# STOCKHOLM 1.0 #=GF ID 3.40.50.150/FF/135174 #=GF DE Glycine N-methyltransferase #=GF AC 3.40.50.150/FF/135174 #=GF TP FunFam #=GF DR CATH: 4.2 #=GF DR DOPS: 94.972 #=GS Q9KJ20/308-565 AC Q9KJ20 #=GS Q9KJ20/308-565 OS Actinopolyspora halophila #=GS Q9KJ20/308-565 DE Glycine/sarcosine/dimethylglycine N-methyltransferase #=GS Q9KJ20/308-565 DR GENE3D; 849c13137015543107aab8a9bd03e55c/308-565; #=GS Q9KJ20/308-565 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Actinopolysporales; Actinopolysporaceae; Actinopolyspora; Actinopolyspora halophila; #=GS Q9KJ20/308-565 DR GO; GO:0019286; GO:0032259; GO:0052729; GO:0052730; #=GS Q9KJ20/308-565 DR EC; 2.1.1.156; 2.1.1.157; #=GS Q9KJ21/20-279 AC Q9KJ21 #=GS Q9KJ21/20-279 OS Halorhodospira halochloris #=GS Q9KJ21/20-279 DE Sarcosine/dimethylglycine N-methyltransferase #=GS Q9KJ21/20-279 DR GENE3D; 2ced70db86a16eb75e130b44778b25dd/20-279; #=GS Q9KJ21/20-279 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Halorhodospira; Halorhodospira halochloris; #=GS Q9KJ21/20-279 DR GO; GO:0019286; GO:0032259; GO:0052729; GO:0052730; #=GS Q9KJ21/20-279 DR EC; 2.1.1.157; #=GS A0A163EYJ7/16-275 AC A0A163EYJ7 #=GS A0A163EYJ7/16-275 OS Prochlorococcus sp. MIT 1303 #=GS A0A163EYJ7/16-275 DE Dimethylglycine N-methyltransferase #=GS A0A163EYJ7/16-275 DR GENE3D; 0d4c4e82a50751163daba655f87f541e/16-275; #=GS A0A163EYJ7/16-275 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Prochloraceae; Prochlorococcus; Prochlorococcus sp. MIT 1303; #=GS A0A163EYJ7/16-275 DR EC; 2.1.1.161; #=GS A0A1L8QHE1/20-278 AC A0A1L8QHE1 #=GS A0A1L8QHE1/20-278 OS Pseudonocardia autotrophica #=GS A0A1L8QHE1/20-278 DE Glycine/sarcosine/dimethylglycine N-methyltransferase #=GS A0A1L8QHE1/20-278 DR GENE3D; 127a9b657ba657637155db9fa2b42201/20-278; #=GS A0A1L8QHE1/20-278 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Pseudonocardia; Pseudonocardia autotrophica; #=GS A0A1L8QHE1/20-278 DR EC; 2.1.1.156; #=GS U2FYD2/18-278 AC U2FYD2 #=GS U2FYD2/18-278 OS Salinisphaera shabanensis E1L3A #=GS U2FYD2/18-278 DE Methyltransferase-related protein #=GS U2FYD2/18-278 DR GENE3D; 2395a2b000f6f8e7127180868fe663bc/18-278; #=GS U2FYD2/18-278 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Salinisphaerales; Salinisphaeraceae; Salinisphaera; Salinisphaera shabanensis; #=GS U2FYD2/18-278 DR EC; 2.1.1.144; #=GS A0A0B3RPI1/301-560 AC A0A0B3RPI1 #=GS A0A0B3RPI1/301-560 OS Mameliella alba #=GS A0A0B3RPI1/301-560 DE Glycine N-methyltransferase #=GS A0A0B3RPI1/301-560 DR GENE3D; f03a7c30014b9f18306eefa526195145/301-560; #=GS A0A0B3RPI1/301-560 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Mameliella; Mameliella alba; #=GS A0A0B3RPI1/301-560 DR EC; 2.1.1.20; #=GS Q83WC3/19-277 AC Q83WC3 #=GS Q83WC3/19-277 OS Aphanothece halophytica #=GS Q83WC3/19-277 DE Sarcosine/dimethylglycine N-methyltransferase #=GS Q83WC3/19-277 DR GENE3D; edf97e91babad6e7b6f9ed6481d47a97/19-277; #=GS Q83WC3/19-277 DR ORG; Bacteria; Cyanobacteria; Oscillatoriophycideae; Chroococcales; Aphanothecaceae; Aphanothece; Aphanothece halophytica; #=GS Q83WC3/19-277 DR GO; GO:0019286; GO:0032259; GO:0052729; #=GS Q83WC3/19-277 DR EC; 2.1.1.157; #=GS A1WXM9/19-278 AC A1WXM9 #=GS A1WXM9/19-278 OS Halorhodospira halophila SL1 #=GS A1WXM9/19-278 DE Sarcosine/dimethylglycine N-methyltransferase #=GS A1WXM9/19-278 DR GENE3D; 059919a0ed506d3dc9de58ce1dfbffd7/19-278; #=GS A1WXM9/19-278 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Halorhodospira; Halorhodospira halophila; #=GS A1WXM9/19-278 DR EC; 2.1.1.157; #=GS A0A0X8XB40/20-279 AC A0A0X8XB40 #=GS A0A0X8XB40/20-279 OS Halorhodospira halochloris #=GS A0A0X8XB40/20-279 DE Dimethylglycine N-methyltransferase #=GS A0A0X8XB40/20-279 DR GENE3D; 2ced70db86a16eb75e130b44778b25dd/20-279; #=GS A0A0X8XB40/20-279 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Halorhodospira; Halorhodospira halochloris; #=GS A0A0X8XB40/20-279 DR EC; 2.1.1.157; #=GS A0A163CWI6/16-275 AC A0A163CWI6 #=GS A0A163CWI6/16-275 OS Prochlorococcus sp. MIT 1306 #=GS A0A163CWI6/16-275 DE Dimethylglycine N-methyltransferase #=GS A0A163CWI6/16-275 DR GENE3D; 359a3012c85a323f683a32286e249ae8/16-275; #=GS A0A163CWI6/16-275 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Prochloraceae; Prochlorococcus; Prochlorococcus sp. MIT 1306; #=GS A0A163CWI6/16-275 DR EC; 2.1.1.161; #=GS H2CAA9/15-275 AC H2CAA9 #=GS H2CAA9/15-275 OS Leptonema illini DSM 21528 #=GS H2CAA9/15-275 DE Sarcosine/dimethylglycine N-methyltransferase #=GS H2CAA9/15-275 DR GENE3D; 4e7d1345f81cbe0ff2daea0c9d3751ba/15-275; #=GS H2CAA9/15-275 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptonema; Leptonema illini; #=GS H2CAA9/15-275 DR EC; 2.1.1.157; #=GS I3BQZ9/19-277 AC I3BQZ9 #=GS I3BQZ9/19-277 OS Thiothrix nivea DSM 5205 #=GS I3BQZ9/19-277 DE Sarcosine/dimethylglycine N-methyltransferase #=GS I3BQZ9/19-277 DR GENE3D; 68d32351f3448650a5fbf8842ef712f3/19-277; #=GS I3BQZ9/19-277 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Thiotrichaceae; Thiothrix; Thiothrix nivea; #=GS I3BQZ9/19-277 DR EC; 2.1.1.157; #=GS A0A0D6JI85/19-278 AC A0A0D6JI85 #=GS A0A0D6JI85/19-278 OS Candidatus Filomicrobium marinum #=GS A0A0D6JI85/19-278 DE Sarcosine/dimethylglycine N-methyltransferase #=GS A0A0D6JI85/19-278 DR GENE3D; 6910a878c69887a307e3ae5a74a95cb4/19-278; #=GS A0A0D6JI85/19-278 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Filomicrobium; Candidatus Filomicrobium marinum; #=GS A0A0D6JI85/19-278 DR EC; 2.1.1.157; #=GS A0A162DZC5/16-275 AC A0A162DZC5 #=GS A0A162DZC5/16-275 OS Prochlorococcus marinus str. MIT 1320 #=GS A0A162DZC5/16-275 DE Dimethylglycine N-methyltransferase #=GS A0A162DZC5/16-275 DR GENE3D; 6e34f673aeab56cfb434574c7751ea55/16-275; #=GS A0A162DZC5/16-275 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Prochloraceae; Prochlorococcus; Prochlorococcus marinus; #=GS A0A162DZC5/16-275 DR EC; 2.1.1.161; #=GS A0A163T2R1/16-275 AC A0A163T2R1 #=GS A0A163T2R1/16-275 OS Prochlorococcus marinus str. MIT 1327 #=GS A0A163T2R1/16-275 DE Dimethylglycine N-methyltransferase #=GS A0A163T2R1/16-275 DR GENE3D; 725f872c61a5e7aa76fc28937faa081e/16-275; #=GS A0A163T2R1/16-275 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Prochloraceae; Prochlorococcus; Prochlorococcus marinus; #=GS A0A163T2R1/16-275 DR EC; 2.1.1.161; #=GS A0A163PWD2/16-275 AC A0A163PWD2 #=GS A0A163PWD2/16-275 OS Prochlorococcus marinus str. MIT 1323 #=GS A0A163PWD2/16-275 DE Dimethylglycine N-methyltransferase #=GS A0A163PWD2/16-275 DR GENE3D; 8d727d2e50f3538fe68e0c29d30791d3/16-275; #=GS A0A163PWD2/16-275 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Prochloraceae; Prochlorococcus; Prochlorococcus marinus; #=GS A0A163PWD2/16-275 DR EC; 2.1.1.161; #=GS A0A0F7KNX7/16-273 AC A0A0F7KNX7 #=GS A0A0F7KNX7/16-273 OS Altererythrobacter atlanticus #=GS A0A0F7KNX7/16-273 DE Sarcosine/dimethylglycine N-methyltransferase #=GS A0A0F7KNX7/16-273 DR GENE3D; 9c6843a5790c997424ac27b3fe20b0a4/16-273; #=GS A0A0F7KNX7/16-273 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Altererythrobacter; Altererythrobacter atlanticus; #=GS A0A0F7KNX7/16-273 DR EC; 2.1.1.157; #=GS U7GP48/303-562 AC U7GP48 #=GS U7GP48/303-562 OS Labrenzia sp. C1B10 #=GS U7GP48/303-562 DE SAM-dependent methyltransferase #=GS U7GP48/303-562 DR GENE3D; 9df5d4aa50d71c73a7a8cfb445af36a3/303-562; #=GS U7GP48/303-562 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia sp. C1B10; #=GS U7GP48/303-562 DR EC; 2.1.1.156; #=GS A0A0M6Y3Y8/303-562 AC A0A0M6Y3Y8 #=GS A0A0M6Y3Y8/303-562 OS Labrenzia aggregata #=GS A0A0M6Y3Y8/303-562 DE Glycine/sarcosine/dimethylglycine N-methyltransferase #=GS A0A0M6Y3Y8/303-562 DR GENE3D; 9df5d4aa50d71c73a7a8cfb445af36a3/303-562; #=GS A0A0M6Y3Y8/303-562 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia aggregata; #=GS A0A0M6Y3Y8/303-562 DR EC; 2.1.1.156; #=GS A0A163UJG3/16-275 AC A0A163UJG3 #=GS A0A163UJG3/16-275 OS Prochlorococcus marinus str. MIT 1342 #=GS A0A163UJG3/16-275 DE Dimethylglycine N-methyltransferase #=GS A0A163UJG3/16-275 DR GENE3D; a81afb1472e570ffbfb9b22b41e3823d/16-275; #=GS A0A163UJG3/16-275 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Prochloraceae; Prochlorococcus; Prochlorococcus marinus; #=GS A0A163UJG3/16-275 DR EC; 2.1.1.161; #=GS A0A0P7X7I3/302-560 AC A0A0P7X7I3 #=GS A0A0P7X7I3/302-560 OS Rhizobiales bacterium HL-109 #=GS A0A0P7X7I3/302-560 DE Glycine/sarcosine N-methyltransferase #=GS A0A0P7X7I3/302-560 DR GENE3D; afbbf9fdc1a8ea8bd125ba33e12fad60/302-560; #=GS A0A0P7X7I3/302-560 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiales bacterium HL-109; #=GS A0A0P7X7I3/302-560 DR EC; 2.1.1.156; #=GS A0A163LXL1/16-275 AC A0A163LXL1 #=GS A0A163LXL1/16-275 OS Prochlorococcus marinus str. MIT 1318 #=GS A0A163LXL1/16-275 DE Dimethylglycine N-methyltransferase #=GS A0A163LXL1/16-275 DR GENE3D; b5c0314f4c62c2c3da026c758064a819/16-275; #=GS A0A163LXL1/16-275 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Prochloraceae; Prochlorococcus; Prochlorococcus marinus; #=GS A0A163LXL1/16-275 DR EC; 2.1.1.161; #=GS D5EA51/19-278 AC D5EA51 #=GS D5EA51/19-278 OS Methanohalophilus mahii DSM 5219 #=GS D5EA51/19-278 DE Sarcosine/dimethylglycine N-methyltransferase #=GS D5EA51/19-278 DR GENE3D; c1d60248d7896949b15f08c6003bf3dc/19-278; #=GS D5EA51/19-278 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanohalophilus; Methanohalophilus mahii; #=GS D5EA51/19-278 DR EC; 2.1.1.157; #=GS U5DKV9/19-279 AC U5DKV9 #=GS U5DKV9/19-279 OS Rubidibacter lacunae KORDI 51-2 #=GS U5DKV9/19-279 DE Methylase involved in ubiquinone/menaquinone biosynthesis #=GS U5DKV9/19-279 DR GENE3D; d01d5dc76b2f57540df4cd0955b1482a/19-279; #=GS U5DKV9/19-279 DR ORG; Bacteria; Cyanobacteria; Oscillatoriophycideae; Chroococcales; Aphanothecaceae; Rubidibacter; Rubidibacter lacunae; #=GS U5DKV9/19-279 DR EC; 2.1.1.161; #=GS F4Y2P8/20-277 AC F4Y2P8 #=GS F4Y2P8/20-277 OS Moorea producens 3L #=GS F4Y2P8/20-277 DE Putative sarcosine/dimethylglycine N-methyltransferase #=GS F4Y2P8/20-277 DR GENE3D; d3c806c19636e8f6fc9a717a3a682ee6/20-277; #=GS F4Y2P8/20-277 DR ORG; Bacteria; Cyanobacteria; Oscillatoriophycideae; Oscillatoriales; Oscillatoriaceae; Moorea; Moorea producens; #=GS F4Y2P8/20-277 DR EC; 2.1.1.157; #=GS K9YGK5/19-277 AC K9YGK5 #=GS K9YGK5/19-277 OS Halothece sp. PCC 7418 #=GS K9YGK5/19-277 DE Sarcosine/dimethylglycine N-methyltransferase #=GS K9YGK5/19-277 DR GENE3D; edf97e91babad6e7b6f9ed6481d47a97/19-277; #=GS K9YGK5/19-277 DR ORG; Bacteria; Cyanobacteria; Oscillatoriophycideae; Chroococcales; Aphanothecaceae; Halothece; Halothece sp. PCC 7418; #=GS K9YGK5/19-277 DR EC; 2.1.1.157; #=GS S9Q394/301-560 AC S9Q394 #=GS S9Q394/301-560 OS Salipiger mucosus DSM 16094 #=GS S9Q394/301-560 DE Glycine N-methyltransferase #=GS S9Q394/301-560 DR GENE3D; f16f07dbbfec974733ae0d34656b0794/301-560; #=GS S9Q394/301-560 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Salipiger; Salipiger mucosus; #=GS S9Q394/301-560 DR EC; 2.1.1.20; #=GS A0A0G3EG49/19-278 AC A0A0G3EG49 #=GS A0A0G3EG49/19-278 OS Kiritimatiella glycovorans #=GS A0A0G3EG49/19-278 DE Sarcosine/dimethylglycine N-methyltransferase #=GS A0A0G3EG49/19-278 DR GENE3D; f84ea5f738e96ac004a8c2066d704ade/19-278; #=GS A0A0G3EG49/19-278 DR ORG; Bacteria; Kiritimatiellaeota; Kiritimatiellae; Kiritimatiellales; Kiritimatiellaceae; Kiritimatiella; Kiritimatiella glycovorans; #=GS A0A0G3EG49/19-278 DR EC; 2.1.1.157; #=GS F2UL79/52-312 AC F2UL79 #=GS F2UL79/52-312 OS Salpingoeca rosetta #=GS F2UL79/52-312 DE Methyltransferase type 11 #=GS F2UL79/52-312 DR GENE3D; 958bec548a360a05254ba5ebddd649a2/52-312; #=GS F2UL79/52-312 DR ORG; Eukaryota; Choanoflagellida; Salpingoecidae; Salpingoeca; Salpingoeca rosetta; #=GS F2TWM4/25-286 AC F2TWM4 #=GS F2TWM4/25-286 OS Salpingoeca rosetta #=GS F2TWM4/25-286 DE Methyltransferase type 11 #=GS F2TWM4/25-286 DR GENE3D; a55a89c058d04ef1ba2858bf832e0b35/25-286; #=GS F2TWM4/25-286 DR ORG; Eukaryota; Choanoflagellida; Salpingoecidae; Salpingoeca; Salpingoeca rosetta; #=GS M2Y7I2/55-319 AC M2Y7I2 #=GS M2Y7I2/55-319 OS Galdieria sulphuraria #=GS M2Y7I2/55-319 DE Sarcosine dimethylglycine methyltransferase #=GS M2Y7I2/55-319 DR GENE3D; e671bb789c03494ac03ade4c05d3aa07/55-319; #=GS M2Y7I2/55-319 DR ORG; Eukaryota; Bangiophyceae; Cyanidiales; Cyanidiaceae; Galdieria; Galdieria sulphuraria; #=GS M5RX55/19-279 AC M5RX55 #=GS M5RX55/19-279 OS Rhodopirellula maiorica SM1 #=GS M5RX55/19-279 DE Sarcosine-dimethylglycine methyltransferase #=GS M5RX55/19-279 DR GENE3D; 01f460640b48c7cf3b1c1ed80cc0824d/19-279; #=GS M5RX55/19-279 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Planctomycetales; Planctomycetaceae; Rhodopirellula; Rhodopirellula maiorica; #=GS A0A1H1TCP4/303-558 AC A0A1H1TCP4 #=GS A0A1H1TCP4/303-558 OS Actinopolymorpha singaporensis #=GS A0A1H1TCP4/303-558 DE Glycine/sarcosine N-methyltransferase #=GS A0A1H1TCP4/303-558 DR GENE3D; 0355b733a3149bccecacd2ee3f1da7ae/303-558; #=GS A0A1H1TCP4/303-558 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Actinopolymorpha; Actinopolymorpha singaporensis; #=GS A0A0T5NRV5/301-562 AC A0A0T5NRV5 #=GS A0A0T5NRV5/301-562 OS Roseovarius atlanticus #=GS A0A0T5NRV5/301-562 DE SAM-dependent methyltransferase #=GS A0A0T5NRV5/301-562 DR GENE3D; 035a1ffe303509ebcc15f72d7becfe9f/301-562; #=GS A0A0T5NRV5/301-562 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseovarius; Roseovarius atlanticus; #=GS X7EGR9/303-562 AC X7EGR9 #=GS X7EGR9/303-562 OS Roseivivax halodurans JCM 10272 #=GS X7EGR9/303-562 DE SAM-dependent methyltransferase #=GS X7EGR9/303-562 DR GENE3D; 09ba054aa2d6f965ea63915c677d01b7/303-562; #=GS X7EGR9/303-562 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseivivax; Roseivivax halodurans; #=GS D9WCV3/224-484 AC D9WCV3 #=GS D9WCV3/224-484 OS Streptomyces himastatinicus ATCC 53653 #=GS D9WCV3/224-484 DE Putative glycine-sarcosine methyltransferase #=GS D9WCV3/224-484 DR GENE3D; 0afdc708ca1f7a2ebb6cc05ecaa3729a/224-484; #=GS D9WCV3/224-484 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces himastatinicus; #=GS D3SCH7/19-281 AC D3SCH7 #=GS D3SCH7/19-281 OS Thioalkalivibrio sp. K90mix #=GS D3SCH7/19-281 DE Methyltransferase type 11 #=GS D3SCH7/19-281 DR GENE3D; 0ff8a8bc224d020fabd8241a8fe0fecd/19-281; #=GS D3SCH7/19-281 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thioalkalivibrio; Thioalkalivibrio sp. K90mix; #=GS G2NY85/324-584 AC G2NY85 #=GS G2NY85/324-584 OS Streptomyces violaceusniger Tu 4113 #=GS G2NY85/324-584 DE Methyltransferase type 11 #=GS G2NY85/324-584 DR GENE3D; 114165cdf4c0800dad36d93582eb91af/324-584; #=GS G2NY85/324-584 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces violaceusniger; #=GS B3QVY4/20-279 AC B3QVY4 #=GS B3QVY4/20-279 OS Chloroherpeton thalassium ATCC 35110 #=GS B3QVY4/20-279 DE Methyltransferase type 11 #=GS B3QVY4/20-279 DR GENE3D; 133d1ae5fc233c255b7b30d480ca0dd6/20-279; #=GS B3QVY4/20-279 DR ORG; Bacteria; Chlorobi; Chlorobia; Chlorobiales; Chlorobiaceae; Chloroherpeton; Chloroherpeton thalassium; #=GS B8GQ71/19-278 AC B8GQ71 #=GS B8GQ71/19-278 OS Thioalkalivibrio sulfidiphilus HL-EbGr7 #=GS B8GQ71/19-278 DE Methyltransferase type 11 #=GS B8GQ71/19-278 DR GENE3D; 1962025fcf91b8f0d24f078d1243b56a/19-278; #=GS B8GQ71/19-278 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thioalkalivibrio; Thioalkalivibrio sulfidiphilus; #=GS A0A1E3X9G2/292-518 AC A0A1E3X9G2 #=GS A0A1E3X9G2/292-518 OS Candidatus Scalindua rubra #=GS A0A1E3X9G2/292-518 DE Glycine-sarcosine-dimethylglycine methyltransferase #=GS A0A1E3X9G2/292-518 DR GENE3D; 1dfe6b671831d00ce81926605b13b2fd/292-518; #=GS A0A1E3X9G2/292-518 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Candidatus Brocadiales; Candidatus Brocadiaceae; Candidatus Scalindua; Candidatus Scalindua rubra; #=GS W6K9Z7/25-283 AC W6K9Z7 #=GS W6K9Z7/25-283 OS Magnetospira sp. QH-2 #=GS W6K9Z7/25-283 DE Putative sarcosine/dimethylglycine N-methyltransferase #=GS W6K9Z7/25-283 DR GENE3D; 200d4320959f32cc87f1d10832ae2f3f/25-283; #=GS W6K9Z7/25-283 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetospira; Magnetospira sp. QH-2; #=GS A0A1N7MS46/302-561 AC A0A1N7MS46 #=GS A0A1N7MS46/302-561 OS Paracoccus saliphilus #=GS A0A1N7MS46/302-561 DE Glycine/sarcosine N-methyltransferase #=GS A0A1N7MS46/302-561 DR GENE3D; 20f4b278428f2d0617cf6a4136217548/302-561; #=GS A0A1N7MS46/302-561 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus saliphilus; #=GS S3ZAT3/26-287 AC S3ZAT3 #=GS S3ZAT3/26-287 OS Streptomyces aurantiacus JA 4570 #=GS S3ZAT3/26-287 DE Putative Sarcosine/dimethylglycine N-methyltransferase #=GS S3ZAT3/26-287 DR GENE3D; 211d047bec2d8f4f628e732f11095200/26-287; #=GS S3ZAT3/26-287 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces aurantiacus; #=GS L0DUD1/19-277 AC L0DUD1 #=GS L0DUD1/19-277 OS Thioalkalivibrio nitratireducens DSM 14787 #=GS L0DUD1/19-277 DE Dimethylglycine N-methyltransferase #=GS L0DUD1/19-277 DR GENE3D; 2529157bdc1fd647e1b53481874bca1a/19-277; #=GS L0DUD1/19-277 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thioalkalivibrio; Thioalkalivibrio nitratireducens; #=GS A0A0B1ZNQ6/18-275 AC A0A0B1ZNQ6 #=GS A0A0B1ZNQ6/18-275 OS Novosphingobium malaysiense #=GS A0A0B1ZNQ6/18-275 DE Methyltransferase #=GS A0A0B1ZNQ6/18-275 DR GENE3D; 25de0bc204fb3ca11ac36773a884888a/18-275; #=GS A0A0B1ZNQ6/18-275 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium malaysiense; #=GS A0A0K9I4K9/20-279 AC A0A0K9I4K9 #=GS A0A0K9I4K9/20-279 OS Desulfocarbo indianensis #=GS A0A0K9I4K9/20-279 DE Methyltransferase #=GS A0A0K9I4K9/20-279 DR GENE3D; 25de0fe6888cc630942c8e90d1283aa5/20-279; #=GS A0A0K9I4K9/20-279 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfarculales; Desulfarculaceae; Desulfocarbo; Desulfocarbo indianensis; #=GS A4BNS9/19-279 AC A4BNS9 #=GS A4BNS9/19-279 OS Nitrococcus mobilis Nb-231 #=GS A4BNS9/19-279 DE Putative sarcosine-dimethylglycine methyltransferase #=GS A4BNS9/19-279 DR GENE3D; 26af672b61df7973883a096a0bd22a1e/19-279; #=GS A4BNS9/19-279 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Nitrococcus; Nitrococcus mobilis; #=GS A0A1E7MH00/236-502 AC A0A1E7MH00 #=GS A0A1E7MH00/236-502 OS Streptomyces nanshensis #=GS A0A1E7MH00/236-502 DE SAM-dependent methyltransferase #=GS A0A1E7MH00/236-502 DR GENE3D; 26fc54935eef1e5792dba8e12ecee743/236-502; #=GS A0A1E7MH00/236-502 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces nanshensis; #=GS A0A1E7K8K2/236-502 AC A0A1E7K8K2 #=GS A0A1E7K8K2/236-502 OS Streptomyces qinglanensis #=GS A0A1E7K8K2/236-502 DE SAM-dependent methyltransferase #=GS A0A1E7K8K2/236-502 DR GENE3D; 26fc54935eef1e5792dba8e12ecee743/236-502; #=GS A0A1E7K8K2/236-502 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces qinglanensis; #=GS W8KHT7/19-278 AC W8KHT7 #=GS W8KHT7/19-278 OS Halorhodospira halochloris str. A #=GS W8KHT7/19-278 DE Methyltransferase #=GS W8KHT7/19-278 DR GENE3D; 278c6c764d663cbbffad8cb2890da720/19-278; #=GS W8KHT7/19-278 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Halorhodospira; Halorhodospira halochloris; #=GS A0A0H4BG82/20-286 AC A0A0H4BG82 #=GS A0A0H4BG82/20-286 OS Synechococcus sp. WH 8020 #=GS A0A0H4BG82/20-286 DE Methyltransferase #=GS A0A0H4BG82/20-286 DR GENE3D; 28c1fd8a08ba0afa47e1869d2e33b434/20-286; #=GS A0A0H4BG82/20-286 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Synechococcaceae; Synechococcus; Synechococcus sp. WH 8020; #=GS A0A1B7LYP9/17-275 AC A0A1B7LYP9 #=GS A0A1B7LYP9/17-275 OS Enteractinococcus helveticum #=GS A0A1B7LYP9/17-275 DE Uncharacterized protein #=GS A0A1B7LYP9/17-275 DR GENE3D; 29d3aa04ce9670df96b9303f3ba5d5ea/17-275; #=GS A0A1B7LYP9/17-275 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Micrococcales; Micrococcaceae; Enteractinococcus; Enteractinococcus helveticum; #=GS Q1Q4E9/17-278 AC Q1Q4E9 #=GS Q1Q4E9/17-278 OS Candidatus Kuenenia stuttgartiensis #=GS Q1Q4E9/17-278 DE Strongly similar to glycine-sarcosine-dimethylglycine methyltransferase #=GS Q1Q4E9/17-278 DR GENE3D; 2b24cab5acde86c5eca204e33008813c/17-278; #=GS Q1Q4E9/17-278 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Candidatus Brocadiales; Candidatus Brocadiaceae; Candidatus Kuenenia; Candidatus Kuenenia stuttgartiensis; #=GS A0A117DVW0/29-287 AC A0A117DVW0 #=GS A0A117DVW0/29-287 OS Mycobacterium pseudoshottsii #=GS A0A117DVW0/29-287 DE Glycine N-methyltransferase #=GS A0A117DVW0/29-287 DR GENE3D; 31303d19857da904ea2616343810ce5c/29-287; #=GS A0A117DVW0/29-287 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium pseudoshottsii; #=GS A0A084IJD4/18-277 AC A0A084IJD4 #=GS A0A084IJD4/18-277 OS Salinisphaera hydrothermalis C41B8 #=GS A0A084IJD4/18-277 DE Type 11 methyltransferase #=GS A0A084IJD4/18-277 DR GENE3D; 335398cf8833fbeeea5a37e29a08d309/18-277; #=GS A0A084IJD4/18-277 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Salinisphaerales; Salinisphaeraceae; Salinisphaera; Salinisphaera hydrothermalis; #=GS A0A1H5U124/310-567 AC A0A1H5U124 #=GS A0A1H5U124/310-567 OS Saccharopolyspora hirsuta #=GS A0A1H5U124/310-567 DE Glycine/sarcosine N-methyltransferase #=GS A0A1H5U124/310-567 DR GENE3D; 364bf158b241cc4181952b976cdfcf96/310-567; #=GS A0A1H5U124/310-567 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Saccharopolyspora; Saccharopolyspora hirsuta; #=GS A0A0W7WX69/20-279 AC A0A0W7WX69 #=GS A0A0W7WX69/20-279 OS Streptomyces silvensis #=GS A0A0W7WX69/20-279 DE Methyltransferase #=GS A0A0W7WX69/20-279 DR GENE3D; 38a8bda43819e5f8b045c141884a6cd1/20-279; #=GS A0A0W7WX69/20-279 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces silvensis; #=GS A0A1E7KTR0/235-499 AC A0A1E7KTR0 #=GS A0A1E7KTR0/235-499 OS Streptomyces nanshensis #=GS A0A1E7KTR0/235-499 DE SAM-dependent methyltransferase #=GS A0A1E7KTR0/235-499 DR GENE3D; 3c5d4603be03ea196d9a6b55259f3b44/235-499; #=GS A0A1E7KTR0/235-499 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces nanshensis; #=GS A0A1E7JIR1/235-499 AC A0A1E7JIR1 #=GS A0A1E7JIR1/235-499 OS Streptomyces abyssalis #=GS A0A1E7JIR1/235-499 DE SAM-dependent methyltransferase #=GS A0A1E7JIR1/235-499 DR GENE3D; 3c5d4603be03ea196d9a6b55259f3b44/235-499; #=GS A0A1E7JIR1/235-499 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces abyssalis; #=GS A0A0D2G7A2/20-279 AC A0A0D2G7A2 #=GS A0A0D2G7A2/20-279 OS Dethiosulfatarculus sandiegensis #=GS A0A0D2G7A2/20-279 DE Dimethylglycine methyltransferase #=GS A0A0D2G7A2/20-279 DR GENE3D; 4363bf2ce96d008c3a7501d62c88bc46/20-279; #=GS A0A0D2G7A2/20-279 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfarculales; Desulfarculaceae; Dethiosulfatarculus; Dethiosulfatarculus sandiegensis; #=GS K9HFN3/298-557 AC K9HFN3 #=GS K9HFN3/298-557 OS Caenispirillum salinarum AK4 #=GS K9HFN3/298-557 DE Glycine N-methyltransferase #=GS K9HFN3/298-557 DR GENE3D; 45581c90128f9f105e06624413b14040/298-557; #=GS K9HFN3/298-557 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Caenispirillum; Caenispirillum salinarum; #=GS A0A1B1AZ45/21-279 AC A0A1B1AZ45 #=GS A0A1B1AZ45/21-279 OS Streptomyces griseochromogenes #=GS A0A1B1AZ45/21-279 DE Methyltransferase #=GS A0A1B1AZ45/21-279 DR GENE3D; 460def0f527856dbffa0b47b5955f7e3/21-279; #=GS A0A1B1AZ45/21-279 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces griseochromogenes; #=GS A0A1E3W765/18-274 AC A0A1E3W765 #=GS A0A1E3W765/18-274 OS Methyloceanibacter superfactus #=GS A0A1E3W765/18-274 DE Methyltransferase #=GS A0A1E3W765/18-274 DR GENE3D; 47b15956cf59a8ff2167ad5f106b03dc/18-274; #=GS A0A1E3W765/18-274 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methyloceanibacter; Methyloceanibacter superfactus; #=GS A0A109ZX66/23-282 AC A0A109ZX66 #=GS A0A109ZX66/23-282 OS Enhygromyxa salina #=GS A0A109ZX66/23-282 DE Dimethylglycine N methyltransferase #=GS A0A109ZX66/23-282 DR GENE3D; 4a595fdfce5dfad3f89e24777a3b274f/23-282; #=GS A0A109ZX66/23-282 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Enhygromyxa; Enhygromyxa salina; #=GS A0A0S8A4I4/19-277 AC A0A0S8A4I4 #=GS A0A0S8A4I4/19-277 OS Gammaproteobacteria bacterium SG8_15 #=GS A0A0S8A4I4/19-277 DE Methyltransferase #=GS A0A0S8A4I4/19-277 DR GENE3D; 51a467a89fb8f28abbd2e157c8a94dd8/19-277; #=GS A0A0S8A4I4/19-277 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium SG8_15; #=GS A3Z8P0/20-284 AC A3Z8P0 #=GS A3Z8P0/20-284 OS Synechococcus sp. RS9917 #=GS A3Z8P0/20-284 DE Putative sarcosine-dimethylglycine methyltransferase #=GS A3Z8P0/20-284 DR GENE3D; 53867c5ff961bfd8b03d75ab3f3e7d10/20-284; #=GS A3Z8P0/20-284 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Synechococcaceae; Synechococcus; Synechococcus sp. RS9917; #=GS A0A0D5ZI14/18-278 AC A0A0D5ZI14 #=GS A0A0D5ZI14/18-278 OS uncultured archaeon #=GS A0A0D5ZI14/18-278 DE Methyltransferase #=GS A0A0D5ZI14/18-278 DR GENE3D; 5c15c417af819ea63d07ad74c1623157/18-278; #=GS A0A0D5ZI14/18-278 DR ORG; Archaea; uncultured archaeon; #=GS M1YVS8/23-281 AC M1YVS8 #=GS M1YVS8/23-281 OS Nitrospina gracilis 3/211 #=GS M1YVS8/23-281 DE Methyltransferase type 11 #=GS M1YVS8/23-281 DR GENE3D; 5c2bc878b2647990f740b34875706de2/23-281; #=GS M1YVS8/23-281 DR ORG; Bacteria; Nitrospinae; Nitrospinia; Nitrospinales; Nitrospinaceae; Nitrospina; Nitrospina gracilis; #=GS V4LL35/19-280 AC V4LL35 #=GS V4LL35/19-280 OS uncultured Thiohalocapsa sp. PB-PSB1 #=GS V4LL35/19-280 DE Uncharacterized protein #=GS V4LL35/19-280 DR GENE3D; 5d60839d1f588f5117fdb4b63409bf87/19-280; #=GS V4LL35/19-280 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thiohalocapsa; uncultured Thiohalocapsa sp. PB-PSB1; #=GS D0LT75/21-284 AC D0LT75 #=GS D0LT75/21-284 OS Haliangium ochraceum DSM 14365 #=GS D0LT75/21-284 DE Methyltransferase type 11 #=GS D0LT75/21-284 DR GENE3D; 5f506f28f87970e2800279116cc1677f/21-284; #=GS D0LT75/21-284 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Nannocystineae; Kofleriaceae; Haliangium; Haliangium ochraceum; #=GS A0A0D4DGV6/20-280 AC A0A0D4DGV6 #=GS A0A0D4DGV6/20-280 OS Streptomyces sp. A02 #=GS A0A0D4DGV6/20-280 DE Sarcosine dimethylglycine N-methyltransferase #=GS A0A0D4DGV6/20-280 DR GENE3D; 6203ec77599a172e29156a1f45d31a3c/20-280; #=GS A0A0D4DGV6/20-280 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces sp. A02; #=GS D7E776/19-278 AC D7E776 #=GS D7E776/19-278 OS Methanohalobium evestigatum Z-7303 #=GS D7E776/19-278 DE Methyltransferase type 11 #=GS D7E776/19-278 DR GENE3D; 6f417754506c6f09aeda5a7c049d9587/19-278; #=GS D7E776/19-278 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Methanosarcinaceae; Methanohalobium; Methanohalobium evestigatum; #=GS G4FM99/20-285 AC G4FM99 #=GS G4FM99/20-285 OS Synechococcus sp. WH 8016 #=GS G4FM99/20-285 DE Methyltransferase type 11 #=GS G4FM99/20-285 DR GENE3D; 6f57cc7e30b6929636a5fed880584a22/20-285; #=GS G4FM99/20-285 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Synechococcaceae; Synechococcus; Synechococcus sp. WH 8016; #=GS A0A073B1D5/309-566 AC A0A073B1D5 #=GS A0A073B1D5/309-566 OS Saccharopolyspora rectivirgula #=GS A0A073B1D5/309-566 DE SAM-dependent methyltransferase #=GS A0A073B1D5/309-566 DR GENE3D; 7cfd41004cf1d15ceb683537ccc5ab21/309-566; #=GS A0A073B1D5/309-566 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Saccharopolyspora; Saccharopolyspora rectivirgula; #=GS A0A0M9YEN4/20-279 AC A0A0M9YEN4 #=GS A0A0M9YEN4/20-279 OS Streptomyces sp. WM6378 #=GS A0A0M9YEN4/20-279 DE Methyltransferase #=GS A0A0M9YEN4/20-279 DR GENE3D; 83618d4bf9c03ceabfc6eb721398fc24/20-279; #=GS A0A0M9YEN4/20-279 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces sp. WM6378; #=GS A0A192IDX8/301-560 AC A0A192IDX8 #=GS A0A192IDX8/301-560 OS Rhizobiales bacterium NRL2 #=GS A0A192IDX8/301-560 DE SAM-dependent methyltransferase #=GS A0A192IDX8/301-560 DR GENE3D; 8465c1aebdbbcb532f205539819052f7/301-560; #=GS A0A192IDX8/301-560 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiales bacterium NRL2; #=GS L0GZ35/19-278 AC L0GZ35 #=GS L0GZ35/19-278 OS Thioflavicoccus mobilis 8321 #=GS L0GZ35/19-278 DE Methylase involved in ubiquinone/menaquinone biosynthesis #=GS L0GZ35/19-278 DR GENE3D; 8549d94a8bab1935c946d3fe6bd0e38c/19-278; #=GS L0GZ35/19-278 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thioflavicoccus; Thioflavicoccus mobilis; #=GS A0A090BV41/19-277 AC A0A090BV41 #=GS A0A090BV41/19-277 OS Thioploca ingrica #=GS A0A090BV41/19-277 DE SAM-dependent methyltransferase #=GS A0A090BV41/19-277 DR GENE3D; 870ff1fb8e9ffb5feda051459fcb982f/19-277; #=GS A0A090BV41/19-277 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Thiotrichaceae; Thioploca; Thioploca ingrica; #=GS A0YIB3/295-553 AC A0YIB3 #=GS A0YIB3/295-553 OS Lyngbya sp. PCC 8106 #=GS A0YIB3/295-553 DE Putative glycine-sarcosine methyltransferase #=GS A0YIB3/295-553 DR GENE3D; 8a3caa5eaeb01e7fa2e3dc486240df9a/295-553; #=GS A0YIB3/295-553 DR ORG; Bacteria; Cyanobacteria; Oscillatoriophycideae; Oscillatoriales; Oscillatoriaceae; Lyngbya; Lyngbya sp. PCC 8106; #=GS A0A099D7H8/308-565 AC A0A099D7H8 #=GS A0A099D7H8/308-565 OS Actinopolyspora erythraea #=GS A0A099D7H8/308-565 DE SAM-dependent methyltransferase #=GS A0A099D7H8/308-565 DR GENE3D; 8caee237b6f27ffc7f6f9e8238b10f12/308-565; #=GS A0A099D7H8/308-565 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Actinopolysporales; Actinopolysporaceae; Actinopolyspora; Actinopolyspora erythraea; #=GS M3BY98/16-276 AC M3BY98 #=GS M3BY98/16-276 OS Streptomyces mobaraensis NBRC 13819 = DSM 40847 #=GS M3BY98/16-276 DE Sarcosine/dimethylglycine N-methyltransferase #=GS M3BY98/16-276 DR GENE3D; 9066a54d928a652bc3656cec54fc11e5/16-276; #=GS M3BY98/16-276 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces mobaraensis; #=GS A0A1E7KP62/234-495 AC A0A1E7KP62 #=GS A0A1E7KP62/234-495 OS Streptomyces oceani #=GS A0A1E7KP62/234-495 DE SAM-dependent methyltransferase #=GS A0A1E7KP62/234-495 DR GENE3D; 92c9b46eea4239f2d0adcf1a433aad7a/234-495; #=GS A0A1E7KP62/234-495 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces oceani; #=GS F4XYU0/20-276 AC F4XYU0 #=GS F4XYU0/20-276 OS Moorea producens 3L #=GS F4XYU0/20-276 DE Methylase involved in ubiquinone/menaquinone biosynthesis #=GS F4XYU0/20-276 DR GENE3D; 93c83ceec18824dc87d2c63a39a9929e/20-276; #=GS F4XYU0/20-276 DR ORG; Bacteria; Cyanobacteria; Oscillatoriophycideae; Oscillatoriales; Oscillatoriaceae; Moorea; Moorea producens; #=GS V4RQU7/266-524 AC V4RQU7 #=GS V4RQU7/266-524 OS Lutibaculum baratangense AMV1 #=GS V4RQU7/266-524 DE Putative glycine-sarcosine methyltransferase #=GS V4RQU7/266-524 DR GENE3D; 94adbae135b4aaf01776fff07162a03d/266-524; #=GS V4RQU7/266-524 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhodobiaceae; Lutibaculum; Lutibaculum baratangense; #=GS A0A0C1NJI0/308-565 AC A0A0C1NJI0 #=GS A0A0C1NJI0/308-565 OS Prauserella sp. Am3 #=GS A0A0C1NJI0/308-565 DE Methyltransferase, cyclopropane fatty acid synthase #=GS A0A0C1NJI0/308-565 DR GENE3D; 951d40fed1563ef563654dea08c23588/308-565; #=GS A0A0C1NJI0/308-565 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Prauserella; Prauserella sp. Am3; #=GS A0A0P9E9P2/20-281 AC A0A0P9E9P2 #=GS A0A0P9E9P2/20-281 OS Thiohalorhabdus denitrificans #=GS A0A0P9E9P2/20-281 DE Methyltransferase #=GS A0A0P9E9P2/20-281 DR GENE3D; 9792b080d5cc0d5db0787e041f44cc29/20-281; #=GS A0A0P9E9P2/20-281 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiohalorhabdus; Thiohalorhabdus denitrificans; #=GS V6K871/276-544 AC V6K871 #=GS V6K871/276-544 OS Streptomycetaceae bacterium MP113-05 #=GS V6K871/276-544 DE Uncharacterized protein #=GS V6K871/276-544 DR GENE3D; 9cead54b3c8a9d32b58bf9e7cb60cf02/276-544; #=GS V6K871/276-544 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomycetaceae bacterium MP113-05; #=GS A0A120GC23/20-276 AC A0A120GC23 #=GS A0A120GC23/20-276 OS Erythrobacter sp. AP23 #=GS A0A120GC23/20-276 DE Methyltransferase #=GS A0A120GC23/20-276 DR GENE3D; 9d44b31f2678aa9490bf0b0c851c4e16/20-276; #=GS A0A120GC23/20-276 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. AP23; #=GS A0A0S2TCP8/19-277 AC A0A0S2TCP8 #=GS A0A0S2TCP8/19-277 OS Candidatus Tenderia electrophaga #=GS A0A0S2TCP8/19-277 DE Methyltransferase #=GS A0A0S2TCP8/19-277 DR GENE3D; 9da1769f0c5863863a5e3e4e6a2430fa/19-277; #=GS A0A0S2TCP8/19-277 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Candidatus Tenderia; Candidatus Tenderia electrophaga; #=GS D6SRK5/20-282 AC D6SRK5 #=GS D6SRK5/20-282 OS Desulfonatronospira thiodismutans ASO3-1 #=GS D6SRK5/20-282 DE Methyltransferase type 11 #=GS D6SRK5/20-282 DR GENE3D; 9f4084b2acd11f95e7fd213c750af628/20-282; #=GS D6SRK5/20-282 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfohalobiaceae; Desulfonatronospira; Desulfonatronospira thiodismutans; #=GS A1ZP64/18-276 AC A1ZP64 #=GS A1ZP64/18-276 OS Microscilla marina ATCC 23134 #=GS A1ZP64/18-276 DE Dimethylglycine N-methyltransferase #=GS A1ZP64/18-276 DR GENE3D; 9fe851ed1a2d32c9daf2fd915b84f71b/18-276; #=GS A1ZP64/18-276 DR ORG; Bacteria; Bacteroidetes; Cytophagia; Cytophagales; Microscillaceae; Microscilla; Microscilla marina; #=GS Q1NXX2/18-278 AC Q1NXX2 #=GS Q1NXX2/18-278 OS delta proteobacterium MLMS-1 #=GS Q1NXX2/18-278 DE Putative sarcosine-dimethylglycine methyltransferase #=GS Q1NXX2/18-278 DR GENE3D; a13af3774fa3113c5df183e29e028c2d/18-278; #=GS Q1NXX2/18-278 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; delta proteobacterium MLMS-1; #=GS G2E0T4/19-279 AC G2E0T4 #=GS G2E0T4/19-279 OS Thiorhodococcus drewsii AZ1 #=GS G2E0T4/19-279 DE Methyltransferase type 11 #=GS G2E0T4/19-279 DR GENE3D; a2c952316a6a028bd1ed2f2ec0874829/19-279; #=GS G2E0T4/19-279 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thiorhodococcus; Thiorhodococcus drewsii; #=GS F9UE54/19-279 AC F9UE54 #=GS F9UE54/19-279 OS Thiocapsa marina 5811 #=GS F9UE54/19-279 DE Methyltransferase type 11 #=GS F9UE54/19-279 DR GENE3D; a5e8904751fe3457029d623e54b8b4d0/19-279; #=GS F9UE54/19-279 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thiocapsa; Thiocapsa marina; #=GS A0A0N0E7K6/303-562 AC A0A0N0E7K6 #=GS A0A0N0E7K6/303-562 OS Ahrensia marina #=GS A0A0N0E7K6/303-562 DE SAM-dependent methyltransferase #=GS A0A0N0E7K6/303-562 DR GENE3D; a60c80175121b36d43fb1f51533512c3/303-562; #=GS A0A0N0E7K6/303-562 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ahrensia; Ahrensia marina; #=GS A0A1I1SN35/301-560 AC A0A1I1SN35 #=GS A0A1I1SN35/301-560 OS Roseivivax sediminis #=GS A0A1I1SN35/301-560 DE Glycine/sarcosine N-methyltransferase #=GS A0A1I1SN35/301-560 DR GENE3D; aaf0507b1d4e21649def2bfbf6bc910b/301-560; #=GS A0A1I1SN35/301-560 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseivivax; Roseivivax sediminis; #=GS A0A0F0HW90/21-280 AC A0A0F0HW90 #=GS A0A0F0HW90/21-280 OS Saccharothrix sp. ST-888 #=GS A0A0F0HW90/21-280 DE Methyltransferase #=GS A0A0F0HW90/21-280 DR GENE3D; b1c05db228eb8e6bc08e4685f5a47899/21-280; #=GS A0A0F0HW90/21-280 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Saccharothrix; Saccharothrix sp. ST-888; #=GS S3ZSL0/285-555 AC S3ZSL0 #=GS S3ZSL0/285-555 OS Streptomyces aurantiacus JA 4570 #=GS S3ZSL0/285-555 DE Putative Glycine N-methyltransferase #=GS S3ZSL0/285-555 DR GENE3D; b5845aac7e3a316389fff7ee9c9622f7/285-555; #=GS S3ZSL0/285-555 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces aurantiacus; #=GS D3Q9F9/314-572 AC D3Q9F9 #=GS D3Q9F9/314-572 OS Stackebrandtia nassauensis DSM 44728 #=GS D3Q9F9/314-572 DE Methyltransferase type 11 #=GS D3Q9F9/314-572 DR GENE3D; b778862364334368641cab7c4edd1c88/314-572; #=GS D3Q9F9/314-572 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Glycomycetales; Glycomycetaceae; Stackebrandtia; Stackebrandtia nassauensis; #=GS A0A0C2G346/263-520 AC A0A0C2G346 #=GS A0A0C2G346/263-520 OS Streptomonospora alba #=GS A0A0C2G346/263-520 DE SAM-dependent methyltransferase #=GS A0A0C2G346/263-520 DR GENE3D; b91303fc7dfed05f2a94abd45b190106/263-520; #=GS A0A0C2G346/263-520 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptosporangiales; Nocardiopsaceae; Streptomonospora; Streptomonospora alba; #=GS A0A1N6FN44/23-287 AC A0A1N6FN44 #=GS A0A1N6FN44/23-287 OS Nitrosomonas cryotolerans ATCC 49181 #=GS A0A1N6FN44/23-287 DE Sarcosine/dimethylglycine N-methyltransferase #=GS A0A1N6FN44/23-287 DR GENE3D; b9cf56f5198ca0c1be92f94b2cc93711/23-287; #=GS A0A1N6FN44/23-287 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosomonas; Nitrosomonas cryotolerans; #=GS A0A0M9CD39/20-279 AC A0A0M9CD39 #=GS A0A0M9CD39/20-279 OS Streptomyces sp. XY332 #=GS A0A0M9CD39/20-279 DE Methyltransferase #=GS A0A0M9CD39/20-279 DR GENE3D; baa88a9d9d3bbbfd1ee9fc6461c89113/20-279; #=GS A0A0M9CD39/20-279 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces sp. XY332; #=GS W9VAU7/20-281 AC W9VAU7 #=GS W9VAU7/20-281 OS Thiorhodococcus sp. AK35 #=GS W9VAU7/20-281 DE Putative sarcosine-dimethylglycine methyltransferase #=GS W9VAU7/20-281 DR GENE3D; baed036a9893ded7c2b1ec0b731aa22a/20-281; #=GS W9VAU7/20-281 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thiorhodococcus; Thiorhodococcus sp. AK35; #=GS A0A0N1JYF0/236-502 AC A0A0N1JYF0 #=GS A0A0N1JYF0/236-502 OS Streptomyces sp. NRRL F-6602 #=GS A0A0N1JYF0/236-502 DE SAM-dependent methyltransferase #=GS A0A0N1JYF0/236-502 DR GENE3D; bef19a665dc79de616e279775c121912/236-502; #=GS A0A0N1JYF0/236-502 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces sp. NRRL F-6602; #=GS A0A101VS73/19-278 AC A0A101VS73 #=GS A0A101VS73/19-278 OS Alphaproteobacteria bacterium BRH_c36 #=GS A0A101VS73/19-278 DE Methyltransferase #=GS A0A101VS73/19-278 DR GENE3D; c69e1a4ec0f0c818dfd889e2ae09bd18/19-278; #=GS A0A101VS73/19-278 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Alphaproteobacteria bacterium BRH_c36; #=GS Q112B5/15-276 AC Q112B5 #=GS Q112B5/15-276 OS Trichodesmium erythraeum IMS101 #=GS Q112B5/15-276 DE Methyltransferase type 11 #=GS Q112B5/15-276 DR GENE3D; c6d9ac676aa841353551eb30aa591039/15-276; #=GS Q112B5/15-276 DR ORG; Bacteria; Cyanobacteria; Oscillatoriophycideae; Oscillatoriales; Microcoleaceae; Trichodesmium; Trichodesmium erythraeum; #=GS H5XDS7/312-569 AC H5XDS7 #=GS H5XDS7/312-569 OS Saccharomonospora cyanea NA-134 #=GS H5XDS7/312-569 DE Methylase involved in ubiquinone/menaquinone biosynthesis #=GS H5XDS7/312-569 DR GENE3D; c80ef61c1b8be2beb1804fced03d4d95/312-569; #=GS H5XDS7/312-569 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Saccharomonospora; Saccharomonospora cyanea; #=GS A0A1E3W8F5/18-274 AC A0A1E3W8F5 #=GS A0A1E3W8F5/18-274 OS Methyloceanibacter marginalis #=GS A0A1E3W8F5/18-274 DE Methyltransferase #=GS A0A1E3W8F5/18-274 DR GENE3D; cc0cf4c250b7dfabf457f5e9df3f794a/18-274; #=GS A0A1E3W8F5/18-274 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methyloceanibacter; Methyloceanibacter marginalis; #=GS U5T3V9/21-280 AC U5T3V9 #=GS U5T3V9/21-280 OS Spiribacter curvatus #=GS U5T3V9/21-280 DE Uncharacterized protein #=GS U5T3V9/21-280 DR GENE3D; d14b8b0ef946b866018d1106f46a9083/21-280; #=GS U5T3V9/21-280 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Spiribacter; Spiribacter curvatus; #=GS H8Z6L6/19-278 AC H8Z6L6 #=GS H8Z6L6/19-278 OS Thiorhodovibrio sp. 970 #=GS H8Z6L6/19-278 DE Methyltransferase, cyclopropane fatty acid synthase #=GS H8Z6L6/19-278 DR GENE3D; d5e015dbfe5ceb5ddd6ef7b6b65de764/19-278; #=GS H8Z6L6/19-278 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thiorhodovibrio; Thiorhodovibrio sp. 970; #=GS B2HRK7/303-561 AC B2HRK7 #=GS B2HRK7/303-561 OS Mycobacterium marinum M #=GS B2HRK7/303-561 DE Glycine-sarcosine methyltransferase #=GS B2HRK7/303-561 DR GENE3D; d5f59c7da53e1637354dd0d9f837e786/303-561; #=GS B2HRK7/303-561 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium marinum; #=GS A0A197SM56/20-280 AC A0A197SM56 #=GS A0A197SM56/20-280 OS Streptomyces sp. ERV7 #=GS A0A197SM56/20-280 DE Methyltransferase #=GS A0A197SM56/20-280 DR GENE3D; d6b9af6d04223a2adcf40c55d3051424/20-280; #=GS A0A197SM56/20-280 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces sp. ERV7; #=GS A0A0M8S881/21-280 AC A0A0M8S881 #=GS A0A0M8S881/21-280 OS Streptomyces sp. WM6372 #=GS A0A0M8S881/21-280 DE Methyltransferase #=GS A0A0M8S881/21-280 DR GENE3D; d6d3a1cbc5ad5ef147676804a0409b55/21-280; #=GS A0A0M8S881/21-280 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces sp. WM6372; #=GS A0A0P7Z0C5/22-279 AC A0A0P7Z0C5 #=GS A0A0P7Z0C5/22-279 OS Erythrobacteraceae bacterium HL-111 #=GS A0A0P7Z0C5/22-279 DE Sarcosine dimethylglycine N-methyltransferase Sdm #=GS A0A0P7Z0C5/22-279 DR GENE3D; d7af1176aa415aab77d586ecc13f2168/22-279; #=GS A0A0P7Z0C5/22-279 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacteraceae bacterium HL-111; #=GS A0A1H1PDB9/22-279 AC A0A1H1PDB9 #=GS A0A1H1PDB9/22-279 OS Erythrobacter sp. HL-111 #=GS A0A1H1PDB9/22-279 DE Sarcosine/dimethylglycine N-methyltransferase #=GS A0A1H1PDB9/22-279 DR GENE3D; d7af1176aa415aab77d586ecc13f2168/22-279; #=GS A0A1H1PDB9/22-279 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. HL-111; #=GS H5WZU3/312-569 AC H5WZU3 #=GS H5WZU3/312-569 OS Saccharomonospora marina XMU15 #=GS H5WZU3/312-569 DE Methyltransferase family protein #=GS H5WZU3/312-569 DR GENE3D; d98ab1c8515306a7f867107421430473/312-569; #=GS H5WZU3/312-569 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Saccharomonospora; Saccharomonospora marina; #=GS A0A1N6H9Q9/301-560 AC A0A1N6H9Q9 #=GS A0A1N6H9Q9/301-560 OS Rhodovulum sp. ES.010 #=GS A0A1N6H9Q9/301-560 DE Glycine/sarcosine N-methyltransferase #=GS A0A1N6H9Q9/301-560 DR GENE3D; db6422d1e0119c33a3ce3b71121c5110/301-560; #=GS A0A1N6H9Q9/301-560 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodovulum; Rhodovulum sp. ES.010; #=GS T2RWA1/311-568 AC T2RWA1 #=GS T2RWA1/311-568 OS Saccharopolyspora erythraea D #=GS T2RWA1/311-568 DE SAM-dependent methyltransferase #=GS T2RWA1/311-568 DR GENE3D; db9829306be5c5f96548f5e7a4dc004f/311-568; #=GS T2RWA1/311-568 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Saccharopolyspora; Saccharopolyspora erythraea; #=GS A4FGJ7/311-568 AC A4FGJ7 #=GS A4FGJ7/311-568 OS Saccharopolyspora erythraea NRRL 2338 #=GS A4FGJ7/311-568 DE Glycine sarcosine N-methyltransferase #=GS A4FGJ7/311-568 DR GENE3D; db9829306be5c5f96548f5e7a4dc004f/311-568; #=GS A4FGJ7/311-568 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Saccharopolyspora; Saccharopolyspora erythraea; #=GS M2AZE7/20-279 AC M2AZE7 #=GS M2AZE7/20-279 OS Rhodopirellula europaea 6C #=GS M2AZE7/20-279 DE Methyltransferase type 11 #=GS M2AZE7/20-279 DR GENE3D; dd90b2d9ed43bce1099bdd9cf9be1b4d/20-279; #=GS M2AZE7/20-279 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Planctomycetales; Planctomycetaceae; Rhodopirellula; Rhodopirellula europaea; #=GS Q0G1C9/303-562 AC Q0G1C9 #=GS Q0G1C9/303-562 OS Fulvimarina pelagi HTCC2506 #=GS Q0G1C9/303-562 DE Probable glycine-sarcosine methyltransferase #=GS Q0G1C9/303-562 DR GENE3D; df15465cc7c9f80f309b29b90ddb166f/303-562; #=GS Q0G1C9/303-562 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Fulvimarina; Fulvimarina pelagi; #=GS A0A0P0ZAP8/303-562 AC A0A0P0ZAP8 #=GS A0A0P0ZAP8/303-562 OS Fulvimarina pelagi #=GS A0A0P0ZAP8/303-562 DE Probable glycine-sarcosine methyltransferase #=GS A0A0P0ZAP8/303-562 DR GENE3D; df15465cc7c9f80f309b29b90ddb166f/303-562; #=GS A0A0P0ZAP8/303-562 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Fulvimarina; Fulvimarina pelagi; #=GS A0A0H1AG00/300-559 AC A0A0H1AG00 #=GS A0A0H1AG00/300-559 OS Mesorhizobium sp. LC103 #=GS A0A0H1AG00/300-559 DE SAM-dependent methyltransferase #=GS A0A0H1AG00/300-559 DR GENE3D; df7c9e8b46fe38bc49c203124d58936d/300-559; #=GS A0A0H1AG00/300-559 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LC103; #=GS S3B1Y7/216-482 AC S3B1Y7 #=GS S3B1Y7/216-482 OS Streptomyces sp. HPH0547 #=GS S3B1Y7/216-482 DE Uncharacterized protein #=GS S3B1Y7/216-482 DR GENE3D; e07fd41401de17cf5b9c9f36361fc516/216-482; #=GS S3B1Y7/216-482 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces sp. HPH0547; #=GS A0A0W7X1B4/286-547 AC A0A0W7X1B4 #=GS A0A0W7X1B4/286-547 OS Streptomyces silvensis #=GS A0A0W7X1B4/286-547 DE SAM-dependent methyltransferase #=GS A0A0W7X1B4/286-547 DR GENE3D; e0a08d738f6a89d1844a5a37365e9466/286-547; #=GS A0A0W7X1B4/286-547 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces silvensis; #=GS Q7V823/16-275 AC Q7V823 #=GS Q7V823/16-275 OS Prochlorococcus marinus str. MIT 9313 #=GS Q7V823/16-275 DE Putative sarcosine-dimethylglycine methyltransferase #=GS Q7V823/16-275 DR GENE3D; e14580dac3c83b7adc6f55208643bb58/16-275; #=GS Q7V823/16-275 DR ORG; Bacteria; Cyanobacteria; Synechococcales; Prochloraceae; Prochlorococcus; Prochlorococcus marinus; #=GS A7HX31/20-278 AC A7HX31 #=GS A7HX31/20-278 OS Parvibaculum lavamentivorans DS-1 #=GS A7HX31/20-278 DE Methyltransferase type 11 #=GS A7HX31/20-278 DR GENE3D; ea52c700faaabbf33ec64a41dc556bd2/20-278; #=GS A7HX31/20-278 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhodobiaceae; Parvibaculum; Parvibaculum lavamentivorans; #=GS W0E1D4/19-279 AC W0E1D4 #=GS W0E1D4/19-279 OS Marichromatium purpuratum 984 #=GS W0E1D4/19-279 DE Dimethylglycine methyltransferase #=GS W0E1D4/19-279 DR GENE3D; ed567f51c121b7ead1befba296d86d8b/19-279; #=GS W0E1D4/19-279 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Marichromatium; Marichromatium purpuratum; #=GS C7MUL3/302-559 AC C7MUL3 #=GS C7MUL3/302-559 OS Saccharomonospora viridis DSM 43017 #=GS C7MUL3/302-559 DE Glycine/sarcosine N-methyltransferase #=GS C7MUL3/302-559 DR GENE3D; f283c55b37064c45972ca1335917cfb5/302-559; #=GS C7MUL3/302-559 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Saccharomonospora; Saccharomonospora viridis; #=GS I1D4R6/312-569 AC I1D4R6 #=GS I1D4R6/312-569 OS Saccharomonospora glauca K62 #=GS I1D4R6/312-569 DE Methyltransferase, cyclopropane fatty acid synthase #=GS I1D4R6/312-569 DR GENE3D; f791fd23316ca36f6f127966acb83999/312-569; #=GS I1D4R6/312-569 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Pseudonocardiales; Pseudonocardiaceae; Saccharomonospora; Saccharomonospora glauca; #=GS A0A0T5P4J3/301-561 AC A0A0T5P4J3 #=GS A0A0T5P4J3/301-561 OS Roseovarius indicus #=GS A0A0T5P4J3/301-561 DE Glycine/sarcosine N-methyltransferase #=GS A0A0T5P4J3/301-561 DR GENE3D; fa3da4b47a383fd796b716e144ceafad/301-561; #=GS A0A0T5P4J3/301-561 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseovarius; Roseovarius indicus; #=GS A0NW22/303-562 AC A0NW22 #=GS A0NW22/303-562 OS Labrenzia aggregata IAM 12614 #=GS A0NW22/303-562 DE Putative glycine-sarcosine methyltransferase #=GS A0NW22/303-562 DR GENE3D; fd1abd0988a6150679cfbae07cc7458d/303-562; #=GS A0NW22/303-562 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia aggregata; #=GF TC 413.3 4.0E-127 #=GF SQ 133 Q9KJ20/308-565 EDADNFYYHVWGGNDIHVGLYQT-----PQEDIATASERTVQRMAGKV------DISPETRILDLGAGYGGAARYLARTYGCH-VTCLNLSEVENQRNREITRAEGLEHLIEVTDGSFEDLP--YQDNA-----FDVVWSQDSFLHSGD--RSRVMEEVTRVLKPKGSVLFTDPMASDSA-KKNELGPILDRLHLDSLGSPGFYRKELTRLGLQNI------------EFEDLSEYLPVHYGRVLEVLESRENE----LA-GF-IGEEYRAHMKTGLRNWVQAGNGGSLAWGIIHARA--- Q9KJ21/20-279 EDADNFYAIIWGGEDIHIGLYND-----DEEPIADASRRTVERMSSLS-----RQLGPDSYVLDMGAGYGGSARYLAHKYGCK-VAALNLSERENERDRQMNKEQGVDHLIEVVDAAFEDVP--YDDGV-----FDLVWSQDSFLHSPD--RERVLREASRVLRSGGEFIFTDPMQADDC-PEGVIQPILDRIHLETMGTPNFYRQTLRDLGFEEI------------TFEDHTHQLPRHYGRVRRELDRREGE----LQ-GH-VSAEYIERMKNGLDHWVNGGNKGYLTWGIFYFRKG-- A0A163EYJ7/16-275 SDADRFYAEIWGGEDIHIGLYET-----ADQAIASASERTVQALMELA-----TQPPAKGCVVDLGSGYGGAARRIAKQWQVN-VHAVNISAVENIRHRDLNNAAGLAKLIEVHDASFEEVP--LPDGI-----ADVVWSQDAILHSGN--RLQVMNEVSRLLKPGGVFVLTDPMACDGI-EANALQPILDRIHLSDLASPDRYRIWAEASGMTRD------------VWQERTEMLVRHYTRVREELRRRHQE----LA-SV-ISTDYLSRMDAGLGHWIEGGSQGRLCWGLMRFTKH-- A0A1L8QHE1/20-278 DDADTFYSRVWGGEDIHVGIYSA-----PDELISVASARTVTRMAEVA------GVGPGTRVLDLGAGYGGAARRLAAAHGAT-VHCLNLSPVENARNERMTREQGLDGRVEVTTGSYEDVP--VEDSS-----IDLVWSQDAFLHSGS--RETVLDEIARVLRPGGQVVFTDPMAVDGL-DQSSIQPILDRIALSTMATPGFYTDGLAQRGFSGV------------QFLDHAEHLPTHYRRVREELVAHEEE----LS-SS-ISGPYLSAMKAGLQHWVDGGRTGKLTWGIVHAVRT-- U2FYD2/18-278 DDAENFYSRLWGGEDIHIGLYGS-----DSEAVVDASHRTVEHMCDLL-----GPALDGATVLDIGGGYGGSARYIAQHHNAD-VVSLNLSEVQNERARRKNAERGLDQRVSIVDGDFENIP--FDEGH-----FDIVWSQDAMLHSGN--RERVLDEVARVLKAGGTFIFTDPMQADDC-PDGVLQPVLDRIQLETMGSPDFYTQALQQRGFTRR------------EFEDHTGQIPRHYGGIHDTLVEREAE----LRDSA-ISNAYIANMKTGLLHWVDAGKAGHLAWGIMVFDKN-- A0A0B3RPI1/301-560 DDADTFYSTIWGGEDLHIGRYA------ETPDIRTASDRTIESMIDRL-----PPLDASARVLDMGAGYGGAMRTLVRKTGCE-AVCLNLSETQNEYNLGKIRAAKLSDKISVRHGVFEDVP--EPDAS-----CDVAWSQDAFLHSDQ--RAKVLAEAWRVLKPGGHLIFTDPMQADDA-DPAVLQPVYDRLQLNDLGSPRFYREAAEALGFETV------------EQEEAVSDLRTHYFRVREELLANYEK----LR-EAGASAEYLDKMAVGLENWVKAADDGHLAWGIQHFRKP-- Q83WC3/19-277 -SADGFYYRIWGGEDLHIGIYNT-----PDEPIYDASVRTVSRICDKI-----KNWPAGTKVLDLGAGYGGSARYMAKHHGFD-VDCLNISLVQNERNRQMNQEQGLADKIRVFDGSFEELP--FENKS-----YDVLWSQDSILHSGN--RRKVMEEADRVLKSGGDFVFTDPMQTDNC-PEGVLEPVLARIHLDSLGSVGFYRQVAEELGWEFV------------EFDEQTHQLVNHYSRVLQELEAHYDQ----LQ-PE-CSQEYLDRMKVGLNHWINAGKSGYMAWGILKFHKP-- A1WXM9/19-278 RDADNFYFHIWGGEDLHVGIYED-----EDEPIFDASRRTVERMAAKL-----NNLSADSYVLDVGAGYGGVARYLAHTYGCR-VVALNLSERENERDRQMNKEQGVDHLIEVVDGAFEDIP--FDAET-----FDIVWCQDSFLHSGD--RPRVMSEVTRVLKKGGEFIFTDPMQADDC-PEGVLQPILDRIHLSTMGTPGFYREELKKNGMTEL------------EFDDNTPQLPRHYGRVHKELERRGHE----LD-GI-VSDDYVARMKKGLQHWVEGGNNGYLSWGIFHFRKD-- A0A0X8XB40/20-279 EDADNFYAIIWGGEDIHIGLYND-----DEEPIADASRRTVERMSSLS-----RQLGPDSYVLDMGAGYGGSARYLAHKYGCK-VAALNLSERENERDRQMNKEQGVDHLIEVVDAAFEDVP--YDDGV-----FDLVWSQDSFLHSPD--RERVLREASRVLRSGGEFIFTDPMQADDC-PEGVIQPILDRIHLETMGTPNFYRQTLRDLGFEEI------------TFEDHTHQLPRHYGRVRRELDRREGE----LQ-GH-VSAEYIERMKNGLDHWVNGGNKGYLTWGIFYFRKG-- A0A163CWI6/16-275 SDADRFYAEIWGGEDIHIGLYET-----ADQAIASASERTVQALMELA-----TQPPAKGCVVDLGSGYGGAARRIAKQWQVN-VHAVNISAVENMRHRDLNNAAGLAKLIKVHDASFEEVP--LPDGI-----ADVVWSQDAILHSGN--RLQVMNEVSRLLKPGGAFVLTDPMACDGI-EANALQPILDRIHLSDLASPDRYRIWAEASGMTRD------------VWQERTEMLVRHYTRVREELRRRHQE----LA-SV-ISTDYLSRMDAGLGHWIEGGSQGRLCWGLMRFTKH-- H2CAA9/15-275 -DADVFYHEVWGGDDIHIGLYTT------TQDIREASRLTVERMASLI----ENRIDETSTVLDLGSGYGGAARYLNDRFHCR-VICLNLSEVENQRNRNRNSETGQSEAISVIDGSFEEIPPVILDHS-----VDLVWSQDAMLHSGS--KEKIFACVSRILKPGGRFIFTDPMQSEKA-DPARLQPVYDRIHLKEMGSFELYQRLARQHGMTTE------------RILDLSPQLPVHYGRVLEELNSQDAR----LR-AK-ISGEYIDRMKMGLQHWIDAGNRGDLAWGIIELSRN-- I3BQZ9/19-277 EDADNFYAMIWGGEDIHIGLYQS-----PDESITAASHRTVQHMADKL------DLKPTSKLLDIGAGYGGAARYIATRFGCK-VTALNLSEKENGRARQLNKQAGLDGQIDVVDGSFETIP--APDAC-----FDAVWSQDAILHSGQ--RQQVVKEVARVLKPGGHFIFTDPMQSDNC-PEGVLEPILGRIHLDSLGSPGFYRSTAAELGIQLL------------GFEELTPQLTQHYTCVLEETVKRQAE----LE-KT-VDAAYLERMKTGLGHWIEGGKQGYLAWGIFVFQKP-- A0A0D6JI85/19-278 EDADNFYFHVWGGEDIHIGLYER-----EDEPIGVASRRTVERMADHL-----PPLNANSRILDIGSGYGGAARYLAERFGCN-VTALNLSEKENERNREMSQAAGLASRITVVDGSFEDIP--LEDAS-----VDAVWSQDAILHSGQ--RERVIAEVARVLKPGGHFIFTDPMESGRC-SQGDLEPVLARIHLDTLGSPDFYKKTAIANGLEFV------------EWLDKTDQLIRHYSRVREELLSQRAI----LT-KG-ISETYIDRMATGLSNWVTAGQRGCLAWGILHFKKS-- A0A162DZC5/16-275 SDADRFYAEIWGGEDIHIGLYET-----ADQAIASASERTVQALMELA-----TQPPAKGCVVDLGSGYGGAARRIAKQWQVN-VHAVNISAVENMRHRDLNNAAGLAKLIEVHDASFEEVP--LPDGI-----ADVVWSQDAILHSGN--RLQVMNEVSRLLKPGGVFVLTDPMACDGI-EANALQPILDRIHLSDLASPDRYRIWSEASGMTRD------------VWLERTEMLVRHYTRVREELRRRHQE----LA-SV-ISTDYLSRMDAGLGHWIEGGSQGRLCWGLMRFTKH-- A0A163T2R1/16-275 SDADRFYAEIWGGEDIHIGLYET-----ADQAIASASERTVQALMELA-----TQPPAKGCVVDLGSGYGGAARRIAKQWQVN-VHAVNISAVENMRHRDLNNAAGLAKLIEVHDASFEEVP--LPDGI-----ADVVWSQDAILHSGN--RLQVMNEVSRLLKPGGVFVLTDPMACDGI-EANALQPILDRIHLSDLASPDRYRTWAEASGMTRD------------VWQERTEMLVRHYTRVREELRRRHQK----LA-SV-ISTDYLSRMDAGLGHWIEGGSQGRLCWGLMRFTKH-- A0A163PWD2/16-275 SDADRFYAEIWGGEDIHIGLYEA-----TDQGIASASERTVQALMELA-----TQPPAKGCVVDLGSGYGGAARRIAKQWQVN-VHAVNISAVENMRHRDLNNAAGLAKLIKVHDASFEEVP--LPDGI-----ADVVWSQDAILHSGN--RLQVMNEVSRLLKPGGVFVLTDPMACDGI-EANALQPILDRIHLSDLASPDRYRIWAEASGMTRD------------VWQERTEMLVRHYTRVREELRRRHQE----LA-SV-ISTDYLSRMDAGLGHWIEGGSQGRLCWGLMRFTKH-- A0A0F7KNX7/16-273 EEADEFYSTIWGGEDIHVGIYEK------TRDIREASRTTVERMAELL-----GDL-PSRHILDIGAGYGGGARKLVGDFGARHVTCLNISEVENERNRAFTEKAGLSDRIDVIDGSFDDLP--FEDAS-----FDAVWSQDAILHAPD--RKAVLDEVARVLKPGGEFIFTDPMQATDLQDAAALRPIYDRIHLPDLASFGFYREELGKRGFEEV------------LIEDRSEEIGNHYGRVAEELDARRGE----LS----ASDAFVDRMIEGLGHWVRGCAAGKLTWGIMLFRKK-- U7GP48/303-562 DDADTFYSLVWGGQDLHIGLYD------DTSNIREASDLTIDEMAGML-----PNLGADAKVLDIGSGYGGAMRKLVKASGCS-AVCLNISDVQNDTNRHRNIQQGFKDRIRVEHGVFEDIP--EQPES-----FDIVWSQDAILHSDQ--RHKVLQEVHRVLKPGGYFIFTDPMQADDA-DPKALQPVYDRLQLNSLGSMRFYRETAEALGFETV------------EQRDMTQQLRNHYFRVREELLANYDK----LR-NEGASADYLDKMALGLMNWVDAADAGQLAWGIQLFRKP-- A0A0M6Y3Y8/303-562 DDADTFYSLVWGGQDLHIGLYD------DTSNIREASDLTIDEMAGML-----PNLGADAKVLDIGSGYGGAMRKLVKASGCS-AVCLNISDVQNDTNRHRNIQQGFKDRIRVEHGVFEDIP--EQPES-----FDIVWSQDAILHSDQ--RHKVLQEVHRVLKPGGYFIFTDPMQADDA-DPKALQPVYDRLQLNSLGSMRFYRETAEALGFETV------------EQRDMTQQLRNHYFRVREELLANYDK----LR-NEGASADYLDKMALGLMNWVDAADAGQLAWGIQLFRKP-- A0A163UJG3/16-275 SDADRFYAEIWGGEDIHIGLYET-----ADQAIASASERTVQALMELA-----TQPPAKGCVVDLGSGYGGAARRIAKQWQVN-VHAVNISAVENMRHRDLNNAAGLAKLIEVHDASFEEVP--LPDGI-----ADVVWSQDAILHSGN--RLQVMNEVSRLLKPGGVFVLTDPMACDGI-EANVLQPILDRIHLSDLASPDRYRIWAEASGMTRD------------VWQERTEMLVRHYTRVREELRRRHQE----LA-CV-ISTDYLSRMDAGLGHWIEGGSQGRLCWGLMRFTKH-- A0A0P7X7I3/302-560 ADADNFYYNIWGGEDIHIGLYE------ETPVIKEASARTVRKMAGML-----KNLSADTHIIDLGAGYGGSARHLASEYGCS-VDCLNISEAQNDTNRFLNRRQALAEQIKVAHGSFDKIP--APNET-----YHVVWSQDSILHAKD--REQVFAEAHRVLKPGGEMIITDPMQADDV-PEGVLQPVYDRIHLESLGSPGYYREIAEKLGFELV------------EFADLTPNLRTHYARVGEDLRANYDH----VA-SV-SSKAFLDRMLQGLDNWVKAADSGYMAWGILHFRKR-- A0A163LXL1/16-275 SDADRFYAEIWGGEDIHIGLYET-----ADQAIASASERTVQALMELA-----TQPPAKACVVDLGSGYGGAARRIAKQWQVN-VHAVNISAVENMRHRDLNNAAGLAKLIKVHDASFEEVP--LPDGI-----ADVVWSQDAILHAGN--RLQVMNEVSRLLKPGGVFVLTDPMACDGI-EANALQPILDRIHLSDLASPDRYRIWAEASGMTRD------------VWQERTEMLVRHYTRVREELRRRHQE----LA-SV-ISTDYLSRMDAGLGHWIEGGSQGRLCWGLMRFTKH-- D5EA51/19-278 DDADNFYFTIWGGEDIHVGLYDS-----EDEPIFDASRRTVERMASKI-----SNLDKDSKVLDIGAGYGGAARYLARKYGCQ-VVALNLSEVENERDRVMNKEQGLDHLVTVEDGSFEDLP--YPDYS-----FDVVWSQDAILHSGN--REQVLKEVARVLKSGGDFVFTDPMQTDDC-PEGVLQPILDRIHLESLGSPGFYRESAKKYGLNEI------------EFEEHASQLPIHYGRVLKETENQEDN----LS-GV-VSQDYINNMKQGLKHWIDGGNGGYLTWGIFHLRKK-- U5DKV9/19-279 SDADTFYFTIWGGENIHIGLYAT-----PDEAIAEASQRTVERMSARL-----QTLNPSAKVLDLGAGYGGSMRHLARTVGCR-CVALNLSEVENARDRAMNREQGLDRLIEVVEGDFAHLP--FPDAS-----FEVVWSQDAILHSGE--RDRVIAEIARVLKSGGEFVFTDPMQADDC-PQNVLQPILDRIHLDSLGSPGFYRQQARKVGLAEL------------SYESHSEQLTAHYTRVLQELQHRAAE---VLA-AG-ISQGYSDRMQKGLQHWIEGGRKGYLAWGIFHFRKP-- F4Y2P8/20-277 -ETDRLYATFWGGEHITYGIYKS-----SDEPIHDASKRTVETIAQTL-----ENLAPDSRVIDLGAGYGGAARYLAKTYGCS-VCCLNLSERQNQRNRQLNQEQNLAHLVEVTQGSFEDIP--YPDNS-----FNIVWSQDAILHSSD--RTQVFEEIKRVLQPGGELIFTDPMQRETC-PPGLLQPAFDRLGIKDMGSYRFYSQTAQELGFEEL------------HFIDLSEHVPTHYRRFGEEVRVRYQE----VV-RI-TSTEFADKTLKSIEPWIEYYEKGYMQWGILHFRL--- K9YGK5/19-277 -SADGFYYRIWGGEDLHIGIYNT-----PDEPIYDASVRTVSRICDKI-----KNWPAGTKVLDLGAGYGGSARYMAKHHGFD-VDCLNISLVQNERNRQMNQEQGLADKIRVFDGSFEELP--FENKS-----YDVLWSQDSILHSGN--RRKVMEEADRVLKSGGDFVFTDPMQTDNC-PEGVLEPVLARIHLDSLGSVGFYRQVAEELGWEFV------------EFDEQTHQLVNHYSRVLQELEAHYDQ----LQ-PE-CSQEYLDRMKVGLNHWINAGKSGYMAWGILKFHKP-- S9Q394/301-560 DDADTFYSTIWGGEDLHIGLYD------ETKNIREASDKTIAAMIDKL-----PKLGADSRVLDMGAGYGGAMRTLVKQTGAE-AICVNISSTQNDYNRQKIRQAGLGDKIEVRHGVFEDLP--QDDAS-----VDVAWSQDAFLHSDQ--RDKVIAEAYRVLKPGGHLIFTDPMQADDV-PQGVLQPVYDRLQLNSLGSIRYYREVAEALGFETV------------ELDEMTNQLRNHYARVREELLANYDK----LR-EGGSSAEYLDKMAVGLENWVKAADDGYLAWGILTFRKP-- A0A0G3EG49/19-278 NDADNFYFHIWGGEDIHVGLYQH-----DEEAIFDASRRTVEQMARKL-----GRLDEHTSILDIGGGYGGAMRHLVRTTGCR-AAVLNISEVENERDRQMNREQGCEDRIDVIDGDFANIP--FDDGS-----FDGAWSQDAILHSDD--RTGVVRETARVLNPGAKFVFTDPMQTDDC-PDGVLQPIYDRIHLESLASPGFYRRAGEEAGLEFV------------EFEEHADQIARHYGRVLKELMSREAE----LK-DK-VSDDYIERMKKGLRHWVDGGNAGYLTWGIFTFRKP-- F2UL79/52-312 -DAELFYSNVWGGENIHVGMYNT------TRDIADASHRTNMRLAPML-----EPLDASSAVLDLGSGYGGTARYLARTYGCK-VTGLNVSDVENKRAVALNKQHGLQDKVEIVLGTFEDVD--MPNAS-----FDAIFSQEAMLHAGD--KANVVAEAARMLKPGGRFVFTDVMRSDDC-DESKLQPIYDRLHLPSLASPSFYRAAAAKHGLDEI------------GFEEDTANFTAHYSRVREDLIAREQE----LR-QQNISEAYLDRMKNGLLHWVAGGRNGLLCWGFFSFRKPAK F2TWM4/25-286 DDAEAFYSTVWGGENIHIGLYQD-----EAESIADASHRSVETLAKKL-----APLHKASHVLDMGSGYGGTARYLARTFGCR-VTGLNLSEVENQRARSLNEKHGLHDRVQIVQGMFEAVE--LPDAH-----FDAVCSQDSFLHSSD--RAQVVAEAARLLKPGGVFVFTDIMQADDC-DPKRLQPIFERIDLSSLGSPEFYRNAAELHGLEEV------------AFEDNTHHLITHYSRVLSETVAKEDV----LR-QR-ISNAYLDRMKRGLDLWVNAGRDRQLVWPLFTFRKPAE M2Y7I2/55-319 MDADTFYYHIWGGQDIHVGLYND---PVEKDIIRDASRRTVYYMTGLLEK--SGLLKPGAIGMDLGAGYGGTARYLAEKFGVR-VDCLNISDSQNARNRQMTEAAGLTQLVSVVYGSFQDIP--APDNS-----YDFLWSSDAIDHAPD--KAQVFREVARVLKPGGIFIFTDLMKADDV-PASELGPVLERIKLPDMGSVKLYRSLAANNGLKEY------------AVYQKPEALVNHYWRVKLELEKQKDE----IS-KF-CSVAFQERMKQGLDHWVNAGKAGKLNWAIMMFQKP-- M5RX55/19-279 EDADNFYAIIWGGEDIHIGWYDN-----ETEPIEIASRRTVTQMADRI----AETISPNSRVLDLGAGYGGAARYLAKRFGCN-VVALNLSEAENERSRKLNAEQSLDHLVDVIDGSFEEIP--AEDAS-----FDFVWSQDAILHSGD--RSRVISEVSRVLKSGGEFLFTDPMQADDC-PPGVLQPILSRIHLDTLASPQFYVDQGDAVNLTLV------------NFDCQTQHLTRHYSRVLEETSRRESE----II-SL-ISPEYIERMKAGLGHWIDGGRNGYLAWGIFHFAKS-- A0A1H1TCP4/303-558 QDADTFYSLVWGGEDIHVGIYTE-----PDEDIATASRRTVTRMAGAL------DLGPDTRVLDLGSGFGGAARHLSGTSGCR-TTCLNLSEVENARNRVLTDAAGLSELVEVVDGSFEDLP--FEDNR-----FDVVWSQDALLHSGD--RVQVLQEAVRVLRPGGRIVFTDPMAADGC-PREALAPILRRLHLDTMASPEFYRRTLANLGLT-V------------EFDDLTEHLTTHYQRVLDETERRDAS----LA-GR-VSADYLDRMRTGLRHWVDGGRAGNLAWGVFVAG---- A0A0T5NRV5/301-562 DDADTFYSTIWGGEDLHIGRYA------TTKNIRDASDLTIESMIDAL-----PDLDTGSRVLDLGAGYGGAMRTVVKKTGCQ-AVCLNISETQNEYNLGKVRAARLADKISIRHGVFEDVP--EADES-----VDVVWSQDAFLHSDQ--RDQVLAEAFRVLKPGGHLIFTDPMQADDV-PEGVLQPVYDRLQLNSLGSPGFYRQTAHALGFETV------------QQEDAVADLRAHYARVREELLAHYDE----LR-EKGCSAEYLDKMAVGLQNWVKAADDGHLAWGIQHFRKPVK X7EGR9/303-562 DDADTFYSLVWGGQDLHIGCYN------STRDIRTASDVTIDRMVEVL-----PTITADTRILDIGAGYGGAMRKVVKENGGT-ATCLNISEIQNDTNRLRNRQQGFSDRIDVIHGVFEDIP--EPASS-----FDVVWSQDAILHSDQ--RETVLREVWRVLKPGGHFVFTDPMQSDDA-DPGQLQPVYDRLQLNSLGSPGFYQRAAQEIGFKLV------------AWDEMTTQLRTHYDRVRDELLGNYDT----LK-DSGASTAYLDKMAVGLENWVRAADAGNLSWGIHVFRKP-- D9WCV3/224-484 TDADEFYWRVWGGEDIHIGVYDR-----PDEPIAEASRRTVARMAGRL------DLTPDSRVLDLGAGFGGSARYLAETYGCH-VTALNLSEVENERHRAINAERGLGDTIEVLDGSFESIP--LPDNS-----VDVIWSQDAFLHSGN--RRRPLEEAARVLRPGGQIIFTDPMAADGC-PTDTLRPILDRIHLDTMGSPDFYRHELARLGFTEV----------GGGFEELREHLVTHYGRVLEETRRQEDQ---GLS-EH-ISADYLAHMKKGLTNWVEGGKSNHVTWGIFHFTR--- D3SCH7/19-281 EDADTFYKLVWGGEDLHIGMYEY-----QGEPIGDASRRTVAHMSDLL-----GEPQPEWRVLDMGAGYGGVARYLVENYGCD-VTALNLSEKENERDREINKARHLDHKITVVDGSFEKVD--EPDAS-----YDVVWSEDSFLHSQNDKKKDVIKEAARVLKPGGWLIFTDPMQTDNC-PDGVLDPILARIHLDSLASPSLYREAAKEAGLYEV------------GFEEHSSQIATHYGRVKQELESREEE----LR-GY-ISQDYIDRMKQGLQHWVDGGQSGYLTWGIFRFRKPA- G2NY85/324-584 SDADAFYWHVWGGEDIHIGIYDR-----PDEPIAEASRRTVARMAGKL------DLTESSVVLDLGSGFGGSARYLAETYGCR-VVALNLSEVENERHRALNAERGLTEAIEVLDGSFERIP--LPDNS-----VDVVWSQDAFLHSGN--RARPLEEAARVLRPGGHLIFTDPMAADGC-PAETLRPILDRIHLETMGSPGFYRHELARLGFTAV----------GGGFQEHREQLITHYARVLEETRRQEAD---GLT-EH-VSADYLTHMKKGLSNWVDGGTNRHVTWGIFHFTR--- B3QVY4/20-279 SDADNFYFTIWGGEDIHIGLYES-----EHEPIFDASRRTVARMASLL-----PNIDQASHILDIGSGFGGATRFLAKKFGCR-VTDLNLSEIENKRNREMSNDQGLGNLIEVVEGSFESIP--FPDNS-----FDAVWSQDAILHSGK--REQVVSEVARVLKKGGLFIFTDPMQSDTC-PEGVLQPILDRIHLETLASPKFYREAAKKAGLEEV------------GYEDMVQNLIIHYDRILQETEARESE----LK-ET-VSAAYIQNMKKGLQHWVDGGKNGHLAWGIFRFKKA-- B8GQ71/19-278 DDADTFYHRVWGGEDIHIGLYES-----DDEPIFDASRRTVAHMGDLL-----GEPRPDMTVLDMGAGYGGSARYLASTFGCR-VVALNLSEVENERNREKTRAHHLDKLVEVVDGSFESVP--YPDQS-----FDIVWSQDAILHSGN--RRQVVREAARLLKPGGVFIFTDPMQTDDC-PEGVLEPILARIHLQTLGSPGFYREACAAEGLEEI------------GFEAHADQLPRHYARVLAETEAREQG----LK-GE-ISPDYLERMKKGLAHWIEGGRNGHLTWGIFRFRKP-- A0A1E3X9G2/292-518 EDADNFYFTIWGGEDIHIGIYKS-----DEDSVAEASSNTVKVMASHL-----SCLHEDATVLDLGAGYGGAARFLARNYGCH-VSALNLSTMENERNIKLNSEQGLEDKIDVVEGSFENIL--YPDDH-----FDVVWSNDAILHSNN--RSNVLEEAVRVLKSGGVFIFTDPMQSDDC-HDDVLQPILDRIHLSSLGSPEVYREMLSNLGMEEV------------AFHDHTEQLVNHYTRVLGEIEKKEKNA----------------------------------------FRENQ- W6K9Z7/25-283 ADADNFYFNIWGGEDIHIGLYD------STDDIAEASRLTVEKMAAVA-----APITDATKILDVGAGYGGAARFLAKRFGCQ-VDCLNISQTQNATNRRLTEDQGLADRITVVHGSFEDIP--EEDGK-----FDLVWSQDAILHSGR--RQRVLEEVTRVLKPGGRFVFTDPMQADDC-PEGVLQAVYDRIHLENLGSFAAYREMAGHVGLEVV------------ETLDRSAQLRNHYHRVGERLAADYDR----MA-SV-SSKDYLDRMLKGLTHWVEAADKGFLAWGILHMRKP-- A0A1N7MS46/302-561 SDADAFYSNIWGGEDLHIGLYD------NTKDIRTASDKTIDRMAELL-----PDLDQSSRILDIGAGYGGAMRRVSKAYGCS-ATCLNISETQNDYNRSKTRNAGLADKINVVHGVFEDIP--EEGAS-----FDVVWSQDAILHSDQ--RAKVFDEVWRVLKPGGYFIFTDPCQADDV-PHGVLQPVYDRLQLNSLGSFRFYREVAEVRGFETL------------RQDDMAHHLRTHYARVREDLIANYDK----LR-ENGASAEYLDKMAVGLENWVKAADDGHLAWGIQLFRKP-- S3ZAT3/26-287 SDVDAFYDAVWGGEDIHTGVYAH-----DAEPVADASRRTVERLADRL----ADHLRPGRSVLDLGSGYGGTARYLAERFGCR-VVALNLSAAQNERHRAANAKRGLDGLIEVVTGSFHEVP--YAADH-----FDAVCSLEALCHSDD--RARALSEAVRVLKPGGGLAFTDIMADESA-SAEALHPVVSRLGVAALATPSFYLRLLTDLGLTSV------------DFDDHSAHIARHYVRLNEDTRAREAE----LR-TT-ISPAYVDTLLANLPLWVDATRAGRLRWGIFSARHTV- L0DUD1/19-277 -DADTFYHRVWGGEDIHIGLYEH-----DREPIIDASRRTVAHMADLL-----GEPPAEWRVLDLGAGYGGSARYLVENHGCR-VTALNLSEVENERNRAINKARGLDDRITVVDGSFENVP--EDDEQ-----FDVVWSQDAFLHSGD--RERVMQEAARVLKPGGVLIFTDPMQHDAC-PEGVLDPILQRIHLDSLGSPGFYEQTASALGLDLV------------GFEDHSHQLPRHYSRVREELEAREAD----LS-EH-ISPDYIARMKKGLGHWVEGGKAGHLAWGIFRFRKP-- A0A0B1ZNQ6/18-275 DEADGFYSAVWGGEDIHIGLYDT------TDDIRAASRLTVEHMAGKL-----GNL-SGKRVIDLGSGYGGAARVLAGEYGAK-VTCLNLSSVENERNRKLTEAAGLADRIEVVDGSFDAMP--FADES-----FDVAWSQDAILHAPD--RGAVLDEVARVLRPGALFVFHDPMQADGLADKAALQPIYDRIHLPDLASIGFYRDGLTARGFTEV------------ETEELTGQLGTHYRRVREEMLARKDE----LG----LPDAFVSRMSAGLDHWVQGAANGNLRWAIMLYRKND- A0A0K9I4K9/20-279 GDADNFYYTIWGGEDIHIGLYQT-----PDEDIAQASRRTVETMASRL-----QGLAETSRVLDMGAGFGGAARWLAKKHGCR-VTALNLSQVQNQRDRQMNREQGLDHLVEVVDASFEEVP--CADGS-----FDFIWSQDAILHSGD--RGKVMDEVSRLLKPGGQFVFTDPMAADDC-PEGVLQPILDRIHLENLGSPGFYQEALARRGLKDL------------GFREHTDHLVNHYARILEETQCREGE----IC-NA-VSQDYIDRMKKGLSHWVEGGKQGHLAWGIFHFEKS-- A4BNS9/19-279 NDADTFYHTVWGGEDIHVGLYEA-----PSEPIFDASRRTVERMAGCI-----PKLDGDTRVLDIGAGYGGAARFLAQRYGCQ-VVALNLSEKENDRARQMNRQQGLDELIEVIDGSFEDLP--FNDRH-----FDVVWSQDAILHSGN--RRKVLEEVARVLAPGGHFLFTDPMQADDC-PAGVLQPILERIHLATLGSPEFYRRTLTELDLEEV------------SFDIHSDMLAVHYGRVHDELTSCEER----LA-EY-VSRDYIERMKHGLQHWIEGGRNGHLTWGIFLFRKPG- A0A1E7MH00/236-502 -DADTFYSSVWGGEDIHVGIYSD-----AEQPIAEASRHTVERMASGL------GLDRDSRVLDLGSGFGGSARYLAETFGCA-VQALNLSEVENQRHKELNAIRGLTDRIEVVDGSFESVP--FPDSS-----VDVVWSQDAFLHSGD--RLRVLEEVRRVLKPGGQLVFTDPMAADDT-DFSAIQPILDRIHLDDMGSPGFYKRELTRLGFTPT----EHE-DSDAGFEDLREQLVRHYGRVLQETERQEAD---GLA-SK-ISSDYLSQMKKGLAHWVEGGERRRLTWGIFRFTLTK- A0A1E7K8K2/236-502 -DADTFYSSVWGGEDIHVGIYSD-----AEQPIAEASRHTVERMASGL------GLDRDSRVLDLGSGFGGSARYLAETFGCA-VQALNLSEVENQRHKELNAIRGLTDRIEVVDGSFESVP--FPDSS-----VDVVWSQDAFLHSGD--RLRVLEEVRRVLKPGGQLVFTDPMAADDT-DFSAIQPILDRIHLDDMGSPGFYKRELTRLGFTPT----EHE-DSDAGFEDLREQLVRHYGRVLQETERQEAD---GLA-SK-ISSDYLSQMKKGLAHWVEGGERRRLTWGIFRFTLTK- W8KHT7/19-278 EDADNFYHRVWGGEDIHIGLYES-----DEEAIPDASRRTVAHMGDLL-----GEPTSDMKVLDIGAGYGGAARYLATTFGCH-VKALNLSEVENERDRQMNKALKLDHLVDVLDASFESIP--AEDNS-----FDVVWSQDSILHSGN--RMKVMEEVARVLKPGGVFIFTDPMQTDDA-PKEKLQPILDRIHLETLGSPGFYREAASKVGLEEI------------GFEDHSHQLPRHYGRVLKELESREES----LK-GL-ISDDYIARMKKGLQHWVDGGKAGHLCWGIFRFRKA-- A0A0H4BG82/20-286 NDADRFYAEIWGGEDIHIGLYIA-----ETEPIATASRRTVEALAALIDKQLTGSSNESCTIVDLGSGYGGAARHLCQSPRVN-VEAINISAVENTRHRELNRAAGLDRQIQVHNASFEAVP--LEDAC-----ADVVWSQDAILHSGD--RQQVMKEAARLLKPGGVMVMTDPMAADGV-PSESLSKILERIHLSDLGSPDRYISWANNVGLQHD------------VWDERTPMLVRHYSRVRDELQRRHDE----LK-LS-ISPEYLNTMSAGLEHWVEGGKAGRLCWGLMRFHKPKE A0A1B7LYP9/17-275 QDAGAFYSQIWGGDDIHLGMYAS-----PDEPIAEASHRTMQHMIDKI------TQGSVDYVVDLGSGYCGAARFLHRELDAD-VLAVNLSGEQNVRARQLNQRDGLDEPITVVDASYNEVP--AEDAV-----ADLVWSQDAFLHAID--RKQPLAEAARVLKPGGEFLFTDPMAADGV-NPAELSGVLARLNLSSLASPGDYKQLAAEVGFEVV------------EFEDLNEYLPLHYGRVLEETQANAEE----LL-KT-ASQQYLDGMMKGLQHWVDAGNRGLLSWGIFHLRKQ-- Q1Q4E9/17-278 QSADRFYYSVWGGEDIHIGIYRY-----PSESIFAASRRTVETMCAFL-----PRLNASTRVLDIGAGYGGSARYLAMQFQCE-VTCLNLSDVQNQKNRQQTEEAGLDSLIEVVDGSFENIP--FSPNS-----FEVVWSQDAILHSDD--RKKVLEEVHRVLKPGGVFIFTDPMQSDEC-PKEALAPVLARIHLESLGSPGVYRQIAAQLGWIEL------------KFEDLSSQLPIHYRRVLEEITGRETE----IV-RQ-CTPEYIERMKTGLGHWIKNGEKGYLKWGIFLFQKPDV A0A117DVW0/29-287 DDANAFYSMIWGGEDIHVGCYE------DTRDIGAAARKTVDRMVRQL-----TRFDGDTRVLDLGAGYGGCARHLASDYGSS-VTCLNISEAQNETNRERNRNAGLDAKIRVVHGSFEAIP--EPDGS-----YDVVWSQDAILHAAD--RRKVIEEAFRVLKAGGELIFTDPMQADEV-PDGVLAPVYDRLNLADLGSMRFYRETALAVGFEVV------------DQIDLVHNLGVHYQRVLEELETRRRE----LE-EH-SSTEYLDKMRVGLRNWVDSAREGHLAWGIQHFRKP-- A0A084IJD4/18-277 SDADTFYSRLWGGEDIHIGLYKS-----DDEPVLKASRRTVARMAELV----ADKLGRDTRVLDIGGGYGGSACYVAEHYGAH-VVSLNLSEVQNERGRRQIDERGLEDKVTIVDGNFEDIP--YEADS-----FEVVWSQDAILHSGN--RRRVLDEVVRVLKPGGVFVFTDPMSADDV-SPDALQPVLDRIQLETMGSPGFYREQLTRRGLTER------------TFEDHTEQVPRHYDRIHRELDAHRSE----LN-GH-ISERYVSNMKKGLQHWVEAGSAGRLAWGIMVFEN--- A0A1H5U124/310-567 ADADNFYYHVWGGNDIHVGIYET-----PDEDIDAASRRTVERMAAKV------EITPDTRILDIGSGYGGAARHLAATYGCK-VSCLNLSEVENARNAEFNRAAGLDELIEVKDGSFEDIP--FQDNA-----FDIVWSQDAILHSGD--RERVLEEVTRVLKPGGSFLFTDPMAADGA-RLKDLGPILDRLSLDTMGSPAFYRRELARLGLQTF------------DFEDLTRFLPIHYGRVLEVLESKESE----LS-DK-ISDEYRTRMKAGLKNWVSGGEAGNLAWGIIHARA--- A0A0W7WX69/20-279 SDVDGFYAHAWGGEDIHVGVYTD-----PREAIPVATGRTVERLAGKL----GDALGADSTVLDMGSGYGGAARRLAGQYGCH-VVALNISELQNHRHRALNAERGLDDRIDVVTGSFHDIP--APDGS-----FDVVWSQEALCHSGD--RSRALREATRVLKPGGHLVFTDTMAAEDA-PEGELSPLAERLRLTDLATPGFYVEQLRALDLAGA------------DYEDLSAHMLTHYERLSEEVRSPAPE----LV-DA-VSPGYLKRLRTNLPQVARACRDGRLRWGIFHGRH--- A0A1E7KTR0/235-499 ADADEFYASVWGGEDIHIGLYES-----SEEPIADASRRTVQRMAEKL------DLDESSVVLDLGAGYGGSARYVAETYGCN-VIALNLSEVENERNRELNAQRGLTGKIEVLDGSFESIP--CSEDS-----VDVVWSQDAFLHSGN--RTRVLEEITRVLKPGGQLIFTDPMAADGT-STAVLKPILERIHLDTMGSPAFYRRELARLGFSAA---------SSGGFEEHREQLVNHYGRVLKETERQEAEGKDGLA-GK-VSSEYLTNMKKGLGHWVNGGNERQLTWGIFHFRL--- A0A1E7JIR1/235-499 ADADEFYASVWGGEDIHIGLYES-----SEEPIADASRRTVQRMAEKL------DLDESSVVLDLGAGYGGSARYVAETYGCN-VIALNLSEVENERNRELNAQRGLTGKIEVLDGSFESIP--CSEDS-----VDVVWSQDAFLHSGN--RTRVLEEITRVLKPGGQLIFTDPMAADGT-STAVLKPILERIHLDTMGSPAFYRRELARLGFSAA---------SSGGFEEHREQLVNHYGRVLKETERQEAEGKDGLA-GK-VSSEYLTNMKKGLGHWVNGGNERQLTWGIFHFRL--- A0A0D2G7A2/20-279 TDADRFYFSIWGGEDIHIGIYGE-----PEEDIKLASRRTVQTMASRL-----EDLGPQSKVLDMGAGFGGAARFLAKNFGCK-VTALNLSPVQNLRNRQMNKEQELEHLVEVVEASFEEVP--YPDES-----FDFIWSQDAILHSGD--RKKVMAEVKRLLKPGGRFVFTDPMAADNC-PDGVLQPIYDRIHLETLGSPKFYKDILEELGLRFV------------EFKENTGHLVNHYARILQETETREAE----LG-KV-VSRDYIDNMKKGLMHWVKGGEKGHLAWGIFNFQKD-- K9HFN3/298-557 GDADNFYFTIWGGEDIHIGLYSDK----AGETIKEASRRTVDTMAEQV------SLDETSRVLDIGAGYGGAARRLAATRGCT-VHCLNISETQNATNRRLTEEQGLSDKVTVVHGSFEDIP--EPDNR-----FDVVWSQDAILHSGD--RERVLEEAFRVLKPGGHLIFTDPMEADDV-PEGVLQPVYDRIHLENLGSIGFYKDAATRVGFDVV------------SVTDYTGHLPTHYGRVAEVLREEYNQ----VA-KV-CSRGYMDRMLVGLDNWVKAGSAGHLAWGILHFRKP-- A0A1B1AZ45/21-279 -DVEAFYDAVWGGEDIHTGIYAR-----ADESVADASRHTVEQAADKV----SDLVCAGSSVLDLGSGYGGPTRYLAERFGCR-VIALNLSDTQNQRHRATNAERGLDHLIEVVTGSFHDIA--CPDSR-----FDVVWSQEAFCHSGD--RPRLLSEAVRVLKPEGALVFTDLMAAEDT-PAAALRAAVSRLGVDSLATPHFYRRTLAGLGLSHT------------DFDDRSDQLIRHYERITEETRRREQE----LR-RI-ISPAYVDSLLANLPLWVAAARRGELRWGIFHCRA--- A0A1E3W765/18-274 DEADDFYRTIWGGEDIHVGLYDT------GPDITAASRRTVERMAGKA-----GTL-KGKHVLDLGSGYGGAARVLAGEYGAL-VTCLNLSAVENERNRALTREAGLEDHITVVDGSFDSLP--FERPQ-----FDLAWSQDAILHAPD--RRAVLDEVARVLKPGGDFIFTDPMQADALQDKDALQPIYDRIHLPDLASFGFYRTELSERGFDEI------------EVEELTGQMRTHYARIGEELDARREE----LD----ASDAFVDRMLKGLRHWVSGAENGLLAWGIMHFRKA-- A0A109ZX66/23-282 DEADQFYFNIWGGEDIHIGLYDE----AGERSIHEAGRRIIDRMIELL-----GPITAADRVLDLGSGYGGAARVLARRFDCN-VVCLNLSETQNARNRELCQAAQLA-RVQVRQGNFEHLP--FADES-----VEIAWSQDAILHSGA--RQQVINEVARVLRPGGRFVFTDPMRRDHV-PAASLGPILERIHLDDLACFEFYRRACAEAGLEVV------------TIQDLSVHLPRHYERVRVELEARRAE----IE-SL-STPSYVAGMLGGLRRWVEAGEQGLLAWGIVVARKP-- A0A0S8A4I4/19-277 EDADSFYAIIWGGEDIHIGLYVQ-----DDESIVDASQRTVTRMAEKL------DVQQDFQVLDIGSGYGGAARYLVEKYGCS-VTALNLSEKENERARILNKERGLDSKISVMDGSFEHIP--AEENQ-----FDVVWSQDAILHSGN--RQQVINEVARVLKPGGQFIFTDPMQSDNC-PDGVLQPILDRIHLSSLGSPGFYQHACKKAGLQEV------------SFEERTEQLVMHYSRVLQDTEKHQSQ----LI-DN-ISPEYLERMKKGLGYWIDGGNNGYLSWGIFVFKKA-- A3Z8P0/20-284 DDADRFYAEIWGGEDIHVGLYAT-----DNEPIAQASRRTVEALEALIDDTIAARASAGSRIVDLGSGYGGAARYLCRHPGVQ-VDAINISRVENSRHRSLNLEAGLQERITVHDASFEAVP--LPDGC-----ADVVWSQDAILHSGD--RQQVMREAARVLRPGGVMVMTDPMAADGV-AADSLDAILQRIHLADLGSPCRYQQWAEAVGLARE------------IWNDRTSMLVRHYSRVREELRQRKAE----LS-QS-ISPTYLERMDAGLGHWVDGGKAGRLSWGLMRFRKH-- A0A0D5ZI14/18-278 KDTDIFYRKAWGDEHIHLGIFKD-----YYEPIQSACLRTVRTMAEKV-----GSISSDTEVLDIGSGYGGTARYLASTYGCH-VNALNLSEVQNRRSEELNRKRKLQRNISIVEGSFEDMP--FEDET-----MDICWSIDAILHSGN--RKKVVEEVSRVLRPGGDFVFTDPMRTDGC-PHDILEPILERIHLSDMGSLSFYRSEARDAGLEEV------------SFTDLSQHLVNTYGRVLEFTENNEET----LS-DE-ISREFIDHMEEGLRHWVEGGKEGHLGWGIMHFRKKT- M1YVS8/23-281 SNADEFYFKIWGGEHIHIGQYNY-----EEEPIGIASKRIVNHMMSLL------DLNIFKRVLDLGAGYGGGARYLATQRGCH-VTCLNLSETQNNRNREFNKERGLDRLVDVAHGSFEEIP--FEDKS-----FDVIWSQDSFLHSAD--RARVVSEAYRVLKPGGLFIFTDIMKKDDC-PEDALGPILARIHLSTLGSFRFYYDEAGKQGFRLK------------RMEDHSNQLTMHYSRVRDETLKHYDE----VV-KL-CGQEYIDRMLTGLGHWVDAGKSGRLAWGITLFEKP-- V4LL35/19-280 DDADNFYFHVWGGEDIHIGLYES-----PQEPIATASRRTVDRMTEQVV---EKLSSPQARVIDLGSGYGGAARVLASRFDCH-ILALNLSETENARHRQMNQEAGVADRIEVIDGSFETIP--SDAAR-----FDVAWSQDAILHSGH--RDRVLAEVDRVLEPGGEFVFTDPMQADDC-PDGVLAPVLERIHLASLGSFAFYREQARMLGWQEV------------GTIEMTGQLVQHYMRVAEELEAQRSR----LA-GL-VSNEYVERMLKGLANWVEAGNRGYLAWGILHFRKP-- D0LT75/21-284 AEADNFYFHVWGGEDIHIGLYPESGGAAGSDGIAEASRRTVERMAGQL-----DGLGADSRVIDFGAGYGGAARFLAARYGCS-VTCLNLSETQNRRNRALTAEQGLSERVDVIHGSFESVP--VDDDS-----YDVVWSQDAFLHSGD--RRKVFAEARRVLRPGGELILTDPMQADDC-PDGVLQPVLDRIHLSSLGSVAVYRGYLRELGFEEV------------AWLDCTHQLRQHYARVAEVLRERYDE----MV-ER-STAGYVDRMLKGLGHWVAGADSGHLAWGILHARL--- A0A0D4DGV6/20-280 ADVDAFYDAVWGGEDIHTGVYTH-----DDESIATASRRTIEQAADKV----SDLLSAGSTVLDLGSGYGGAARYLAERFGCH-VFALNLSESQNERHRATNAKRGLDGLIEVVTGSFHDIP--FPDGR-----FDVVWSQEAFCHSGD--RTRLLSEAVRVLNREGAVVFTDLMAAEET-PVETLYPAVSRLGVDALATPDFYRRALAGLGLSRI------------DFDDRSSQLIPHYERITAETRRREQE----LR-GT-ISPAYVDGLVANLPLWVDAAHRGHLRWGIFHCRRT-- D7E776/19-278 NDADNFYFTIWGGEDIHVGLYQS-----EDEPIFDASRRTVERMASKI-----NNLNKNSKILDIGAGYGGAARYLARNNGCQ-VVALNLSEVENERDRKMNEEQALDHLITVVDGSFENLP--YPDDS-----FDVVWSQDSILHSGE--REQVIKEVARVLKSGGDFIFTDPMQTDDC-PEGVLQPILDRIHLESLGSPGFYRESAKKYGMKEI------------EFEEHTSQLPTHYGRVLKETKRREDE----LS-NV-VSQEYINNMKQGLQHWVNGGNSGYLTWGIFHFRKE-- G4FM99/20-285 NDADRFYAEIWGGEDIHIGLYNA-----VNEPIASASRRTVEALAALIQAPQTDSPKESSCVVDLGSGYGGAARHLCQNPLVK-VEAINISAVENTRHRELNRAAGLDRQIQVHDASFEAVP--LEDAC-----ADVVWSQDAILHSGD--RQQVMKEAARLLKPGGVMVMTDPMASDGV-PSSSLSAILERIHLSDLGSPERYKDWANNAGLQRD------------IWDDRTPMLICHYSRVRDELQRRQDE----LK-LS-ISPNYLAKMDAGLQHWVEGGNAGRLCWGLMRYRKPE- A0A073B1D5/309-566 EDADNFYFHVWGGNDIHIGLYNT-----PDEDIATASRRTVERMASKV------EITPETKVLDIGSGYGGAARYLAKTYGCQ-VTCLNLSEVENKRNREFNKEQGLDHLIEVKDGSFEDMP--FQDNA-----FDVVWSQDAILHSGD--RVRVMEEVARVLKPTGSFVFTDPMAADTA-KMSDLGPILERINLDTMGSPGFYRRELARLGLQNF------------EFEELTEHLPVHYGRVLEVLEERETE----LA-DK-ISDTYRTKMKTGLKNWVEGGKAGNLAWGIIHARA--- A0A0M9YEN4/20-279 SDVDAFYAEVWGGEDIHTGIYTH-----EREPVAAASRRTVETAASKI----ADRLTPACTVLDLGSGYGGPARHLAAEFGCR-VVALNISEGQNDRHRKTNAERGLDGLIEVVAGSFQDIP--YPAER-----FDVVWSQEAFCHSGD--RERLLSEAVRVLKPQGALVFTDLMAADSA-PAEALRPVVARLGVEEFATPSFYLHQLAQLGLPHV------------EFDDRSDQLLTHYLRLTEETRSRATE----LR-DV-ISPAYVESLLENLPLWVDACREGRLSWGIFTCHR--- A0A192IDX8/301-560 SDADEFYFNVWGGEDIHVGIYD------NSPDIREASRITVETMAETV-----GEIRPETRIIDLGAGYGGAARYLARTFDCS-VTCVNISRVQNIRNERLTAAQDLDDRVSVVHGAFESVP--EPDAS-----FDVVWSQDAFLHSGE--REKVLAEAFRLLRPGGSLVFTDPMQADEVDDPEALRPVYERIHLESLGSFAFYREAAKKAGFEEV------------QMRDFTPQIANHYGRVAEVLTQNYDR----MQ-KK-SSKEYLDRMLVGLDNWVKAGDAGLLAWGVLHFRKP-- L0GZ35/19-278 DDADNFYFLVWGGEDIHIGLYET-----SEDPVADASHRTVARMADSA-----SGVGPESRVLDIGAGYGGAARYLAKRFGCR-VTALNLSEKENERDRQMNAEQGIDHLIDVVDGSFEAIP--AEDAS-----FDLVWSQDAILHSGE--REKVIAEVARVLRPGGELIFTDPMQADDC-PAGVLGPVLDRIHLASLGSVGFYREMAAKYGLAEV------------EVIDLTENLPAHYQRVREELERLRPE----LE-GK-VSDTYVTNMIKGLKAWVDAGNNGYLNWSILHFRKP-- A0A090BV41/19-277 NDADNFYASIWGGENIHIGIYEQ-----ESDSIAQASHRTVQKLASLL------KLHEDSRVLDIGAGYGGMARYLVKNTGCQ-VDCLNLSQVQNQRHQQLNQQQGLIGKIRIIEGNFEAIP--AAEQH-----YDVVLSQDAILHSGN--RLQVFKEVARVLKSGGEFIFTDPMQSDYC-PPNILQPVLDRLNLDSMGSMSFYTQTAATVGLETI------------QIIEMTEQLVNHYRHILQATDEHYEK----IL-KV-CNQDYIERMKIGLNHWIEKGQQGYLVWGILHFRKK-- A0YIB3/295-553 DSADAFYASIWGGEDIHVGIYKS-----EDEPVFDASRRTVEQIASRL------KLNENSRVLDIGSGYGGAARYLVEKFGCH-VTCVNLSEVQNERNRLLNREQDISSKIDVVDASFEDIP--LDDHS-----FDVVWSQDAILHSGN--RSLVLKEVYRVLKSGGEFIFTDPMQSDDC-PEGVLQPVYDRIHLDSLGSIGFYRQVAKATGLEEI------------EVIDLSEQLVNHYTRVLKAVDENYQE----AL-ES-CGEDYIERMKLGLNHWIESGKKGYLSWGILHFRKK-- A0A099D7H8/308-565 EDADNFYYHVWGGNDIHVGLYQT-----PQEDIAAASERTVQRMASKV------DIDANTTILDLGAGYGGAARYLARTYGCK-VTCLNLSEVENQRNREISRAEGLDHLIEVADGSFEDIP--YQDNA-----FDIVWSQDSFLHSGD--RTRVMEEISRVLKPRGSVLFTDPMAADSA-EKSALGPILDRLHLDSLGSPGFYRKELTRLGLQNV------------EFEDLSEYLPLHYGRVLEVLESRENE----LA-DF-IGEEYRTRMKTGLRNWVQGGNGGNLAWGIIHAKA--- M3BY98/16-276 -DVDAFYDAVWGGEDIHTGSYER-----EGEPVADASRRTVERLAVYL----ADRLGPGRRALDLGSGYGGTARYLARRFGCR-VVALNLSEAQNARHRETNTERGLDGLVDVVTGSFHDVP--YGDGE-----FDAVCSLEALCHSDD--RARALAEAARVLAPGGALAFTDVMAADGT-PDDALRPVVARLGVDALATPSFYRERLTALGLEDV------------GFDDHSEQLVRHYVRLTEETESRKDT----LR-DL-ISPDYLQGLLRNLPLWVDAARSGRLRWGIFHARRST- A0A1E7KP62/234-495 SDADTFYASVWGGEDIHVGLYER-----PDEPIPEASRRTVERMAGKL------QLSRGSTVLDLGSGYGGSARYLAETYGCR-MLALNLSEVENERNRALNAERGLTGAIEVVDGSFENIP--YPDNS-----VDVVWSQDAFLHSGN--REKVLDEVARVLRPGGQLIFTDPMATDGT-PKAKLQPILERIHLDTMGSPGFYHDQLTRLGFNEG---------PDGGFEEHREQLPAHYGRVLEETKRQETN---GLA-EK-VSSDYLDRMKTGLGNWVHGGKEGHLTWGIFHYVR--- F4XYU0/20-276 -ETDRIYKMIWGGEHIHFGIYLE-----PDDSILEASQRIVNMMATML-----QQIGENSQVIDLGAGYGGTARYLAKKYGCF-VSCLNLSELQNQRNLEMNQAQNLNHRIEVKQGNFENIP--HDDRS-----FDIVWSQDSMVHSGN--RRQVLSEIRRILKPGGELIFTDTLRNHDC-SPEKLQPAFNRLQIKDAGSFHFYKKTLQELGFEEI------------QVIDLSRHVSTHYIRFRDEILKRYEE----II-EQ-ISKEAIDKTLKSIEPWINFYQEGDMQWGGFHYC---- V4RQU7/266-524 SDADQFYYNIWGGEDIHIGLYD------STKDIKEASRLTVEMMTDML-----SKIGRDTHVIDFGAGYGGAARYLAKKHGCP-VNCLNVSETQNNTNRYLNRRQGLADLVSVLHGVFEDVP--EPDSA-----FQVVWSQDSFLHSDD--REQVLREAFRVLKKGGELIFTDPMQADDC-PEGVLQPVYDRIHLQSLGSFKFYKEAAERVGFETV------------ELKDLTPNLREHYFRVGEELKANYDQ----IV-GR-VSKAYLDKMIVGLDNWVKAADSGYMAWGILHFRKP-- A0A0C1NJI0/308-565 EDADNFYYNIWGGTDIHVGLYQS-----EDEEIAPASRRTVEQMAKRL------GLTEGQKVLDLGAGYGGAARYLAETYGAK-VTCLNLSEVENERNRQFNKDAGLSELIDVIDGDFENLP--FNDNE-----FDVIWSQDAILHSGD--RVRVVEEAVRVLKPEGQMVFTDPMAADDC-DTSSLQPILDRLHLDSLGSPGFYKKELTRLGLKSV------------EFEDHTDQLARHYGRVLAELEKREDE----LA-AT-ISKEYREHMKTGLKNWVAGGKSGNLAWGIFHVKA--- A0A0P9E9P2/20-281 EDADTFYFTIWGGEDLHIGMYES-----EDEPIFDASVRTVHRMADKV----EQTIGENTRVCDIGGGYGGTARHLVKRFNCH-VDVLNLSEVENERDRQMNKEQGLDHKIDVYDGSFDGTP--FETES-----FDLVWCQDSILHADD--RAAVLKEVDRILKPGGEFIFTDPMQTDNV-PEGVLDPILARIHLPSLGSVTFYQETAGKLGWEDL------------GFEDHTGQLPRHYGRVLEELERREDE----LK-GK-VSDEYIANMKKGLRHWVDGGNSGYLNWGILHFRKPQ- V6K871/276-544 DDADAFYSSVWGGEDIHVGFYED-----PDEPIRDASRRTVERMAAAL------GLDADSVVLDLGSGFGGSARHLASAFDCR-VLALNLSEVENDRHRARNAECGLDRLIEVVDGSFEEIP--YPDGS-----VDVVWSQDAFLHSGD--RVRVLQEVKRVLRPGGQLIFTDPLAADGC-PASRLQPVLDRLHLDSMGSPGFYRRELAGLGFTPV----SGDREAGGGFEEHREHLVRHFGRVLEETERQEAD---GLG-AR-VSAEYLNRMKKGLADWVHGGEARDLTWGVFHFRKAD- A0A120GC23/20-276 PDADDFYRQIWGGEDIHVGLYET------TSDIRTASRKTIERIAQKL-----GPL-DGKHIVDLGSGYGGAARVIASEYGAR-VTCINLSTKENARNRELTEAAGLSDRISIHDGSFDDMP--FEDGI-----FDVAWSQDAILHAPD--REKVLDEVARVLKPGGLFAFTDPMQADGLDDARLLQPIYDRIHLPDLASVAFYRAKLRERDFEEV------------EVEELPHELGRHYARVREVMLERQDE----AG----LTDAFVDRMRIGLGHWVEGAASGHLNWAIMVFRKK-- A0A0S2TCP8/19-277 EDADNFYAIIWGGEDIHIGLYQS-----DDESIPEASHRTVRHMAEKT------KLTPQDKVLDIGSGYGGLARYLAETFGCS-VVALNLSEKENERARKLNKERGLDDKIEVVDGSFENIP--AEDKA-----FDVIFSQDAILHSGQ--REKVLQEVARVLKPGGKFIFTDPMAADDC-PAGVLEPILNRIHLSSLGSPAFYRETAAKFGMKEL------------NFEELTHQLVNHYSRVLQETEKHEAE----LT-KK-VDKAYVERMKTGLGHWINGGKNGHLAWGFFVFEKE-- D6SRK5/20-282 -DACIFYTEVWGGEEHHLGIYRR-----PEDTLYEASKRTIDRMASYSRN--LKELKDKARVLDLGSGYGGTARHLAKTFGCR-VVGLNLSETENNRHREMNREQGLDHLIEVVDGNFENVP--YEDNS-----FDVAWSQDAFLHSPD--RKKVLGEAARVIKPGGELIFTDPMQTEDA-YAEYLDPILKRIHLTSMATPTFYIQAAQEAGLKLK------------SFENLQVQLANHYAKVLEDTIKMEDE----LR-KKDVSQEYLDNMKKGLQHWSTGGKHGHLTWAIFCFEKA-- A1ZP64/18-276 HEADQFYYKIWGGEDIHVGIYNL-----NNTSIFAASKTTVGTMGQML------DITPNTHILDIGSGYGGAARQLVRKYGCK-VTCLNLSQVENERNRSKNEEEKLSHLITVQEGNFEELP--FNDAT-----FDVVWSEDAILHSGN--KPQVFAEVQRVLKSGGEFIFTDPMQSDDC-PEGVLDNVLARVYLEALGSVKLYRALAKENNLKEK------------QVIEMPEQLITHYTKVLAELNRSYES----II-EA-SNKTYIDQMKNNLEHWIEAGKNKHLNWGILHFSKV-- Q1NXX2/18-278 DDADIFYHTVWGGEDIHIGLYDT-----PDEDIATASRRTVEHMARRL-----QNLGKDSYVLDLGAGYGGSMRYLARTFGCR-CVALNLSEAENERDRQKNREQGLENLIEVVDDDFTNLH--YQDAT-----FDLVWSQDAFLHSGD--RAKVIAEAARVLKPGGELLFTDPMQTDDA-DPATLQPVYDRIHLSSLGSPGFYRQQAAKLGLTEV------------AFEDHSHQLANHYGKVLAELERMEQQ----CREAG-VSQAYIDRMKTGLGHWINNAKQGNLAWGIFHFHKP-- G2E0T4/19-279 EDADNFYFHVWGGEDIHIGLYES-----TDSPIAESSRRTVERMSTSV-----QGLGPETRALDLGSGYGGAARYLAKTFGCS-VTALNLSERENARNREMSQEQGVGHLIEVVEGSFESVP--APDAS-----FDLVWSQDAILHSGE--RDQVIREAARVLRPGGTLIFTDPMQADDC-PDGVLQPVYDRIHLDSLGSIGFYRAAAARHGLQEV------------EVIELTPNLIVHYARVQQELERVRSD----LD-GL-VSEAYIDRMLAGLGHWVEAGEKGYLSWGILHFSKPS- F9UE54/19-279 EDADNFYFHVWGGEDIHIGIYDT-----ADEAIADASRRTVERMAALV-----PGLGPETRVLDMGAGYGGAARWLAGKLGCR-ITALNLSERENARHREMNRTQGLDHLIEVVDGSFENVP--SPDGN-----YDLVWSQDAILHSGR--REQVIAEAARVLRPGGRLVFTDPMQADNC-PSGVLEPVLARIHLDSLGSIGAYRAAAAGHGLAPV------------EVLEMTENLVTHYKRVREDLIRKRES----LA-GK-VSDAYVDRMITGLGHWVDAGASGYLRWGILHFKKAS- A0A0N0E7K6/303-562 NDADTFYSTIWGGEDLHLGIYD------DTNDVKDAGFATIDRMCSIL-----PELNADSKVIDLGSGYGGTGRYLANKFNCR-VTGLNLSDTQNDRNRLMVKRANLQDNITVTHGNFEDIP--AANDS-----FDIVWSQDAFLHSDA--REKILAESFRVLKNGGTMIFTDPMQADIC-PEGVLQPIYDRLHLTSLASFSSYIELAKLIGFEVE------------ATTDLSTQLPKHFSRIKEELIANREK----VA-EG-ASEEYIENMLRGLDRWIDGGEQGYLAWGIIKLKKPA- A0A1I1SN35/301-560 DDADTFYSLVWGGQDLHVGCYD------ETPDIREASDVTIDRMVEML-----PEIKPDTRILDIGAGYGGAMRKVIGEHGGT-ATCLNISEIQNDTNRLRNRQQGFVEKINVIHGVFEDIP--EPAAS-----YDIVWSQDAILHSDQ--REKVLEEVWRVLKSGGYFIFTDPQQSDHA-DPAQLQPVYDRLQLTNLGSPGFYRQAAEKIGFETI------------EQRDMTNQLRTHYFRVREELMGNYDK----LR-AAGASSEYLDKMSSGLENWVKAADEGNLHWGIQLFRKP-- A0A0F0HW90/21-280 -EVDGFYSAVWGGEDIHTGSYAD-----EREPIAAASRRTVERAAAKI----ADRLGPEATVLDLGSGYGGATRHLAERFGCR-VVALNISESQNERHRRTNAERGLDRLVEVVTGSFQDIP--FPDGR-----FDVVWSQEAFCHSPD--RTRLLTEAVRVLRPQGDLIFTDVMAADGV-PPEALRTVVARLEVTALAAPEYYRKQIAELGLTRI------------DFEDDSAQLLTHYLRLEEETRRRAAE----LR-DL-LGPGYLAGLLENLPLWVDACRAGRLSWGIFHCRGD-- S3ZSL0/285-555 SDADTFYAKVWGGEDIHIGLYEG-----AGEPIADASRRTVERMAGKL------GLTRDSVVLDLGSGYGGSARYLASTYGCR-VLALNLSEVENKRHKELNHARGLSGLIEVVDGSFEDIP--YPDDV-----VDVVWSQDAFLHSGN--RARVLEEVTRVLRPGGQLIFTDPMAVDNC-PPGVLQPILDRIHLDNMGSPGFYKRELEGLGFVPSGGGPAGP-GGTGGFEEHREQLITHYARVLEETERQEVQ---GLA-GQ-VSHDYLTQMKKGLARWVAAGRDGHITWGILHFRRG-- D3Q9F9/314-572 SDADNFYHTIWGGNDIHIGIYEP-----GDGDIAAASRRTVEKMASRL------ELDENSRVIDLGSGYGGSARYLAATYGCQ-VTCLNLSEVENTRNREANQQAGLDHLIDVLDGSFEEIP--VPDKD-----FDVVWSQDAILHSGD--RVRVLEEVARVLRTGGAFVFTDPMAADNA-DREVLRPILKRLDLDSMGTPGFYERECAGQGMAKV------------DYEDLLPHLSTHYAAVLAETERREAE----LL-KD-VSPEYLERMKTGLQRWVDGGHSGDLAWGVFHFTKR-- A0A0C2G346/263-520 SDADTFYHTIWGGTDIHVGLYQS-----ENDDIGEASVRTVERMAEKV------RITPDTKVIDIGAGYGGSARWLARTYGCH-VTCLNLSEVENERNREKNRAEGLDHLIHVIDGSFEDIP--VQDNG-----FDLVWSQDAFLHSGD--RIRVIEEVARVIRRGGDFVFTDPMATDDA-DRQALKPILQRLHLDTMGTPGFYDRETARLGMTKA------------EFDDLTSQLPNHYGRVLAETERREPE----LK-GK-ISDAYLEHMKTGLRNWVNGGKSGSLAWGISHYRA--- A0A1N6FN44/23-287 KDADYFYSQIWGGEDIHIGLYEA-----VDEAINEASQRTVVTMAGRL-----SGLDADCHVLDIGSGYCGAARYLAKTYGIR-VTGLNLSEVENKKAREHNISAGLSSYIEVCDGSFETMP--FESASSSHNGFDIVWSQDAILHSGN--RQQVFAETYRVLKSGGYFIFTDPMQADDC-PEGVLQPILDRIHLSSLGSPNYYCTIAKALGFEVL------------DFDDQTNQLVNHYQRVLEETEARAAE----LE-GK-VSANYVERMKAGLRYWITGGKAGYLAWGIFLLRKP-- A0A0M9CD39/20-279 ADVDAFYAEVWGGEDIHTGVYAH-----RNESVAVASRRTVELAAAKV----AGRLGPGHTVLDLGSGYGGPARYLARTFGCR-VVALNISESQNQRHRQTNADRGLDGLIEVVTGSFQDIP--YPEDH-----FDVVWSQEAFCHSGD--REQLLGEAVRVLKTTGEMVFTDLMAADTA-PPEALRGAVARLEVEGFATPAFYRRTITGLGLTRF------------DFDDRSDQMLTHYLRLTEETGQRAKE----LA-DV-IHPAYLQVIQENLPLWVEACREGLTSWGIFHCRR--- W9VAU7/20-281 DDADNFYFHIWGGQDIHIGLYQS-----PDEPIADASRRTVEFMAERVG---ARISTQGASMIDLGSGFGGAVRFFAGRFGCR-VMALNLSETENARHRQMNGEAGLGDLIEVVDGSFENIP--AEHGR-----FDLAWSQDAILHSGR--RDQVLAEVDRVLKPGGEFIFTDPMQADDC-PEGVLAPVLDRIHLQSLGSFAFYREQARRLGWEEV------------GVIEMTEQLVTHYQRVADELQAKRAS----LA-GL-VSDGYIDRMLTGLGNWVEGGRRGWLAWGVMHFRKP-- A0A0N1JYF0/236-502 -DADAFYSSVWGGEDIHVGIYAH-----PAEPIADASRRTVERMAAGL------GLTERSRVLDLGSGFGGSARYLAGTYGCT-VQALNLSEVENERHRQLNAQRGLTDRIEVVDGSFEAVP--FADSS-----VDVVWSQDAFLHSGN--RIRVLEEIRRVLKPGGRLVFTDPMAADGT-DLKGIRPILDRIHLDDMGSPGFYTRELTRLGFVPT----EHE-GVAGGFEDLREQLVTHYGRVLEETERQEAE---GLA-AK-VSSDYLTQMKKGLGHWVDGGEQRRLTWGIFRFTLTK- A0A101VS73/19-278 DDADNFYLQIWGGEDIHIGLYAS-----EREDIATASRRTVEKLADRL-----PKLTEGSRVLDIGSGYGGAARYLANRFGCN-VVALNLAEKENTRNRELCAVAGLTHLVEVVDGSFEQIP--LEDAS-----VDAVWSQDAILHSGR--REQVIAEVARVLKPGGDFVFTDPMESGNC-GRADLMPVLERIHLESLGSPEFYHRTAHANGLELV------------AWEEKTPQLIRHYRHVREELSAQRAN----LK-GK-VSEDYIERMLTGLGNWVTAGEKGCLAWGFLHFRKT-- Q112B5/15-276 TETDKLYAAIWGGEHIHYGIYTR-----PDEPIHDASLSTVKTIAQTL-----KKIDQNSRVIDLGAGYGGAARYLAKTYGCS-VCCLNLSQLQNQRNGQLNQEQNLDPLVEITQGSFEDIP--YPNNS-----FDIVWSQDAILHSGD--RCLVFQEIKRILKPGGEFIFTDPMESETF-PPGALQTAFDRLGISDMGSYRFYSQTLKDLGFEEL------------NFIDLSQNVAIHYRRFREEVQKRYNE----VV-KL-TSTEFVDKTLDSIQPWIERYEQGYMQWAILHFRLLEK H5XDS7/312-569 DDADHFYYSVWGGEDIHIGLYAD-----EHEDIATASRRTVEHMAAKV------GLTPSTRVLDIGSGYGGAARHLARTFGCR-VTCLNLSEVENERNRRLTEEQGLSALVEVVNGSFEDLP--FEDDE-----FDVVWSQDAMLHSGD--RVRVLEEVARVLRPAGEFVFTDPMASDDC-DRAVLRPILDRLRLDSLGSPGFYRRELSKLGLSAI------------EFDDHTEQLTVHYRRVLEETQRRHQE----IS-SR-VSETYLTRMKIGLKHWVDGGRAGNLAWGIFHARA--- A0A1E3W8F5/18-274 AEADDFYRTIWGGEDIHVGLYDQ------GPDISAASRRTVERMAAKA-----GSL-KGKHVLDLGSGYGGAARVLAERYGAK-VTCLNLSAVENERNRALTRAAGLDDKITVVDGSFDSIP--FEEAT-----FDLAWSQDAILHAPD--RRAVLDEVSRVLKPGGEFIFTDPMQADALQDPTPLKPIYDRIHLPDLASFGFYREELSGRGFEEV------------EVEELTGHMRTHYSRVTEELDARRDE----LG----ASDAFVNRMLKGLGHWVSGAEGGLLAWGIMHFRKA-- U5T3V9/21-280 EDADNFYALVWGGEDIHVGLYDY-----PQEAIDTASRRSNQVMAEQT-----PGLDASTRVIDLGSGYGGALRYLARHYGCS-GVGLNLSARENARARRKNVEQGLDERIEIVGGNFEEVP--YADDS-----FDVVRSQEAFLHSGD--RRRVMEEAVRVLRPGGILIFTDPMQADDR-SNEGLQPILDRLHLESLGSPAFYRDTLEALGLEEL------------GFDQRGDMIAAHYGRVLEVLIEEEQQ----IA-RA-VSTAYIERMKRGLQHWVDGGRRGDLTWGIFVFRKP-- H8Z6L6/19-278 EDADQFYFHVWGGEDIHIGLYQH-----PGEAIRDASHRTVERMAAKV-----AGLGPESRVLDMGAGYGGAARYLAETFGCQ-VTALNLSETENERDREMNRERGLDQLITVIDGSFEEVP--APDGS-----FDLVWSQDAILHSGR--RAQVIAEAARVLRAGGDLIFTDPMQADDC-PEGVLQPVLDRIHLASLGSIGFYRETAAANGLQEV------------GVEPMVEHLISHYGRVREVLESSRDD----LA-GK-VSDAYIERMITGLGHWVEAGRNGYLDWGILHFRKP-- B2HRK7/303-561 DDANAFYSMIWGGEDIHVGCYE------DTRDIGAAARKTVDRMVRQL-----TRFDGDTRVLDLGAGYGGCARHLASDYGSS-VTCLNISEAQNETNRERNRNAGLDVKIRVVHGSFEAIP--EPDGS-----YDVVWSQDAILHAAD--RRKVIEEAFRVLKAGGELIFTDPMQADEV-PDGVLAPVYDRLNLADLGSMRFYRETALAVGFEVV------------DQIDLVHNLGVHYQRVLEELETRRRE----LE-EH-SSTEYLDKMRVGLRNWVDSAREGHLAWGIQHFRKP-- A0A197SM56/20-280 ADVDAFYDAVWGGEDIHTGIYTH-----DEESIATASRRTVEQAADKV----SALLSAQSTVLDLGSGYGGATRYLAERFGCR-VVALNLSESQNARHRATNAERGLDALIEVVTGSFHDIP--FPDRR-----FDVVWSQEAFCHSGD--RTRLLSEAVRVLKPEGALVFTDLMAAEDV-PVRTLRPAVSRLGVDALATPNLYRDTLAGLGLSRT------------DFDDRSGQVLTHYERLTAETGRREHE----LR-RI-ISPAYVDGLLANLPLWVDAAHRGHLRWGIFHCRRA-- A0A0M8S881/21-280 SDVDAFYGTVWGGEDIHTGVYVH-----PDEPLAVASRRTVEIAASKV----AGRLGPGSVVLDLGSGYGGPTRYLAETFGCQ-VVALNISEAQNERHRKTNAERGLDGLITVVTGSFQDIP--SPDRH-----FDVVWSQEAFCHSGD--REELLSEAVRVLKPQGHLVFTDLMAADHT-PPQALRPVIARLEVDGFATPAFYRRQLTALGLTSV------------DFDDRSDQMLTHYLRLTEETRQRAKE----LQ-GL-ISPAYLKGLLENLPLWVEACRNNLTSWGIFHAHR--- A0A0P7Z0C5/22-279 SDAIEFYSTIWGGEDIHVGIYDD------TRDIREASAKTVDTMAGLL-----GDL-SDARVLDIGSGYGGGARRLVTKHGARSVVCLNIAEEENARNRKLTGEAGLSDRIDVVDGSFDALP--FGDAG-----FDVVWSQDAILHAPD--RGAVLDEVARVLKSGGRFVFTDPMQADGLSDTGALQPIYDRIHLENLASFAFYREGLKARGLAEI------------EVQDRSGELRNHYARVAEELDARRDE----LS----ASDAFVDRMITGLGHWVRGADEGRLTWGIMLFRKA-- A0A1H1PDB9/22-279 SDAIEFYSTIWGGEDIHVGIYDD------TRDIREASAKTVDTMAGLL-----GDL-SDARVLDIGSGYGGGARRLVTKHGARSVVCLNIAEEENARNRKLTGEAGLSDRIDVVDGSFDALP--FGDAG-----FDVVWSQDAILHAPD--RGAVLDEVARVLKSGGRFVFTDPMQADGLSDTGALQPIYDRIHLENLASFAFYREGLKARGLAEI------------EVQDRSGELRNHYARVAEELDARRDE----LS----ASDAFVDRMITGLGHWVRGADEGRLTWGIMLFRKA-- H5WZU3/312-569 DDADNFYYTIWGGEDIHVGLYQT-----PDEPIAPASVRTVERMAGKL------GLSASNRVLDIGAGYGGAARYLARTYGCR-VTCLNLSEVENERNRAYNAEQGLADLIDVVDGSFEDLP--FEDNE-----FDVVWSQDAMLHSGD--RVRVLQEVTRVLKPRGQFVFTDPMAADNC-DKAALRPILERLHLDSMGSPGFYERELHRLGMSSI------------EFEDHTPQLATHYGRVLEETQRRHDE----LS-GS-VSDEYLTRMKTGLKNWVEGGRAGNLAWGIFHVRA--- A0A1N6H9Q9/301-560 DDADTFYSKIWGGEDLHIGLYD------ETSDIRAASDRTIATMLDRL-----PDLTAESRVLDMGSGYGGAMRTVVRKTGCK-AVCLNLSETQNEYNLGKVRQAGLRDRIDVRHGVYEDVP--AEDAS-----FDAVWSQDAFLHSDQ--RDKALAEAWRVLKPGGHLIFTDPMQADDV-PEGVLQPVYDRLQLNSLGSPRSYRQAAEAIGFETV------------AQEDMVAQLRTHYARVREELLANYQM----LR-DEGASAEYLDKMAVGLENWVKAADAGHLAWGIQHFRKP-- T2RWA1/311-568 EDADNFYFHVWGGNDIHVGLYQS-----PDEDIDSASRRTVERMAAKV------RITPETRVLDIGAGYGGAARHLARTYGCK-VACLNLSEVENARNIEFNRAEGLDELIEVKDGSFEDIP--YEDNA-----FDIVWSQDAILHSGD--RERVLEEVTRVLKGGGSFVFTDPMAADGA-RTSDLGPILDRLHLDTMGSPGFYRRELARLGLQTV------------DFEDLSEYLPVHYGRVLEVLESREQE----LS-DR-IGEDYRNRMKTGLRNWVEAGNAGNLAWGIFHAQS--- A4FGJ7/311-568 EDADNFYFHVWGGNDIHVGLYQS-----PDEDIDSASRRTVERMAAKV------RITPETRVLDIGAGYGGAARHLARTYGCK-VACLNLSEVENARNIEFNRAEGLDELIEVKDGSFEDIP--YEDNA-----FDIVWSQDAILHSGD--RERVLEEVTRVLKGGGSFVFTDPMAADGA-RTSDLGPILDRLHLDTMGSPGFYRRELARLGLQTV------------DFEDLSEYLPVHYGRVLEVLESREQE----LS-DR-IGEDYRNRMKTGLRNWVEAGNAGNLAWGIFHAQS--- M2AZE7/20-279 SDADTFYAEVWGGEDIHIGIYQS-----SDEPISRASHRTVQHLTERL-----RGIDASSVILDIGSGYGGAARHLARHFGCR-VIGLNLSETENTRHRQLNEQAGLNDQIEVIDGAFESIP--LANNH-----VDVVWSQDAILHSGD--RKQVLREVNRVLRPGGQFVFTDPMRADDC-PAEALTAILERIHLPDLGSTEFYRRAADELGWQDN------------GFEAMPEQLVNHYSRVLEMTEANSTD----LA-DK-VSASYLERMKVGLRHWIDGGRAGCLNWGVFLFQKS-- Q0G1C9/303-562 DDADTFYSTIWGGEDLHIGLYD------ETKDVREASDKTVDRMIDKL-----PELGSDARVIDFGAGYGGSMRRLVKKYGCE-AVCLNISAAQNDRNRYLVRQAGLRDKITVEHGVFEDVP--AENES-----FDVVWSQDSILHSND--RQKVLSEAYRVLKPGGTMVFTDPAQADDA-DSTELQPVYNRIGLQDLGSHRFYREAAQAVGFEVV------------EQEEMLHQLRSHYARIREELLANSTK----LR-DSGVSVEYIENMATGLQHWVDAADKGNLAWAIHVLKKP-- A0A0P0ZAP8/303-562 DDADTFYSTIWGGEDLHIGLYD------ETKDVREASDKTVDRMIDKL-----PELGSDARVIDFGAGYGGSMRRLVKKYGCE-AVCLNISAAQNDRNRYLVRQAGLRDKITVEHGVFEDVP--AENES-----FDVVWSQDSILHSND--RQKVLSEAYRVLKPGGTMVFTDPAQADDA-DSTELQPVYNRIGLQDLGSHRFYREAAQAVGFEVV------------EQEEMLHQLRSHYARIREELLANSTK----LR-DSGVSVEYIENMATGLQHWVDAADKGNLAWAIHVLKKP-- A0A0H1AG00/300-559 NDADTFYSTIWGGEDLHIGIYD------STHDIRIASDETVDRMAALI-----PDLGQSTRVLDIGAGYGGSMRRLARNFGCS-ATCLNISEMQNDYNRAKTRRAGLASSINIVHAAFEDIP--ETDEA-----YDLVWSQDALLHSDQ--REKALEEVWRVLKPGGYFVFTDPCQKDDV-PEGVLQPVYDRLQLSNLASFRFYREVAEALGFEML------------RQDDMTRHLRIHYERVREELDANYDR----LR-ENGASTEYLDKMKIGLTNWIKGAEDGYLAWGIQLLRKP-- S3B1Y7/216-482 -DADAFYSSVWGGEDIHVGIYAH-----PAEPIADASRRTVERMAAGL------GLTERSRVLDLGSGFGGSARYLAGTYGCT-VQALNLSEVENERHRQLNAQRGLTDHIEVVDGSFEAVP--FADSS-----VDVVWSQDAFLHSGN--RIRVLEEIRRVLKPGGRLVFTDPMAADGT-DLKGIQPILDRIHLDDMGSPGFYTRELTRLGFVPT----EHE-GVAGGFEDLREQLVTHYGRVLEETERQEAE---GLA-AK-VSSDYLTQMKKGLGHWVDGGEQRRLTWGIFRFTLTK- A0A0W7X1B4/286-547 ADADAFYAEVWGGEDIHIGLYER-----PGEPIADASRRTVEAMAAKL------NLTEDSVVLDLGSGYGGSARYLASTYGCR-VLALNLSEVENQRHKELNRRRSLSGLIEVVDGSFEDIP--YPDAA-----VDVVWSQDAFLHSGN--RARVLEEVSRVLRPDGQVIFTDPMADDDC-PPGVLQPILDRIHLDDMGSPGFYARELARLGFAPA----------GEGFEEHRAELVTHYARVLEETERQEAD---GLA-RL-VSHDYLTQMKLGLARWVAAGRDGHITWGILHYRRG-- Q7V823/16-275 SDADRFYAEIWGGEDIHIGLYET-----ADQAIASASERTVQALMELA-----TQPPAKGCVVDLGSGYGGAARRIAKQWQVN-VHAVNISAVENMRHRDLNNAAGLAKLIEVHDASFEEVP--LPDGI-----ADVVWSQDAILHSGN--RLQVMNEVSRLLKPGGVFVLTDPMACDGI-EANALQPILDRIHLSDLASPDRYRTWAEASGMTRD------------VWQERTEMLVRHYTRVREELRRRHQE----LA-SV-ISTDYLSRMDAGLGHWIEGGSQGRLCWGLMRFTKH-- A7HX31/20-278 -DADSFYFTIWGGEDIHIGMYKD-----DNEAIVPASHRNDETLASML-----QGIGETSKVLDIGAGYGGAARHLAKTRGCH-VTCVNISETQNKLNRELNRKAGLEERVDVVHGDFENIP--ADDES-----MDVVWSQDAILHSGN--RPRVLDEVKRVLKPGGQFIFTDPMQADDC-PEGVLQPILDRIHLETLGSFDFYDRELGRRDFKKV------------EVKVLTHQLRRHYWRVGEELKANYER----LS-KG-ASTTYLDNMIKGLGHWVDGADKGYLAWGVMHYRLA-- W0E1D4/19-279 EDADNFYFHVWGGEDIHIGIYQH-----AEEAIATASRRTVERMAAVA-----APITPETRVLDIGSGFGGAARYLAATFGCT-VTCLNLSEKENARNRAMRREQGLEDRIDVRDGSFESIP--LADAS-----VDLVWSQDAILHSGE--RERVIAEVARVLRPGGRFVFTDPMQADDC-PSGVLKPVLERIHLSTLGSFRFYRTTALDNGLEEV------------EIIDLTEQLAVHYSRVGEVLERSREQ----LA-GK-ISANYAARMQEGLARWVDAGRAGYLRWGIMHFRKRT- C7MUL3/302-559 DDADNFYYSIWGGEDIHIGLYER-----ADEDIAIASRRTVERMAAKI------GVSSSTRVLDIGSGYGGAARYLAKTFGCR-VTCLNLSEVENDRNRRFTAEQGLTDLIEVVDGSFEDLP--FDDNE-----FDVVWSQDAMLHSGD--RVRVLQEVVRVLKPKGEFVFTDPMAADDC-DKAALKPILDRLHLDSMGSPGFYRAELGRLGLARI------------EFEDHSEQIATHYGRVLEETERRHSE----IS-GK-VSESYLTRMKIGLKNWVEGGRAGNLTWGIFHARA--- I1D4R6/312-569 DDADNFYYSIWGGEDIHIGLYAD-----EHEDIATASRRTVEHMASKV------GFTPSTRVLDIGSGYGGAARYLAKTFGCR-VTCLNLSEVENERNRRFTAEQGLSELVEVVNGSFEDLP--FEDDA-----FDVVWSQDAMLHGGD--RVRVLEEVARVLRPGGEFVFTDPMASDDC-DRTVLQPIFDRLHLDSLGSPGFYRRELSKLGLSVV------------EFEDHTEQLAVHYQRVLEEAQRRHEE----IS-SK-VSETYLTRMKIGLKHWVDGGRAGNLAWGIFHARA--- A0A0T5P4J3/301-561 DDADTFYSTIWGGEDLHIGRYS------TTKNIREASDLTIEGMIDAL-----PDLKSGSRVLDLGAGYGGAMRTVVKKTGCE-AVCLNISETQNEYNLGKVRAARLADKIGIRHGVFEDVP--EADES-----VDVVWSQDAFLHSDQ--RDQVLAEAFRVLKPGGHLIFTDPMQADDV-PDGVLQPVYDRLQLNSLGSPAFYRKTAEALGFETV------------QQEDAVADLRAHYARVREELLAHYNE----LR-EKGCSAEYLDKMAVGLENWVKAADDGHLAWGIQQFRKPV- A0NW22/303-562 DDADTFYSLVWGGQDLHIGLYD------ETSNIREASDLTIDEMAGML-----PNLGADAKVLDIGSGYGGAMRKLVKASGCS-AVCLNISDVQNDTNRHRNIQQGFKDRIRVQHGVFEDIP--EQPES-----FEIVWSQDAILHSDQ--RHKVLQEVYRVLKPGGYFIFTDPMQADDA-DPKALQPVYDRLQLNSLGSMRFYRETAESLGFETV------------EQRDMTQQLRNHYFRVREELLANYDK----LR-NEGASAEYLDKMSIGLMNWVNAADAGQLAWGIQLFRKP-- #=GC scorecons 3878489336998787869584200000345483488568754654350000023534444779696988956847644476407357968546947573464447744474845768746800346440000058678888757975500835764853978767836688978558540434485865596684476754696435334854340000000000004446344573388387366534533500007303204734854573378358745543737488744555200 #=GC scorecons_70 _***_**__**********_*___________*__**_***__*_________________***_*_****_**_**___*___*__****__**_*_*______**___*_*__*_**__*____*________*_******_***____*__*__*__*******__******__*_______*_**__**_*__***__**_______*___________________*____*__**_**__*___________*______*__*___*__**__**_____*_*_***________ #=GC scorecons_80 _***_**___*******_*_*___________*__**__**____________________*_*_*_****__*_*____*___*__**_*___*___*______**___*_*__*_**__*_____________*_******_***____*__*__*__****_**___*****__*_______*_*___*__*____*___*_______*________________________*__**_**_____________________*__*___*__**__**_____*_*_***________ #=GC scorecons_90 ___*_**___***_*_*_*_*___________*__**__*_______________________*_*_****__*______________*_*___*_________________*____*___*_____________*__****___*_____*_____*__*_*___*____**_*__*_______*_____*__*________*_______*___________________________**_*_________________________*_______*__*__________*__________ //