIWNDWQDTISERDTGWLQFYAENNQEALDLILIAFKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYEPKH-AYL-DPE-RPITQGTLA------FPA-----HYMEARYTVWEANENAKKVIDEVFAEFEKKFGRKYQ A0A075LT26/1-251 --MKKVISGNYAAAYAAKHARVEVVAAYPITPQTSIIEKISEFIANGEVENLQYVPVESEHSAMAACIGASATGARAFTATSAQGLALMHEMLHWASGARLPIVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWLQFYAENNQEVYDGVLMAFKIAEHKKVNLPVMVIESAFILSHTYDVVDMPPQEEIDEFLPPREPLY-T-LTDFD-NPIAVGALG------TPS-----DYYEFRYKIAKAMENAKEVIKEVGKEFGERFGRDYS A0A096CWH8/2-253 -AIRERLSGNEAVATAMKQINPDVVAAFPITPSTEVPQYFSQFVANGSV-DTEFVAVESEHSAMSACVGASAAGARVMTATSANGLALMWEILYIAASSRLPIVMPVINRALSGPINIHNDHSDSMGARDSGWIQLYSEDNQEAYDNIIQAIRIAEHKDVRLPVMVCMDGFIVSHSVENIELLETEKVKEFVGEYDPGLDTLL-NPE-QPVAMGPLD------LPP-----HYFEHKRQQAEAMKNAKKVILEIAKEFEALTGRKYG A0A147JRX7/1-247 --MKQLVTGDEAAAIAAKLARVKVISAYPITPQTIIVERLAEFVADGEL-DAEYIKVESEHSALSACLGSAAVGARTFTATSSQGLMLMSEILFVASGMRLPIVMANANRSLSAPLSIWCDQQDSVAVRDCGWIQLYCENNQEVLDSTIQAFRIAE--ESLLPVMVCFDGYILSHTAEPVEIPEQAEVDKFLPPYKYPY-L-L-DPE-KPITMGAVG------VPE-----YYEEFRYMLQEAVLKSKEKIIEVGQAFGRQFGRKSD A8F845/4-253 --TRQAITGAQAAAYAMKQIEPDVVAAYPITPQTPIVEYFAKYVADGVV-KTEMIPVESEHSAMSALVGAAAAGARAMTATSANGLALMHEIVYIAASLRLPIVMPVVNRALSGPINIHCDHSDTMAERDSGWIQLFCEDAQEVYDLTIMAVRIAEHENIRLPVMVNQDGFIISHGVEAVELLPDDVVKSFVGQLKPLY-PLL-DVE-NPVTYGPLD------LYD-----YYFEHKRQQIEAMKNVFEVFSKISEEYYKISGRKYD A0A1F9IYZ2/8-257 --GQVGLTGNTAVAYAMKQINPDVCAAYPITPSTQIVEEFSGYVADGAV-DTEFITVESEHSAMSACIGASAAGARVMTATSSQGLALMWEMLYIASGMRLPIILTNVNRALSSPINIHCDHSDSMGARDSGWIQLYSETVQEAYDNLFQAVRIAENEKVMLPVMVCLDGFITSHAIENMSLLDDAEVRQFIGEYKALH-SLL-DTD-NPVTYGAMT------LPD-----TYIEFKRQQSDAIARAKDVVSEIGKDFGNRFGREYG A0A0P8VS92/2-253 -AIRERLSGNEAVATAMKQINPDVVAAFPITPSTEVPQYFSQFVANGSV-DTEFVAVESEHSAMSACVGASAAGARVMTATSANGLALMWEILYIAASSRLPIVMPVINRALSGPINIHNDHSDSMGARDSGWIQLYSEDNQEAYDNIIQAIRIAEHKDVRLPVMVCLDGFIVSHSVENIELLETEKVKEFVGEYDPGLDTLL-NPE-QPVAMGPLD------LPP-----HYFEHKRQQAEAMKNAKKVILEIAKEFEALTGRKYG J1L346/1-249 --MMKIVEGSHAVAEAVKLCRPQVISAYPITPQTHIVEALASMVADCEL-DAEYICVESEFSALSGCVGASAAGSRTYSATTSQGLALMFEVCFNAAGMRLPIVMTIANRAMGAPLNIWNDQQDSISLRDAGWMQFYAEDNQEATDLHFITYKVAEDHNVLLPAMVCFDGFILTHTYEPVDMPSQEGIDAFLPPFKPYN-T-L-DAK-KPMSLGMYA------TPD-----YYMEFRYEIDEAMKRAKQAFANAGKEFAEQFGRDYS G7WRA8/1-249 --MKKVVEGSYGIADAVRCCSPDVISVYPITPQTHIVEHLSEFVADGKL-DCQYINVESEFSSLSSLIGASAAGARTYTSTTSQGLALMFEVLFNVSGMRLPIVMTTVNRALSAPLSIWNDQQDAMAAREAGWIQIYAENVQEAMDLTPQLYKISEDPKILTPSMACMDGFILTHVYEPVEFLDIEKVREFLPPYRPED-V-L-DPK-DPKTFGAFA------DPS-----WFTEFKYLQYQAMERAKKKIALVSKEFEEVFGRGYG E5KJZ0/1-249 --MKKVVEGSYGIADAVRCCSPDVISVYPITPQTHIVEHLSEFVADGKL-DCQYINVESEFSSLSSLIGASAAGARTYTSTTSQGLALMFEVLFNVSGMRLPIVMTTVNRALSAPLSIWNDQQDAMAAREAGWIQIYAENVQEAMDLTPQLYKISEDPKILTPSMACMDGFILTHVYEPVEFLDIEKVREFLPPYRPED-V-L-DPK-DPKTFGAFA------DPS-----WFTEFKYLQYQAMERAKKKIALVSKEFEEVFGRGYG A0A1D2X2L1/2-251 --VVKVISSAEAISEAVKRARPSVIPVYPITPQTVISERLADYVADGDL-DANYIRVESEHSAMSAAIGAAGAGVRVFTATSSQGLAYMHEPVFAAAGMRLPIVMADANRALSSPINIWNDQQDSISERDGGWIQLYAETGQEAFDTILQAYKIAENPEVSLPTMVCVDGFILTHTVDPVDLIPQEEVDEFLPKFKRTH-FYL-DPE-DPMSLGTLA------DPE-----YYYELRHDLEKALEKSKSVIEEVGKEFGDKFGRYYG A0A172WGL3/6-254 --IRKVVSGNYAAAYAAKHARVEVVAAYPITPQTSIIEKIAEFISNGEVENLQYVPVESEHSAMAACIGASAAGARAFTATSAQGLALMHEMLHWASGARLPIVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWMQFYAENNQEVYDGVLMAFKVAE--TVNLPAMVVESAFILSHTYDIVEMIPQELVDEFLPPRKPLY-T-LTDFD-NPIAVGSLG------GPN-----DYYEFRYKIEKAMDDARKVIKEVGKEFGEMFGRDYR A0A172WGR1/2-252 -PIKKVMKANEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVANGEL-DAEFVKVESEHSAISACVGASAAGVRTFTATASQGLALMHEILFIAAGMRLPIVIAIGNRALSAPINIWNDWQDTISERDTGWLQFYAENNQEALDLILIAFKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQELVDEFLGEYVPKH-AYL-DPA-KPITQGALG------FPA-----HYMEARYGVWEANEAAKKVIDEAFAEFEKRFGRKYQ D7EBF1/10-260 -DMMTVVEGSYAVAHATKVCKPNVISAYPITPQTHIVEDLSQFIADGEIENCDYINVESEFSALSTLVGSSATGARTYSSTTSQGLALMHEVLFNASGMRLPIVVTVVNRALSAPINIWNDQQDSVSERDSGWIQLYAEDVQEAGDMIAQAYKVGEDPDVMLPVMVCMDGFLLSHVYEPVVLLEEDLIDDYLPPFDPEY-K-L-DPK-DPKTFGAFA------PPA-----SYTEFRYAQEQAMSAALDKIEKAADDFYDVFGRYYG A0A1F9HLT6/7-257 -TRQTGLTGNSAVAYAMKQINPDVCAAYPITPSTQIMEDFSSYVADGVV-DTELITVESEHSAMSACIGAAAAGARVMTATSSQGLALMWEMLYIASGMRLPIVLADVNRALSAPINIHCDHSDTMGARDSGWIQIYSETVQEAYDNLFQAVRVAENENVLLPVMICLDGFITSHAIENISLLNDAEVKQFMGEYKAKH-TLL-DTD-HPVTYGAMT------LPD-----TYIEFKRQQSDAIARAKDVVAEVGKEFGARFGREYS I3REJ5/6-253 --IKKVVSGNYAAAYAALHARVQVVAAYPITPQTSIIEKIAEFIANGLA-DIQYIPVESEHSAMAACIGASATGARVFTATSAQGLALMHEMLHWASGARLPIVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWMQFYAENNQEVYDGVLMAYKIAE--TVNLPAMIVESAFILSHTYDIVEMIPQELVDEFLPPRKPLY-S-LANFE-EPFAVGGLA------TPN-----DYYEFRYKIAKAMEEAKDVIKRVGKEFGEKFGRDYS A7I630/1-249 --MLEITEGSMAVAEAVRLCRPQVVSAYPITPQTHIVEALAEMVANGKL-DADYITVESEFSALSACLGASAAGSRTYSATTSQGLALMYEVCFNVAGMRLPIVMTIANRAMGAPLSIWNDQQDSISLRDSGWLQFYAEDNQEATDLHYIAYKVAENPTVQLPAMVCFDGFILSHTYEPVDMISQEDADKYLPKFSPKE-R-L-DAA-DPISFGMYA------TPE-----YYLEFRYEIDKAVKEAAVAIRAAGAEFGKMFGRDYS A0A1D2QX46/1-248 --MKTIIEGSRAAAEAVRLARVDVVAAYPITPQTHIVEDIAEMCANGEI-EAEYIKVESEHSAMSACVGASAAGVRTYTATSSQGLALMHEILYVASGMRLPIVMTNANRAVSAPISIWNDQQDSMGQRDTGWLHLFAETCQEVLDLTIAAYKIAENHDILLPVMVCMDGFTLTHTVEPVDVPGEEEVDSFLPGYKPLY-K-L-DSK-NPMSFGPIA------FPD-----SYMEFRKMQWDAMNKSRDVIKQVSREFKEKFGRSA- A0A1F2P4V0/1-248 ---MEVVEGSYAVAHAVKCCRPHVISAYPITPQTHIVENLAQFVADGEL-ECEFVPVDSEHSAMSVALGASAVGARAYSASTSQGLALMWEVLYNVSGMRLPVVMTAVNRALSAPLSIWNDQQDTVGARDSGWIQIYVEDIQEAHDALIQAYRIAESREVMLPAMICMDGFILTHTYEPVVLAEQEETDDFLPPYDPEY-Y-L-TVE-RPLSFGCFA------EPD-----KFMEFRYMQHEAMERARFKIKEVADEFERAFGRYYG A0A1J5JAH8/1-249 --MKTILEGSEVVAEVVVLCRPAVLTIYPITPQTHIPENLSQIVADGKL-NAKIIYAESEHSAISACVGASASGVRTYTATSSQGLALMHEILFIASGMRLPIVMTNANRALSAPISIWNDQSDSVAQRDTGWIQLYAETNQEVGDKIIQAYKIAEDREILLPVMVNMDGFILTHCVEPVDIPEQEEVDKFLSEYKPLY-K-L-DPG-NPMTFGPIS------FPN-----SYTEFKKMQWNAMEKAKDKIKKANDEFYKFFGRNYG A0A147JV99/14-261 -PMMRIIDGNEAVALAAKLARVKVISAYPITPQTTVVEKLAEYISNGEL-DAEFIKVESEHSAMSACIGAAATGVRAFTATSSQGLLLMSEMLYVASGLRLPIVMTNANRSVSAPLSIWCDQQDSMTVRDSGWIQLYCENNQEILDTTIQAFRIAE--ELLLPVMVCYDGYILSHTLEPVDCPEQSEVDAFLPEYHYPY-A-L-DPE-KPVTMGPVG------VPE-----YYMEFRYLLQKAVQESKAKIVEIDHEFKKRFGRGYG A0A075LSK6/1-252 MPMRKVMKGNEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVADGEL-DAEFIKVESEHSAISACVGASAAGVRTFTATASQGLALMHEILFIAAGMRLPIVMAIGNRALSAPINIWNDWQDTISERDTGWLQFYAENNQEALDLILAAFKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYVPKH-AYL-DPE-RPITQGALG------FPA-----HYMEARYTVWEAMENAREVIKEVFEEFEKKFGRKYH A0A0P8A6Y2/3-252 -KNMVVVEGSYAVAHAVKVCRPNVISAYPITPQTHIVEDLAQFAADGEM-NCEYMNVESEFSAISALIGASAAGARTYSSTTSQGLALMHEALFNASGMRLPIVMTVVNRALSAPINIWNDQQDSISQRDTGWIQLYAEDVQESADMTPQIYKLAEDEDVLLPAMSCMDGFILSHVYEPVILLEQSLTDEFLPAYDPEF-T-L-DPK-NPMSFGAFA------DPG-----TYTEFRYKQEKAMGVALEKIEEIANEFKDIYGRYYG A0A1F2PC22/1-248 ---MQVVEGSYAIAHAVKRCRPGVISAYPITPQTHIVEDLAQFVADGEL-ECEFVPVDSEHSAMSVALGASAVGARAYSASTSQGLALMWEVLYNVSGMRLPVVMTAVNRAMSAPLSIWNDQQDTIGARDSGWIQIYAEDIQEAHDAMIQGYKIAESKDVMLPLMVCADGFILTHTYEPVVLAEQIEVDDFLPPYEPEY-F-L-SVD-NPLSFGCFA------EPD-----KYMEFRYMQHEAMDRARIRIKEVADEFDKAFGRYYG A0A101FA94/7-256 -VERVAVTGAEAVANAMRQIEPDVVAAYPITPQTPIVEYFARFVADGVV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSANGLALMHEIVYIAASYRLPIVMPVVNRALSGPINIHCDHSDAMAERDSGWIQLFAETNQEAYDFTILAVRLAEHEDVRLPVMVNLDGFILSHGVEPVEFYPDELVKKFVGELKPMY-PLL-DTE-HPVTWGPLD------LYD-----YYFEHKRQQIEAMENVKKVFPEIAKEFEETFGRKY- A0A101EQD9/7-256 -VERVAVTGAEAVANAMRQIEPDVVAAYPITPQTPIVEYFARFVADGVV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSANGLALMHEIVYIAASYRLPIVMPVVNRALSGPINIHCDHSDAMAERDSGWIQLFAETNQEAYDFTILAVRLAEHEDVRLPVMVNLDGFILSHGVEPVEFYPDELVKKFVGELKPMY-PLL-DTE-HPVTWGPLD------LYD-----YYFEHKRQQIEAMENVKKVFPEIAKEFEETFGRKY- A0A0P9FUF0/1-250 MGKIMGISGNVAIAHAVRLADVDVVSAYPITPQTTVVEKLSEFVAEGLL-DAEFIKVESEHSALSACIGASAAGSRAYTSTCGPGLALMHELLWVASGLRLPIVMSVINRSYSAPISIWSDHCDSLAQRDSGWVQIYCEDCQEAFDTTLQAFKIAENEQVLLPVMVGYDGYILSHLVEPVEILNEEEVKLFLPPYKPRH-I-L-TPD-NPVTMGPIA------FPS-----HYFEFKRQQEEAMVKAKKVITEVGDEYGKLFGRRC- A0A117LFH4/1-249 --MRRVVEGSYAIADAVRCCSPDVVSVYPITPQTHIVEHLSEFVADGKL-DCEYINVESEFSSLSSLIGASVAGARTYTSTTSQGLALMFEVLYNVSGMRLPIVMTTVNRSLSAPLSIWNDQQDSLGVRDSGWIQIYAENVQEAIDLTPMLYKISEDPQILTPSMVCMDGFILTHVYEPVDFLDEEMVREFLPPYRPEH-I-L-DPE-NPKTFGAFA------DPS-----WFTEFKYLQYQAMERSREKIAEVTREFEEVFGRGYG A6LJW1/5-255 -KNRQAVTGAQAIANAMRQINPDVVAAYPITPQTPVVEYFAQYVADGLA-DTEMIPVESEHSAMSAVVGAAAAGARAMTATAANGLALMHEIVYIAASSRLPIVMPVANRALSGPINIHCDHSDAMAERDSGWIQLWAENAQEAYDFTIMAVRLAEHEDVRLPVMVNFDGFIISHGVEVVDFLDDEVVKKFVGEPKVIY-PLL-DVE-KPVTHGPLD------LYD-----YYFEHKRQQIEAMKHVKKVFKEIAEEFEKISGRKYD A0A1L7BIH7/5-255 -KNRQAVTGAQAIANAMRQINPDVVAAYPITPQTPVVEYFAQYVADGLA-DTEMIPVESEHSAMSAVVGAAAAGARAMTATAANGLALMHEIVYIAASSRLPIVMPVANRALSGPINIHCDHSDAMAERDSGWIQLWAENAQEAYDFTIMAVRLAEHEDVRLPVMVNFDGFIISHGVEVVDFLDDEVVKKFVGEPKVIY-PLL-DVE-KPVTHGPLD------LYD-----YYFEHKRQQIEAMKHVKKVFKEIAEEFEKISGRKYD A7HLD3/3-252 --LKQAITGAEAIAYAMKQINPDVVAAYPITPQTPVVEYFAKYVADGVV-DTEMIPVESEHSAMSAVVGAAAAGARAFTATASVGLALMHEVVFIAASLRLPIVMAVANRALSGPINIHCDHSDAMAERDSGWIQLWAENAQEAYDFTVMAYRIAEHPDIRLPVMVNFDGFIISHGVEVVETLDDEVVKQFVGKPIRMN-SLL-DTS-KPVTYGALD------LYD-----YYFEHKRSQIEAMKHVPRVFKEVAEEFAKISGRKYD A0A1L7BE76/5-255 -KNRQAVTGAQAVANAMRQINPDVVAAYPITPQTPVVEYFAQYVADGLA-DTEMIPVESEHSAMSAVVGAAAAGARAMTATAANGLALMHEIVYIAASSRLPIVMPVANRALSGPINIHCDHSDAMAERDSGWIQLWAENAQEAYDFTIMAIRLAEHEDIRLPVMVNFDGFIISHGVEVVDFLDDEVVKKFVGEPKVKY-PLL-DVD-NPVTHGPLD------LYD-----YYFEHKRQQIEAMKHVYKVFNKVAEEFAKISGRKYN A0A1L2EIP1/5-255 -KNRQAVTGAQAVANAMRQINPDVVAAYPITPQTPVVEYFAQYVADGLA-DTEMIPVESEHSAMSAVVGAAAAGARAMTATAANGLALMHEIVYIAASSRLPIVMPVANRALSGPINIHCDHSDAMAERDSGWIQLWAENAQEAYDFTIMAIRLAEHEDIRLPVMVNFDGFIISHGVEVVDFLDDEVVKKFVGEPKVKY-PLL-DVD-NPVTHGPLD------LYD-----YYFEHKRQQIEAMKHVYKVFNKVAEEFAKISGRKYN L0KYP3/10-260 -EKMVVVEGSYAVAHAVKICRPNVISAYPITPQTHIVEGLSKFMADGEIQNCEYINVESEFSALSALVGSSAVGARCYSATTSQGLELMHEVLFNVSGMRLPIVMTVVNRAVSAPINIWNDHQDAISQRDTGWIQLYAEDLQEAADMTAQAFKIAEDKEVLMPVMACMDGFILSHVYEPVILLEQELTDEYLPTYEPLN-T-L-DPK-KPMSFGTLA------DPN-----CYTEFRYLQQKAMENALKKIEDAANEFYDVFGRYYG B6YY05/6-254 --IRKVVSGNYAAAYAAKHARVEVVAAYPITPQTSIIEKIAEFIANGEVENLQYVAVESEHSAMAACIGASAAGARAFTATSAQGLALMHEMLHWASGARLPIVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWMQFYAENNQEVYDGVLMAFKVAE--TVNLPAMVVESAFILSHTYDIVEMIPQELVDEFLPPRKPLY-T-LTDFD-NPVSVGALG------TPA-----DYYEFRYKIEKAMEKARKVIKEVGKEFGEMFGRDYS A0A1G1PMA7/3-253 -KKLVALTGNDAAAYAMKQINPDVVAAYPITPQTSLMEKFAQYVADGEI-DTEVVLVESEHSAMSACVGASAAGARVMTATSSQGLALMWEICYIAAGYRLPIVMPLVNRALSGPINIHCDHSDAMGVRDSGWIQLWAENAQEVYDNLLQAIRIAEDPSVLLPVIVNYDGFIISHAIENMHIYDDAGINKFVGEYKPKY-TLL-DPA-NPTTFGGFD------LPD-----YYFEHRRQIADAMTKSAKVIADVAEEFSKICGREYK A0A1F8YBT0/9-259 --CNVGLTGNSAVAYAMKQINPDVVAAYPITPSTTVMEEFSSYVADGAV-DTELVTVESEHSAMSACIGAAAAGARVMTATSSQGLALMWEMLYIAAGMRLPIVMACVNRALSAPLNIHCDHSDSMGARDSGWIQLYSETVQEAYDNIIQAVRIAEHEDVLLPVMVCLDGFITSHSIENLCLIDNDKVKGFVGEYKPNQPSLL-DVE-HPATYGAVA------LPD-----SYIEARRQQSEAMKLAKDVITDVGKAFEKVSGRSYG B5ICZ2/1-250 --MKAMIRGNESIAYAFKLARVKVIPAYPITPSTLVPEKISEFLANGEM-DAEFVPVESEHSAISAAIGASAHGVRVGTATASQGLALMHEVLFIASGMRLPIVMGIGNRALSAPINIWCDHQDMMAQRDTGWMQFYAESNQEGLDLGIMAFKIAEDERILLPAMVGIDAFVLTHTVEPVEIPEQKDVDDFLGEFVPHY-VTL-DPE-KPATLGAFG------FPE-----YFMEFKYGQWIAMERAKKVIDEVFEEFHNKFGRKYS F0LIS8/1-252 MPMRKVMKGNEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVANGEL-DAEFIKVESEHSAISACVGASAAGVRTFTATASQGLALMHEILFIAAGMRLPIVMAIGNRALSAPINIWNDWQDTISERDTGWIQFYAENNQEALDLILIAFKVAEDERVLLPAMTGFDAFILTHTVEPVEIPDQELVDEFLGEYKPKH-AYL-DPK-RPITQGTLG------FPA-----HYMEARYKVWEAMENARQVIKEVFEEFEKKFGRKYQ G3BMP0/4-253 --NTVAVTGNEAAAYAMKQINPDVVAAYPITPQTDVVEKFSEYVADGLV-NTEFITVESEHSAMSACVGAAAAGGRVMTATSANGLALMFEILYIAASSKLPIIMTVVNRALSGPINIHCDHSDTMGARDAGWIQIYSENAQEAYDNIIQAVRIAENRKVRLPVMVMYDGFIISHGIDRVDVFDDTTVHDFVGKYQPNY-PLL-DVE-NPLTFGPLD------LYD-----YYFEHKRQQVEDINNSKPVILEVAKEFREISGREYG L0HNL6/1-250 --MKAMIRGNESIAYAFKLARVKVIPAYPITPSTLVPEKISEFIANGEM-DAEFVTVESEHSAISAAIGASAHGVRVGTATASQGLALMHEVLFIASGMRLPIVMGIGNRALSAPINIWCDHQDMMSQRDTGWMQFYAESNQEGLDLGLMAFKIAEDERILLPAMVGIDAFVLTHTVEPVELPEQRDVDDFIGEFVPHY-VTL-DPE-KPATLGAFG------FPE-----YFMEFKYGQWIAMERAKKVIDEVFSEFEERFGRTYK A0A139CRU9/9-259 KSKMVVVEGSYAVAHSVKVCRPNVISAYPITPQTHIVEDLSQFMADGEIPNCEYINVESEFSALSALVGSSAVGARSYSATTSQGLELMHEVLFNVSGMRLPIVMTVANRAVSAPISIWNDQQDSIAQRDTGWIQLYAENIQEASDMTAQLFKISEDKDIMMPSMACMDGFILSHVYEPVVLLEQDITDEFLPSFDPER-T-L-DPS-NPLTFGAFA------DPN-----YYTEFRYLQEQAMQTALKKIETVADEFSDMYGRYF- H0PU81/18-275 -QKVILAEGNEAAALGVALARPDMVSVYPITPQSSLVEHLAKLIADGRM-DADIVDAEGEHSVLSVLQGGALAGARTYTATCGPGLAFMFEPYFRTPGMRLPIVLTIVTRDGITPQSVWGGHQDAMTVREAGWIQVYCENVQEVLDTTVMAFKIAEHHDVMLPVNVCLDGNYLSYGASRVELPDQADVDAFMGEKNVNWHVAL-DPL-RPMAVDPLTGGTTGKGPQ-----TFVRYRKGQCRGMQNALSVIEEVHADWAKRIGRSFA B5IDN9/1-250 --MKMILTGNESAAWGARLSKPKVIAAYPITPQTSIIETIAAFIANGEM-DARYIRVESEHSAMAACIAAQNTGVRTYTATSAHGLALMHEVLMWASGARLPIVMSVVNRAMAPPWSVWTDQLDTMAERDSGWIQVYAQNNQEVLDSIIMSYKIAEKHNILLPTMVIEDAFILSHTSEGVDIPEQKKVDDFLGEYIPAF-K-L-DPD-EPGGFGSLI------MPE----GPYMEFRYKMALAMDEARNEIKKVVEEYNENFNRNYS A0A101EW11/4-254 -KNVMAITGAEAAAYAMKQIEPDVVAAYPITPQTPIVEYFAKYVADGEV-RTEMIPVESEHSAMSAVVGAAAAGARAMTATSSQGLALMSEIVYIASSLRLPIVMGLVNRALSAPINIHCDHSDAMMVRDSGWIQLFCEDAQEVYDLTILAVRLAEHEDVRLPVLVNQDGFIISHGVEPVEVLPDDVVKKFVGELKPVY-PLL-DTD-HPVTYGPLD------LYD-----YYFEHKRQQIEAMKHAYRVFPQIAEEFYEISGRKYN A0A0P1MRS3/1-251 -MKVMALTGNEAVAEAMRQINPDVVAAYPITPQTELMHRFTEFVADGLV-DTEMVLVESEHSALSATVGASAAGARAMTATSSQGLALMWEILYIAAGLRLPIVMPVVNRALSAPINIHGDHSDTMGARDSGWIQIFSENAQEAYDNTIIAVRIAEHPDILLPVMVTMDGFIISHTMERVEVLDDDVVKNFIGEYNPKY-KLL-DVK-NPVTMGPLD------LQD-----YYFEHKRAQAEAMENAYKLIKEIDEEYYKISGRRYS A6UWI7/1-250 MSKVKIITGTSAAAEAARLCDVDVIAAYPITPQTTAVEKLAEFVANGEL-DAEYIKVESEHSAMSACMGASAVGARTFTATSSQGLALMHEMLFAASGMRLPIIMMNANRALSAPINIWNDQQDSISQRDTGWIQMYAEDNQETLDLIIQAFRIGEHEDVLLPVMVNLDGFILTHTVEPVTLPDEDAVKEFVGIYEPKH-TYM-DPD-RPITQGAVG------VPE-----YYMESKYDIQKAIENAEDVILKINKEYSEKFGGV-- B7IFZ4/5-255 -KNRQAVTGAQAIANAMRQINPDVVAAYPITPQTPVVEYFAQFVADGAV-ETEMIPVESEHSAMSAVVGAAAAGARAMTATAANGLALMHEIVYIAASSRLPIVMAVANRALSGPINIHCDHSDAMAERDSGWIQLWAENAQEAYDFTLMAIRIAEHEDVRLPVMVNFDGFIISHGVEVVDFLDDEVARKFVGEPKVMY-PLL-DTE-HPVTHGPLD------LYD-----YYFEHKRQQIEAMKHVKKVFKEVAEEFAKISGRKYD K2PFH7/5-255 -KNRQAVTGAQAIANAMRQINPDVVAAYPITPQTPVVEYFAQFVADGAV-ETEMIPVESEHSAMSAVVGAAAAGARAMTATAANGLALMHEIVYIAASSRLPIVMAVANRALSGPINIHCDHSDAMAERDSGWIQLWAENAQEAYDFTLMAIRIAEHEDVRLPVMVNFDGFIISHGVEVVDFLDDEVARKFVGEPKVMY-PLL-DTE-HPVTHGPLD------LYD-----YYFEHKRQQIEAMKHVKKVFKEVAEEFAKISGRKYD D5VTT6/1-248 --MKKVITGTSAAAEAVRLCDVDVVAAYPITPQTSCVEKIAEFVANGEL-DAEYIKVESEHSAMAACIGASATGARTFTATASQGLALMHELLFIASGMRLPIVMLNTNRALSAPINIWCDHQDSISQRDTGWIQLYAENNQETLDLVIQAYKIA--ETVLLPVMVNIDGFILTHTVEPVEIPEEEKVRNFVGVYEPRH-AYL-DPD-RPITQGPVG------VPE-----CYMETRKQIEEAMEEAKKVIDKVNKEFEKEFGRKYS A0A0U3CRE7/2-251 --TKEIMTANKAVAEAARLAKPQVIPVYPITPQTTISEYLAQYVADEKI-KANYVKVESEHSAISAAVGASSAGVRVFTATSSQGLMLMHEILFAAAGMRAPFVLADANRAISAPLNIWNDQQDSIAQRDAGWLQIYVENAQEALDTTLMAYKISENPKVLLPSMVCLDGFILTHTVEPVEIPDQEPVDEFLPPYKPEH-AYL-DPK-DPMSIGNLA------DPD-----YYLEARHDMQIAMENSIDVIQETCDEFAEIFGRKYG A0A0P1P333/1-251 -MKVKALTGNEAVAEAMRQINPDVVAAYPITPQTELMHKFTEFVADGLV-DTEMILVESEHSALSATVGASAAGARAMTATSSQGLALMWEILYIAAGLRLPIVMAVINRALSAPINIHGDHSDTMGARDSGWIQIFSENSQEAYDNTIIAVRIAEHPEILLPVMVTMDGFIISHTMERVEVLDDEVVKSFIGEYNPKY-KLL-DVK-NPVTFGPLD------LQD-----YYFEHKRAQAEAMENAYKLIREIDEEYYKISGRKYA A0A1D2REB5/2-249 --TKTIMEASHAVSEAVRMANPAVVAAYPITPQTHIVERLSEFAADGTF-AGKYIRAESEFGAISACLGSSATGVRTYTSTSSQGLALMHEILYVISGMRLPICMTVANRALSAPINIWNDHQDSMAERDAGWIQMYAETAQECYDLTLMQFRISEHKDVLTPSMVCLDGFTLSHVYEPVNIPDQKDVDGFLPAYRPQH-AVL-DPK-QPLTLGAIG------FPS-----HYMEFRKSQSDAIANSAKVIGEVYKEFSKMFPVE-- A0A1D2WLI0/2-251 --IKEVMTANKAVAEAVRLAKPQVIPVYPITPQTTISEYLAQYVADEKI-DAKYIKVESEHSAISAAVGASGAGVRVFTATSSQGLMLMHEILFAAAGMRVPIVLADANRAISAPLNIWNDQQDSIAQRDAGWLQIYVENAQEALDSTLMAYKISENSNVLLPSMVCLDGFILTHTVEPVEIPDQESVDKFLPPYVPEH-AFL-DPN-EPMTIGSFA------DTN-----YYIEARHDMEIAMNNSIEVIKKTCDEFAEIFGRKYG A0A147K299/1-247 --MKEVISANEAAAIAAKLARVKVISAYPITPQTAIVEKLSEFVADGEL-DAEFIKVESEHSALSACVGAAAAGVRTFTATSSQGLMLMSEILFVASGLRLPLVMANANRSLSAPLSIWCDQQDSFAVRDSGWLQIYCENSQEVLDSILQAYRISE--QTLLPVMVCFDGYILTHTAEPVDVPDQKEVDEFLPPYKYPY-S-L-DPE-KPLTIGAVG------VPE-----YYEEFRYMLHEAVVASREKLVEVDEEFGRRFGRRYG A0A1J4Z5L8/2-247 ---KLVITGNHAAAYAAKLCRPHVISAYPITPQTEVVEKLACMVADGEL-KSDFIKVESEHSAMAACIGASAAGSRSFTATSSQGLALMHEMLFWAANSRLPIVMINVNRAMAPPWTVWADQTDSLAQRDTGWMQFYCEDNQEILDTVIQAYKIAE--KVSLPAMISLDAFFLSHTSEAVDVPPQADVDRFLPEFNPEY-K-L-DIN-NPRAFGGLV------TAE-----WYYEFRYKIHQAMQDAKREINTVGKEYAKSFGRKYS A0A1F4XAG9/1-246 --MKKVITGNHAVAHAARLAKPGVVAVYPITPQTSVSELMAEFVAKGQL-KARLIRVESEHSVMAALIGASMAGARTFTATSSQGLALMHELLHWAAGARLPIVMVNVNRSMGSPWTIWCDHLDSLSQRDTGWMQFYCESSQEALDTVLQAYKLSE--QVNLPCMVNLDGFYLSHTVEPVDIPEQALVDAFLPPRKPLY-K-L-DID-DPHSFGALT------SPE-----HYYELRYKAQKEMESAKELIKQTNSEFSQIMGRSW- A0A0S4MT06/1-251 -MKVMALTGNEAVAEAMRQINPDVVAAYPITPQTELMHKFAEFVADGLV-DTELVLVESEHSALSATVGASAAGVRAMTATSSQGLALMWEILYIAAGLRLPIVMAVVNRALSAPINIHCDHSDTMGARDSGWIQIFSENAQEAYDNTIIAIRVAEHPEILLPVMVTMDGFIISHTMERVEVLDDEVVKNFIGEYNPRY-KLL-DVE-NPVTFGPLD------LQD-----YYFEHKRAQAEAMESAYRFIKEIEDEFYKISGRRYQ H3ZL60/1-252 MPMKKVMKGNEAAAWAAKLAKPKVVAAFPITPSTLVPEKISEFVADGEM-DAEFIKVESEHSAISACVGASAAGVRTFTATASQGLALMHEVLFIAAGMRLPIVMAIGNRALSAPINIWNDWQDTISERDTGWMQFYAENNQEALDLILIAFKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQEVVDEFLGEYVPKH-AYL-DPA-RPITQGALG------FPA-----HYMEARYTVWEAMENARKVIKEVFDEFEKKFGRRYH A0A177E6M8/1-251 MGKRIAKEVSIAIADAVKLAKAEVIAAYPITPQTHIVEHLSELVANGEL-DAEYITVESEHSAMSAAIGAVATGARTFTSTAAQGLALMHEMLFIASAMRLPVVMVVANRALSAPISIWNDHSDIMANRDIGWIQVWAENGQEAVDLTIQAFRIAEDKNVMFPIIVNIDGFVLSHVIEPIILPDQEEVDAFLPAFKPKY-K-L-DPR-KPITMGPVG------VPE-----IYFEAKKAQDEAFRNTPKVIKRVWKDWAKRFGREYN A0A1D2WDZ1/1-249 ---MKVITANRAIAEAVKLAKPKVVPVYPITPQTTISEYLATFVANGDL-NAEYIRVESEHSAISAAVGASGTGVRVFTATSSQGLALMHEILFAAAGLRNPIVMGNANRALSAPLSIWNDQQDSISQRDTGWMQFFAEDAQEALDFVLQAYKISENEKVLLPSMVCVDGYYLTHTVEPVDIPTQEEVDEFLPPYKPTH-SYL-DPK-DPMSLGTFT------DPN-----YYMEARHDMEVAMEGAKDIIRDVNKEFAEKFGREYD A0A0F8CCW1/7-257 KGKMVVVEGSYAVAHATKICRPNVISAYPITPQTHIVENLSQFMADGEVPNCEYINVESEFSAISALVGASAVGARTYSATTSQGLLLMHEVLFNASGMRLPIIMTVANRAVGAPINIWNDHQDSIAQRDTGWLQLYVEDVQEAADTLPQIYKIAEDSDIMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPPFHPEN-I-L-DPE-DPQTFGAFA------APD-----TYEEFRFLQEQAMQKALPKIESVAKEFEEIFGRFH- D7DUC2/1-252 MQNVKVITGTSAAAEAAKLADVDVIAAYPITPQTTSVEKLADFVANGEL-NAEYIKVESEHSAISACVGASATGARTFTATSSQGLALMHEILFAAAGMRMPIVMMNANRALSAPINIWNDQQDSISQRDTGWIQLYAENNQETLDLIIQAFKIAENENVLLPIMVNLDGFILTHTVEPVEIPEKEKVLNFVGQYEPKH-AYL-RPE-KPMTQGALG------DPE-----WYMETRYDVQQAQDNALKVIEEVHDKFAEKFGRAYG H3ZL63/2-252 --PKKVVSGNYAAAYAAKHARVEVVAAYPITPQTSIIEKIAEFIANGEVENLQYVPVESEHSAMAACIGASATGARAFTATSAQGLALMHEMLHWAAGARLPIVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWLQFYAENNQEVYDGVLMAFKIGEHEKVNLPVMVVESAFILSHTYDVVDMPEQEEIDEFLPPRKPLY-T-LTDFE-NPFSVGALG------TPA-----DYYEFRYKIAKAMEEAKKVIKEVGKEYGERFGRDYS H5ST48/6-254 TGTKKVVTGNHAVSYGAMLARVQVISAYPITPQTQIVELLSEFCANGTL-RAKFIKVESEHSAMAALIGAASAGARTFTATSAHGLALMHEMLHWAAGARLPIVMADVNRAMGPPWSVWTDQNDSLSQRDTGWMQVYCESNQEVLDTVIQAYKVAE--KVLMPAMLVLDAFVLSHTAEQIEIPDQALVDEYLPPYQPLY-K-L-DVN-DPRSFGALA------PPD-----VYMELRYKMHKAMEDSLVEWARADEEYYELFGRRYG H5SKF4/6-254 TGTKKVVTGNHAVSYGAMLARVQVISAYPITPQTQIVELLSEFCANGTL-RAKFIKVESEHSAMAALIGAASAGARTFTATSAHGLALMHEMLHWAAGARLPIVMADVNRAMGPPWSVWTDQNDSLSQRDTGWMQVYCESNQEVLDTVIQAYKVAE--KVLMPAMLVLDAFVLSHTAEQIEIPDQALVDEYLPPYQPLY-K-L-DVN-DPRSFGALA------PPD-----VYMELRYKMHKAMEDSLVEWARADEEYYELFGRRYG A0A1E3G2A5/1-252 MPTKQALTGAEAIAYAMKQINPDVVAAYPITPQTPVVEYFAKYVADGVV-DTEMIPVESEHSAMSACVGAAAAGARAFTATAAVGLALMHEIVYIAASLRLPIVMAVANRALSGPINIHCDHSDAMAERDSGWIQLWAENVQEAYDFTVMAYRIGEHPDVRLPVMINFDGFIISHGVEVLETLDDDVVKNFVGKPIKMY-SLL-DTD-HPVTYGPLD------LYD-----YYFEHKRQQIEAMKHVPRVFKQVAEEFAKISGRKYD A0A125RB33/2-251 --IREVMTANKAVAEAVRLAKPQVIPVYPITPQTTISEYLAQYVADEKI-DAKYVKVESEHSAISAAVGASGAGVRVFTATSSQGLMLMHEILYAAAGMRVPIVLADANRAISAPLNIWNDQQDSIAQRDAGWLQIYVENAQEALDTTLMAYKISENPNVLLPSMVCLDGFILTHTVEPVEIPDQESVDKFLPPYVPEH-AYL-DPK-DPMSIGNFA------DPQ-----YYTEARHDMDVAMDNSIEVIQKTCEEFAEIFGREYG B8GDG4/1-249 --MLKILEGSIAVAEAVKQCRPQVIAAYPITPQTHIVEALADIVANGEL-DCEYITVESEFSALSACLGASAAGSRTYSATTSQGLALMFEVCFNVAGLRLPIVMTIANRALGAPLSIWNDQQDSISLRDSGWLQFYAEDNQEATDLHYIAYRVAEHHDVLLPAFVCFDGFILSHTYEPVDMLSQEDADRFMKPFDPLY-R-L-DAA-APVSMGMYA------TPE-----YYLEFRYEHDQAQHRAKKIIAEVGREFGELFGRDYS A0A101I255/1-251 MSEQKVIMGNHALSYGAVTSRVQVIAAYPITPQTQVVELLSEMCADGTL-DAEFIKVESEHSAMAASIGASAAGARAFTATSAQGLALMHEMLHWAVGARLPIVMGNINRSMAPPWTIWSEQTDSLSQRDTGWLQIYASSNQEVYDSVLIAYKVAENEKVSLPVMIILDAFFLSHTSENVTLIDQKDADRYLKPYNPKY-R-L-DIK-DPHTFGGLT------GPD-----WYMELRYKIQKAMEDSIDVIKDAQKEFKEMFGREYG F0LIT1/2-251 --PKKVVSGNYAAAYAAKHARVEVVAAYPITPQTSIIEKIAEFIANGEA-NIQYVPVESEHSAMAACIGASAAGARAFTATSAQGLALMHEMLHWASGARLPIVMVDVNRAMAPPWSVWDDQTDSLAQRDTGWMQFYAENNQEVYDGVLMAFKVAEHKKVNLPVMIIESAFILSHTYDIVDMPPQEEIDEFLPPREPLY-T-LTDFD-NPIAVGALA------TPA-----DYYEFRYKIEKAMEEARKVIKEVGKEFGERFGRDYS A0A1D2RDD1/2-250 --VKSVITGNYASSYGAKLARAQVIAAYPITPQTSVVEKIAEFVAEGTM-DTQYIKVESEHSAMAACITASQTGARTFTATSAHGLTLMHEMLIWASGARTPVVMTNINRAMAPPWSVWADHLDSVAQRDTGWIQYYCESNQEVLDTIITAYKVSESREIMLPSMLTLDAFYLSHTYETVDIPDQDKVDKFLPPFDPLY-K-F-DVE-DPHLFGSLS------FPH----QFYMEWRYQIALSMERARDKILEIDKEFESMFGRSH- A0A117M5J6/5-254 --NTVAVTGNEAAAYAMKQINPDVVAAYPITPQTDVVEKFSEYVADGLV-NTEFITVESEHSAMSACVGAAAAGGRVMTATSANGLALMFEILYIAASSKLPIIMTVVNRALSGPINIHCDHSDTMGARDAGWIQIYSENAQEAYDNIIQAVRIAENRKVRLPVMVMYDGFIISHGIDRVDVFDDTTVHDFVGKYQPNY-PLL-DVE-NPLTFGPLD------LYD-----YYFEHKRQQVEDINNSKPVILEVAKEFREISGREYG R9SMB3/2-251 --TKKVMTATAAISNAVKLAKPAVIPVYPITPMTTVAEYIADYVANGEL-DTEFIRVESEHSAMSAAIGASSTGVRTFTATSSQGLMYMHEVLFAAAGMRAPIVMGDANRSISAPLCIMNDQQDSIAQRDSGWMQIYAKDGQEALDMTLISYKVAENENVLLPSMVCIDGFIITHTNEAVDVPEQEQVDKFLPPYVPKY-SYL-DPE-DPVTVGSFT------DSN-----YYIEARHAIQVAMDKSEEVFEEAFKEFEEIFGRKHD B9MQN2/2-252 -AIRDRLSGNEAIAFAMKQINPDVVAAFPITPSTEVPQYFSQYVANGEV-DTEFVAVESEHSAMSACIGASAAGARTMTATSSQGLALMWEMLYIAASMRLPIVMAVINRALSGPINIHNDHSDSMGARDSGWIQIYCENNQEAYDSLIQAIRIAEHKDVRLPVMVCYDGFITSHAVENIELLEDELVKKFVGEYNPEF-YLL-NEQ-NPISMGPLD------LPP-----YYFEHKRQQAEAMRNAKKVVLVVAEEFAALTGRKYG A6UQE8/1-252 MCEIKVITGTSAAAEAAKLADVDVIAAYPITPQTTCVEKLAEFVSNGEL-DAEYIKVESEHSAMSACIGSSAAGARTFTATSSQGLALMHEVLFSAAGMRVPIVMMNANRALSSPINIWNDQQDSLAERDSGWIQIYAEDNQEVLDSVIQAFKIAENENVLLPVMVNLDGFILTHTVEPVTLPKQENVLEFIGTYEPKH-AYL-DPK-KPITQGALG------DPN-----YYMETKYAIEMAMKNAEKVIVDVHDEFKEKFKRGYG A0A1F4YBR1/1-246 --MKKVMTGNQAAAQAARLARPDVVAVYPITPQTSVSEMMAEFVAKGLL-KARLIRVESEHSVMAALIGASMTGARTFTATSSHGLALMHELLHWAAGARLPIVMVNVNRAMGTPWTIWCDHLDSLSQRDTGWMQFYCESSQEALDTVLQAYKLAE--QVNLPAMVNLDGFYLSHTVEPVDIPEQDLVDAFLPTRIPLY-R-L-DIS-DPHSFGALT------SPE-----HYYELRYKAQKQMEQVKQIIKTVNAEFSRIFGRSW- N6VTJ4/1-250 --MKKVITGTSAAAEAVRLADVDVIAAYPITPQTTCVEKLAEFIANGEL-DAEYIKVESEHSAMAACIGAAATGVRTFTATASQGLALMHELLFIAAGMRLPIVMLVANRALSAPINIWCDHQDSISQRDTGWIQIYAESNQETLDSVIQAYKIAENENVLLPVMVCIDGFILTHTVEPVEIPDEKKVREYLGVYEPKH-AYL-DPD-RPITQGPVG------VPE-----CYMETRKQIEKAMENAKKVIKDVNEEYYNIFGRKYG A4XJH5/2-252 -AIRDRLSGNEAIAYAMRQINPDVVAAFPITPSTEVPQYFSQFVANGEV-DTEFIAVESEHSAMSACIGASAAGARTMTATSSQGLALMWEMLYIAASMRLPIVMAVINRALSGPINIHNDHSDSMGARDSGWIQIYCENNQEAYDSLIQAIRIAEHKDVRLPVMVCYDGFITSHAVENIELLEDEVVRNFIGEYNPEY-YLL-NEQ-NPISMGPLD------LPP-----YYFEHKRQQAEAMRNAKKVVLEVADEFAKISGRKYG L0HNJ1/2-251 --VKMILTGNESAAWGARLSRPKVVAAYPITPQTSIIETIADFIANGEM-DARYIRVESEHSAMAACIAAQNTGVRTFTATSAHGLTLMHELLIWASGARLPIVMSVVNRAMAPPWSVWTDQMDSMAQRDTGWIQIYTENNQEVLDSIIMSYRIGEKHHILLPTMVMEDAFILSHTSEGVDVPEQKLVDDFLGEYDPAF-K-L-EPG-NPEGYGSLI------MPE----GPYMEFRYKMARAMDDARKEIRKTVEEFAEVFGREYA A0A0P9E497/1-256 MAEVILTTGNHAAAYAVKAAKAQVIAAYPITPQSPTVERLSELVESGEL-KAEFICVESEHTAMAALIGASATGVRTFTATSAHGLALMHEMLHWASGARLPIVMYVANRAMAPPWSIWCDHQDTISQRDTGWMQFYVEDNQEIFDTILMAYKIAEDREVLLPAMICADGFTLSHMTMPVEVPDQKDVDDFLPPYEPAF-K-LDDPE-NPVTHGAPA------MPNVPFSDWYTEYRFLMQESMIKAKEKIKEVCGEFKRRFGRFH- B6YY08/2-252 -PIRKVMKANEAAAWAAKLAKPKVIAAFPITPSTLVPEKISEFVADGEL-DAEFIKVESEHSAISACVGASAAGVRTFTATASQGLALMHEILFIAAGMRLPIVIAVGNRALSAPINIWNDWQDTISERDTGWLQFYAENNQEALDLILIAFKVAEDERVLLPAMVGFDAFILTHTVEPVEIPDQELVDEFLGEYMPKH-AYL-DPA-KPITQGALG------FPA-----HYMEARYGVWEANENAKKVIDEVFAEFEKKFGRKYQ C5CDT7/2-251 -PVKKAITGAAAVANAMRQINPDVVAAYPITPQTPIVEYFAKFVADGIV-DTETIPVESEHSAMSAVVGAAAAGARAMTATSANGLALMHEIVYIAASSRLPIVMPVVNRALSGPINIHCDHSDTMAERDSGWIQLFCENAQEAYDLTLIALKLAERKEVRLPVMVNQDGFIISHGVEVVELLDDDVVKEFIGESTPMY-SLL-DID-HPVTYGPLD------LYD-----YYFEHKRQQVEAMENAYKIFPEIAEAFEKISGRKY- A0A126QY54/2-251 --AKEIMTTNRAVAEAVKLAKPKVVPVYPITPQTTISEYLAQFVADGDL-DAEYIRVESEHSAISATLGASEAGVRVFTATSSQGLMLMHEILFAAAGMRSPIVMANANRAISAPLNIWNDQQDSIAQRDAGWIQIYVENAQEAFDTILQSYRIAENEEVMLPVMVCLDGFILTHTVEPVDLLDQKDVDTFLGPYVPKF-AYL-DPE-RPMSLGNFA------DPG-----YYTEARYDMQVAMDKSMDLIKEVGAEFGEKFGRDYG A0A1E7GGJ8/7-256 KGKMVVVEGSYAVAHSAKICRPNVISAYPITPQTHIVEDLSQFMADGEIPNCEYINVESEFSAISALIGAAAVGARTYSATTSQGLLLMHEALFNASGMRLPIIMTVANRAVGAPINIWNDHQDAIAQRDTGWIQLYVEDVQEASDTLPQLYKIAEDNDVMLPGMVCMDGFILSHVYEPVVLLEQELTDNFLPPFQPEN-V-L-DPK-DPKTFGAFA------APD-----TYEEFRYLQEQAMQKALPKIEAVAKEFEEIFGRF-- A0A151F7V1/1-249 MSTVKVISGNHAASYGARDSRAQVVAAYPITPQTQVVELLSEFCADGTM-DAKFIKVESEHSAMAACIGASAAGARAYTATSSHGLALMHEMLHWAANGRHPVVMANINRAMGPPWSIWTDQNDSLAQRDTGWLQFYCESNQEVYDTTVIAFKICE--QVFLPGMLILDAFILSHTYEPVAMPDQELIDEFLPPFDPPY-K-M-DLE-DPRAFGALT------TPE-----WYMELRYLIEEAHEKARKIARNVEAEFAETFGREYG A0A117L7P2/7-255 MERMSVVEGSYAVAHAVKTCRPDVISAYPITPQTHIVEYLSQFVADGEL-NSEYINVESEFSALSALVGASAAGARTYSATTSQGLALMNEVLFNASGMRLPIVMTIVNRSLSAPINIWNDHQDSISARDAGWIQLYVEDAQEAGDAIAQAYWVAENHDVLLPTMVCMDGFILSHTYEPVVLLEEEKTREFLPPYEPLH-K-L-DPA-NPKAFGMFM------GPE-----MYTEFRYMQELAMDAALPKIKEAAALFKKIYGRW-- A0A101DXB5/7-255 MERMSVVEGSYAVAHAVKTCRPDVISAYPITPQTHIVEYLSQFVADGEL-NSEYINVESEFSALSALVGASAAGARTYSATTSQGLALMNEVLFNASGMRLPIVMTIVNRSLSAPINIWNDHQDSISARDAGWIQLYVEDAQEAGDAIAQAYWVAENHDVLLPTMVCMDGFILSHTYEPVVLLEEEKTREFLPPYEPLH-K-L-DPA-NPKAFGMFM------GPE-----MYTEFRYMQELAMDAALPKIKEAAALFKKIYGRW-- K4MF40/10-259 -KNMVVVEGSYAVAHAVKTCRPNVISAYPITPQTHIVEDLSKFMADGEIPNCEYINVESEFSALSALVGSSAVGARSYSATTSQGLELMHEVLFNVAGMRLPIIMTVANRAVSAPINIWNDHQDSISQRDTGWIQLYAENTQEISDMTAQAFKISEDRDIMMPSMTCMDGFILSHVYEPLVLLEQDITDEFLPPFRPER-I-L-DPK-NPMTFGAFA------DPH-----FYTEFRYQQERAMQNSLKKIEDVANEFYDMYGRYF- F7XL36/10-260 -DKMTVVEGSYAVAHAVKICRPNVISAYPITPQTHIVEELSQFMADGEIPNCEYMNVESEFSALSALVGSAATGARTYSATTSQGLALMHEVMFNAAGMRLPIVMTIVNRAMSAPINIWNDQQDSISQRDTGWIQLYAEDIQEASDMIAQAYRVSEDKDVLLPAMVCMDGFILSHVYEPVVLLEQDLTDKYLKKYETEL-K-L-DPK-NPLSFGAFA------DPS-----TYTEFRYLQQQAMDIALERIEEAADEFRDIYGRYYG A0A117LD26/8-259 MRAKQALTGAEAVAHAMRQIEPHVVAAYPITPQTPIVEYFAQFVADGLV-KTEMIPVESEHSAMSAVVGAAASGARAMTATSANGLALMHEVVYITASMRLPVVMPVVNRALSGPINIHCDHSDSMAERDSGWIQLYAENNQEAYELTILAVRLAESEEVRLPVMVCLDGFILSHGVEPLEIYPDDQVKNFVGEVKPYY-PLL-DTS-HPVTYGPID------LYD-----YYFEHKRQQIEGMKGAKRLFPAIAQEFEKAFGKRYD A0A0S8HS18/1-247 --MERVISGNEAVAYGAMLSRVQVIPAYPISPQTTIVEALSDFCASGKL-KADFVKVESEHSAISCCVGAASAGARAFTATSAQGLALMHEVLHWAAGARLPIVMANVNRAMSAPWTMWCDQGDSLAQRDTGWLQFYCEDNQEVLDSIIMAYRISE--KVLLPAMVCLDGFILSHTYEQVEIPEAADVDPYLPSYNPIF-K-L-DVE-DPRSFNAAF------LPD-----MYMEQRVKIQQAMEEAKEVAKQVDEEFGRAFGRRYG #=GC scorecons 003436547538583756445648757899897836583665768685505475738889688678468866596955688567995896957637675869888445898665956765865956559858968575854986483444657668434747948744768776854758455466365486545473503180854048453845400000036400000383847534348754634463463488353688372 #=GC scorecons_70 ________*__*_*_*_*___*_**_********_*_*__*_*****_____*_*_**********_*****_***__***_****_****_**_*_*_******___***_*_*_***_*__*____**_**_*_*_*__**__*______****___*_**_**__*******__*_*_______*__**____*_____*_*____*___*__________*_______*_*_*_____**______*_____**___***_*_ #=GC scorecons_80 ___________*_*_*_______*__********___*____*_*_*_______*_****_**_**__**___*_*___**___**_**_*____*_*_*_****___***___*__*__*__*____**_**_*_*_*__**__*______*__*___*_**_**__*_*_*_*__*_*__________*_____*_____*_*____*___*__________________*_*_*_____**____________**____**___ #=GC scorecons_90 ___________*_*_________*___*****_*___*______*_*_________****_**__*__**___*_*___**___**_**_*________*_***____**____*_____*__*____**_**_*___*__**__*_________*______*_*_____*___*_______________*___________*_*____*___*__________________*_*_______*_____________**____**___ //