# STOCKHOLM 1.0 #=GF ID 3.40.50.300/FF/28228 #=GF DE Nitrogenase iron protein 1 #=GF AC 3.40.50.300/FF/28228 #=GF TP FunFam #=GF DR CATH: 4.2 #=GF DR DOPS: 79.739 #=GS O27602/1-275 AC O27602 #=GS O27602/1-275 OS Methanothermobacter thermautotrophicus str. Delta H #=GS O27602/1-275 DE Nitrogenase iron protein 1 #=GS O27602/1-275 DR GENE3D; 11eeae95704fc12a718f77c065116d34/1-275; #=GS O27602/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter thermautotrophicus; #=GS O27602/1-275 DR EC; 1.18.6.1; #=GS K2RWE1/1-275 AC K2RWE1 #=GS K2RWE1/1-275 OS Methanobacterium formicicum DSM 3637 #=GS K2RWE1/1-275 DE Nitrogenase iron protein #=GS K2RWE1/1-275 DR GENE3D; 43a7aa044b42b148ab8e6e95f5cb34a6/1-275; #=GS K2RWE1/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium formicicum; #=GS K2RWE1/1-275 DR EC; 1.18.6.1; #=GS Q8TH41/2-275 AC Q8TH41 #=GS Q8TH41/2-275 OS Methanosarcina acetivorans C2A #=GS Q8TH41/2-275 DE Nitrogenase iron protein #=GS Q8TH41/2-275 DR GENE3D; 462b7f5de1ad4032e8077e671c9a40fd/2-275; #=GS Q8TH41/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina acetivorans; #=GS Q8TH41/2-275 DR EC; 1.18.6.1; #=GS P0CW57/1-275 AC P0CW57 #=GS P0CW57/1-275 OS Methanococcus maripaludis S2 #=GS P0CW57/1-275 DE Nitrogenase iron protein #=GS P0CW57/1-275 DR GENE3D; 4c5e26693170d6e7cdca151383536bde/1-275; #=GS P0CW57/1-275 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS P0CW57/1-275 DR EC; 1.18.6.1; #=GS C1DK95/2-275 AC C1DK95 #=GS C1DK95/2-275 OS Azotobacter vinelandii DJ #=GS C1DK95/2-275 DE Nitrogenase iron protein #=GS C1DK95/2-275 DR GENE3D; 66f3b27937d27f9f6e75043aa410b90e/2-275; #=GS C1DK95/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Azotobacter group; Azotobacter; Azotobacter vinelandii; #=GS C1DK95/2-275 DR EC; 1.18.6.1; #=GS Q2RUJ9/2-275 AC Q2RUJ9 #=GS Q2RUJ9/2-275 OS Rhodospirillum rubrum ATCC 11170 #=GS Q2RUJ9/2-275 DE Nitrogenase iron protein #=GS Q2RUJ9/2-275 DR GENE3D; f5c3dc17e4aa0ba03c7aa96ba3a4c488/2-275; #=GS Q2RUJ9/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Rhodospirillum; Rhodospirillum rubrum; #=GS Q2RUJ9/2-275 DR EC; 1.18.6.1; #=GS A0A0B1TZL3/2-275 AC A0A0B1TZL3 #=GS A0A0B1TZL3/2-275 OS Desulfovibrio sp. TomC #=GS A0A0B1TZL3/2-275 DE Nitrogenase iron protein #=GS A0A0B1TZL3/2-275 DR GENE3D; 02049319ead36dd92c53462224f416b0/2-275; #=GS A0A0B1TZL3/2-275 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio sp. TomC; #=GS A0A0B1TZL3/2-275 DR EC; 1.18.6.1; #=GS E4T468/1-274 AC E4T468 #=GS E4T468/1-274 OS Paludibacter propionicigenes WB4 #=GS E4T468/1-274 DE Nitrogenase iron protein #=GS E4T468/1-274 DR GENE3D; 0271571bce1a9a9c46b80c5203096dcb/1-274; #=GS E4T468/1-274 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Paludibacter; Paludibacter propionicigenes; #=GS E4T468/1-274 DR EC; 1.18.6.1; #=GS D5ANJ6/2-275 AC D5ANJ6 #=GS D5ANJ6/2-275 OS Rhodobacter capsulatus SB 1003 #=GS D5ANJ6/2-275 DE Nitrogenase iron protein #=GS D5ANJ6/2-275 DR GENE3D; 030701c93ad15f22879ea7aff09b3693/2-275; #=GS D5ANJ6/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter capsulatus; #=GS D5ANJ6/2-275 DR EC; 1.18.6.1; #=GS Q07942/2-275 AC Q07942 #=GS Q07942/2-275 OS Rhodobacter capsulatus #=GS Q07942/2-275 DE Nitrogenase iron protein 2 #=GS Q07942/2-275 DR GENE3D; 030701c93ad15f22879ea7aff09b3693/2-275; #=GS Q07942/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter capsulatus; #=GS Q07942/2-275 DR EC; 1.18.6.1; #=GS A0A0E2PFT4/2-275 AC A0A0E2PFT4 #=GS A0A0E2PFT4/2-275 OS Rhodobacter capsulatus Y262 #=GS A0A0E2PFT4/2-275 DE Nitrogenase iron protein #=GS A0A0E2PFT4/2-275 DR GENE3D; 030701c93ad15f22879ea7aff09b3693/2-275; #=GS A0A0E2PFT4/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter capsulatus; #=GS A0A0E2PFT4/2-275 DR EC; 1.18.6.1; #=GS A0A180FM38/1-274 AC A0A180FM38 #=GS A0A180FM38/1-274 OS Bacteroidales bacterium Barb4 #=GS A0A180FM38/1-274 DE Nitrogenase iron protein #=GS A0A180FM38/1-274 DR GENE3D; 042a9e81cec59a23294fb5586ae05bda/1-274; #=GS A0A180FM38/1-274 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidales bacterium Barb4; #=GS A0A180FM38/1-274 DR EC; 1.18.6.1; #=GS K6H8X6/1-266 AC K6H8X6 #=GS K6H8X6/1-266 OS Desulfovibrio magneticus str. Maddingley MBC34 #=GS K6H8X6/1-266 DE Nitrogenase #=GS K6H8X6/1-266 DR GENE3D; 059298e76f45ac1517bb1529ec9615c1/1-266; #=GS K6H8X6/1-266 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio magneticus; #=GS K6H8X6/1-266 DR EC; 1.18.6.1; #=GS H1L045/10-284 AC H1L045 #=GS H1L045/10-284 OS Methanotorris formicicus Mc-S-70 #=GS H1L045/10-284 DE Nitrogenase iron protein #=GS H1L045/10-284 DR GENE3D; 075a171c8d6a0053cbea2e99b2192231/10-284; #=GS H1L045/10-284 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanotorris; Methanotorris formicicus; #=GS H1L045/10-284 DR EC; 1.18.6.1; #=GS A0A1M4MPZ0/11-285 AC A0A1M4MPZ0 #=GS A0A1M4MPZ0/11-285 OS Methanothermobacter wolfeii #=GS A0A1M4MPZ0/11-285 DE Nitrogenase NifH subunit #=GS A0A1M4MPZ0/11-285 DR GENE3D; 0bb8100f694605f1b86eb5f840527de2/11-285; #=GS A0A1M4MPZ0/11-285 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter wolfeii; #=GS A0A1M4MPZ0/11-285 DR EC; 1.18.6.1; #=GS A4FXN5/1-275 AC A4FXN5 #=GS A4FXN5/1-275 OS Methanococcus maripaludis C5 #=GS A4FXN5/1-275 DE Nitrogenase iron protein #=GS A4FXN5/1-275 DR GENE3D; 14cd74926fa82f58aef07db3d8670269/1-275; #=GS A4FXN5/1-275 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS A4FXN5/1-275 DR EC; 1.18.6.1; #=GS P25767/10-284 AC P25767 #=GS P25767/10-284 OS Methanothermococcus thermolithotrophicus #=GS P25767/10-284 DE Nitrogenase iron protein 1 #=GS P25767/10-284 DR GENE3D; 1823d58d873b3722a3bf86587a3df94a/10-284; #=GS P25767/10-284 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanothermococcus; Methanothermococcus thermolithotrophicus; #=GS P25767/10-284 DR EC; 1.18.6.1; #=GS A0A0H5BPJ2/2-275 AC A0A0H5BPJ2 #=GS A0A0H5BPJ2/2-275 OS Blastochloris viridis #=GS A0A0H5BPJ2/2-275 DE Nitrogenase iron protein #=GS A0A0H5BPJ2/2-275 DR GENE3D; 1b14fc65f40f4dd41b59fdfed0e320b0/2-275; #=GS A0A0H5BPJ2/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Blastochloris; Blastochloris viridis; #=GS A0A0H5BPJ2/2-275 DR EC; 1.18.6.1; #=GS I2Q3U2/2-275 AC I2Q3U2 #=GS I2Q3U2/2-275 OS Desulfovibrio sp. U5L #=GS I2Q3U2/2-275 DE Nitrogenase iron protein #=GS I2Q3U2/2-275 DR GENE3D; 1b5ffb509cf562c32815e9c4176cc910/2-275; #=GS I2Q3U2/2-275 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio sp. U5L; #=GS I2Q3U2/2-275 DR EC; 1.18.6.1; #=GS A0A1L3FYY1/2-275 AC A0A1L3FYY1 #=GS A0A1L3FYY1/2-275 OS Kosakonia radicincitans #=GS A0A1L3FYY1/2-275 DE Nitrogenase reductase #=GS A0A1L3FYY1/2-275 DR GENE3D; 1b9f2b5c3dc3ba6856cd9518c45c38b6/2-275; #=GS A0A1L3FYY1/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Kosakonia; Kosakonia radicincitans; #=GS A0A1L3FYY1/2-275 DR EC; 1.18.6.1; #=GS A0A063XND9/2-275 AC A0A063XND9 #=GS A0A063XND9/2-275 OS Kosakonia radicincitans UMEnt01/12 #=GS A0A063XND9/2-275 DE Nitrogenase iron protein #=GS A0A063XND9/2-275 DR GENE3D; 1b9f2b5c3dc3ba6856cd9518c45c38b6/2-275; #=GS A0A063XND9/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Kosakonia; Kosakonia radicincitans; #=GS A0A063XND9/2-275 DR EC; 1.18.6.1; #=GS A0A1K2AQ79/2-275 AC A0A1K2AQ79 #=GS A0A1K2AQ79/2-275 OS Enterobacter sp. NFIX03 #=GS A0A1K2AQ79/2-275 DE Nitrogenase iron protein #=GS A0A1K2AQ79/2-275 DR GENE3D; 1b9f2b5c3dc3ba6856cd9518c45c38b6/2-275; #=GS A0A1K2AQ79/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter sp. NFIX03; #=GS A0A1K2AQ79/2-275 DR EC; 1.18.6.1; #=GS F0TA91/1-275 AC F0TA91 #=GS F0TA91/1-275 OS Methanobacterium lacus #=GS F0TA91/1-275 DE Nitrogenase iron protein #=GS F0TA91/1-275 DR GENE3D; 207666c6529083702b147e6fdfe57e9e/1-275; #=GS F0TA91/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium lacus; #=GS F0TA91/1-275 DR EC; 1.18.6.1; #=GS A0A180FL47/1-274 AC A0A180FL47 #=GS A0A180FL47/1-274 OS Bacteroidales bacterium Barb6 #=GS A0A180FL47/1-274 DE Nitrogenase iron protein #=GS A0A180FL47/1-274 DR GENE3D; 2681bb7b39b9265cfc49e20001c7fff7/1-274; #=GS A0A180FL47/1-274 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidales bacterium Barb6; #=GS A0A180FL47/1-274 DR EC; 1.18.6.1; #=GS A0A180F5D5/1-274 AC A0A180F5D5 #=GS A0A180F5D5/1-274 OS Bacteroidales bacterium Barb6XT #=GS A0A180F5D5/1-274 DE Nitrogenase iron protein #=GS A0A180F5D5/1-274 DR GENE3D; 2681bb7b39b9265cfc49e20001c7fff7/1-274; #=GS A0A180F5D5/1-274 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidales bacterium Barb6XT; #=GS A0A180F5D5/1-274 DR EC; 1.18.6.1; #=GS A0A180FP53/1-274 AC A0A180FP53 #=GS A0A180FP53/1-274 OS Bacteroidales bacterium Barb7 #=GS A0A180FP53/1-274 DE Nitrogenase iron protein #=GS A0A180FP53/1-274 DR GENE3D; 2681bb7b39b9265cfc49e20001c7fff7/1-274; #=GS A0A180FP53/1-274 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidales bacterium Barb7; #=GS A0A180FP53/1-274 DR EC; 1.18.6.1; #=GS E6U4T6/2-275 AC E6U4T6 #=GS E6U4T6/2-275 OS Ethanoligenens harbinense YUAN-3 #=GS E6U4T6/2-275 DE Nitrogenase iron protein #=GS E6U4T6/2-275 DR GENE3D; 264e6f0d55e85177b311391602e38c86/2-275; #=GS E6U4T6/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ethanoligenens; Ethanoligenens harbinense; #=GS E6U4T6/2-275 DR EC; 1.18.6.1; #=GS P16269/2-275 AC P16269 #=GS P16269/2-275 OS Azotobacter vinelandii #=GS P16269/2-275 DE Nitrogenase iron protein 3 #=GS P16269/2-275 DR GENE3D; 2af8422a7889fc3bb68c1cbcba5a0305/2-275; #=GS P16269/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Azotobacter group; Azotobacter; Azotobacter vinelandii; #=GS P16269/2-275 DR EC; 1.18.6.1; #=GS F8ANU8/10-283 AC F8ANU8 #=GS F8ANU8/10-283 OS Methanothermococcus okinawensis IH1 #=GS F8ANU8/10-283 DE Nitrogenase iron protein #=GS F8ANU8/10-283 DR GENE3D; 2e3452d67645cc9263c8fbdf22ccb4da/10-283; #=GS F8ANU8/10-283 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanothermococcus; Methanothermococcus okinawensis; #=GS F8ANU8/10-283 DR EC; 1.18.6.1; #=GS B3Q675/2-275 AC B3Q675 #=GS B3Q675/2-275 OS Rhodopseudomonas palustris TIE-1 #=GS B3Q675/2-275 DE Nitrogenase iron protein #=GS B3Q675/2-275 DR GENE3D; 2e502f1c899a715d6642853e90cb1a24/2-275; #=GS B3Q675/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; #=GS B3Q675/2-275 DR EC; 1.18.6.1; #=GS Q6N9U8/2-275 AC Q6N9U8 #=GS Q6N9U8/2-275 OS Rhodopseudomonas palustris CGA009 #=GS Q6N9U8/2-275 DE Nitrogenase iron protein #=GS Q6N9U8/2-275 DR GENE3D; 2e502f1c899a715d6642853e90cb1a24/2-275; #=GS Q6N9U8/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; #=GS Q6N9U8/2-275 DR EC; 1.18.6.1; #=GS A0A071LU59/2-275 AC A0A071LU59 #=GS A0A071LU59/2-275 OS Mangrovibacter sp. MFB070 #=GS A0A071LU59/2-275 DE Nitrogenase iron protein #=GS A0A071LU59/2-275 DR GENE3D; 310755bed7e94ecc071fce843d3cdd9d/2-275; #=GS A0A071LU59/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Mangrovibacter; Mangrovibacter sp. MFB070; #=GS A0A071LU59/2-275 DR EC; 1.18.6.1; #=GS A0A089L907/2-275 AC A0A089L907 #=GS A0A089L907/2-275 OS Paenibacillus borealis #=GS A0A089L907/2-275 DE Nitrogenase iron protein #=GS A0A089L907/2-275 DR GENE3D; 34d72bc7d46eca4b0efb0453176d9efc/2-275; #=GS A0A089L907/2-275 DR ORG; Bacteria; Firmicutes; Bacilli; Bacillales; Paenibacillaceae; Paenibacillus; Paenibacillus borealis; #=GS A0A089L907/2-275 DR EC; 1.18.6.1; #=GS A0A089I2K8/2-275 AC A0A089I2K8 #=GS A0A089I2K8/2-275 OS Paenibacillus sp. FSL H7-0357 #=GS A0A089I2K8/2-275 DE Nitrogenase iron protein #=GS A0A089I2K8/2-275 DR GENE3D; 36ee8b6e8f481ea5ab126f77b8c445c6/2-275; #=GS A0A089I2K8/2-275 DR ORG; Bacteria; Firmicutes; Bacilli; Bacillales; Paenibacillaceae; Paenibacillus; Paenibacillus sp. FSL H7-0357; #=GS A0A089I2K8/2-275 DR EC; 1.18.6.1; #=GS A0A0E4HD90/2-275 AC A0A0E4HD90 #=GS A0A0E4HD90/2-275 OS Paenibacillus riograndensis SBR5 #=GS A0A0E4HD90/2-275 DE Nitrogenase iron protein #=GS A0A0E4HD90/2-275 DR GENE3D; 380377234ebb204dde594b565a758b06/2-275; #=GS A0A0E4HD90/2-275 DR ORG; Bacteria; Firmicutes; Bacilli; Bacillales; Paenibacillaceae; Paenibacillus; Paenibacillus riograndensis; #=GS A0A0E4HD90/2-275 DR EC; 1.18.6.1; #=GS A0A0K8JJP2/1-271 AC A0A0K8JJP2 #=GS A0A0K8JJP2/1-271 OS Propionispora sp. 2/2-37 #=GS A0A0K8JJP2/1-271 DE Nitrogenase iron protein #=GS A0A0K8JJP2/1-271 DR GENE3D; 3ebc02013859a9256026ffe77ae7e033/1-271; #=GS A0A0K8JJP2/1-271 DR ORG; Bacteria; Firmicutes; Negativicutes; Selenomonadales; Sporomusaceae; Propionispora; Propionispora sp. 2/2-37; #=GS A0A0K8JJP2/1-271 DR EC; 1.18.6.1; #=GS K4LGJ4/2-275 AC K4LGJ4 #=GS K4LGJ4/2-275 OS Thermacetogenium phaeum DSM 12270 #=GS K4LGJ4/2-275 DE Nitrogenase iron protein #=GS K4LGJ4/2-275 DR GENE3D; 44a4c1407073540a00f5eddd2e445d95/2-275; #=GS K4LGJ4/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Thermoanaerobacterales; Thermoanaerobacteraceae; Thermacetogenium; Thermacetogenium phaeum; #=GS K4LGJ4/2-275 DR EC; 1.18.6.1; #=GS H8FST7/2-275 AC H8FST7 #=GS H8FST7/2-275 OS Phaeospirillum molischianum DSM 120 #=GS H8FST7/2-275 DE Nitrogenase iron protein #=GS H8FST7/2-275 DR GENE3D; 41a6332a3008a04ac59a12b52cf404cb/2-275; #=GS H8FST7/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Phaeospirillum; Phaeospirillum molischianum; #=GS H8FST7/2-275 DR EC; 1.18.6.1; #=GS A0A0E3P963/2-275 AC A0A0E3P963 #=GS A0A0E3P963/2-275 OS Methanosarcina siciliae T4/M #=GS A0A0E3P963/2-275 DE Nitrogenase iron protein #=GS A0A0E3P963/2-275 DR GENE3D; 462b7f5de1ad4032e8077e671c9a40fd/2-275; #=GS A0A0E3P963/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina siciliae; #=GS A0A0E3P963/2-275 DR EC; 1.18.6.1; #=GS A0A0E3PFQ9/2-275 AC A0A0E3PFQ9 #=GS A0A0E3PFQ9/2-275 OS Methanosarcina siciliae HI350 #=GS A0A0E3PFQ9/2-275 DE Nitrogenase iron protein #=GS A0A0E3PFQ9/2-275 DR GENE3D; 462b7f5de1ad4032e8077e671c9a40fd/2-275; #=GS A0A0E3PFQ9/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina siciliae; #=GS A0A0E3PFQ9/2-275 DR EC; 1.18.6.1; #=GS A0A0G3CGE7/2-275 AC A0A0G3CGE7 #=GS A0A0G3CGE7/2-275 OS Methanosarcina barkeri CM1 #=GS A0A0G3CGE7/2-275 DE Nitrogenase iron protein #=GS A0A0G3CGE7/2-275 DR GENE3D; 4729b9ebb2434bb92b350cca874571b6/2-275; #=GS A0A0G3CGE7/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0G3CGE7/2-275 DR EC; 1.18.6.1; #=GS A0A0E3QUM5/2-275 AC A0A0E3QUM5 #=GS A0A0E3QUM5/2-275 OS Methanosarcina barkeri MS #=GS A0A0E3QUM5/2-275 DE Nitrogenase iron protein #=GS A0A0E3QUM5/2-275 DR GENE3D; 4729b9ebb2434bb92b350cca874571b6/2-275; #=GS A0A0E3QUM5/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3QUM5/2-275 DR EC; 1.18.6.1; #=GS A0A0E3LQ35/2-275 AC A0A0E3LQ35 #=GS A0A0E3LQ35/2-275 OS Methanosarcina barkeri 227 #=GS A0A0E3LQ35/2-275 DE Nitrogenase iron protein #=GS A0A0E3LQ35/2-275 DR GENE3D; 4729b9ebb2434bb92b350cca874571b6/2-275; #=GS A0A0E3LQ35/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3LQ35/2-275 DR EC; 1.18.6.1; #=GS A0A1D2WS89/2-275 AC A0A1D2WS89 #=GS A0A1D2WS89/2-275 OS Methanosarcina sp. A14 #=GS A0A1D2WS89/2-275 DE Nitrogenase iron protein #=GS A0A1D2WS89/2-275 DR GENE3D; 4729b9ebb2434bb92b350cca874571b6/2-275; #=GS A0A1D2WS89/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. A14; #=GS A0A1D2WS89/2-275 DR EC; 1.18.6.1; #=GS P54799/2-275 AC P54799 #=GS P54799/2-275 OS Methanosarcina barkeri #=GS P54799/2-275 DE Nitrogenase iron protein 1 #=GS P54799/2-275 DR GENE3D; 4729b9ebb2434bb92b350cca874571b6/2-275; #=GS P54799/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS P54799/2-275 DR EC; 1.18.6.1; #=GS A9AB91/1-275 AC A9AB91 #=GS A9AB91/1-275 OS Methanococcus maripaludis C6 #=GS A9AB91/1-275 DE Nitrogenase iron protein #=GS A9AB91/1-275 DR GENE3D; 4cc2934c7adca59f778a6331edf5e6db/1-275; #=GS A9AB91/1-275 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS A9AB91/1-275 DR EC; 1.18.6.1; #=GS I9DI46/2-275 AC I9DI46 #=GS I9DI46/2-275 OS Pelosinus fermentans JBW45 #=GS I9DI46/2-275 DE Nitrogenase iron protein #=GS I9DI46/2-275 DR GENE3D; 4e2d334fc1d7aad45a2071e6ec68ecc4/2-275; #=GS I9DI46/2-275 DR ORG; Bacteria; Firmicutes; Negativicutes; Selenomonadales; Sporomusaceae; Pelosinus; Pelosinus fermentans; #=GS I9DI46/2-275 DR EC; 1.18.6.1; #=GS I9LHQ1/2-275 AC I9LHQ1 #=GS I9LHQ1/2-275 OS Pelosinus fermentans B4 #=GS I9LHQ1/2-275 DE Nitrogenase iron protein #=GS I9LHQ1/2-275 DR GENE3D; 4e2d334fc1d7aad45a2071e6ec68ecc4/2-275; #=GS I9LHQ1/2-275 DR ORG; Bacteria; Firmicutes; Negativicutes; Selenomonadales; Sporomusaceae; Pelosinus; Pelosinus fermentans; #=GS I9LHQ1/2-275 DR EC; 1.18.6.1; #=GS P0CW56/1-275 AC P0CW56 #=GS P0CW56/1-275 OS Methanococcus maripaludis #=GS P0CW56/1-275 DE Nitrogenase iron protein #=GS P0CW56/1-275 DR GENE3D; 4c5e26693170d6e7cdca151383536bde/1-275; #=GS P0CW56/1-275 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS P0CW56/1-275 DR EC; 1.18.6.1; #=GS G0GZY0/1-275 AC G0GZY0 #=GS G0GZY0/1-275 OS Methanococcus maripaludis X1 #=GS G0GZY0/1-275 DE Nitrogenase iron protein #=GS G0GZY0/1-275 DR GENE3D; 4c5e26693170d6e7cdca151383536bde/1-275; #=GS G0GZY0/1-275 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS G0GZY0/1-275 DR EC; 1.18.6.1; #=GS A0A166DFK6/1-275 AC A0A166DFK6 #=GS A0A166DFK6/1-275 OS Methanobrevibacter cuticularis #=GS A0A166DFK6/1-275 DE Nitrogenase iron protein #=GS A0A166DFK6/1-275 DR GENE3D; 5540f0b52b37eb98e2cbb7bac2a0bbd6/1-275; #=GS A0A166DFK6/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter cuticularis; #=GS A0A166DFK6/1-275 DR EC; 1.18.6.1; #=GS A0A0E3SJ51/2-275 AC A0A0E3SJ51 #=GS A0A0E3SJ51/2-275 OS Methanosarcina barkeri 3 #=GS A0A0E3SJ51/2-275 DE Nitrogenase iron protein #=GS A0A0E3SJ51/2-275 DR GENE3D; 56ae89fcbc8a58388768cb5819d6d942/2-275; #=GS A0A0E3SJ51/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3SJ51/2-275 DR EC; 1.18.6.1; #=GS H6LJU4/1-274 AC H6LJU4 #=GS H6LJU4/1-274 OS Acetobacterium woodii DSM 1030 #=GS H6LJU4/1-274 DE Nitrogenase iron protein #=GS H6LJU4/1-274 DR GENE3D; 58f1de727985af8ed67d29db5c4956de/1-274; #=GS H6LJU4/1-274 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Eubacteriaceae; Acetobacterium; Acetobacterium woodii; #=GS H6LJU4/1-274 DR EC; 1.18.6.1; #=GS A0A0E3P707/2-275 AC A0A0E3P707 #=GS A0A0E3P707/2-275 OS Methanosarcina siciliae T4/M #=GS A0A0E3P707/2-275 DE Nitrogenase iron protein #=GS A0A0E3P707/2-275 DR GENE3D; 5a39b47a5062962d824f5d9814c126c3/2-275; #=GS A0A0E3P707/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina siciliae; #=GS A0A0E3P707/2-275 DR EC; 1.18.6.1; #=GS A0A0E3LDV7/2-275 AC A0A0E3LDV7 #=GS A0A0E3LDV7/2-275 OS Methanosarcina siciliae C2J #=GS A0A0E3LDV7/2-275 DE Nitrogenase iron protein #=GS A0A0E3LDV7/2-275 DR GENE3D; 5a39b47a5062962d824f5d9814c126c3/2-275; #=GS A0A0E3LDV7/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina siciliae; #=GS A0A0E3LDV7/2-275 DR EC; 1.18.6.1; #=GS A0A166DYI4/1-275 AC A0A166DYI4 #=GS A0A166DYI4/1-275 OS Methanobrevibacter curvatus #=GS A0A166DYI4/1-275 DE Nitrogenase iron protein #=GS A0A166DYI4/1-275 DR GENE3D; 5d0fc4903b33c76b12e315ce178989de/1-275; #=GS A0A166DYI4/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter curvatus; #=GS A0A166DYI4/1-275 DR EC; 1.18.6.1; #=GS S0FI53/1-274 AC S0FI53 #=GS S0FI53/1-274 OS [Clostridium] termitidis CT1112 #=GS S0FI53/1-274 DE Nitrogenase iron protein #=GS S0FI53/1-274 DR GENE3D; 614400704b98f3215056283278e52d66/1-274; #=GS S0FI53/1-274 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; Ruminiclostridium; [Clostridium] termitidis; #=GS S0FI53/1-274 DR EC; 1.18.6.1; #=GS F6CND4/2-275 AC F6CND4 #=GS F6CND4/2-275 OS Desulfotomaculum kuznetsovii DSM 6115 #=GS F6CND4/2-275 DE Nitrogenase iron protein #=GS F6CND4/2-275 DR GENE3D; 665ff09e8caa2c2d5d92a98a22f3de2a/2-275; #=GS F6CND4/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptococcaceae; Desulfotomaculum; Desulfotomaculum kuznetsovii; #=GS F6CND4/2-275 DR EC; 1.18.6.1; #=GS M9YJ08/2-275 AC M9YJ08 #=GS M9YJ08/2-275 OS Azotobacter vinelandii CA6 #=GS M9YJ08/2-275 DE Nitrogenase iron protein #=GS M9YJ08/2-275 DR GENE3D; 66f3b27937d27f9f6e75043aa410b90e/2-275; #=GS M9YJ08/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Azotobacter group; Azotobacter; Azotobacter vinelandii; #=GS M9YJ08/2-275 DR EC; 1.18.6.1; #=GS A0A1K1TE64/2-275 AC A0A1K1TE64 #=GS A0A1K1TE64/2-275 OS Azotobacter vinelandii #=GS A0A1K1TE64/2-275 DE Nitrogenase iron protein #=GS A0A1K1TE64/2-275 DR GENE3D; 66f3b27937d27f9f6e75043aa410b90e/2-275; #=GS A0A1K1TE64/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Azotobacter group; Azotobacter; Azotobacter vinelandii; #=GS A0A1K1TE64/2-275 DR EC; 1.18.6.1; #=GS L1K6Q1/2-275 AC L1K6Q1 #=GS L1K6Q1/2-275 OS Rhodobacter sp. AKP1 #=GS L1K6Q1/2-275 DE Nitrogenase iron protein #=GS L1K6Q1/2-275 DR GENE3D; 6b3198249908b0f32dcc14d34b953cf7/2-275; #=GS L1K6Q1/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sp. AKP1; #=GS L1K6Q1/2-275 DR EC; 1.18.6.1; #=GS B9KUM4/2-275 AC B9KUM4 #=GS B9KUM4/2-275 OS Rhodobacter sphaeroides KD131 #=GS B9KUM4/2-275 DE Nitrogenase iron protein #=GS B9KUM4/2-275 DR GENE3D; 6b3198249908b0f32dcc14d34b953cf7/2-275; #=GS B9KUM4/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sphaeroides; #=GS B9KUM4/2-275 DR EC; 1.18.6.1; #=GS A0A139DT19/2-275 AC A0A139DT19 #=GS A0A139DT19/2-275 OS Candidatus Adiutrix intracellularis #=GS A0A139DT19/2-275 DE Nitrogenase iron protein #=GS A0A139DT19/2-275 DR GENE3D; 6d6a1b70f7fa5afa503b83d88efa7dd3/2-275; #=GS A0A139DT19/2-275 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Candidatus Adiutrix; Candidatus Adiutrix intracellularis; #=GS A0A139DT19/2-275 DR EC; 1.18.6.1; #=GS C6C9W5/2-275 AC C6C9W5 #=GS C6C9W5/2-275 OS Dickeya paradisiaca Ech703 #=GS C6C9W5/2-275 DE Nitrogenase iron protein #=GS C6C9W5/2-275 DR GENE3D; 770317dda31b3d77552d20141e4d4315/2-275; #=GS C6C9W5/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Dickeya; Dickeya paradisiaca; #=GS C6C9W5/2-275 DR EC; 1.18.6.1; #=GS H6SP44/20-294 AC H6SP44 #=GS H6SP44/20-294 OS Pararhodospirillum photometricum DSM 122 #=GS H6SP44/20-294 DE Nitrogenase iron protein #=GS H6SP44/20-294 DR GENE3D; 77206748b61116d0ada80b2df44f435a/20-294; #=GS H6SP44/20-294 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Pararhodospirillum; Pararhodospirillum photometricum; #=GS H6SP44/20-294 DR EC; 1.18.6.1; #=GS Q50785/1-275 AC Q50785 #=GS Q50785/1-275 OS Methanothermobacter marburgensis str. Marburg #=GS Q50785/1-275 DE Nitrogenase iron protein 1 #=GS Q50785/1-275 DR GENE3D; 7909f7163305548d10f1f9e08be153e3/1-275; #=GS Q50785/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter marburgensis; #=GS Q50785/1-275 DR EC; 1.18.6.1; #=GS A0A0H3JAU8/2-275 AC A0A0H3JAU8 #=GS A0A0H3JAU8/2-275 OS Clostridium pasteurianum DSM 525 = ATCC 6013 #=GS A0A0H3JAU8/2-275 DE Nitrogenase iron protein #=GS A0A0H3JAU8/2-275 DR GENE3D; 7afdd34e2c0418d002477f46b4c52d69/2-275; #=GS A0A0H3JAU8/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium pasteurianum; #=GS A0A0H3JAU8/2-275 DR EC; 1.18.6.1; #=GS A0A1D9N950/2-275 AC A0A1D9N950 #=GS A0A1D9N950/2-275 OS Clostridium pasteurianum #=GS A0A1D9N950/2-275 DE Nitrogenase iron protein #=GS A0A1D9N950/2-275 DR GENE3D; 7afdd34e2c0418d002477f46b4c52d69/2-275; #=GS A0A1D9N950/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium pasteurianum; #=GS A0A1D9N950/2-275 DR EC; 1.18.6.1; #=GS P09553/2-275 AC P09553 #=GS P09553/2-275 OS Clostridium pasteurianum #=GS P09553/2-275 DE Nitrogenase iron protein 3 #=GS P09553/2-275 DR GENE3D; 7afdd34e2c0418d002477f46b4c52d69/2-275; #=GS P09553/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium pasteurianum; #=GS P09553/2-275 DR EC; 1.18.6.1; #=GS K6TL22/1-274 AC K6TL22 #=GS K6TL22/1-274 OS Clostridium sp. Maddingley MBC34-26 #=GS K6TL22/1-274 DE Nitrogenase iron protein #=GS K6TL22/1-274 DR GENE3D; 84671a07417273f6ebeda4547793a51f/1-274; #=GS K6TL22/1-274 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium sp. Maddingley MBC34-26; #=GS K6TL22/1-274 DR EC; 1.18.6.1; #=GS A0A0H5B161/1-243 AC A0A0H5B161 #=GS A0A0H5B161/1-243 OS Treponema endosymbiont of Eucomonympha sp. #=GS A0A0H5B161/1-243 DE Nitrogenase #=GS A0A0H5B161/1-243 DR GENE3D; 8d42fc093ac46887f92a3459e189b16e/1-243; #=GS A0A0H5B161/1-243 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Treponema; Treponema endosymbiont of Eucomonympha sp.; #=GS A0A0H5B161/1-243 DR EC; 1.18.6.1; #=GS E6VMU9/2-275 AC E6VMU9 #=GS E6VMU9/2-275 OS Rhodopseudomonas palustris DX-1 #=GS E6VMU9/2-275 DE Nitrogenase iron protein #=GS E6VMU9/2-275 DR GENE3D; 854312ecae2ed8a51a19b20b3e509a80/2-275; #=GS E6VMU9/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; #=GS E6VMU9/2-275 DR EC; 1.18.6.1; #=GS A0A117LXQ8/1-275 AC A0A117LXQ8 #=GS A0A117LXQ8/1-275 OS Methanobacterium sp. 42_16 #=GS A0A117LXQ8/1-275 DE Nitrogenase iron protein #=GS A0A117LXQ8/1-275 DR GENE3D; 8fb985f606caaf0ef677c6fa4d1c64b1/1-275; #=GS A0A117LXQ8/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. 42_16; #=GS A0A117LXQ8/1-275 DR EC; 1.18.6.1; #=GS A0A1J5P201/2-275 AC A0A1J5P201 #=GS A0A1J5P201/2-275 OS Moorella thermoacetica #=GS A0A1J5P201/2-275 DE Nitrogenase iron protein #=GS A0A1J5P201/2-275 DR GENE3D; 913b4ce9672c11c9d83599c821920fab/2-275; #=GS A0A1J5P201/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Thermoanaerobacterales; Thermoanaerobacteraceae; Moorella; Moorella thermoacetica; #=GS A0A1J5P201/2-275 DR EC; 1.18.6.1; #=GS A0A0Q0VGN8/2-275 AC A0A0Q0VGN8 #=GS A0A0Q0VGN8/2-275 OS Rhodobacter capsulatus #=GS A0A0Q0VGN8/2-275 DE Nitrogenase iron protein #=GS A0A0Q0VGN8/2-275 DR GENE3D; 90a113a50292c5acd13466703b83cca2/2-275; #=GS A0A0Q0VGN8/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter capsulatus; #=GS A0A0Q0VGN8/2-275 DR EC; 1.18.6.1; #=GS A0A089HQ61/2-275 AC A0A089HQ61 #=GS A0A089HQ61/2-275 OS Paenibacillus durus #=GS A0A089HQ61/2-275 DE Nitrogenase iron protein #=GS A0A089HQ61/2-275 DR GENE3D; 992c23a1ebccc6307d27b67440b5f6c5/2-275; #=GS A0A089HQ61/2-275 DR ORG; Bacteria; Firmicutes; Bacilli; Bacillales; Paenibacillaceae; Paenibacillus; Paenibacillus durus; #=GS A0A089HQ61/2-275 DR EC; 1.18.6.1; #=GS A6VFE2/1-275 AC A6VFE2 #=GS A6VFE2/1-275 OS Methanococcus maripaludis C7 #=GS A6VFE2/1-275 DE Nitrogenase iron protein #=GS A6VFE2/1-275 DR GENE3D; 9ba0a59c00c667a28f198a7b36a6d0cf/1-275; #=GS A6VFE2/1-275 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS A6VFE2/1-275 DR EC; 1.18.6.1; #=GS A0A075KIA7/2-275 AC A0A075KIA7 #=GS A0A075KIA7/2-275 OS Pelosinus sp. UFO1 #=GS A0A075KIA7/2-275 DE Nitrogenase iron protein #=GS A0A075KIA7/2-275 DR GENE3D; a9044673f29cb44c7ad4d6edeb8c8176/2-275; #=GS A0A075KIA7/2-275 DR ORG; Bacteria; Firmicutes; Negativicutes; Selenomonadales; Sporomusaceae; Pelosinus; Pelosinus sp. UFO1; #=GS A0A075KIA7/2-275 DR EC; 1.18.6.1; #=GS F8ADN5/3-275 AC F8ADN5 #=GS F8ADN5/3-275 OS Thermodesulfatator indicus DSM 15286 #=GS F8ADN5/3-275 DE Nitrogenase iron protein #=GS F8ADN5/3-275 DR GENE3D; aa6e8e824b87cfc1f900aa20a3a669cf/3-275; #=GS F8ADN5/3-275 DR ORG; Bacteria; Thermodesulfobacteria; Thermodesulfobacteria; Thermodesulfobacteriales; Thermodesulfobacteriaceae; Thermodesulfatator; Thermodesulfatator indicus; #=GS F8ADN5/3-275 DR EC; 1.18.6.1; #=GS E3I2V3/2-275 AC E3I2V3 #=GS E3I2V3/2-275 OS Rhodomicrobium vannielii ATCC 17100 #=GS E3I2V3/2-275 DE Nitrogenase iron protein #=GS E3I2V3/2-275 DR GENE3D; ae8167a5eb4c284174b8ea80c45058ab/2-275; #=GS E3I2V3/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Rhodomicrobium; Rhodomicrobium vannielii; #=GS E3I2V3/2-275 DR EC; 1.18.6.1; #=GS M1MKP0/1-274 AC M1MKP0 #=GS M1MKP0/1-274 OS Clostridium saccharoperbutylacetonicum N1-4(HMT) #=GS M1MKP0/1-274 DE Nitrogenase iron protein #=GS M1MKP0/1-274 DR GENE3D; a70dcae9c2c5d6d001c2c6eab81bf819/1-274; #=GS M1MKP0/1-274 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium saccharoperbutylacetonicum; #=GS M1MKP0/1-274 DR EC; 1.18.6.1; #=GS A0A179D4S3/5-277 AC A0A179D4S3 #=GS A0A179D4S3/5-277 OS Thermosulfurimonas dismutans #=GS A0A179D4S3/5-277 DE Nitrogenase iron protein #=GS A0A179D4S3/5-277 DR GENE3D; a86049c192986c421bd16215ab155a0c/5-277; #=GS A0A179D4S3/5-277 DR ORG; Bacteria; Thermodesulfobacteria; Thermodesulfobacteria; Thermodesulfobacteriales; Thermodesulfobacteriaceae; Thermosulfurimonas; Thermosulfurimonas dismutans; #=GS A0A179D4S3/5-277 DR EC; 1.18.6.1; #=GS A0A0G4JWN8/1-274 AC A0A0G4JWN8 #=GS A0A0G4JWN8/1-274 OS Brenneria goodwinii #=GS A0A0G4JWN8/1-274 DE Nitrogenase iron protein #=GS A0A0G4JWN8/1-274 DR GENE3D; b5c5e14e744de30ae6300a95f98701cc/1-274; #=GS A0A0G4JWN8/1-274 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Brenneria; Brenneria goodwinii; #=GS A0A0G4JWN8/1-274 DR EC; 1.18.6.1; #=GS Q46A86/2-275 AC Q46A86 #=GS Q46A86/2-275 OS Methanosarcina barkeri str. Fusaro #=GS Q46A86/2-275 DE Nitrogenase iron protein #=GS Q46A86/2-275 DR GENE3D; b6f12288b19bb2d33c04e135bfcc0215/2-275; #=GS Q46A86/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS Q46A86/2-275 DR EC; 1.18.6.1; #=GS A0A0E3QNQ3/2-275 AC A0A0E3QNQ3 #=GS A0A0E3QNQ3/2-275 OS Methanosarcina barkeri str. Wiesmoor #=GS A0A0E3QNQ3/2-275 DE Nitrogenase iron protein #=GS A0A0E3QNQ3/2-275 DR GENE3D; b6f12288b19bb2d33c04e135bfcc0215/2-275; #=GS A0A0E3QNQ3/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3QNQ3/2-275 DR EC; 1.18.6.1; #=GS B1I0Y8/2-276 AC B1I0Y8 #=GS B1I0Y8/2-276 OS Candidatus Desulforudis audaxviator MP104C #=GS B1I0Y8/2-276 DE Nitrogenase iron protein #=GS B1I0Y8/2-276 DR GENE3D; ae1d9eebdc1f5960ecbda4e27207ed3d/2-276; #=GS B1I0Y8/2-276 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptococcaceae; Candidatus Desulforudis; Candidatus Desulforudis audaxviator; #=GS B1I0Y8/2-276 DR EC; 1.18.6.1; #=GS F8ESW0/7-280 AC F8ESW0 #=GS F8ESW0/7-280 OS Zymomonas mobilis subsp. pomaceae ATCC 29192 #=GS F8ESW0/7-280 DE Nitrogenase iron protein #=GS F8ESW0/7-280 DR GENE3D; b9e3ace22d36be673187f19c2df6f686/7-280; #=GS F8ESW0/7-280 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Zymomonas; Zymomonas mobilis; Zymomonas mobilis subsp. pomaceae; #=GS F8ESW0/7-280 DR EC; 1.18.6.1; #=GS A0A1D3L4P3/1-275 AC A0A1D3L4P3 #=GS A0A1D3L4P3/1-275 OS Methanobacterium congolense #=GS A0A1D3L4P3/1-275 DE Nitrogenase iron protein #=GS A0A1D3L4P3/1-275 DR GENE3D; caead20f30e90dcf3d4a5879c23ceb57/1-275; #=GS A0A1D3L4P3/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium congolense; #=GS A0A1D3L4P3/1-275 DR EC; 1.18.6.1; #=GS F6BC62/10-284 AC F6BC62 #=GS F6BC62/10-284 OS Methanotorris igneus Kol 5 #=GS F6BC62/10-284 DE Nitrogenase iron protein #=GS F6BC62/10-284 DR GENE3D; c296025efb72213260f587cc8d5ca6ce/10-284; #=GS F6BC62/10-284 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanotorris; Methanotorris igneus; #=GS F6BC62/10-284 DR EC; 1.18.6.1; #=GS P51602/1-275 AC P51602 #=GS P51602/1-275 OS Methanobacterium ivanovii #=GS P51602/1-275 DE Nitrogenase iron protein 1 #=GS P51602/1-275 DR GENE3D; c49ef4bd7895f162636c5db0be297536/1-275; #=GS P51602/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium ivanovii; #=GS P51602/1-275 DR EC; 1.18.6.1; #=GS A0A1B7LKN4/2-274 AC A0A1B7LKN4 #=GS A0A1B7LKN4/2-274 OS Desulfotomaculum copahuensis #=GS A0A1B7LKN4/2-274 DE Nitrogenase iron protein #=GS A0A1B7LKN4/2-274 DR GENE3D; cf57d552d42330c57da600e54a76373e/2-274; #=GS A0A1B7LKN4/2-274 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptococcaceae; Desulfotomaculum; Desulfotomaculum copahuensis; #=GS A0A1B7LKN4/2-274 DR EC; 1.18.6.1; #=GS A0A178IPV8/1-274 AC A0A178IPV8 #=GS A0A178IPV8/1-274 OS Opitutaceae bacterium TSB47 #=GS A0A178IPV8/1-274 DE Nitrogenase iron protein #=GS A0A178IPV8/1-274 DR GENE3D; d4b60ffd300ab23d8be7a3b4cacc01c2/1-274; #=GS A0A178IPV8/1-274 DR ORG; Bacteria; Verrucomicrobia; Opitutae; Opitutales; Opitutaceae; Opitutaceae bacterium TSB47; #=GS A0A178IPV8/1-274 DR EC; 1.18.6.1; #=GS A0A166ETF1/1-275 AC A0A166ETF1 #=GS A0A166ETF1/1-275 OS Methanobrevibacter filiformis #=GS A0A166ETF1/1-275 DE Nitrogenase iron protein #=GS A0A166ETF1/1-275 DR GENE3D; da58d9189f33e9cdc8353605e9b4d340/1-275; #=GS A0A166ETF1/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter filiformis; #=GS A0A166ETF1/1-275 DR EC; 1.18.6.1; #=GS A0A177E912/3-275 AC A0A177E912 #=GS A0A177E912/3-275 OS Thermodesulfatator autotrophicus #=GS A0A177E912/3-275 DE Nitrogenase iron protein #=GS A0A177E912/3-275 DR GENE3D; d7956bc1df1e9c1caa2b5e129480e396/3-275; #=GS A0A177E912/3-275 DR ORG; Bacteria; Thermodesulfobacteria; Thermodesulfobacteria; Thermodesulfobacteriales; Thermodesulfobacteriaceae; Thermodesulfatator; Thermodesulfatator autotrophicus; #=GS A0A177E912/3-275 DR EC; 1.18.6.1; #=GS A0A1J4STR1/1-274 AC A0A1J4STR1 #=GS A0A1J4STR1/1-274 OS Desulfovibrionaceae bacterium CG1_02_65_16 #=GS A0A1J4STR1/1-274 DE Nitrogenase iron protein #=GS A0A1J4STR1/1-274 DR GENE3D; db65262b7d39c11c00bdebe94f975ceb/1-274; #=GS A0A1J4STR1/1-274 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrionaceae bacterium CG1_02_65_16; #=GS A0A1J4STR1/1-274 DR EC; 1.18.6.1; #=GS K6TWW5/1-275 AC K6TWW5 #=GS K6TWW5/1-275 OS Methanobacterium sp. Maddingley MBC34 #=GS K6TWW5/1-275 DE Nitrogenase iron protein #=GS K6TWW5/1-275 DR GENE3D; d7c31d40a94a9bd0b55917e4e5ca9e2f/1-275; #=GS K6TWW5/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. Maddingley MBC34; #=GS K6TWW5/1-275 DR EC; 1.18.6.1; #=GS J1QGN3/2-275 AC J1QGN3 #=GS J1QGN3/2-275 OS Kosakonia radicincitans DSM 16656 #=GS J1QGN3/2-275 DE Nitrogenase iron protein #=GS J1QGN3/2-275 DR GENE3D; e43f723c1f1e51cab206f95139f87bfe/2-275; #=GS J1QGN3/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Kosakonia; Kosakonia radicincitans; #=GS J1QGN3/2-275 DR EC; 1.18.6.1; #=GS A0A0E3QD11/2-275 AC A0A0E3QD11 #=GS A0A0E3QD11/2-275 OS Methanosarcina sp. Kolksee #=GS A0A0E3QD11/2-275 DE Nitrogenase iron protein #=GS A0A0E3QD11/2-275 DR GENE3D; e4fddcf1d0a93e2c018e22bf42aab384/2-275; #=GS A0A0E3QD11/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina sp. Kolksee; #=GS A0A0E3QD11/2-275 DR EC; 1.18.6.1; #=GS A0A0E3LHL9/2-275 AC A0A0E3LHL9 #=GS A0A0E3LHL9/2-275 OS Methanosarcina vacuolata Z-761 #=GS A0A0E3LHL9/2-275 DE Nitrogenase iron protein #=GS A0A0E3LHL9/2-275 DR GENE3D; e4fddcf1d0a93e2c018e22bf42aab384/2-275; #=GS A0A0E3LHL9/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina vacuolata; #=GS A0A0E3LHL9/2-275 DR EC; 1.18.6.1; #=GS G2E4N0/2-275 AC G2E4N0 #=GS G2E4N0/2-275 OS Thiorhodococcus drewsii AZ1 #=GS G2E4N0/2-275 DE Nitrogenase iron protein #=GS G2E4N0/2-275 DR GENE3D; f02d337a4d0aa2236b5dff18b3cafcc6/2-275; #=GS G2E4N0/2-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thiorhodococcus; Thiorhodococcus drewsii; #=GS G2E4N0/2-275 DR EC; 1.18.6.1; #=GS A0A0F7F874/2-275 AC A0A0F7F874 #=GS A0A0F7F874/2-275 OS Paenibacillus durus ATCC 35681 #=GS A0A0F7F874/2-275 DE Nitrogenase iron protein #=GS A0A0F7F874/2-275 DR GENE3D; f557c7db29147c9107ebc6def9fc39a4/2-275; #=GS A0A0F7F874/2-275 DR ORG; Bacteria; Firmicutes; Bacilli; Bacillales; Paenibacillaceae; Paenibacillus; Paenibacillus durus; #=GS A0A0F7F874/2-275 DR EC; 1.18.6.1; #=GS A6UNA7/1-275 AC A6UNA7 #=GS A6UNA7/1-275 OS Methanococcus vannielii SB #=GS A6UNA7/1-275 DE Nitrogenase iron protein #=GS A6UNA7/1-275 DR GENE3D; f416601cd6457d5bf2933387f84b7d80/1-275; #=GS A6UNA7/1-275 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus vannielii; #=GS A6UNA7/1-275 DR EC; 1.18.6.1; #=GS A6UWY8/10-283 AC A6UWY8 #=GS A6UWY8/10-283 OS Methanococcus aeolicus Nankai-3 #=GS A6UWY8/10-283 DE Nitrogenase iron protein #=GS A6UWY8/10-283 DR GENE3D; f50e966d8ff0f99d4aa90a931dd10cf1/10-283; #=GS A6UWY8/10-283 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus aeolicus; #=GS A6UWY8/10-283 DR EC; 1.18.6.1; #=GS U6EBT4/1-276 AC U6EBT4 #=GS U6EBT4/1-276 OS Methanobacterium sp. MB1 #=GS U6EBT4/1-276 DE Nitrogenase iron protein #=GS U6EBT4/1-276 DR GENE3D; f669792a139a3c6c87d68cc5960a3240/1-276; #=GS U6EBT4/1-276 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. MB1; #=GS U6EBT4/1-276 DR EC; 1.18.6.1; #=GS A0A090I964/1-276 AC A0A090I964 #=GS A0A090I964/1-276 OS Methanobacterium formicicum #=GS A0A090I964/1-276 DE Nitrogenase iron protein #=GS A0A090I964/1-276 DR GENE3D; f669792a139a3c6c87d68cc5960a3240/1-276; #=GS A0A090I964/1-276 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium formicicum; #=GS A0A090I964/1-276 DR EC; 1.18.6.1; #=GS F0SYL1/1-271 AC F0SYL1 #=GS F0SYL1/1-271 OS Syntrophobotulus glycolicus DSM 8271 #=GS F0SYL1/1-271 DE Nitrogenase iron protein #=GS F0SYL1/1-271 DR GENE3D; ee07e3b8d46eecd10a2d90f0a301313b/1-271; #=GS F0SYL1/1-271 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptococcaceae; Syntrophobotulus; Syntrophobotulus glycolicus; #=GS F0SYL1/1-271 DR EC; 1.18.6.1; #=GS D3S6S2/11-285 AC D3S6S2 #=GS D3S6S2/11-285 OS Methanocaldococcus sp. FS406-22 #=GS D3S6S2/11-285 DE Nitrogenase iron protein #=GS D3S6S2/11-285 DR GENE3D; fc792ff0a3ac3dc16f749118e0989ce7/11-285; #=GS D3S6S2/11-285 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus sp. FS406-22; #=GS D3S6S2/11-285 DR EC; 1.18.6.1; #=GS B3QTT7/1-274 AC B3QTT7 #=GS B3QTT7/1-274 OS Chloroherpeton thalassium ATCC 35110 #=GS B3QTT7/1-274 DE Nitrogenase iron protein #=GS B3QTT7/1-274 DR GENE3D; fb14c241c221fed19a8a0c351a816b66/1-274; #=GS B3QTT7/1-274 DR ORG; Bacteria; Chlorobi; Chlorobia; Chlorobiales; Chlorobiaceae; Chloroherpeton; Chloroherpeton thalassium; #=GS B3QTT7/1-274 DR EC; 1.18.6.1; #=GS A0A0N1C4Y4/2-275 AC A0A0N1C4Y4 #=GS A0A0N1C4Y4/2-275 OS Rhodopseudomonas sp. AAP120 #=GS A0A0N1C4Y4/2-275 DE Nitrogenase iron protein #=GS A0A0N1C4Y4/2-275 DR GENE3D; 0f8c88b3f8fa63ed727a2e8bba484670/2-275; #=GS A0A0N1C4Y4/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas sp. AAP120; #=GS A0A0N1C4Y4/2-275 DR EC; 1.18.6.1; #=GS G2FXQ7/2-275 AC G2FXQ7 #=GS G2FXQ7/2-275 OS Desulfosporosinus sp. OT #=GS G2FXQ7/2-275 DE Nitrogenase iron protein #=GS G2FXQ7/2-275 DR GENE3D; 0fab45c47fa43021531d93be54280afc/2-275; #=GS G2FXQ7/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Peptococcaceae; Desulfosporosinus; Desulfosporosinus sp. OT; #=GS G2FXQ7/2-275 DR EC; 1.18.6.1; #=GS A0A0C7NM58/2-275 AC A0A0C7NM58 #=GS A0A0C7NM58/2-275 OS Moorella glycerini #=GS A0A0C7NM58/2-275 DE Nitrogenase iron protein #=GS A0A0C7NM58/2-275 DR GENE3D; 12b41e318597d251a0f5dcd7b8692656/2-275; #=GS A0A0C7NM58/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Thermoanaerobacterales; Thermoanaerobacteraceae; Moorella; Moorella glycerini; #=GS A0A0C7NM58/2-275 DR EC; 1.18.6.1; #=GS Q07JS4/2-275 AC Q07JS4 #=GS Q07JS4/2-275 OS Rhodopseudomonas palustris BisA53 #=GS Q07JS4/2-275 DE Nitrogenase iron protein #=GS Q07JS4/2-275 DR GENE3D; 14168cdb4b1d075fd79c8cd71ba5a785/2-275; #=GS Q07JS4/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; #=GS Q07JS4/2-275 DR EC; 1.18.6.1; #=GS A0A089LPY2/2-275 AC A0A089LPY2 #=GS A0A089LPY2/2-275 OS Paenibacillus stellifer #=GS A0A089LPY2/2-275 DE Nitrogenase iron protein #=GS A0A089LPY2/2-275 DR GENE3D; 1a76edffad71bad65e20752486eb37d8/2-275; #=GS A0A089LPY2/2-275 DR ORG; Bacteria; Firmicutes; Bacilli; Bacillales; Paenibacillaceae; Paenibacillus; Paenibacillus stellifer; #=GS A0A089LPY2/2-275 DR EC; 1.18.6.1; #=GS A0A1B7GIH0/1-274 AC A0A1B7GIH0 #=GS A0A1B7GIH0/1-274 OS Opitutaceae bacterium TAV4 #=GS A0A1B7GIH0/1-274 DE Nitrogenase iron protein #=GS A0A1B7GIH0/1-274 DR GENE3D; 213d49b59479d528c4bf2726b2d4df7f/1-274; #=GS A0A1B7GIH0/1-274 DR ORG; Bacteria; Verrucomicrobia; Opitutae; Opitutales; Opitutaceae; Opitutaceae bacterium TAV4; #=GS A0A1B7GIH0/1-274 DR EC; 1.18.6.1; #=GS J5PIH8/2-276 AC J5PIH8 #=GS J5PIH8/2-276 OS Rhodovulum sp. PH10 #=GS J5PIH8/2-276 DE Nitrogenase iron protein #=GS J5PIH8/2-276 DR GENE3D; 4ebd9b602ae3f6b36c89d40dd03ce4f6/2-276; #=GS J5PIH8/2-276 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodovulum; Rhodovulum sp. PH10; #=GS J5PIH8/2-276 DR EC; 1.18.6.1; #=GS Q20XD0/2-275 AC Q20XD0 #=GS Q20XD0/2-275 OS Rhodopseudomonas palustris BisB18 #=GS Q20XD0/2-275 DE Nitrogenase iron protein #=GS Q20XD0/2-275 DR GENE3D; 550a11367394f49c7f4f2e79953e5ae2/2-275; #=GS Q20XD0/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; #=GS Q20XD0/2-275 DR EC; 1.18.6.1; #=GS Q9S0V6/1-238 AC Q9S0V6 #=GS Q9S0V6/1-238 OS nitrogen fixing bacterium ANFK33 #=GS Q9S0V6/1-238 DE Nitrogenase #=GS Q9S0V6/1-238 DR GENE3D; 580dcde99d24e7eeecd737ddb7293d91/1-238; #=GS Q9S0V6/1-238 DR ORG; Bacteria; nitrogen fixing bacterium ANFK33; #=GS Q9S0V6/1-238 DR EC; 1.18.6.1; #=GS A0A1D2WDC6/1-275 AC A0A1D2WDC6 #=GS A0A1D2WDC6/1-275 OS Methanobacterium sp. A39 #=GS A0A1D2WDC6/1-275 DE Nitrogenase iron protein #=GS A0A1D2WDC6/1-275 DR GENE3D; 5e7dd2f13104918bf050fbdbb64db36d/1-275; #=GS A0A1D2WDC6/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. A39; #=GS A0A1D2WDC6/1-275 DR EC; 1.18.6.1; #=GS A0A0E3SMX2/2-275 AC A0A0E3SMX2 #=GS A0A0E3SMX2/2-275 OS Methanosarcina barkeri 3 #=GS A0A0E3SMX2/2-275 DE Nitrogenase iron protein #=GS A0A0E3SMX2/2-275 DR GENE3D; 6834e3df1f0f90f30f9d842e58cbcba8/2-275; #=GS A0A0E3SMX2/2-275 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanosarcina; Methanosarcina barkeri; #=GS A0A0E3SMX2/2-275 DR EC; 1.18.6.1; #=GS S9S7G7/2-275 AC S9S7G7 #=GS S9S7G7/2-275 OS Phaeospirillum fulvum MGU-K5 #=GS S9S7G7/2-275 DE Nitrogenase iron protein #=GS S9S7G7/2-275 DR GENE3D; 85c0599f5df1f4767dea788539bcdbe9/2-275; #=GS S9S7G7/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Phaeospirillum; Phaeospirillum fulvum; #=GS S9S7G7/2-275 DR EC; 1.18.6.1; #=GS D5VUA1/10-284 AC D5VUA1 #=GS D5VUA1/10-284 OS Methanocaldococcus infernus ME #=GS D5VUA1/10-284 DE Nitrogenase iron protein #=GS D5VUA1/10-284 DR GENE3D; 8ab0e6bb438fccd6001103e2cbacdc75/10-284; #=GS D5VUA1/10-284 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus infernus; #=GS D5VUA1/10-284 DR EC; 1.18.6.1; #=GS A0A1J5JT20/2-275 AC A0A1J5JT20 #=GS A0A1J5JT20/2-275 OS Moorella thermoacetica #=GS A0A1J5JT20/2-275 DE Nitrogenase iron protein #=GS A0A1J5JT20/2-275 DR GENE3D; 92ec30f5987c34c33b2084dcdd4ac6bf/2-275; #=GS A0A1J5JT20/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Thermoanaerobacterales; Thermoanaerobacteraceae; Moorella; Moorella thermoacetica; #=GS A0A1J5JT20/2-275 DR EC; 1.18.6.1; #=GS A0A1J5NI34/2-275 AC A0A1J5NI34 #=GS A0A1J5NI34/2-275 OS Desulfovibrio dechloracetivorans #=GS A0A1J5NI34/2-275 DE Nitrogenase iron protein #=GS A0A1J5NI34/2-275 DR GENE3D; 98d3c3110f9fa42939eb984d5a08575a/2-275; #=GS A0A1J5NI34/2-275 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio dechloracetivorans; #=GS A0A1J5NI34/2-275 DR EC; 1.18.6.1; #=GS B9E2E7/2-275 AC B9E2E7 #=GS B9E2E7/2-275 OS Clostridium kluyveri NBRC 12016 #=GS B9E2E7/2-275 DE Nitrogenase iron protein #=GS B9E2E7/2-275 DR GENE3D; 92925a4210a1482a14a9dc2a1c577f59/2-275; #=GS B9E2E7/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium kluyveri; #=GS B9E2E7/2-275 DR EC; 1.18.6.1; #=GS A5N909/2-275 AC A5N909 #=GS A5N909/2-275 OS Clostridium kluyveri DSM 555 #=GS A5N909/2-275 DE Nitrogenase iron protein #=GS A5N909/2-275 DR GENE3D; 92925a4210a1482a14a9dc2a1c577f59/2-275; #=GS A5N909/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium kluyveri; #=GS A5N909/2-275 DR EC; 1.18.6.1; #=GS F6D764/1-275 AC F6D764 #=GS F6D764/1-275 OS Methanobacterium paludis #=GS F6D764/1-275 DE Nitrogenase iron protein #=GS F6D764/1-275 DR GENE3D; aaac3609da5dbcd89d887c475fb5d7f1/1-275; #=GS F6D764/1-275 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium paludis; #=GS F6D764/1-275 DR EC; 1.18.6.1; #=GS D7CIZ5/2-275 AC D7CIZ5 #=GS D7CIZ5/2-275 OS Syntrophothermus lipocalidus DSM 12680 #=GS D7CIZ5/2-275 DE Nitrogenase iron protein #=GS D7CIZ5/2-275 DR GENE3D; ba99e87568153a9d724d7aca7ddb1b75/2-275; #=GS D7CIZ5/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Syntrophomonadaceae; Syntrophothermus; Syntrophothermus lipocalidus; #=GS D7CIZ5/2-275 DR EC; 1.18.6.1; #=GS G7M409/2-275 AC G7M409 #=GS G7M409/2-275 OS Clostridium sp. DL-VIII #=GS G7M409/2-275 DE Nitrogenase iron protein #=GS G7M409/2-275 DR GENE3D; c2fd061dbe37a26f07e67b6406eee355/2-275; #=GS G7M409/2-275 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium sp. DL-VIII; #=GS G7M409/2-275 DR EC; 1.18.6.1; #=GS W0IXL3/1-274 AC W0IXL3 #=GS W0IXL3/1-274 OS Opitutaceae bacterium TAV5 #=GS W0IXL3/1-274 DE Nitrogenase iron protein #=GS W0IXL3/1-274 DR GENE3D; d2d283040cf6c443d9ba414dc1c94546/1-274; #=GS W0IXL3/1-274 DR ORG; Bacteria; Verrucomicrobia; Opitutae; Opitutales; Opitutaceae; Opitutaceae bacterium TAV5; #=GS W0IXL3/1-274 DR EC; 1.18.6.1; #=GS I6B4G9/1-274 AC I6B4G9 #=GS I6B4G9/1-274 OS Opitutaceae bacterium TAV1 #=GS I6B4G9/1-274 DE Nitrogenase iron protein #=GS I6B4G9/1-274 DR GENE3D; d2d283040cf6c443d9ba414dc1c94546/1-274; #=GS I6B4G9/1-274 DR ORG; Bacteria; Verrucomicrobia; Opitutae; Opitutales; Opitutaceae; Opitutaceae bacterium TAV1; #=GS I6B4G9/1-274 DR EC; 1.18.6.1; #=GS A0A037V0Y3/2-275 AC A0A037V0Y3 #=GS A0A037V0Y3/2-275 OS Rhodomicrobium udaipurense JA643 #=GS A0A037V0Y3/2-275 DE Nitrogenase iron protein #=GS A0A037V0Y3/2-275 DR GENE3D; e6e4a7fb8f4a6e3812ec301a714ff3ff/2-275; #=GS A0A037V0Y3/2-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Rhodomicrobium; Rhodomicrobium udaipurense; #=GS A0A037V0Y3/2-275 DR EC; 1.18.6.1; #=GS C9RH87/11-284 AC C9RH87 #=GS C9RH87/11-284 OS Methanocaldococcus vulcanius M7 #=GS C9RH87/11-284 DE Nitrogenase iron protein #=GS C9RH87/11-284 DR GENE3D; fe589c3acb5985b7884d684f5443d52c/11-284; #=GS C9RH87/11-284 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus vulcanius; #=GS C9RH87/11-284 DR EC; 1.18.6.1; #=GS A4PDE0/1-143 AC A4PDE0 #=GS A4PDE0/1-143 OS uncultured nitrogen-fixing bacterium #=GS A4PDE0/1-143 DE Dinitrogenase reductase #=GS A4PDE0/1-143 DR GENE3D; 3ddb0b73fdc6ee94d4709ff23e65c4c8/1-143; #=GS A4PDE0/1-143 DR ORG; Bacteria; uncultured nitrogen-fixing bacterium; #=GS A2I9Z4/1-119 AC A2I9Z4 #=GS A2I9Z4/1-119 OS uncultured nitrogen-fixing bacterium #=GS A2I9Z4/1-119 DE Dinitrogenase reductase #=GS A2I9Z4/1-119 DR GENE3D; 838141e65b6663e2b6b4f717ea6355b4/1-119; #=GS A2I9Z4/1-119 DR ORG; Bacteria; uncultured nitrogen-fixing bacterium; #=GS X2J4X9/1-158 AC X2J4X9 #=GS X2J4X9/1-158 OS uncultured bacterium #=GS X2J4X9/1-158 DE Dinitrogenase reductase #=GS X2J4X9/1-158 DR GENE3D; 9a322d4b73bb9da687652d5079f059d6/1-158; #=GS X2J4X9/1-158 DR ORG; Bacteria; uncultured bacterium; #=GS O66339/1-143 AC O66339 #=GS O66339/1-143 OS unidentified nitrogen-fixing bacteria #=GS O66339/1-143 DE Alpha subunit of dinitrogenase reductase #=GS O66339/1-143 DR GENE3D; b0b3c54f08488de5931ba571aeacb741/1-143; #=GS O66339/1-143 DR ORG; Bacteria; unidentified nitrogen-fixing bacteria; #=GS A9ZRT7/1-258 AC A9ZRT7 #=GS A9ZRT7/1-258 OS uncultured archaeon #=GS A9ZRT7/1-258 DE Dinitrogenase reductase #=GS A9ZRT7/1-258 DR GENE3D; b7e8d6666c78328b9d0849b5322653c2/1-258; #=GS A9ZRT7/1-258 DR ORG; Archaea; uncultured archaeon; #=GS X2J494/1-158 AC X2J494 #=GS X2J494/1-158 OS uncultured bacterium #=GS X2J494/1-158 DE Dinitrogenase reductase #=GS X2J494/1-158 DR GENE3D; e1a80a57be1371ed08535143c055a0d0/1-158; #=GS X2J494/1-158 DR ORG; Bacteria; uncultured bacterium; #=GF TC 242.9 1.6E-74 #=GF SQ 138 O27602/1-275 MVRKIAIYGKGGIGKSTTQQNTAAAMSYFHGKNVMIHGCDPKADSTRLILGGKMQTTMMDTLRELGEVA-CTPDKVIETGFGGIKCVESGGPEPGVGCAGRGVITAITLMERHGVYEKDLDFVFFDVLGDVVCGGFAMPVRDGKAEEIYIVASGEMMALYAANNICKGMVKYARQSGVRLGGIICNSRNVDGEKELLEEFCERIGTQMIHFVPRDNIVQKAEFNKKSVIEFDPECNQSQEYRELARKIIEN--KDFVIPEPMTMDEMEELVVKYGVMD- K2RWE1/1-275 MVRKIAIYGKGGIGKSTTTQNTASAMAHFHDKKVMIHGCDPKADSTRMILGGKMQTTMMDTLREEGEEACMDLDKIMSTGFDGIKCVESGGPEPGVGCAGRGVITAITIMEQLKVY-DDNDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYAEQSGVRLGGIICNSRNVDGEKELLEEFCKRIGTQLIYFVPRDNIVQKAEFNKRTVVEFDEECNQAHEYEELGRKIIEN--ENFVIPNPMSMEELEEMVMKYGLVD- Q8TH41/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKNVFIHGCDPKADCTRLALGGVPQTTIMDTLRELGEEA-VTVDNVVNTGFKGIRCVESGGPEPGVGCAGRGVITAINLMEELGAYSDDLDFVHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRKVDNELEMMEEFVSALGTQLIHFVPRDNIVQKAEFNKKTVVEFDPECNQAKEYGKLAKKILEN--DMFVIPKPLSMDQLEKMVARYGLMD- P0CW57/1-275 MVRKIAIYGKGGIGKSTTTQNTVAAMAHFHDKKVFIHGCDPKADSTRLILHGKQQVTMMDTLREKGEDE-CTPDKVIEVGFGGVKCVESGGPEPGVGCAGRGVITAITLMEQHGVYEDDLDFVFFDVLGDVVCGGFAMPVRDGKADEIYVVASGEMMALYAANNICKGMVKYAEQSGVRLGGIICNSRNVDGELDLLQEFCDKIGTQLIHFVPRDNIVQKAEFQKKAVVDYDDTCNQALEYKELARKIIEN--ENLVIPTPMTMDELEELTSKYGFLD- C1DK95/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAYFHDKKVFIHGCDPKADSTRLILGGKPQETLMDMLRDKGAEK-ITNDDVIKKGFLDIQCVESGGPEPGVGCAGRGVITAIDLMEENGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFAPEENQAKEYGELARKIIEN--DEFVIPKPLTMDQLEDMVVKYGIAD- Q2RUJ9/2-275 -TRKIAIYGKGGIGKSTTTQNTAAAMAHFHHKKIFIHGCDPKADSTRLILGGKPQETLMDVLREQGAEK-VTYDKVVRKGYMDIQCVESGGPEPGVGCAGRGVITAIDLMEAQGAYTSDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAVYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFIEEFTKAIGTTMIHFVPRDNIVQKAEFNKKTVTEYEPTENQANEYSLLAQAIIEN--DNFVIPKPMTMDELESMVEKYGLLD- A0A0B1TZL3/2-275 -TRKIAIYGKGGIGKSTTTQNTAAAMAHFHDKKIFIHGCDPKADSTRLILGGKPQETLMDVLRDQGAEK-VTNDKVIKQGFMGIHCVESGGPEPGVGCAGRGVITAIDLMEANGAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGVICNSRKVDGEREFLEEFTAAIGTQMIHFVPRDNIVQKAEFNKKTVTEYDATENQALEYSELGRKIIEN--KNFVIPKPMTMDELEAMVVKYGIAD- E4T468/1-274 -MKKIAFYGKGGIGKSTTQQNTAAAMAYFHDQKVFIHGCDPKADSTRMILGGMNQKTIMDTLRDDGAEL-VTVDKVVSSGFGGIKCTESGGPEPGVGCAGRGVITAIDLMEAQGAYTPELNYVFYDVLGDVVCGGFAMPIRDGKAQEVYIVVSGEMMAVYAANNICKGLVKYAKQSGVRLGGLVCNSRKVDKEREFIEEFATAIGTQMIHFVPRDNIVQKAEFNKKTVIEYDEKCNQAHEYSELARKIIAN--DNFVVPKPLTMPELEAMVVKYGIAE- D5ANJ6/2-275 -TRKIAIYGKGGIGKSTTTQNTAAALAFFHEKNVFIHGCDPKADSTRLILGGLPQQTVMDTLRIEGAER-VTVDKVVKTGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEENEAYSEDLDFLFFDVLGDVVCGGFAMPIRDGKAEEVYIVASGEMMAIYAANNICKGLAKYARQSGVRLGGIICNSRNVDGEKEFLEEFTKAIGTKMIHFVPRDNIVQKAEFNKQTVTEFQPEANQAQEYRELGRKIIEN--EDFVIPKPLAMDELEAMVVKYGLMD- Q07942/2-275 -TRKIAIYGKGGIGKSTTTQNTAAALAFFHEKNVFIHGCDPKADSTRLILGGLPQQTVMDTLRIEGAER-VTVDKVVKTGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEENEAYSEDLDFLFFDVLGDVVCGGFAMPIRDGKAEEVYIVASGEMMAIYAANNICKGLAKYARQSGVRLGGIICNSRNVDGEKEFLEEFTKAIGTKMIHFVPRDNIVQKAEFNKQTVTEFQPEANQAQEYRELGRKIIEN--EDFVIPKPLAMDELEAMVVKYGLMD- A0A0E2PFT4/2-275 -TRKIAIYGKGGIGKSTTTQNTAAALAFFHEKNVFIHGCDPKADSTRLILGGLPQQTVMDTLRIEGAER-VTVDKVVKTGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEENEAYSEDLDFLFFDVLGDVVCGGFAMPIRDGKAEEVYIVASGEMMAIYAANNICKGLAKYARQSGVRLGGIICNSRNVDGEKEFLEEFTKAIGTKMIHFVPRDNIVQKAEFNKQTVTEFQPEANQAQEYRELGRKIIEN--EDFVIPKPLAMDELEAMVVKYGLMD- A0A180FM38/1-274 -MKKIAFYGKGGIGKSTTQQNTAAAMAYFHNQKVFIHGCDPKADSTRMILGGMNQKTIMDTLRDDGAEM-VTADKVISVGFGGIHCCESGGPEPGVGCAGRGVITAIDLMETHGAYTPDLNYVFYDVLGDVVCGGFAMPIRDGKAQEVYIVVSGEMMAVYAANNICKGLVKYAKQSGVRLGGLVCNSRKVDREEEFIKEFAAAIGTQMIHFVPRDNIVQKAEFNKKTVIEYDDACGQAHEYSELARKIIEN--QMFVVPSPLTMPELEAMVVKYGISD- K6H8X6/1-266 ---------KGGIGKSTTTQNTAAAMAHFHDKKVFIHGCDPKADSTRLILGGKPQETLMDVLRDHGAEK-VTNEKVIKQGYMGINCVESGGPEPGVGCAGRGVITAIDLMEANGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGVICNSRKVDGEREFLEEFTSAIGTQMIHFVPRDNIVQKAEFNKKTVTEWDPKENQALEYSELGRKIIEN--TNFVIPKPLTMDELEAMVVKYGIAD- H1L045/10-284 -AKKVAIYGKGGIGKSTTTQNTAAALAYYYKLKGMIHGCDPKADSTRMILHGKPQETVMDVLREEGEEG-VTLEKVRKVGFADILCVESGGPEPGVGCAGRGVITAVNLMRELGGYPDDLDFLFFDVLGDVVCGGFAMPLRDGLAKEIYIVSSGEMMALYAANNIAKGILKYAEQSGVRLGGIICNSRKVDGELELMEEFCDKLGTKLIHFVPRDNIVQKAEFNKMTVVEFAPDSNQAQEYKKLGKKIMDN--DELVIPTPMTMDEMEKLVEKYGLYDK A0A1M4MPZ0/11-285 MVRKIAIYGKGGIGKSTTQQNTAAAMSYFHDKNVMIHGCDPKADSTRLILGGKMQKTMMDTLRELGEGE-CTPEKVVETGFGGIKCVESGGPEPGVGCAGRGVITTITLMERHGVYEEDLDFVFFDVLGDVVCGGFAMPVRDGKAEEIYIVASGEMMALYAANNICKGMIKYANQSGVRLGGIICNSRNVDGEKELLEEFCEKIGTQMIHFIPRDNIVQKAEFNKKTVIEFDPECNQSQEYRELARKIIEN--ENFVIPKPMTMDEMEELVVKYGVLE- A4FXN5/1-275 MVRKIAIYGKGGIGKSTTTQNTVAAMAHFHDKKVFIHGCDPKADSTRLILHGKQQVTMMDTLREKGEDE-CTPDKVIEVGFGGVKCVESGGPEPGVGCAGRGVITAITLMEQHGVYEDDLDFVFFDVLGDVVCGGFAMPVRDGKADEIYVVASGEMMALYAANNICKGMVKYAEQSGVRLGGIICNSRNVDGELDLLQEFCDKIGTQLIHFVPRDNIVQKAEFQKKAVVDYDDTCNQAMEYKELARKIIEN--ENLVIPTPMTMDELEELTSKYGFLD- P25767/10-284 -AKKVAIYGKGGIGKSTTTQNTAAALAYFFDKKVMIHGCDPKADSTRMILHGKPQDTVMDVLREEGEEA-VTLEKVRKIGFKDILCVESGGPEPGVGCAGRGVITAVDMMRELEGYPDDLDNLFFDVLGDVVCGGFAMPLRDGLAQEIYIVTSGEMMALYAANNIAKGILKYAEQSGVRLGGIICNARNVDGEKELMDEFCDKLGTKLIHYVPRDNIVQKAEFNKMTVIEFDPECNQAKEYRTLAKNIDEN--DELVKPTPMTMDELEELVVKYGLIDL A0A0H5BPJ2/2-275 -TRKIAIYGKGGIGKSTTTQNTAAALAHFHDKNVFIHGCDPKADSTRLILGGQMQETVMDSLRLYGAEK-VTTDKVVKTGFKGIRCVESGGPEPGVGCAGRGVITAIDLMEENEAYTDDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDGEREFLEEFTAAIGTQMIHFVPRDNIVQKAEFNKKTVTEFDPSVNQANEYKQLAQNILDN--QMFVIPKPMTMDELEKMVVKYGLWD- I2Q3U2/2-275 -TRKIAIYGKGGIGKSTTTQNTAAALAHFHDKKIFIHGCDPKADSTRLILGGKPQQTLMDVLREEGAEK-VTNDKVIKTGFKGIRCVESGGPEPGVGCAGRGVITAIDLMEANGAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGVICNSRKVDQEREFLEEFTAAIGTRMIHFVPRDNIVQKAEFNKKTVTEYDEKENQAQEYSDLGRKIIEN--TNFVIPKPMTMDELEAMVVKYGIAD- A0A1L3FYY1/2-275 -TRKLAIYGKGGIGKSTTTQNTAAALAWFHGKKVFIHGCDPKADSTRLILGGKPQETLMDVLRDQGAEK-ITNDMVVKTGVFNIRCVESGGPEPGVGCAGRGVITAIDLMEDNKAYADDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDGEKEFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPEANQAQEYRELGRKIIEN--TDLVIPHPLTMDQLEKMVVKYGLSD- A0A063XND9/2-275 -TRKLAIYGKGGIGKSTTTQNTAAALAWFHGKKVFIHGCDPKADSTRLILGGKPQETLMDVLRDQGAEK-ITNDMVVKTGVFNIRCVESGGPEPGVGCAGRGVITAIDLMEDNKAYADDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDGEKEFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPEANQAQEYRELGRKIIEN--TDLVIPHPLTMDQLEKMVVKYGLSD- A0A1K2AQ79/2-275 -TRKLAIYGKGGIGKSTTTQNTAAALAWFHGKKVFIHGCDPKADSTRLILGGKPQETLMDVLRDQGAEK-ITNDMVVKTGVFNIRCVESGGPEPGVGCAGRGVITAIDLMEDNKAYADDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDGEKEFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPEANQAQEYRELGRKIIEN--TDLVIPHPLTMDQLEKMVVKYGLSD- F0TA91/1-275 MVRKIAIYGKGGIGKSTTTQNTASAMAHFHGKKVMIHGCDPKADSTRMILRGKMQTTMMDTLREEGEEACMNLDNVMSTGFEGIKCVESGGPEPGVGCAGRGVITAITLMEQLKVY-DDNDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYANQSGVRLGGIICNSRNVDGEKELLEEFCKKIGTQLIYFVPRDNMVQKAEFNKKTVVDFDAECNQAHEYEALAGKIINN--ENFVIPKPMSMDELEEMVLQYGLTD- A0A180FL47/1-274 -MKKIAFYGKGGIGKSTTQQNTAAAMAYFHNQKVFIHGCDPKADSTRMILGGMNQKTIMDTLRDDGAEM-VTADKVISVGFGGIHCCESGGPEPGVGCAGRGVITAIDLMETHGAYTPDLNYVFYDVLGDVVCGGFAMPIRDGKAQEVYIVVSGEMMAVYAANNICKGLVKYAKQSGVRLGGLVCNSRKVDREEEFIKEFAAAIGTQMIHFVPRDNIVQKAEFNKKTVIEYDDTCGQAHEYSELARKIIEN--QMFVVPSPLTMPELEAMVVKYGISD- A0A180F5D5/1-274 -MKKIAFYGKGGIGKSTTQQNTAAAMAYFHNQKVFIHGCDPKADSTRMILGGMNQKTIMDTLRDDGAEM-VTADKVISVGFGGIHCCESGGPEPGVGCAGRGVITAIDLMETHGAYTPDLNYVFYDVLGDVVCGGFAMPIRDGKAQEVYIVVSGEMMAVYAANNICKGLVKYAKQSGVRLGGLVCNSRKVDREEEFIKEFAAAIGTQMIHFVPRDNIVQKAEFNKKTVIEYDDTCGQAHEYSELARKIIEN--QMFVVPSPLTMPELEAMVVKYGISD- A0A180FP53/1-274 -MKKIAFYGKGGIGKSTTQQNTAAAMAYFHNQKVFIHGCDPKADSTRMILGGMNQKTIMDTLRDDGAEM-VTADKVISVGFGGIHCCESGGPEPGVGCAGRGVITAIDLMETHGAYTPDLNYVFYDVLGDVVCGGFAMPIRDGKAQEVYIVVSGEMMAVYAANNICKGLVKYAKQSGVRLGGLVCNSRKVDREEEFIKEFAAAIGTQMIHFVPRDNIVQKAEFNKKTVIEYDDTCGQAHEYSELARKIIEN--QMFVVPSPLTMPELEAMVVKYGISD- E6U4T6/2-275 -TRKIAFYGKGGIGKSTTQQNTACALSHFHNKKVFIHGCDPKADCTRLALGGKPQDTIMDMLREQGEDA-ITVEKVVKTGFEGIRCVESGGPEPGVGCAGRGVITAISLMEDLGAYTEDLDFVHFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNISRGLLKYANQSGVRLGGIICNSRKVDNEHELMDEFVTALGTQMIHFVPRDNIVQKAEFNKKSVVEYDDNCNQAHEYETLAKKIIEN--EMFVVPSPLDMDCLEKMVSKYGLMD- P16269/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAYFHDKKVFTHGCDPKADSTRLILGGKPEETLMDMVRDKGAEK-ITNDDVIKKGFLDIQCVESGGPEPGVGCAGRGVITAIDLMEENGAYTDDLDFVFFDDLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSAVGLGGIICNSRKVDGERESVEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFAPEENQAKEYGELARKIIEN--DEFVIPKPLTMDQLEDMVVKYGIAD- F8ANU8/10-283 -AKKIAIYGKGGIGKSTTTQNTAAAMAYYFNKKVMIHGCDPKADSTRMILHGKPQKTIMDVLREEGEEG-VTLEKVRKAGFKDILCVESGGPEPGVGCAGRGVITAVDMMRELEGYPDDLDNLFFDVLGDVVCGGFAMPLRDGLAQEVYIVTSGEMMALYAANNIAKGILKYAEQSGVRLGGIICNSRNVDGEKELIDEFVDKLGTKLVHFVPRDNIVQKAEFNKMTVVEFDPECNQANEYKTLAKNINEN--DELVIPTPLTMDELEGLVLKYGLLD- B3Q675/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAFYHDKNVFIHGCDPKADSTRLILGGKPQDTVMDTLRTLGAEK-VTLENVVKSGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEANKAYTDDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPAAEQAHEYKQLGAAIIDN--KDFVIPKPLTMDQLEAMVVKYGLMD- Q6N9U8/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAFYHDKNVFIHGCDPKADSTRLILGGKPQDTVMDTLRTLGAEK-VTLENVVKSGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEANKAYTDDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPAAEQAHEYKQLGAAIIDN--KDFVIPKPLTMDQLEAMVVKYGLMD- A0A071LU59/2-275 -TRKLAIYGKGGIGKSTTTQNTAAALAYFHGKKIFIHGCDPKADSTRLILGGKPQETLMDVLRDQGAEK-ITNEMVVKKGVFDIRCVESGGPEPGVGCAGRGVITAIDLMEDNKAYTDDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDGEKEFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPNANQAQEYRELGRKIIEN--EDLVIPQPLSMDQLEQMVVKYGLSD- A0A089L907/2-275 -TRKIAIYGKGGIGKSTTQQNTAAALAYFHDKKIFIHGCDPKADSTRMILGGMNQKTLMDMLRDDGAEN-ITTEKVVKDGYLGIRCVESGGPEPGVGCAGRGVITAIDLMENNGAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGVICNSRNVDREREFLEEFTASIGTQMIHFVPRDNIVQKAEFNKKTVVEFDAESNQAREYGELGRKILEN--ESFVIPKPLSMDELEAMVVKYGIGD- A0A089I2K8/2-275 -TRKIAIYGKGGIGKSTTQQNTAAALAYFHDKKIFIHGCDPKADSTRMILGGMNQKTLMDMLRDDGAEN-ITTEKVVKEGYLGIQCVESGGPEPGVGCAGRGVITAIDLMENNGAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGVICNSRNVDREREFLEEFTASIGTQMIHFVPRDNIVQKAEFNKKTVVEYDAECNQAHEYGELGRKILEN--ESFVIPKPLSMDELEAMVVKYGIGD- A0A0E4HD90/2-275 -TRKIAIYGKGGIGKSTTQQNTAAAMAYFHDKKVFIHGCDPKADSTRMILGGMNQKTLMDMLRDDGAEN-ITTEKVVKEGYLGIQCVESGGPEPGVGCAGRGVITAIDLMESNGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDREREFLEEFTASIGTQMIHFMPRDNIVQKAEFNKKTVVEFDAESKQAGEYGELGRKIIEN--ENFVIPKPLSMDQLEAMVVKYGIGD- A0A0K8JJP2/1-271 -MRKIAIYGKGGIGKSTTQQNTAGAMAHFYDKKVFIHGCDPKADSTRLILGGMNQKTLMDMLRDEGEEK-ITVEKVVKEGYKGIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLLKYAKQSGVRLGGIICNSRKVDREREFLEEFTAAIGTQMIHFMPRDNIVQKAEFNKKTVVEYDAECNQAQEYGELARKIIEN--ESFVIPKPLAMDELEAMVVKYG---- K4LGJ4/2-275 -TRKIAIYGKGGIGKSTTQQNTAAALAYFYGKKVLIHGCDPKADCTRMILGGKPQETVMDTLREFGEDA-VTLEKVVKTGFCGIRCVESGGPEPGVGCAGRGVITAINLMEELGAYTPDLDFIFFDVLGDVVCGGFAMPVREGKAEEIYIVASGEMMALYAANNICRGMVKYAEQSGVRLGGIICNSRNVDGERELMEEFCKRIGTQLIHFVPRDNIVQKAEFNRQTVTEFDPECNQAREYKELARKIIEN--EMFVIPKPMTMDEMEALVVKYGLLD- H8FST7/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAHFHHKHVFIHGCDPKADSTRLILGGLPQETVMDTLRTQGAEK-VTLDKVVKTGFHDIRCVESGGPEPGVGCAGRGVITAIDLMEANEAYTPDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYVVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFCAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPSADQAQEYRQLAQSIIDN--DNFVIPKPLTMDELEAMVVKYGMCD- A0A0E3P963/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKNVFIHGCDPKADCTRLALGGVPQTTIMDTLRELGEEA-VTVDNVVNTGFKGIRCVESGGPEPGVGCAGRGVITAINLMEELGAYSDDLDFVHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRKVDNELEMMEEFVSALGTQLIHFVPRDNIVQKAEFNKKTVVEFDPECNQAKEYGKLAKKILEN--DMFVIPKPLSMDQLEKMVARYGLMD- A0A0E3PFQ9/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKNVFIHGCDPKADCTRLALGGVPQTTIMDTLRELGEEA-VTVDNVVNTGFKGIRCVESGGPEPGVGCAGRGVITAINLMEELGAYSDDLDFVHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRKVDNELEMMEEFVSALGTQLIHFVPRDNIVQKAEFNKKTVVEFDPECNQAKEYGKLAKKILEN--DMFVIPKPLSMDQLEKMVARYGLMD- A0A0G3CGE7/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKKIFIHGCDPKADCTRLVLGGVAQTTIMDTLRELGEDA-VTAENVINTGFDGIKCVESGGPEPGVGCAGRGVITAINLMEEMGAYSEDLDFIHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRRVDNELEMMEEFASALGTQLLYFVPRDNIVQKAEFNKKTVVEYDPTCNQALEYKELAKKILEN--DMFVIPKPLSMDQLEKMVERYGLMD- A0A0E3QUM5/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKKIFIHGCDPKADCTRLVLGGVAQTTIMDTLRELGEDA-VTAENVINTGFDGIKCVESGGPEPGVGCAGRGVITAINLMEEMGAYSEDLDFIHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRRVDNELEMMEEFASALGTQLLYFVPRDNIVQKAEFNKKTVVEYDPTCNQALEYKELAKKILEN--DMFVIPKPLSMDQLEKMVERYGLMD- A0A0E3LQ35/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKKIFIHGCDPKADCTRLVLGGVAQTTIMDTLRELGEDA-VTAENVINTGFDGIKCVESGGPEPGVGCAGRGVITAINLMEEMGAYSEDLDFIHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRRVDNELEMMEEFASALGTQLLYFVPRDNIVQKAEFNKKTVVEYDPTCNQALEYKELAKKILEN--DMFVIPKPLSMDQLEKMVERYGLMD- A0A1D2WS89/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKKIFIHGCDPKADCTRLVLGGVAQTTIMDTLRELGEDA-VTAENVINTGFDGIKCVESGGPEPGVGCAGRGVITAINLMEEMGAYSEDLDFIHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRRVDNELEMMEEFASALGTQLLYFVPRDNIVQKAEFNKKTVVEYDPTCNQALEYKELAKKILEN--DMFVIPKPLSMDQLEKMVERYGLMD- P54799/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKKIFIHGCDPKADCTRLVLGGVAQTTIMDTLRELGEDA-VTAENVINTGFDGIKCVESGGPEPGVGCAGRGVITAINLMEEMGAYSEDLDFIHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRRVDNELEMMEEFASALGTQLLYFVPRDNIVQKAEFNKKTVVEYDPTCNQALEYKELAKKILEN--DMFVIPKPLSMDQLEKMVERYGLMD- A9AB91/1-275 MVRKIAIYGKGGIGKSTTTQNTVAAMAHFHDKKVFIHGCDPKADSTRLILHGKQQVTMMDTLREKGEDE-CTPDKVIEVGFGGVKCVESGGPEPGVGCAGRGVITAITLMEQHGVYEDNLDFVFFDVLGDVVCGGFAMPVRDGKADEIYVVASGEMMALYAANNICKGMVKYAEQSGVRLGGIICNSRNVDGELELLQEFCDKIGTQLIHFVPRDNIVQKAEFQKKAVVDFDDTCNQAMEYKELARKIIEN--TNLVIPTPMTMDELEELTSKYGFLD- I9DI46/2-275 -TRKIAIYGKGGIGKSTTQQNTAGAMAHFYDQKVFIHGCDPKADSTRLILGGMNQKTLMDMLRDEGEEK-ITVEKVVKDGYLGIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTSDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGVICNSRKVDKEREFLEEFTAAIGTQMIHFVPRDNIVQKAEFNKKTVVEYDAECNQALEYGELARKIIEN--KNFVIPKPLSMDELEAMVVKYGIAD- I9LHQ1/2-275 -TRKIAIYGKGGIGKSTTQQNTAGAMAHFYDQKVFIHGCDPKADSTRLILGGMNQKTLMDMLRDEGEEK-ITVEKVVKDGYLGIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTSDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGVICNSRKVDKEREFLEEFTAAIGTQMIHFVPRDNIVQKAEFNKKTVVEYDAECNQALEYGELARKIIEN--KNFVIPKPLSMDELEAMVVKYGIAD- P0CW56/1-275 MVRKIAIYGKGGIGKSTTTQNTVAAMAHFHDKKVFIHGCDPKADSTRLILHGKQQVTMMDTLREKGEDE-CTPDKVIEVGFGGVKCVESGGPEPGVGCAGRGVITAITLMEQHGVYEDDLDFVFFDVLGDVVCGGFAMPVRDGKADEIYVVASGEMMALYAANNICKGMVKYAEQSGVRLGGIICNSRNVDGELDLLQEFCDKIGTQLIHFVPRDNIVQKAEFQKKAVVDYDDTCNQALEYKELARKIIEN--ENLVIPTPMTMDELEELTSKYGFLD- G0GZY0/1-275 MVRKIAIYGKGGIGKSTTTQNTVAAMAHFHDKKVFIHGCDPKADSTRLILHGKQQVTMMDTLREKGEDE-CTPDKVIEVGFGGVKCVESGGPEPGVGCAGRGVITAITLMEQHGVYEDDLDFVFFDVLGDVVCGGFAMPVRDGKADEIYVVASGEMMALYAANNICKGMVKYAEQSGVRLGGIICNSRNVDGELDLLQEFCDKIGTQLIHFVPRDNIVQKAEFQKKAVVDYDDTCNQALEYKELARKIIEN--ENLVIPTPMTMDELEELTSKYGFLD- A0A166DFK6/1-275 MVRKIAIYGKGGIGKSTTTQNTAAAMAHFHDQKVMIHGCDPKADSTRMILRGTMQKTMMDTLREEGEEA-CTVDNIMSTGFGGIKCVESGGPEPGVGCAGRGVITAITLMEMQKVYEDNLDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYANQSGVRLGGIICNSRNVDGELDLMEEFCKRLGTQMIHFVPRDNIVQKAEFNKRTVVDFDAECNQANEYGTLGGKIINN--DNFVIPQPLAMEELEELVVEYGVLD- A0A0E3SJ51/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKKVFIHGCDPKADCTRLVLGGVAQTTIMDTLRDLGEES-VTVDNVVNAGFDGIKCVESGGPEPGVGCAGRGVITAINLMEEMGAYSDDLDFIHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRKVDNELEMMEEFVSALGTQLIHFVPRDNIVQKAEFNKKTVVEYDPTCNQALEYKKLAKKILEN--DTFVIPKPLSMNQLEKMVEKYGLMD- H6LJU4/1-274 -MRKVAIYGKGGIGKSTTQQNTAAAMAHFYDKKVFIHGCDPKADSTRLILGGKPQETLMDVLREQGAQK-VTNDKVIRDGFLGIKCVESGGPEPGVGCAGRGVITAIDLMEANGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAEEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDREREFLEEFTAAIGTQMIHFVPRDNIVQKAEFNKKTVVEYDETENQAKEYGELARKIIEN--KNFVIPKPLSMDELEAMVVKYGIAD- A0A0E3P707/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKNVFIHGCDPKADCTRLALGGVPQTTIMDTLRELGEEA-VTVDNVVNTGFKGIRCVESGGPEPGVGCAGRGVITAINLMEELGAYSDDLDFVHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRKVDNELEMMEEFVSALGTQLIHFVPRDNIVQKAEFNKKTVVEFDPECNQAKEYGKLAKKILEN--EMFVIPKPLSMDQLEKMVARYGLMD- A0A0E3LDV7/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKNVFIHGCDPKADCTRLALGGVPQTTIMDTLRELGEEA-VTVDNVVNTGFKGIRCVESGGPEPGVGCAGRGVITAINLMEELGAYSDDLDFVHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRKVDNELEMMEEFVSALGTQLIHFVPRDNIVQKAEFNKKTVVEFDPECNQAKEYGKLAKKILEN--EMFVIPKPLSMDQLEKMVARYGLMD- A0A166DYI4/1-275 MVRKIAIYGKGGIGKSTTTQNTAAAMAHFHNKKVMIHGCDPKADSTRMILKGKMQKTMMDTLREEGEEA-CTVDNVMSVGYGGIKCVESGGPEPGVGCAGRGVITAITLMEMQKVYEDNLDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYANQSGVRLGGIICNSRNVDGELDLIEKFCDKLGTQMIHFVPRDNIVQKAEFNKRTVVDYDETCKQASEYGDLGEKIINN--ENFVIPEPLKMEELEDLVVEFGILD- S0FI53/1-274 -MRKIAFYGKGGIGKSTTQQNTAAAMAHFYDQKIFIHGCDPKADSTRLILGGKPQETLMDVLREEGAEK-VTKDKVIKNGFKNIRCVESGGPEPGVGCAGRGVITAIDLMEANGAYTDDLDFVFYDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLLKYAKQSGVRLGGIICNSRKVDREREFLEEFTASIGTEMIHFVPRDNIVQKAEFNKKTVVEYDDSENQAKEYGELARKIIEN--KNFVIPQPLTMDELEKMVVKYGIAD- F6CND4/2-275 -TRKIAIYGKGGIGKSTTQQNTAAALAHFYGKKVLIHGCDPKADCTRLILGGKPQETVMDTLREFGEDA-VTIERVVKTGFCGIKCVESGGPEPGVGCAGRGVITAISLMEELGAYTPDLDFIFFDVLGDVVCGGFAMPVREGKAQEIYIVASGEMMALYAANNICRGMVKYAEQSGVRLGGIICNSRNVDGERELMEEFCSRIGTRMIHFIPRDNIVQKAEFNRQTVTQFDPDCNQAREYRELARKIIDN--DMFVIPQPMTMDEMESLVVKYGLLE- M9YJ08/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAYFHDKKVFIHGCDPKADSTRLILGGKPQETLMDMLRDKGAEK-ITNDDVIKKGFLDIQCVESGGPEPGVGCAGRGVITAIDLMEENGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFAPEENQAKEYGELARKIIEN--DEFVIPKPLTMDQLEDMVVKYGIAD- A0A1K1TE64/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAYFHDKKVFIHGCDPKADSTRLILGGKPQETLMDMLRDKGAEK-ITNDDVIKKGFLDIQCVESGGPEPGVGCAGRGVITAIDLMEENGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFAPEENQAKEYGELARKIIEN--DEFVIPKPLTMDQLEDMVVKYGIAD- L1K6Q1/2-275 -TRKIAIYGKGGIGKSTTTQNTAAALAYFHDKHVFIHGCDPKADSTRLILGGLPQATVMDTLRIEGAER-VTLDKVVRTGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEENEAYTEELDFLFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLAKYARQSGVRLGGIICNSRNVDGEKEFLAEFTAAIGTKMIHYVPRDNIVQKAEFNKQTVTEFQPDCNQAQEYRELGRKIIEN--TDFVIPKPLAMDELESMVVKYGLVD- B9KUM4/2-275 -TRKIAIYGKGGIGKSTTTQNTAAALAYFHDKHVFIHGCDPKADSTRLILGGLPQATVMDTLRIEGAER-VTLDKVVRTGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEENEAYTEELDFLFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLAKYARQSGVRLGGIICNSRNVDGEKEFLAEFTAAIGTKMIHYVPRDNIVQKAEFNKQTVTEFQPDCNQAQEYRELGRKIIEN--TDFVIPKPLAMDELESMVVKYGLVD- A0A139DT19/2-275 -PRKIAVYGKGGIGKSTTTQNTAAAMAHFHGKKVFIHGCDPKADSTRLILGGKPQETLMDTLRTLGAEK-VTLDKVVKKGYQDILCVESGGPEPGVGCAGRGVITAIDLMEQQGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLLKYAKQSGVRLGGVICNSRNVDREREFLDEFTSAIGTQMIHFVPRDNIVQKAEFNKKTVTEFDATENQANEYSLLAKKIIDN--KNFVIPQPLSMDQLESMVVKYGISD- C6C9W5/2-275 -TRKLAIYGKGGIGKSTTTQNTAAALAYFHGKKVFIHGCDPKADSTRLILGGKPQETLMDVLRDQGAEK-ITNEMVVKTGVFNIRCVESGGPEPGVGCAGRGVITAIDLMEDNKAYTDDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDGEREFLEEFTTAIGTKMLHFVPRDNIVQKAEFNKKTVTEFDPDANQAQEYRELGRKIIEN--EDLVIPQPLSMDQLEKMVVKYGLMD- H6SP44/20-294 MTRKVAIYGKGGIGKSTTTQNTAAALAYYHDKNVFIHGCDPKADSTRLILGGLPQETVMDTLRQVGAEK-VTLDKVVKTGFRDIRCVESGGPEPGVGCAGRGVITAIDLMEANEAYTDDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYVVASGEMMAIYAANNICKGLVKYAKQSGVRLGGVICNSRKVDGEYEFLQEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEYDPAANQAMEYKQLAQAIMDN--TDFVIPKPLTMDELEKMVVKYGIAD- Q50785/1-275 MVRKIAIYGKGGIGKSTTQQNTAAAMSYFHGKNVMIHGCDPKADSTRLILGGKMQTTMMDTLRELGEGA-CTPDKVIETGFGGIRCVESGGPEPGVGCAGRGVITAITLMERHGVYENDLDFVFFDVLGDVVCGGFAMPVRDGKAEEIYIVASGEMMALYAANNICRGMVKYARQSGVRLGGIICNSRNVDGERELLEEFCERIGTQMIHFVPRDNIVQKAEFNKKSVIEFDPECNQSQEYRELARKIIEN--TDFVIPEPMTMDEMEDLVVKYGVLD- A0A0H3JAU8/2-275 -TRKIAIYGKGGIGKSTTQQNTAAAMAHFYDKKVFIHGCDPKADSTRLILGGMPQKTLMDMLRDEGEEK-ITTENIVRVGYEDIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAVYAANNICKGLVKYANQSGVRLGGIICNSRMVDLEREFIEEFAASIGTQMIHFMPRDNIVQKAEFNKQTVIEFDDTCNQAKEYGELARKIIEN--EMFVIPTPLKMDDLEAMVVKYGMTD- A0A1D9N950/2-275 -TRKIAIYGKGGIGKSTTQQNTAAAMAHFYDKKVFIHGCDPKADSTRLILGGMPQKTLMDMLRDEGEEK-ITTENIVRVGYEDIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAVYAANNICKGLVKYANQSGVRLGGIICNSRMVDLEREFIEEFAASIGTQMIHFMPRDNIVQKAEFNKQTVIEFDDTCNQAKEYGELARKIIEN--EMFVIPTPLKMDDLEAMVVKYGMTD- P09553/2-275 -TRKIAIYGKGGIGKSTTQQNTAAAMAHFYDKKVFIHGCDPKADSTRLILGGMPQKTLMDMLRDEGEEK-ITTENIVRVGYEDIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAVYAANNICKGLVKYANQSGVRLGGIICNSRMVDLEREFIEEFAASIGTQMIHFMPRDNIVQKAEFNKQTVIEFDDTCNQAKEYGELARKIIEN--EMFVIPTPLKMDDLEAMVVKYGMTD- K6TL22/1-274 -MKKIAFYGKGGIGKSTTQQNTASAMAKFYNQKVFIHGCDPKADSTRMILGGKPQDTLMDMLREEGEDA-ITVEKVVKDGFLGIKGVESGGPEPGVGCAGRGVITAINLMEDLGAYTPDLDYVFYDVLGDVVCGGFAMPIRDGKAQEVYIVTSGEMMAVYAANNICRGLLKYANQSGVRLGGLICNSRNVDREKELMKEFADALGTQMIHFVPRDNVVQVAEFNKKTVIEYDPECNQAKEYGELARKIINN--ENFVIPTPLSMDELEAMVVKYGIAE- A0A0H5B161/1-243 --------------------------------KVFIHGCDPKADSTRLILGGKPQETLMDVLRQEGAEK-VTNEKVIKTGFMNIRCVESGGPEPGVGCAGRGVITAIDLMENNGAYTPELDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAVYAANNICKGLLKYAKQSGVRLGGIVCNSRKVDREREFLDEFTAAIGTTMIHFVPRDNVVQKAEFNKKTVVEFDAAENQAREYGELARKIMEN--KNFVIPKPLSMDELEKMVVKYGIPD- E6VMU9/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAFYHDKNIFIHGCDPKADSTRLILGGKPQDTVMDTLRTLGAEK-VTLENVVKSGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEANQAYTDDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYVVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPEADQALEYKQLGSAIIDN--KDFVIPKPLTMDELEKMVVKYGLMD- A0A117LXQ8/1-275 MVRKIAIYGKGGIGKSTTTQNTASAMAHFHDKKVMIHGCDPKADSTRMILGGKMQTTMMDTLREEGEEACMDLDNIMSTGYEGIKCVESGGPEPGVGCAGRGVITAITIMEQLKVY-EDNDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYAEQSGVRLGGIICNSRNVDGEKELLEEFCKRIGTQLIYFVPRDNIVQKAEFNKKTVVDFDEECDQAHEYEELGRKIIEN--ENFVIPNPMSMEELEEMVMKYGLVD- A0A1J5P201/2-275 -TRKIAIYGKGGIGKSTTQQNTAAALAYFFGKKVLIHGCDPKADCTRLILGGKPQETVLDTIREYGEEA-LTVDRVVKTGFGGIKCVESGGPEPGVGCAGRGVITAINLMEEFGAYSDDLDFVFFDVLGDVVCGGFAMPVREGKAQEIYIVASGEMMALYAANNICRGMIKYAEQSGVRLGGIICNSRNVDGEKELMTEFCAKIGTQMLHYIPRDNIVQKAEFNRQTVTQFDPECNQAQEYKELARKIIEN--DMFVIPRPMSMDEMENLVVKYGLLN- A0A0Q0VGN8/2-275 -TRKIAIYGKGGIGKSTTTQNTAAALAYFHDKNVFIHGCDPKADSTRLILGGLPQATVMDTLRIEGAER-VTVDKVVKTGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEENEAYSEDLDFLFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLAKYARQSGVRLGGIICNSRNVDGEKEFLAEFTKAIGTRMIHFVPRDNIVQKAEFNKQTVTEFQPEANQAQEYRELGRKIIEN--EDFVIPKPLAMDELEAMVVKYGLMD- A0A089HQ61/2-275 -TRKIAIYGKGGIGKSTTQQNTASAMAYFHKKQVFIHGCDPKADSTRMILGGKPQETLMDTLRETGEES-ITVDSVVKTGYQGIRCVESGGPEPGVGCAGRGVITAINLMEDLGAYTEDLDFVFFDVLGDVVCGGFAMPIREGKAEEVYIVASGEMMAIYAANNIARGMLKYADQSGVRLGGIICNSRNVDKELELMEEFTTKLGTQLIHFVPRDNIVQKAEFNKKSVIEFDAASNQANEYSELARKIIEN--KSFVIPTPLTMDELEDMVTKYGIVD- A6VFE2/1-275 MVRKIAIYGKGGIGKSTTTQNTVAAMAYFHDKKVMIHGCDPKADSTRLILHGKQQTTMMDTLREKGEEE-CTPEKVIDVGFCGVKCVESGGPEPGVGCAGRGVITAITLMEQQGVYEDNLDYVFFDVLGDVVCGGFAMPVRDGKADEIYVVASGEMMALYAANNICKGMVKYAEQSGVRLGGIICNSRNVDGELELLQEFCDKIGTQLIHFVPRDNIVQKAEFQKMAVVDFDDSCNQALEYKALAQKIIDN--KNLVIPNPMTMDELEELTSKYGFLD- A0A075KIA7/2-275 -TRKIAIYGKGGIGKSTTQQNTAGAMAHFYDQKVFIHGCDPKADSTRLILGGMNQKTLMDMLRDEGEEK-ITVEKVVKDGYLGIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTSDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGVICNSRKVDKEREFLEEFTAAIGTQMIHFVPRDNIVQKAEFNKKTVVEYDAECNQAIEYGELARKIIEN--KNFVIPKPLSMDELEAMVVKYGIAD- F8ADN5/3-275 -TRKIGIYGKGGIGKSTTTQNLAAALAHYFGKKVMIHGCDPKADATRMILGGKPQETVLDVMREEGEEN-VTLDKVVKIGFAGIRCVESGGPEPGVGCAGRGVITAINLMEELGGYPEDLDFLFYDVLGDVVCGGFAMPVRDGKAQEIYIVASGEMMAIYAANNICRGMVKYAKRTGVRLGGIICNSRKVDREQELMEEFCERLGTQMIMFIPRDNIVQKAEFNKQTVVQFDPDHPQALAYKELAKRIIEN--DKFVIPKPLTMDELEELVVKYGIA-- E3I2V3/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAFFHDKHIFIHGCDPKADSTRLILGGQMQETVMDTLRIHGAEK-VTLDKVVKTGFKEIRCVESGGPEPGVGCAGRGVITAIDLMEENDAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNIAKGLVKYAKQSGVRLGGIICNSRMVDGEKEFLNEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPEAKQAQEYKQLGKEILEN--KDFVIPKPLNMDELESMVVKYGLLD- M1MKP0/1-274 -MRKIAIYGKGGIGKSTTQQNTAGAMAHFYGKNIFIHGCDPKADSTRLILGGMNQKTLMDMLRDEGEEK-ITVDRVVKQGFLGIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDREREFLEEFTAAIGTQMIHFMPRDNIVQKAEFNKKTVVEYDADCNQAKEYGELARKIIEN--EMFVIPKPLQMDELEAMVVKYGIAD- A0A179D4S3/5-277 -TRKIGIYGKGGIGKSTTCQNLAAALAHYYNKKVMIHGCDPKADATRLILGGKPQETVLDLLREEGEEN-LTLEKVVKTGFGGIRCVESGGPEPGVGCAGRGVITAINLMEELGGYPEDLDFLFFDVLGDVVCGGFAMPVREGKAQEIYIVASGEMMAIYAANNICRGMVKYAQRTGVRLGGIICNSRKVDREEEIMQEFCERLGTKMIMFIPRDNIVQKAEFNRKTVVEYEPEHPQAQAYKELARRIMEN--RDLVIPKPLSMDELESLVVKYGLV-- A0A0G4JWN8/1-274 -MRKLAIYGKGGIGKSTTTQNTAAALAYFHSKKIFIHGCDPKADSTRLILGGKPQETLMDVLRDQGAEK-ITNEMVVKTGVFNIRCVESGGPEPGVGCAGRGVITAIDLMENNKAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDGEKAFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPEANQAKEYCELGRKIIEN--TDLVIPRPLTMDQLESMVVKYGLSD- Q46A86/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKKIFIHGCDPKADCTRLVLGGVAQTTIMDTLRELGEEA-VTAENVINTGFDDIKCVESGGPEPGVGCAGRGVITAINLMEEMGAYSEDLDFIHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRRVDNELEMMEEFASALGTQLLYFVPRDNIVQKAEFNKKTVVEYDPTCNQALEYKELAKKILEN--DMFVIPKPLSMDQLEKMVERYGLMD- A0A0E3QNQ3/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKKIFIHGCDPKADCTRLVLGGVAQTTIMDTLRELGEEA-VTAENVINTGFDDIKCVESGGPEPGVGCAGRGVITAINLMEEMGAYSEDLDFIHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRRVDNELEMMEEFASALGTQLLYFVPRDNIVQKAEFNKKTVVEYDPTCNQALEYKELAKKILEN--DMFVIPKPLSMDQLEKMVERYGLMD- B1I0Y8/2-276 -TRKIAIYGKGGIGKSTTTQNTAAAMAYFFGKRIMIHGCDPKADSTRLILGGMMQTTVMDTLREEGEEG-VTLDRVRLQGFGEIDCVESGGPEPGVGCAGRGVITAINLMEDLNAYGDELDFVFFDVLGDVVCGGFAMPVREGKAQEIYIVASGEMMALYAANNICRGMVKYAEQSGVRLGGIICNSRRVEGERELIEEFCARLGTRMIMFVPRDNIVQKAEFNRKTVTEFAPDSEQAQVYRELARRIIEN--DHFVIPTPMTMDEMESLVLKYGLLDL F8ESW0/7-280 -TRKVAIYGKGGIGKSTTTQNTAAALAFFHDKKVFIHGCDPKADSTRLILGGKPQETVMDALRDHGSEN-VTLEKVMKTGFHDIRCVESGGPEPGVGCAGRGVITAIDLMENNDAYTDDLDFIFFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDGEREFLEEFTNAIGTQMIHFVPRDNIVQKAEFNKKTVTEFDPEQNQAQEYKELGRKILEN--EMFVIPKPLTMDELESMVVKYGILD- A0A1D3L4P3/1-275 MVRKIAIYGKGGIGKSTTTQNTASAMAHFHNKKVMIHGCDPKADSTRMILGGKMQTTMMDTLREEGEEACMDLDNIMSTGFEGIKCVESGGPEPGVGCAGRGVITAITIMEQQKVY-DDNDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYANQSGVRLGGIICNSRNVDGEVELMKEFCKRIGTQMIHFVPRDNIVQKAEFNKRTVVEFDSECNQAHEYETLAAKIINN--DKFVIPKPMSMDELEELVLDYGLVD- F6BC62/10-284 -AKKVAIYGKGGIGKSTTTQNTAAALAYYYKLKGMIHGCDPKADSTRMILHGKPQETVMDVLREEGEEG-VTLEKVRKVGFAGIYCVESGGPEPGVGCAGRGVITAVNLMRELGGYPDDLDFLFFDVLGDVVCGGFAMPLRDGLAKEIYIVSSGEMMALYAANNIAKGILKYAEQSGVRLGGIICNSRKVDGELELMEEFCDKLGTKLIHFIPRDNIVQKAEFNKMTVVEFAPDSNQAKEYKKLGKKIMDN--DELVIPTPMTMDEMEKLVEKYGLYDK P51602/1-275 MVRKIAIYGKGGIGKSTTTQNTASAMAHFHNQRVMIHGCDPKADSTRMILGGKMQTTMMDTLREEGEEACMDLDNVMSTGFKDIKCVESGGPEPGVGCAGRGVITAITIMEHMKVY-DDNDFVFFDVLGDVVCGGFAMPIRDGKAEEIYIVASGEMMALYAANNLCKGMVKYAEQSGVRLGGIICNSRNVDGEKELLEEFCKRIGTQMIHFVPRDNIVQKAEFNKRTVVDFDAECSQAHEYSELARKIIEN--DNFVIPDPMTMDELEEMVVSYGLMD- A0A1B7LKN4/2-274 -TRKIAIYGKGGIGKSTTTQNTAAALSHFYGQKVMIHGCDPKADATRLILGGKMQVTVLDTLREHGESA-VTLDRVCQTGFGGIRCVESGGPEPGVGCAGRGVITAINLMEELGGYTPELDMIFFDVLGDVVCGGFAMPVREGKAQEIYIVASGEMMALYAANNISRGMVKYAEQSGVRMGGIICNSRNVDGERELLEEFCARLGTRLLMFIPRDNIVQKAEFNRQTVTEFDPASTQAGAYKELAKRLMETTADELAIPQPMSMDELENLVVKYG---- A0A178IPV8/1-274 -MRKIAIYGKGGIGKSTTTQNTAAALAHFHDKKVFIHGCDPKADSTRLILGGKPQETLMDVLREQGAEK-VTNDKVIKVGFKGIHCVESGGPEPGVGCAGRGVITAIDLMEGNGAYTPDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAVYAANNICKGLLKYAKQSGVRLGGVICNSRKVDKEREFIEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEYDEKENQAHEYSELGRKIIEN--TDFVIPKPLTMDELEKMVVKYGLAE- A0A166ETF1/1-275 MVRKIAIYGKGGIGKSTTTQNTAAAMAHFHDKKVMIHGCDPKADSTRMILRGTMQKTMMDTLREEGEEA-CTVDNIMSTGYGGIKCVESGGPEPGVGCAGRGVITAITLMEMQKVYEDNLDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYANQSGVRLGGIICNSRNVDGELELIQEFCKRLGTQMIHFVPRDNIVQKAEFNKRTVVDYDKECNQANEYGTLGGKIIDN--KNFVIPEPLAMDELEELVVEFGVLD- A0A177E912/3-275 -TRKIGIYGKGGIGKSTTTQNLAAALAYYHNKKVMIHGCDPKADSTRLILGGKPQETVLDVMREEGEEN-VTLEKVVKVGFGDIRCVESGGPEPGVGCAGRGVITAINLMESLGGYPEDLDFLFYDVLGDVVCGGFAMPVRDGKAQEIYIVASGEMMAIYAANNICRGMAKYARRTGVRLGGIICNSRKVDREQELMEEFCERLGTQMIMFIPRDNIVQKAEFNRQTVVQFDPDHPQAHAYKELARRIIEN--KHFVIPKPLTMDELENLVVKYGIV-- A0A1J4STR1/1-274 -MRKIAIYGKGGIGKSTTTQNTAAALAHFHGKKVFIHGCDPKADSTRLILGGKPQETLMDVLRTQGAEK-VTNDKVIKAGYMNIHCVESGGPEPGVGCAGRGIITAIDLMEANGAYTPDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLLKFAKQSGVRLGGVICNSRKVDREREFLEEFTASIGTQMIHFVPRDNVVQKAEFNKKTVTEYDDTENQALEYKELGRKIIEN--TNFVIPKPLTMDELESMVVKYGISD- K6TWW5/1-275 MVRKIAIYGKGGIGKSTTTQNTATAMAHFHDKKVMIHGCDPKADSTRMILGGKMQTTMMDTLREEGEEACMELDKIMSTGFEGIKCVESGGPEPGVGCAGRGVITAITIMEQLKVY-EDNDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYAEQSGVRLGGIICNSRNVDGEKELMEEFCKRIGTQLIHFVPRDNIVQKAEFNKRTVVDFDEECNQAHEYEELGRKIIEN--ENFVIPTPMTMEELEELVIDYGLVD- J1QGN3/2-275 -TRKLAIYGKGGIGKSTTTQNTAAALAWFHGKKVFIHGCDPKADSTRLILGGKPQETLMDVLRDQGAEK-ITNDMVVKTGVFNICCVESGGPEPGVGCAGRGVITAIDLMEDNKAYADDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDGEKEFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPEANQAQEYRELGRKIIEN--TDLVIPHPLTMDQLEKMVVKYGLSD- A0A0E3QD11/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHSKKVFIHGCDPKADCTRLVLGGVAQTTIMDTLRELGEDA-VTAENVINAGFDGIKCVESGGPEPGVGCAGRGVITAINLMEEMGAYSEDLDFIHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRKVDNELEMMEEFVSALGTQLIHFVPRDNIVQKAEFNKKTVIEYDPKCNQALEYKELARKILEN--DMFVIPKPLSIDQLEKMVARYGLMD- A0A0E3LHL9/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHSKKVFIHGCDPKADCTRLVLGGVAQTTIMDTLRELGEDA-VTAENVINAGFDGIKCVESGGPEPGVGCAGRGVITAINLMEEMGAYSEDLDFIHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRKVDNELEMMEEFVSALGTQLIHFVPRDNIVQKAEFNKKTVIEYDPKCNQALEYKELARKILEN--DMFVIPKPLSIDQLEKMVARYGLMD- G2E4N0/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAHFHGQKVFIHGCDPKADSTRLILGGKPQQTLMDVLRDKGAEK-ITNDQVIKAGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEARGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFNPEENQAREYSELGRKIIEN--EDLVIPNPLSMEQLEDMVVKYGLMD- A0A0F7F874/2-275 -TRKIAIYGKGGIGKSTTQQNTASAMAYFHKKQVFIHGCDPKADSTRMILGGKPQETLMDTLRETGEES-ITVDSVVKTGYQGIRCVESGGPEPGVGCAGRGVITAINLMEDLGAYTEDLDFVFFDVLGDVVCGGFAMPIREGKAEEVYIVASGEMMAIYAANNIARGMLKYADQSGVRLGGIICNSRNVDKELELMEEFTSKLGTQLIHFVPRDNIVQKAEFNKKSVIEFDAASNQANEYSELARKIIEN--KSFVIPTPLTMDELEDMVTKYGIVD- A6UNA7/1-275 MVRKIAIYGKGGIGKSTTTQNTVAAMAYFHDKKVFIHGCDPKADSTRLILHGKQQTTMMDTLREKGEDE-CTPDKVIETGFCGVRCVESGGPEPGVGCAGRGVITAITLMEQHGVYEDNLDFVFFDVLGDVVCGGFAMPVRDGKADEIYVVASGEMMALYAANNICKGMVKYAQQSGVRLGGIICNSRNVDGELELLQEFCDKLGTQLIHFVPRDNIVQKAEFQKKAVVDFNDTCNQAMEYKELARKIIEN--KNLVIPTPMTMDELEELTSKYGFLD- A6UWY8/10-283 -AKKIAIYGKGGIGKSTTTQNMAAALAHFLGHKVMIHGCDPKADSTRMILHGMGQNTVMDVLRDEGEDA-ITLEKVRKQGFGGIYCVESGGPEPGVGCAGRGVITAVDTMRELEGYPDDLDNLFFDVLGDVVCGGFAMPLRDGLAEEIYIVTSGEMMALYAANNIAKGILKYADQSGVRLGGIICNSRKVDGEKELMEEFVEKLGTKLIHFVPRDNIVQKAEFNKQTVIEYDPECNQAKEYRTLVENITAN--EDLVKPTPLSMEELEQLVEKYGLLD- U6EBT4/1-276 MVRKIAIYGKGGIGKSTTTQNTASAMAHFHDKKVMIHGCDPKADSTRMILRGKMQRTMMDTLREDGEEACMDLDNVMSVGFEGIKCVESGGPEPGVGCAGRGVITAITIMEQKKVYEDDLDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYAEQSGVRLGGIICNSRNVDGEKELLEEFCERIGTQLIYFVPRDNIVQKAEFNKKTVVDFDETCNQAHEYQELARKIIEN--DNFVIPDPMTMEEMEELVVKYGMMD- A0A090I964/1-276 MVRKIAIYGKGGIGKSTTTQNTASAMAHFHDKKVMIHGCDPKADSTRMILRGKMQRTMMDTLREDGEEACMDLDNVMSVGFEGIKCVESGGPEPGVGCAGRGVITAITIMEQKKVYEDDLDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYAEQSGVRLGGIICNSRNVDGEKELLEEFCERIGTQLIYFVPRDNIVQKAEFNKKTVVDFDETCNQAHEYQELARKIIEN--DNFVIPDPMTMEEMEELVVKYGMMD- F0SYL1/1-271 -MRKIAIYGKGGIGKSTTQQNTAGAMAYFYDQKVFIHGCDPKADSTRLILGGMNQKTLMDVLRDEGEEK-ITVDKVVKTGYKGIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTPELDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLLKYAKQSGVRLGGIICNSRKVDREREFLEEFTSAIGTKLIHFMPRDNIVQKAEFNKKTVVEYDADCNQAKEYGELARKIIEN--KDFVIPQPLKMDELEAMVVKYG---- D3S6S2/11-285 -AKKVAIYGKGGIGKSTTTQNTAAALAYYYKLKGMIHGCDPKADSTRMILHGKPQETVMDVLREEGEEG-VTLEKIRKVGFGGILCVESGGPEPGVGCAGRGVITAVNLMIELGGYPDDLDFLFFDVLGDVVCGGFAMPLRDGLAKEIYIVSSGEMMALYAANNIARGILKYAEQSGVRLGGIICNSRKVDGEKELMEEFCDLLGTKLIHFIPRDNIVQKAEFNKMTVVEFAPDHPQAHEYKKLGKKIMDN--DELVIPTPLSMDQLEKLVEKYGLLDK B3QTT7/1-274 -MKKIAFYGKGGIGKSTTQQNTAAAMAYFHNQKVFIHGCDPKADSTRMILGGMNQATIMDVLRDEGAEK-ITADKIIKGGFGNIRCVESGGPEPGVGCAGRGVITAIDMMEATGAYSSDLDYVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDREREFLEEFTAAIGTQMIHFVPRDNVVQKAEFNRKTVVEFDPECKQAKEYGELARKIIEN--KMLVIPKPLNINELESMVLKYGLVD- A0A0N1C4Y4/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAFYHDKNIFIHGCDPKADSTRLILGGKPQDTVMDTLRTLGAEK-VTLENVVKSGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEANKAYTDDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYVVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPAADQALEYKQLGAAIIDN--KDFVIPKPLTMDELEKMVVKYGLMD- G2FXQ7/2-275 -TRKIAIYGKGGIGKSTTQQNTAAAMVHFYNQKVFIHGCDPKADSTRLILGGMNQKTLMDILRDEGEAK-VTVERVVKSGFGGIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTPDLDFVFFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMAVYAANNICKGLLKYAKQSGVRLGGIICNSRKVDKEKEFLEEFAAAIGTQLLYFVPRDNVVQRAEFNKKTVVEFDPEENQAHEYGELARRIIEN--KNFVIPKPMTMDELEAMVVKYGLAD- A0A0C7NM58/2-275 -TRKIAIYGKGGIGKSTTQQNTAAALAYFYGKKVLIHGCDPKADCTRLILGGKPQETVMDTLREFGEDA-VTVDRVVKTGFCGIRCVESGGPEPGVGCAGRGVITAISLMEELGAYTPDLDFIFFDVLGDVVCGGFAMPVREGKAQEIYIVASGEMMALYAANNICRGMVKYAEQSGVRLGGIICNSRNVDGERELMEEFCSCIGTRMLHFIPRDNIVQKAEFNRQTVTQFDPDCNQAREYRELARKIIDN--DMFVIPQPMTMDEMESLVVKFGLLD- Q07JS4/2-275 -TRKIAIYGKGGIGKSTTTQNTAAALAHFHDKNVFIHGCDPKADSTRLILGGLPQATVMDTLRIEGAEK-VTLDKVVKSGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEENEAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLTKYAKQSGVRLGGIICNSRNVDGEKEFLAEFTKAIGTKMIHFVPRDNIVQKAEFNKKTVTEFQPDANQAHEYKELGRKIIEN--EDFVIPKPMAMDELEAMVVKYGLMD- A0A089LPY2/2-275 -TRKIAIYGKGGIGKSTTQQNTAAAMAYYHNKKVFIHGCDPKADSTRMILGGMNQKTLMDMLRDDGAEN-ITTEKVVKSGYLDIQCVESGGPEPGVGCAGRGVITAIDLMEANGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRNVDKEREFLEEFTSAIGTQMIHFMPRNNIVQKAEFNKKTVVEFDAEHEQAHEYGELARKIIEN--EMFVIPKPLSMDQLEAMVSKYGIVD- A0A1B7GIH0/1-274 -MRKIAIYGKGGIGKSTTTQNTAAAMAYFHNKKIFIHGCDPKADSTRLILGGKPQETLMDVLREQGAEK-VTNEKVIKVGFKDIHCVESGGPEPGVGCAGRGVITAIDLMEANGAYTPDLDFVFYDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAVYAANNICKGLLKFAKQSGVRLGGIICNSRKVDREREFIDEFTSAIGTHMIHFVPRDNVVQRAEFNKKTVTEYDPSDNQANEYSELARKIIEN--KNFVIPKPLTMDELEKMVVKYGLAE- J5PIH8/2-276 ATRKVAIYGKGGIGKSTTTQNTAAALAYYHDKNVFIHGCDPKADSTRLILGGKPQDTVMDTLRTLGAEK-VTLDKVVKTGFKEIRCVESGGPEPGVGCAGRGVITAIDLMEANKAYTDDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTSAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPEACQAQEYKQLGAAIADN--TDFVIPKPLSMDELEKMVVKYGLMD- Q20XD0/2-275 -TRKIAIYGKGGIGKSTTTQNTAAALAHFHDKHVFIHGCDPKADSTRLILGGLPQATVMDTLRVEGAEK-VTLDKVVKTGFKDIRCVESGGPEPGVGCAGRGVITAIDLMEENEAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLTKYAKQSGVRLGGIICNSRNVDGEKEFLAEFTKAIGSKMIHFVPRDNIVQKAEFNKKTVTEFQPDANQAHEYKELGRKIIEN--TDFVIPKPMAMDELEAMVVKYGLMD- Q9S0V6/1-238 -------------------------------------GCDPKADSTRMILGGMNQKTIMDTLRDEGAEM-VTAEKVISTGFGNIRCCESGGPEPGVGCAGRGVITAIDLMETHGAYTEDLHYVFYDVLGDVVCGGFAMPIRDGKAQEVYIICSGEMMAVYAANNICKGLVKYARQSGVRLGGLVCNSRKVDREWEFIEEFAAAIGTRMIHFVPRDNIVQKAEFNKKMVIEYEPESNQAKEYSELARKIIEN--EMFVIPKPLSMDQLEAMVVKYGIAE- A0A1D2WDC6/1-275 MVRKIAIYGKGGIGKSTTTQNTASAMAHFHNQRVMIHGCDPKADSTRMILRGKMQTTMMDTLREEGEEACMDLDNVMSTGFKDIKCVESGGPEPGVGCAGRGVITAITIMEHLKVY-DDNDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYAEQSGVRLGGIICNSRNVDGEKELLEEFCKRIGTQMIHFVPRDNIVQKAEFNKKTVVDFNAECNQAHEYSELARKIIEN--DNFVIPDPMTMDELEEMVVSYGLMD- A0A0E3SMX2/2-275 -TRKIAFYGKGGIGKSTTQQNTAAAMAYYHGKNVFIHGCDPKADCTRLVLGGVPQTTIMDTLRDVGEES-VTIENVVNTGFNGIRCVESGGPEPGVGCAGRGVITAINLMEELGVYSEDLDFVHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMATYAANNICKGLLKYAEQSGVRLGGIICNSRKVDNELEMMEEFVSELGTQLIHFVPRDNIVQKAEFNKKTVVEYDPECNQALEYGKLAKKILEN--DMFVIPKPLSMDQLEKMVERYGLMD- S9S7G7/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAHYHNKRVFIHGCDPKADSTRLILGGLPQETVMDTLRTQGAEK-VTLDKVVKTGFHDIRCVESGGPEPGVGCAGRGVITAIDLMEANEAYTPDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYVVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFCAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPAADQALEYRQLGQSIIDN--DNFVIPKPLSMDELEAMVVKYGMCD- D5VUA1/10-284 -AKKVAIYGKGGIGKSTTTQNTAAALAYYYKLKGMIHGCDPKADSTRMILHGKPQETVMDVLREEGEEG-VTLEKVRKVGFCGIYCVESGGPEPGVGCAGRGVITAVNLMKELGGYPDDLDFLFFDVLGDVVCGGFAMPLRDGLAKEIYIVSSGEMMALYAANNIAKGILKYAEQSGVRLGGIICNSRNVDGERELMEEFCDKLGTKLIHFIPRDNIVQKAEFNKMTVVEFAPDHPQALEYKKLGKKIMDN--DELVIPTPLSMDELEKLVEKYGLYDK A0A1J5JT20/2-275 -TRKIAIYGKGGIGKSTTQQNTAAALAYFYGKKVLIHGCDPKADCTRLILGGKPQETVLDTIREYGEDA-LTVDRVVKTGFGGIKCVESGGPEPGVGCAGRGVITAINLMEEFGAYSDDLDFVFFDVLGDVVCGGFAMPVREGKAQEIYIVASGEMMALYAANNICRGMIKYAEQSGVRLGGIICNSRNVDGEKELMTEFCAKIGTQMLHFIPRDNIVQKAEFNRQTVTQFDPECNQAQEYKELARKIIEN--DMFVIPRPMSMDEMENLVVKYGLLN- A0A1J5NI34/2-275 -TRKIAIYGKGGIGKSTTTQNTAAAMANFHDKKIFIHGCDPKADSTRLILGGKPQETLMDVLRDQGAEK-VTKEKVIRTGYKGIQCVESGGPEPGVGCAGRGVITAIDLMENNGAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICRGLVKYAKQSGVRLGGVICNSRNVDQEREFLDEFTSAIGTQMIHFVPRDNIVQKAEFNKKTVCEYDPTENQALEYSTLGQKIIDN--DNFVIPTPLTMDELEAMVVKYGIAD- B9E2E7/2-275 -TRKIAFYGKGGIGKSTTQQNTAAALAHFYGKKVFIHGCDPKADCTRLILGEMTQSTIMDTLREEGEDS-ITEEAVIKTGFKDIRCVESGGPEPGVGCAGRGVITSINLMEELGAYSPDLDFVHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMAVYAANNICKGILKYADQGGVRLGGIICNSRMVDKELELMEEFTEAIGTQLIHFIPRDNIVQKAEFNKQTVVEYDADCNQAKEYGELARKIIEN--KNFVIPKPLKIIDLEQMVMKYGLLD- A5N909/2-275 -TRKIAFYGKGGIGKSTTQQNTAAALAHFYGKKVFIHGCDPKADCTRLILGEMTQSTIMDTLREEGEDS-ITEEAVIKTGFKDIRCVESGGPEPGVGCAGRGVITSINLMEELGAYSPDLDFVHFDVLGDVVCGGFAMPIREGKAQEVYIVASGEMMAVYAANNICKGILKYADQGGVRLGGIICNSRMVDKELELMEEFTEAIGTQLIHFIPRDNIVQKAEFNKQTVVEYDADCNQAKEYGELARKIIEN--KNFVIPKPLKIIDLEQMVMKYGLLD- F6D764/1-275 MVRKIAIYGKGGIGKSTTTQNTASAMAHFHDKKVMIHGCDPKADSTRMILGGKMQRTMMDTLREDGEEACMVLDNIMSIGYEGIKCVESGGPEPGVGCAGRGVITAITLMEQQKVY-EDNDFVFFDVLGDVVCGGFAMPIRDGKAEEIYVVASGEMMALYAANNLCKGMVKYANQSGVRLGGIICNSRNVDGERELLEEFCKKIGTQMIHFVPRDNIVQKAEFNKKTVVDFEPDCNQAHEYEALAGKIINN--ENFVIPKPMSMDELEEMVVQYGLMD- D7CIZ5/2-275 -TRKIAIYGKGGIGKSTTQQNTAAALAYFYGKKVLIHGCDPKADCTRMVLGGKPQETVMDTLRELGEDA-VTLEKVVKTGFCGIRCVESGGPEPGVGCAGRGVITAINLMEELGAYTPDLDFIFFDVLGDVVCGGFAMPVREGKAEEIYIVASGEMMALYAANNICRGMIKYAEQSGVRLGGIICNSRNVDGERELMEEFCKRIGTQLIHFVPRDNIVQKAEFSRQTVTEFDPDCNQAREYKELARKIIEN--EMFVIPKPMTMDEMEALVVKYGLLD- G7M409/2-275 -TRKIAIYGKGGIGKSTTQQNTAAAMAYYYDKHIFIHGCDPKADSTRLILGGMNQKTLMDMLRDEGEEK-ITVDAVVKNGYKGIRCVESGGPEPGVGCAGRGVITAIDLMEKNGAYTPDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAEQSGVRLGGIICNSRKVDREREFLEEFTAAIGTQMIHFMPRDNIVQKAEFNKKTVVEYDAECNQAKEYGELARKIIEN--KMFVIPKPLQMDELEAMVVKYGISD- W0IXL3/1-274 -MRKIAIYGKGGIGKSTTTQNTAAAMAHFHNKKIFIHGCDPKADSTRLILGGKPQETLMDVLREQGAEK-VTNEKVIKVGFKDIHCVESGGPEPGVGCAGRGVITAIDLMETNGAYTPDLDFVFYDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAVYAANNICKGLLKFAKQSGVRLGGIICNSRKVDREREFIDEFTAAIGTHMIHFVPRDNVVQRAEFNKKTVTEYDPSDNQANEYSELARKIIEN--KNFVIPKPLTMDELEKMVVKYGLGD- I6B4G9/1-274 -MRKIAIYGKGGIGKSTTTQNTAAAMAHFHNKKIFIHGCDPKADSTRLILGGKPQETLMDVLREQGAEK-VTNEKVIKVGFKDIHCVESGGPEPGVGCAGRGVITAIDLMETNGAYTPDLDFVFYDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAVYAANNICKGLLKFAKQSGVRLGGIICNSRKVDREREFIDEFTAAIGTHMIHFVPRDNVVQRAEFNKKTVTEYDPSDNQANEYSELARKIIEN--KNFVIPKPLTMDELEKMVVKYGLGD- A0A037V0Y3/2-275 -TRKVAIYGKGGIGKSTTTQNTAAALAFFHDKHIFIHGCDPKADSTRLILGGQMQETVMDTLRIHGAEK-VTLDKVVKTGFKEIRCVESGGPEPGVGCAGRGVITAIDLMEENDAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNIAKGLVKYAKQSGVRLGGIICNSRMVDGEKEFLNEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFDPEANQAQEYKQLGKEILEN--KDFVIPKPLNMDELEAMVVKYGLLD- C9RH87/11-284 -AKKVAIYGKGGIGKSTTTQNTAAALAYYYNLKGMIHGCDPKADSTRMILHGKPQETVMDVLREEGEEG-VTLEKVRKVGFGGILCVESGGPEPGVGCAGRGVITAVNMMIELGGYPDDLDFLFFDVLGDVVCGGFAMPLRDGLAKEIYIVSSGEMMALYAANNIARGILKYAEQSGVRLGGIICNSRKVDGEKELMEEFCEMLGTKLIHFIPRDNIVQKAEFNKMTVVEFAPDHPQAHEYKKLGKKIMDN--DELVVPTPLSMDQLEKLVEKYGLLD- A4PDE0/1-143 ---------------STTTQNAAAAMAHFHGKKVFIHGCDPKADSTRLILGGKPQETLMDTLRTLGAEK-VTLDKVVKKGYQDILCVESGGPEPGVGCAGRGVITAIDLMEQQGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAI------------------------------------------------------------------------------------------------------------------------ A2I9Z4/1-119 --------------------------------------CDPKADSTRLILGGKPQETLMDMLRDRGLEK-ITNDNVIKKGFLNIQCVESGGPEPGVGCAGRGVITAIDLMEENGAYTEDLDFIFFDVLGDVVCGGFAMPIRDGKAQEVYIVCSGEMMA------------------------------------------------------------------------------------------------------------------------- X2J4X9/1-158 -----AFYGKGGIGKSTTQQNTAAAMAHFYNKKVFIHGCDPKADSTRLILGGKPQDTLMDMLRDEGEAA-VTIERVVKTGYNGIRCVESGGPEPGVGCAGRGVITAINMMEELGAYTSDLDFCFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANN------------------------------------------------------------------------------------------------------------------- O66339/1-143 ---------------STTQQNTAAAMAHFYNQKVFIHGCDPKADSTRLILGGKPQETLMDVLRQEGAEK-VTNEKVIKTGFMNIRCVESGGPEPGVGCAGRGVITAIDLMENNGAYTPELDFVFFDVLGDVVCGGFAMPICDGKAQEVYIVASGEMMAV------------------------------------------------------------------------------------------------------------------------ A9ZRT7/1-258 ----------------TTTQNLTAALSTM-DKRILQIGCDPKADSTRMLVGGKRQPTVLDTSREVGTEN-VTLEEVVHTGFGGIKCVEAGGPEPGVGCAGRGVITAINLLEELGAYTDDLDFVFYDVLGDVVCGGFAMPMREGKAREIYIVASGEMKALYAANNICKAIVRFAKQSGIRLGGIICNSRKVDNELELLTAFSERIGSRLVYFVPRDNIVQRAEINKKTVIEYDPESNQADEYRQLAKSVIDN--DNFVIPRPLEYEELEDLMMESGVLA- X2J494/1-158 -----AIYGKGGIGKSTTQQNTAAAMAHYYQKKVFIHGCDPKADSTRLILGGKTQDTLMDTLRLEGEDK-VTKEKVVKTGFGNISCVESGGPEPGVGCAGRGVITAINLMEEQGAYTEDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANN------------------------------------------------------------------------------------------------------------------- #=GC scorecons 035656577777777788588776867566466668889999997997787854849589589539574068375855497358588989999999999999899885788446694588886789899999999999978798969797879999895777776566546674667667776677674774736455673345764566667777677677666567465543357636734755565560033566747546556735645674350 #=GC scorecons_70 ___*_*_***********_********_**_***_*****************__*_*_**_**__*_*___*_*_*___**__*_**********************_***___**__****************************************_******_**__***_********_*****_**_*_*___**____**____*_*************__*________**_**__*___*__*_____***_*__*__**__*__**____ #=GC scorecons_80 _______________***_****_*_*________***************_*__*_*_**_**__*_*___*_*_*___**__*_**********************_***____*__****_**********************_************_*****___________________________________________________________________________________________________________________ #=GC scorecons_90 ________________**_**___*___________********_**__*_*__*_*_**_**__*_____*___*___*___*_**********************__**____*__****__***************_*_*_*_*_*_*_******_________________________________________________________________________________________________________________________ //