# STOCKHOLM 1.0 #=GF ID 3.30.230.10/FF/28088 #=GF DE DNA mismatch repair protein MutL #=GF AC 3.30.230.10/FF/28088 #=GF TP FunFam #=GF DR CATH: 4.2 #=GF DR DOPS: 94.635 #=GS 1b62A02/223-337 AC P23367 #=GS 1b62A02/223-337 OS Escherichia coli K-12 #=GS 1b62A02/223-337 DE DNA mismatch repair protein MutL #=GS 1b62A02/223-337 DR CATH; 1b62; A:217-331; #=GS 1b62A02/223-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS 1b62A02/223-337 DR GO; GO:0000018; GO:0003677; GO:0005515; GO:0005524; GO:0006298; GO:0016887; GO:0032300; GO:0042802; #=GS 1b63A02/219-332 AC P23367 #=GS 1b63A02/219-332 OS Escherichia coli K-12 #=GS 1b63A02/219-332 DE DNA mismatch repair protein MutL #=GS 1b63A02/219-332 DR CATH; 1b63; A:217-330; #=GS 1b63A02/219-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS 1b63A02/219-332 DR GO; GO:0000018; GO:0003677; GO:0005515; GO:0005524; GO:0006298; GO:0016887; GO:0032300; GO:0042802; #=GS 1bknA02/220-329 AC P23367 #=GS 1bknA02/220-329 OS Escherichia coli K-12 #=GS 1bknA02/220-329 DE DNA mismatch repair protein MutL #=GS 1bknA02/220-329 DR CATH; 1bkn; A:217-326; #=GS 1bknA02/220-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS 1bknA02/220-329 DR GO; GO:0000018; GO:0003677; GO:0005515; GO:0005524; GO:0006298; GO:0016887; GO:0032300; GO:0042802; #=GS 1bknB02/220-329 AC P23367 #=GS 1bknB02/220-329 OS Escherichia coli K-12 #=GS 1bknB02/220-329 DE DNA mismatch repair protein MutL #=GS 1bknB02/220-329 DR CATH; 1bkn; B:617-726; #=GS 1bknB02/220-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS 1bknB02/220-329 DR GO; GO:0000018; GO:0003677; GO:0005515; GO:0005524; GO:0006298; GO:0016887; GO:0032300; GO:0042802; #=GS 1nhhA02/219-331 AC P23367 #=GS 1nhhA02/219-331 OS Escherichia coli K-12 #=GS 1nhhA02/219-331 DE DNA mismatch repair protein MutL #=GS 1nhhA02/219-331 DR CATH; 1nhh; A:217-329; #=GS 1nhhA02/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS 1nhhA02/219-331 DR GO; GO:0000018; GO:0003677; GO:0005515; GO:0005524; GO:0006298; GO:0016887; GO:0032300; GO:0042802; #=GS 1nhiA02/219-332 AC P23367 #=GS 1nhiA02/219-332 OS Escherichia coli K-12 #=GS 1nhiA02/219-332 DE DNA mismatch repair protein MutL #=GS 1nhiA02/219-332 DR CATH; 1nhi; A:217-330; #=GS 1nhiA02/219-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS 1nhiA02/219-332 DR GO; GO:0000018; GO:0003677; GO:0005515; GO:0005524; GO:0006298; GO:0016887; GO:0032300; GO:0042802; #=GS 1nhjA02/219-332 AC P23367 #=GS 1nhjA02/219-332 OS Escherichia coli K-12 #=GS 1nhjA02/219-332 DE DNA mismatch repair protein MutL #=GS 1nhjA02/219-332 DR CATH; 1nhj; A:217-330; #=GS 1nhjA02/219-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS 1nhjA02/219-332 DR GO; GO:0000018; GO:0003677; GO:0005515; GO:0005524; GO:0006298; GO:0016887; GO:0032300; GO:0042802; #=GS P23367/217-330 AC P23367 #=GS P23367/217-330 OS Escherichia coli K-12 #=GS P23367/217-330 DE DNA mismatch repair protein MutL #=GS P23367/217-330 DR GENE3D; cc0b2101ac2383888b6f2403b33495c2/217-330; #=GS P23367/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS P23367/217-330 DR GO; GO:0000018; GO:0003677; GO:0005515; GO:0005524; GO:0006298; GO:0016887; GO:0032300; GO:0042802; #=GS Q83CM9/216-328 AC Q83CM9 #=GS Q83CM9/216-328 OS Coxiella burnetii RSA 493 #=GS Q83CM9/216-328 DE DNA mismatch repair protein MutL #=GS Q83CM9/216-328 DR GENE3D; 2269452af6618c73427f626dcea6a9a1/216-328; #=GS Q83CM9/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Coxiellaceae; Coxiella; Coxiella burnetii; #=GS Q83CM9/216-328 DR GO; GO:0006298; #=GS Q8EJ70/217-327 AC Q8EJ70 #=GS Q8EJ70/217-327 OS Shewanella oneidensis MR-1 #=GS Q8EJ70/217-327 DE DNA mismatch repair protein MutL #=GS Q8EJ70/217-327 DR GENE3D; 461fb045df5aa7c4df96a5bed8240ec7/217-327; #=GS Q8EJ70/217-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella oneidensis; #=GS Q8EJ70/217-327 DR GO; GO:0006298; #=GS A0KGR9/217-329 AC A0KGR9 #=GS A0KGR9/217-329 OS Aeromonas hydrophila subsp. hydrophila ATCC 7966 #=GS A0KGR9/217-329 DE DNA mismatch repair protein MutL #=GS A0KGR9/217-329 DR GENE3D; 0495b4432898c051e736a9fe2ff9e8f5/217-329; #=GS A0KGR9/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas hydrophila; Aeromonas hydrophila subsp. hydrophila; #=GS A0A0H3CEU6/217-330 AC A0A0H3CEU6 #=GS A0A0H3CEU6/217-330 OS Enterobacter cloacae subsp. cloacae ATCC 13047 #=GS A0A0H3CEU6/217-330 DE DNA mismatch repair protein MutL #=GS A0A0H3CEU6/217-330 DR GENE3D; 09d980edb55f741e79dfef2c2aa92ee8/217-330; #=GS A0A0H3CEU6/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; Enterobacter cloacae subsp. cloacae; #=GS Q579M7/215-327 AC Q579M7 #=GS Q579M7/215-327 OS Brucella abortus bv. 1 str. 9-941 #=GS Q579M7/215-327 DE DNA mismatch repair protein MutL #=GS Q579M7/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS Q579M7/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS B2FN36/220-332 AC B2FN36 #=GS B2FN36/220-332 OS Stenotrophomonas maltophilia K279a #=GS B2FN36/220-332 DE DNA mismatch repair protein MutL #=GS B2FN36/220-332 DR GENE3D; 20179c405ab76599ea5c8f27a7550c9a/220-332; #=GS B2FN36/220-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas maltophilia; #=GS C9R3G3/217-329 AC C9R3G3 #=GS C9R3G3/217-329 OS Aggregatibacter actinomycetemcomitans D11S-1 #=GS C9R3G3/217-329 DE DNA mismatch repair protein MutL #=GS C9R3G3/217-329 DR GENE3D; 25d4f9aa10b6f0bf0dc7101091766895/217-329; #=GS C9R3G3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Aggregatibacter; Aggregatibacter actinomycetemcomitans; #=GS Q5E2C6/217-329 AC Q5E2C6 #=GS Q5E2C6/217-329 OS Vibrio fischeri ES114 #=GS Q5E2C6/217-329 DE DNA mismatch repair protein MutL #=GS Q5E2C6/217-329 DR GENE3D; 2ca4e2983ae134bd787f2142fba7a81d/217-329; #=GS Q5E2C6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Aliivibrio; Aliivibrio fischeri; #=GS Q89DE6/216-328 AC Q89DE6 #=GS Q89DE6/216-328 OS Bradyrhizobium diazoefficiens USDA 110 #=GS Q89DE6/216-328 DE DNA mismatch repair protein MutL #=GS Q89DE6/216-328 DR GENE3D; 3279e912a8c2317ccdaca56d39ac9ad5/216-328; #=GS Q89DE6/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium diazoefficiens; #=GS Q2RQ52/217-329 AC Q2RQ52 #=GS Q2RQ52/217-329 OS Rhodospirillum rubrum ATCC 11170 #=GS Q2RQ52/217-329 DE DNA mismatch repair protein MutL #=GS Q2RQ52/217-329 DR GENE3D; 378fe302d38018d676fdd90b82de926b/217-329; #=GS Q2RQ52/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Rhodospirillum; Rhodospirillum rubrum; #=GS A3N3P6/222-335 AC A3N3P6 #=GS A3N3P6/222-335 OS Actinobacillus pleuropneumoniae serovar 5b str. L20 #=GS A3N3P6/222-335 DE DNA mismatch repair protein MutL #=GS A3N3P6/222-335 DR GENE3D; 38e8f4c42b0f6301e8619a9d61959401/222-335; #=GS A3N3P6/222-335 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; #=GS P44494/217-329 AC P44494 #=GS P44494/217-329 OS Haemophilus influenzae Rd KW20 #=GS P44494/217-329 DE DNA mismatch repair protein MutL #=GS P44494/217-329 DR GENE3D; 43b0460b200292b63d0c295721319827/217-329; #=GS P44494/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus influenzae; #=GS Q9JTS2/213-325 AC Q9JTS2 #=GS Q9JTS2/213-325 OS Neisseria meningitidis Z2491 #=GS Q9JTS2/213-325 DE DNA mismatch repair protein MutL #=GS Q9JTS2/213-325 DR GENE3D; 578dd4232857a92cff718eb9f73fa8f9/213-325; #=GS Q9JTS2/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria meningitidis; #=GS Q8UHI3/212-324 AC Q8UHI3 #=GS Q8UHI3/212-324 OS Agrobacterium fabrum str. C58 #=GS Q8UHI3/212-324 DE DNA mismatch repair protein MutL #=GS Q8UHI3/212-324 DR GENE3D; 595e59c50a93e22b5a99b7194d6c632a/212-324; #=GS Q8UHI3/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium tumefaciens complex; Agrobacterium fabrum; #=GS A6TH85/217-330 AC A6TH85 #=GS A6TH85/217-330 OS Klebsiella pneumoniae subsp. pneumoniae MGH 78578 #=GS A6TH85/217-330 DE DNA mismatch repair protein MutL #=GS A6TH85/217-330 DR GENE3D; 5966f5155ca628c420246968c1f9ef7f/217-330; #=GS A6TH85/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella pneumoniae; Klebsiella pneumoniae subsp. pneumoniae; #=GS P0CAV5/223-335 AC P0CAV5 #=GS P0CAV5/223-335 OS Caulobacter crescentus CB15 #=GS P0CAV5/223-335 DE DNA mismatch repair protein MutL #=GS P0CAV5/223-335 DR GENE3D; 5d4daba075ecd383c47a5cdc037b4df0/223-335; #=GS P0CAV5/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter vibrioides; #=GS P57886/217-329 AC P57886 #=GS P57886/217-329 OS Pasteurella multocida subsp. multocida str. Pm70 #=GS P57886/217-329 DE DNA mismatch repair protein MutL #=GS P57886/217-329 DR GENE3D; 67042800b176a48073f1f01c80a4b7c0/217-329; #=GS P57886/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Pasteurella; Pasteurella multocida; Pasteurella multocida subsp. multocida; #=GS Q73FM2/212-324 AC Q73FM2 #=GS Q73FM2/212-324 OS Wolbachia endosymbiont of Drosophila melanogaster #=GS Q73FM2/212-324 DE DNA mismatch repair protein MutL #=GS Q73FM2/212-324 DR GENE3D; 69315250237a0253f422d77f6a200384/212-324; #=GS Q73FM2/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Anaplasmataceae; Wolbachieae; Wolbachia; Wolbachia endosymbiont of Drosophila melanogaster; #=GS C1DLQ0/221-333 AC C1DLQ0 #=GS C1DLQ0/221-333 OS Azotobacter vinelandii DJ #=GS C1DLQ0/221-333 DE DNA mismatch repair protein MutL #=GS C1DLQ0/221-333 DR GENE3D; 6b4728b27e7be5074fe13139b6959c76/221-333; #=GS C1DLQ0/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Azotobacter group; Azotobacter; Azotobacter vinelandii; #=GS Q9KV13/217-329 AC Q9KV13 #=GS Q9KV13/217-329 OS Vibrio cholerae O1 biovar El Tor str. N16961 #=GS Q9KV13/217-329 DE DNA mismatch repair protein MutL #=GS Q9KV13/217-329 DR GENE3D; 6edf2e1aa10d660e0502b2012af71852/217-329; #=GS Q9KV13/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS Q8XWB1/218-329 AC Q8XWB1 #=GS Q8XWB1/218-329 OS Ralstonia solanacearum GMI1000 #=GS Q8XWB1/218-329 DE DNA mismatch repair protein MutL #=GS Q8XWB1/218-329 DR GENE3D; 7399c236e2b0acf5f60d055927813ed5/218-329; #=GS Q8XWB1/218-329 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Ralstonia; Ralstonia solanacearum; #=GS Q7W0A6/213-325 AC Q7W0A6 #=GS Q7W0A6/213-325 OS Bordetella pertussis Tohama I #=GS Q7W0A6/213-325 DE DNA mismatch repair protein MutL #=GS Q7W0A6/213-325 DR GENE3D; 89be9413d5bc1370fb5354adb3b4ffd7/213-325; #=GS Q7W0A6/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Bordetella; Bordetella pertussis; #=GS Q3JP24/236-348 AC Q3JP24 #=GS Q3JP24/236-348 OS Burkholderia pseudomallei 1710b #=GS Q3JP24/236-348 DE DNA mismatch repair protein MutL #=GS Q3JP24/236-348 DR GENE3D; 93071c474ff32bfa5733b8256b9abe43/236-348; #=GS Q3JP24/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS Q9ZC88/217-329 AC Q9ZC88 #=GS Q9ZC88/217-329 OS Rickettsia prowazekii str. Madrid E #=GS Q9ZC88/217-329 DE DNA mismatch repair protein MutL #=GS Q9ZC88/217-329 DR GENE3D; 943db438032fc63192749d188b357f69/217-329; #=GS Q9ZC88/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Rickettsiaceae; Rickettsieae; Rickettsia; typhus group; Rickettsia prowazekii; #=GS Q8P8E4/214-326 AC Q8P8E4 #=GS Q8P8E4/214-326 OS Xanthomonas campestris pv. campestris str. ATCC 33913 #=GS Q8P8E4/214-326 DE DNA mismatch repair protein MutL #=GS Q8P8E4/214-326 DR GENE3D; a06c586089c53f80e8f616314b5b0148/214-326; #=GS Q8P8E4/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas campestris; #=GS P14161/217-330 AC P14161 #=GS P14161/217-330 OS Salmonella enterica subsp. enterica serovar Typhimurium str. LT2 #=GS P14161/217-330 DE DNA mismatch repair protein MutL #=GS P14161/217-330 DR GENE3D; a49e5cd9b11c63f2882f97799335ee9c/217-330; #=GS P14161/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS Q6G4R4/215-327 AC Q6G4R4 #=GS Q6G4R4/215-327 OS Bartonella henselae str. Houston-1 #=GS Q6G4R4/215-327 DE DNA mismatch repair protein MutL #=GS Q6G4R4/215-327 DR GENE3D; a54bf7a297341d175c5068d3afab41e9/215-327; #=GS Q6G4R4/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella henselae; #=GS Q1ILN0/248-354 AC Q1ILN0 #=GS Q1ILN0/248-354 OS Candidatus Koribacter versatilis Ellin345 #=GS Q1ILN0/248-354 DE DNA mismatch repair protein MutL #=GS Q1ILN0/248-354 DR GENE3D; b8242a26a7bcaabecf5eeea96ba728b4/248-354; #=GS Q1ILN0/248-354 DR ORG; Bacteria; Acidobacteria; Acidobacteriia; Acidobacteriales; Acidobacteriaceae; Candidatus Koribacter; Candidatus Koribacter versatilis; #=GS Q73HN9/213-324 AC Q73HN9 #=GS Q73HN9/213-324 OS Wolbachia endosymbiont of Drosophila melanogaster #=GS Q73HN9/213-324 DE DNA mismatch repair protein MutL #=GS Q73HN9/213-324 DR GENE3D; befc72ad6fb635f32f3df28fe5a6caaa/213-324; #=GS Q73HN9/213-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Anaplasmataceae; Wolbachieae; Wolbachia; Wolbachia endosymbiont of Drosophila melanogaster; #=GS Q2GJE2/215-327 AC Q2GJE2 #=GS Q2GJE2/215-327 OS Anaplasma phagocytophilum str. HZ #=GS Q2GJE2/215-327 DE DNA mismatch repair protein MutL #=GS Q2GJE2/215-327 DR GENE3D; c362c63fbb3a987c5e4e9e3df2f69ced/215-327; #=GS Q2GJE2/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Anaplasmataceae; Anaplasma; phagocytophilum group; Anaplasma phagocytophilum; #=GS Q92RP4/212-324 AC Q92RP4 #=GS Q92RP4/212-324 OS Sinorhizobium meliloti 1021 #=GS Q92RP4/212-324 DE DNA mismatch repair protein MutL #=GS Q92RP4/212-324 DR GENE3D; c5a868873da9590ff6b88636781db912/212-324; #=GS Q92RP4/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; #=GS B0V7B0/226-338 AC B0V7B0 #=GS B0V7B0/226-338 OS Acinetobacter baumannii AYE #=GS B0V7B0/226-338 DE DNA mismatch repair protein MutL #=GS B0V7B0/226-338 DR GENE3D; cf2786b17f726e771dacd23e31b0e31b/226-338; #=GS B0V7B0/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter calcoaceticus/baumannii complex; Acinetobacter baumannii; #=GS Q5NHG8/221-333 AC Q5NHG8 #=GS Q5NHG8/221-333 OS Francisella tularensis subsp. tularensis SCHU S4 #=GS Q5NHG8/221-333 DE DNA mismatch repair protein MutL #=GS Q5NHG8/221-333 DR GENE3D; d699f29c717d64118f1ac8c7cf8a2475/221-333; #=GS Q5NHG8/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Francisellaceae; Francisella; Francisella tularensis; Francisella tularensis subsp. tularensis; #=GS Q328E9/217-330 AC Q328E9 #=GS Q328E9/217-330 OS Shigella dysenteriae Sd197 #=GS Q328E9/217-330 DE DNA mismatch repair protein MutL #=GS Q328E9/217-330 DR GENE3D; e4d2326d9cd48df3fcdefe03bb338961/217-330; #=GS Q328E9/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella dysenteriae; #=GS A1B5K3/227-339 AC A1B5K3 #=GS A1B5K3/227-339 OS Paracoccus denitrificans PD1222 #=GS A1B5K3/227-339 DE DNA mismatch repair protein MutL #=GS A1B5K3/227-339 DR GENE3D; e82402d5bf350900532db23a764f9336/227-339; #=GS A1B5K3/227-339 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus denitrificans; #=GS Q1MKU7/212-324 AC Q1MKU7 #=GS Q1MKU7/212-324 OS Rhizobium leguminosarum bv. viciae 3841 #=GS Q1MKU7/212-324 DE DNA mismatch repair protein MutL #=GS Q1MKU7/212-324 DR GENE3D; ed97aec12dc6d8c5f955901d69c0ec96/212-324; #=GS Q1MKU7/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium leguminosarum; #=GS Q3IYV3/232-344 AC Q3IYV3 #=GS Q3IYV3/232-344 OS Rhodobacter sphaeroides 2.4.1 #=GS Q3IYV3/232-344 DE DNA mismatch repair protein MutL #=GS Q3IYV3/232-344 DR GENE3D; efd701f3cd8e4dbaea4586ba5e699d5c/232-344; #=GS Q3IYV3/232-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sphaeroides; #=GS B4F203/217-329 AC B4F203 #=GS B4F203/217-329 OS Proteus mirabilis HI4320 #=GS B4F203/217-329 DE DNA mismatch repair protein MutL #=GS B4F203/217-329 DR GENE3D; fe3374a11e24949e0a832933ff66364e/217-329; #=GS B4F203/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus; Proteus mirabilis; #=GS T1I3E9/78-190 AC T1I3E9 #=GS T1I3E9/78-190 OS Rhodnius prolixus #=GS T1I3E9/78-190 DE Uncharacterized protein #=GS T1I3E9/78-190 DR GENE3D; 1987451720508538108f8e1ef71cdad6/78-190; #=GS T1I3E9/78-190 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Reduvioidea; Reduviidae; Triatominae; Rhodnius; Rhodnius prolixus; #=GS T1I626/1229-1341 AC T1I626 #=GS T1I626/1229-1341 OS Rhodnius prolixus #=GS T1I626/1229-1341 DE Uncharacterized protein #=GS T1I626/1229-1341 DR GENE3D; 28aa517a0622ca266e5661288a1af32d/1229-1341; #=GS T1I626/1229-1341 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Paraneoptera; Hemiptera; Reduvioidea; Reduviidae; Triatominae; Rhodnius; Rhodnius prolixus; #=GS R7U5G4/218-323 AC R7U5G4 #=GS R7U5G4/218-323 OS Capitella teleta #=GS R7U5G4/218-323 DE Uncharacterized protein #=GS R7U5G4/218-323 DR GENE3D; 8097b8db551bebad0a06fdf8efc717e0/218-323; #=GS R7U5G4/218-323 DR ORG; Eukaryota; Metazoa; Annelida; Polychaeta; Scolecida; Capitellida; Capitellidae; Capitella; Capitella teleta; #=GS A0A182KUV1/261-373 AC A0A182KUV1 #=GS A0A182KUV1/261-373 OS Anopheles coluzzii #=GS A0A182KUV1/261-373 DE Uncharacterized protein #=GS A0A182KUV1/261-373 DR GENE3D; a5708ad3069fe3f7f8a41acc78ee09e4/261-373; #=GS A0A182KUV1/261-373 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Nematocera; Culicomorpha; Culicoidea; Culicidae; Anophelinae; Anopheles; Cellia; Anopheles coluzzii; #=GS A0A1A9VJJ8/349-461 AC A0A1A9VJJ8 #=GS A0A1A9VJJ8/349-461 OS Glossina austeni #=GS A0A1A9VJJ8/349-461 DE Uncharacterized protein #=GS A0A1A9VJJ8/349-461 DR GENE3D; c982f1d3da00de93ddd127a8eabfc32e/349-461; #=GS A0A1A9VJJ8/349-461 DR ORG; Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Muscomorpha; Hippoboscoidea; Glossinidae; Glossina; Glossina; Glossina austeni; #=GS Q87VJ2/237-349 AC Q87VJ2 #=GS Q87VJ2/237-349 OS [Pseudomonas syringae] pv. tomato str. DC3000 #=GS Q87VJ2/237-349 DE DNA mismatch repair protein MutL #=GS Q87VJ2/237-349 DR GENE3D; 603db5c66cb4796b5420d4c0a6fe73ed/237-349; #=GS Q87VJ2/237-349 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 3; #=GS Q87VJ2/237-349 DR GO; GO:0006298; #=GS V6F2L0/217-329 AC V6F2L0 #=GS V6F2L0/217-329 OS Magnetospirillum gryphiswaldense MSR-1 v2 #=GS V6F2L0/217-329 DE DNA mismatch repair protein MutL #=GS V6F2L0/217-329 DR GENE3D; 000f77997d1e38aa5ca3364fb8259e7b/217-329; #=GS V6F2L0/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetospirillum; Magnetospirillum gryphiswaldense; #=GS A0A0M4LSN2/215-327 AC A0A0M4LSN2 #=GS A0A0M4LSN2/215-327 OS Bartonella ancashensis #=GS A0A0M4LSN2/215-327 DE DNA mismatch repair protein MutL #=GS A0A0M4LSN2/215-327 DR GENE3D; 002f2126ebbe5f9fa603968d41bc2a47/215-327; #=GS A0A0M4LSN2/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella ancashensis; #=GS A0A0G3QIN3/217-330 AC A0A0G3QIN3 #=GS A0A0G3QIN3/217-330 OS Kluyvera intermedia #=GS A0A0G3QIN3/217-330 DE DNA mismatch repair protein MutL #=GS A0A0G3QIN3/217-330 DR GENE3D; 00457ccea4a937554e9cc709b4494952/217-330; #=GS A0A0G3QIN3/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Kluyvera; Kluyvera intermedia; #=GS J2G8Q6/213-325 AC J2G8Q6 #=GS J2G8Q6/213-325 OS Novosphingobium sp. AP12 #=GS J2G8Q6/213-325 DE DNA mismatch repair protein MutL #=GS J2G8Q6/213-325 DR GENE3D; 004657519522421b2cc3756b9bd786ce/213-325; #=GS J2G8Q6/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. AP12; #=GS A0A0W1GC00/212-322 AC A0A0W1GC00 #=GS A0A0W1GC00/212-322 OS Sphingopyxis sp. H071 #=GS A0A0W1GC00/212-322 DE DNA mismatch repair protein MutL #=GS A0A0W1GC00/212-322 DR GENE3D; 0055148f8f678e5773529c1f092577ed/212-322; #=GS A0A0W1GC00/212-322 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. H071; #=GS A0A1F4CAE7/15-127 AC A0A1F4CAE7 #=GS A0A1F4CAE7/15-127 OS Betaproteobacteria bacterium RIFCSPLOWO2_12_61_14 #=GS A0A1F4CAE7/15-127 DE Uncharacterized protein #=GS A0A1F4CAE7/15-127 DR GENE3D; 006d2301d3b6a07f9aa22b840917970d/15-127; #=GS A0A1F4CAE7/15-127 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium RIFCSPLOWO2_12_61_14; #=GS Q48A24/217-329 AC Q48A24 #=GS Q48A24/217-329 OS Colwellia psychrerythraea 34H #=GS Q48A24/217-329 DE DNA mismatch repair protein MutL #=GS Q48A24/217-329 DR GENE3D; 0097fd34e5995ca164c769522341e83a/217-329; #=GS Q48A24/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Colwelliaceae; Colwellia; Colwellia psychrerythraea; #=GS K0HWJ8/241-353 AC K0HWJ8 #=GS K0HWJ8/241-353 OS Acidovorax sp. KKS102 #=GS K0HWJ8/241-353 DE DNA mismatch repair protein MutL #=GS K0HWJ8/241-353 DR GENE3D; 00aa2c63040f1d736ae42e24999dcde1/241-353; #=GS K0HWJ8/241-353 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax sp. KKS102; #=GS C4L9N1/217-328 AC C4L9N1 #=GS C4L9N1/217-328 OS Tolumonas auensis DSM 9187 #=GS C4L9N1/217-328 DE DNA mismatch repair protein MutL #=GS C4L9N1/217-328 DR GENE3D; 00efd9e8d5117652f7f9770b4147d4fa/217-328; #=GS C4L9N1/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Tolumonas; Tolumonas auensis; #=GS A0A0F9H7C6/131-243 AC A0A0F9H7C6 #=GS A0A0F9H7C6/131-243 OS marine sediment metagenome #=GS A0A0F9H7C6/131-243 DE Uncharacterized protein #=GS A0A0F9H7C6/131-243 DR GENE3D; 00f40baeb0d6961347d961d0e3000bb6/131-243; #=GS A0A0F9H7C6/131-243 DR ORG; marine sediment metagenome; #=GS A0A1B7JQ66/217-330 AC A0A1B7JQ66 #=GS A0A1B7JQ66/217-330 OS Kluyvera georgiana ATCC 51603 #=GS A0A1B7JQ66/217-330 DE DNA mismatch repair protein MutL #=GS A0A1B7JQ66/217-330 DR GENE3D; 010ba87e26f7b4380b33e5a215f1dccc/217-330; #=GS A0A1B7JQ66/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Kluyvera; Kluyvera georgiana; #=GS A0A1A8XGJ0/222-334 AC A0A1A8XGJ0 #=GS A0A1A8XGJ0/222-334 OS Candidatus Accumulibacter aalborgensis #=GS A0A1A8XGJ0/222-334 DE DNA mismatch repair protein MutL #=GS A0A1A8XGJ0/222-334 DR GENE3D; 0125128060038e2e5929769921aa229b/222-334; #=GS A0A1A8XGJ0/222-334 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Candidatus Accumulibacter; Candidatus Accumulibacter aalborgensis; #=GS A0A1F9B180/214-326 AC A0A1F9B180 #=GS A0A1F9B180/214-326 OS Deltaproteobacteria bacterium RBG_13_49_15 #=GS A0A1F9B180/214-326 DE DNA mismatch repair protein MutL #=GS A0A1F9B180/214-326 DR GENE3D; 01595763c40d456aa4fe2f47e53df24e/214-326; #=GS A0A1F9B180/214-326 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium RBG_13_49_15; #=GS A1TLQ3/237-349 AC A1TLQ3 #=GS A1TLQ3/237-349 OS Acidovorax citrulli AAC00-1 #=GS A1TLQ3/237-349 DE DNA mismatch repair protein MutL #=GS A1TLQ3/237-349 DR GENE3D; 015fbc6afd692ff9cd89a25217d84fee/237-349; #=GS A1TLQ3/237-349 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax citrulli; #=GS K0D7V5/216-328 AC K0D7V5 #=GS K0D7V5/216-328 OS Alteromonas macleodii str. 'Black Sea 11' #=GS K0D7V5/216-328 DE DNA mismatch repair protein MutL #=GS K0D7V5/216-328 DR GENE3D; 0165104a9395248bb831774d7812226c/216-328; #=GS K0D7V5/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas macleodii; #=GS M4X1J2/221-333 AC M4X1J2 #=GS M4X1J2/221-333 OS Pseudomonas denitrificans ATCC 13867 #=GS M4X1J2/221-333 DE DNA mismatch repair protein MutL #=GS M4X1J2/221-333 DR GENE3D; 0172832228cd8c1fa1bd76348b71a630/221-333; #=GS M4X1J2/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas pertucinogena group; Pseudomonas denitrificans; #=GS A8T8N4/217-329 AC A8T8N4 #=GS A8T8N4/217-329 OS Vibrio sp. AND4 #=GS A8T8N4/217-329 DE DNA mismatch repair protein MutL #=GS A8T8N4/217-329 DR GENE3D; 017d2e0559acb3e63742f2e6979ce892/217-329; #=GS A8T8N4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio sp. AND4; #=GS A0A0S4PT04/220-332 AC A0A0S4PT04 #=GS A0A0S4PT04/220-332 OS Armatimonadetes bacterium DC #=GS A0A0S4PT04/220-332 DE DNA mismatch repair protein MutL #=GS A0A0S4PT04/220-332 DR GENE3D; 0192533f22be32cb96f7ccef216eab50/220-332; #=GS A0A0S4PT04/220-332 DR ORG; Bacteria; Armatimonadetes; Armatimonadetes bacterium DC; #=GS C3MGW0/212-324 AC C3MGW0 #=GS C3MGW0/212-324 OS Sinorhizobium fredii NGR234 #=GS C3MGW0/212-324 DE DNA mismatch repair protein MutL #=GS C3MGW0/212-324 DR GENE3D; 01962bf471916dbaeeba436eb23513d6/212-324; #=GS C3MGW0/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium fredii; #=GS A0A0W0SVS8/216-328 AC A0A0W0SVS8 #=GS A0A0W0SVS8/216-328 OS Legionella drozanskii LLAP-1 #=GS A0A0W0SVS8/216-328 DE DNA mismatch repair protein MutL #=GS A0A0W0SVS8/216-328 DR GENE3D; 019c93165bc5db872bafa926ef07abc9/216-328; #=GS A0A0W0SVS8/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella drozanskii; #=GS A0A1E3MNM7/217-329 AC A0A1E3MNM7 #=GS A0A1E3MNM7/217-329 OS Salinivibrio sp. DV #=GS A0A1E3MNM7/217-329 DE DNA mismatch repair protein MutL #=GS A0A1E3MNM7/217-329 DR GENE3D; 019f4bdd0df1ac902debb3e8820a3c93/217-329; #=GS A0A1E3MNM7/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Salinivibrio; Salinivibrio sp. DV; #=GS A0A0G4QBP3/217-329 AC A0A0G4QBP3 #=GS A0A0G4QBP3/217-329 OS Proteus vulgaris #=GS A0A0G4QBP3/217-329 DE DNA mismatch repair protein MutL #=GS A0A0G4QBP3/217-329 DR GENE3D; 01b5cd31fc0fec44f6f8fce51063beaf/217-329; #=GS A0A0G4QBP3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus; Proteus vulgaris; #=GS A0A1F4MPX7/222-333 AC A0A1F4MPX7 #=GS A0A1F4MPX7/222-333 OS Burkholderiales bacterium RIFCSPLOWO2_12_FULL_64_99 #=GS A0A1F4MPX7/222-333 DE DNA mismatch repair protein MutL #=GS A0A1F4MPX7/222-333 DR GENE3D; 01c4831efd88e91592388cad911fa1a0/222-333; #=GS A0A1F4MPX7/222-333 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium RIFCSPLOWO2_12_FULL_64_99; #=GS G4QBK6/213-325 AC G4QBK6 #=GS G4QBK6/213-325 OS Taylorella asinigenitalis MCE3 #=GS G4QBK6/213-325 DE DNA mismatch repair protein MutL #=GS G4QBK6/213-325 DR GENE3D; 01d6a360931a88c0dd7393e8915cd79c/213-325; #=GS G4QBK6/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Taylorella; Taylorella asinigenitalis; #=GS W8X5B0/211-323 AC W8X5B0 #=GS W8X5B0/211-323 OS Castellaniella defragrans 65Phen #=GS W8X5B0/211-323 DE DNA mismatch repair protein MutL #=GS W8X5B0/211-323 DR GENE3D; 01e97b0a88e821386950662f133ce91a/211-323; #=GS W8X5B0/211-323 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Castellaniella; Castellaniella defragrans; #=GS A0A1G0H709/217-329 AC A0A1G0H709 #=GS A0A1G0H709/217-329 OS Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_38_11 #=GS A0A1G0H709/217-329 DE DNA mismatch repair protein MutL #=GS A0A1G0H709/217-329 DR GENE3D; 01fa37672a7e298ae977c4654ab4a438/217-329; #=GS A0A1G0H709/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_38_11; #=GS V8QPT1/213-325 AC V8QPT1 #=GS V8QPT1/213-325 OS Advenella kashmirensis W13003 #=GS V8QPT1/213-325 DE DNA mismatch repair protein MutL #=GS V8QPT1/213-325 DR GENE3D; 02337964576b3f7855e635291a50fa32/213-325; #=GS V8QPT1/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Advenella; Advenella kashmirensis; #=GS A0A0W0ZBN7/215-327 AC A0A0W0ZBN7 #=GS A0A0W0ZBN7/215-327 OS Legionella santicrucis #=GS A0A0W0ZBN7/215-327 DE DNA mismatch repair protein MutL #=GS A0A0W0ZBN7/215-327 DR GENE3D; 02372669ff7d50ce2990ef529b465d83/215-327; #=GS A0A0W0ZBN7/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella santicrucis; #=GS J2VFA8/226-338 AC J2VFA8 #=GS J2VFA8/226-338 OS Herbaspirillum sp. YR522 #=GS J2VFA8/226-338 DE DNA mismatch repair protein MutL #=GS J2VFA8/226-338 DR GENE3D; 028bfa98ab6f26a8f27f1f4bc220fac9/226-338; #=GS J2VFA8/226-338 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Herbaspirillum; Herbaspirillum sp. YR522; #=GS A9I7Y0/222-334 AC A9I7Y0 #=GS A9I7Y0/222-334 OS Bordetella petrii DSM 12804 #=GS A9I7Y0/222-334 DE DNA mismatch repair protein MutL #=GS A9I7Y0/222-334 DR GENE3D; 02949dec250897222eef72c90f68b0ae/222-334; #=GS A9I7Y0/222-334 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Bordetella; Bordetella petrii; #=GS A0A1B2AFG0/213-325 AC A0A1B2AFG0 #=GS A0A1B2AFG0/213-325 OS Altererythrobacter dongtanensis #=GS A0A1B2AFG0/213-325 DE DNA mismatch repair protein MutL #=GS A0A1B2AFG0/213-325 DR GENE3D; 02a526f7bd413240ce691b5fe7ed725c/213-325; #=GS A0A1B2AFG0/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Altererythrobacter; Altererythrobacter dongtanensis; #=GS A0A0K0Y9B9/232-344 AC A0A0K0Y9B9 #=GS A0A0K0Y9B9/232-344 OS Octadecabacter temperatus #=GS A0A0K0Y9B9/232-344 DE DNA mismatch repair protein MutL #=GS A0A0K0Y9B9/232-344 DR GENE3D; 02b59a49171215246698b9c7bad8b18f/232-344; #=GS A0A0K0Y9B9/232-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Octadecabacter; Octadecabacter temperatus; #=GS H1FZX6/217-329 AC H1FZX6 #=GS H1FZX6/217-329 OS Ectothiorhodospira sp. PHS-1 #=GS H1FZX6/217-329 DE DNA mismatch repair protein MutL #=GS H1FZX6/217-329 DR GENE3D; 032f3d1e27a7891fbb0a660e87a4e633/217-329; #=GS H1FZX6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Ectothiorhodospira; Ectothiorhodospira sp. PHS-1; #=GS A0A0J5M332/217-330 AC A0A0J5M332 #=GS A0A0J5M332/217-330 OS Pluralibacter gergoviae #=GS A0A0J5M332/217-330 DE DNA mismatch repair protein MutL #=GS A0A0J5M332/217-330 DR GENE3D; 03359c201b6bf3d3af4615e73de12936/217-330; #=GS A0A0J5M332/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Pluralibacter; Pluralibacter gergoviae; #=GS A0A109LSI3/223-337 AC A0A109LSI3 #=GS A0A109LSI3/223-337 OS Erythrobacter sp. YT30 #=GS A0A109LSI3/223-337 DE DNA mismatch repair protein MutL #=GS A0A109LSI3/223-337 DR GENE3D; 03609153cb50ee34a6ae1d7cd3b383a1/223-337; #=GS A0A109LSI3/223-337 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. YT30; #=GS M9WPJ0/213-324 AC M9WPJ0 #=GS M9WPJ0/213-324 OS Wolbachia endosymbiont of Drosophila simulans wNo #=GS M9WPJ0/213-324 DE DNA mismatch repair protein MutL #=GS M9WPJ0/213-324 DR GENE3D; 03832260e20a7c1fd446a3c1eeb661f7/213-324; #=GS M9WPJ0/213-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Anaplasmataceae; Wolbachieae; Wolbachia; Wolbachia endosymbiont of Drosophila simulans; #=GS A0A0F5XYV0/217-329 AC A0A0F5XYV0 #=GS A0A0F5XYV0/217-329 OS Pantoea sp. 3.5.1 #=GS A0A0F5XYV0/217-329 DE DNA mismatch repair protein MutL #=GS A0A0F5XYV0/217-329 DR GENE3D; 039349bc820614fb7222a8012482bbe3/217-329; #=GS A0A0F5XYV0/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea sp. 3.5.1; #=GS A0A0F5MPR3/215-327 AC A0A0F5MPR3 #=GS A0A0F5MPR3/215-327 OS Candidatus Arcanobacter lacustris #=GS A0A0F5MPR3/215-327 DE DNA mismatch repair protein MutL #=GS A0A0F5MPR3/215-327 DR GENE3D; 03b930c3aa557def089b3cf77e7ee78d/215-327; #=GS A0A0F5MPR3/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Candidatus Arcanobacter; Candidatus Arcanobacter lacustris; #=GS K0EK87/216-328 AC K0EK87 #=GS K0EK87/216-328 OS Alteromonas macleodii str. 'Balearic Sea AD45' #=GS K0EK87/216-328 DE DNA mismatch repair protein MutL #=GS K0EK87/216-328 DR GENE3D; 03bf37d28d13def4cbc64174d0511bd9/216-328; #=GS K0EK87/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas macleodii; #=GS A0A0R2TZR3/238-350 AC A0A0R2TZR3 #=GS A0A0R2TZR3/238-350 OS Rhodobacter sp. BACL10 MAG-121220-bin24 #=GS A0A0R2TZR3/238-350 DE DNA mismatch repair protein MutL #=GS A0A0R2TZR3/238-350 DR GENE3D; 03c564671974d7fea14d938a0ba83202/238-350; #=GS A0A0R2TZR3/238-350 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sp. BACL10 MAG-121220-bin24; #=GS A0A0R2WP09/238-350 AC A0A0R2WP09 #=GS A0A0R2WP09/238-350 OS Rhodobacter sp. BACL10 MAG-120419-bin15 #=GS A0A0R2WP09/238-350 DE DNA mismatch repair protein MutL #=GS A0A0R2WP09/238-350 DR GENE3D; 03c564671974d7fea14d938a0ba83202/238-350; #=GS A0A0R2WP09/238-350 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sp. BACL10 MAG-120419-bin15; #=GS A0A0R2TSG0/238-350 AC A0A0R2TSG0 #=GS A0A0R2TSG0/238-350 OS Rhodobacter sp. BACL10 MAG-120910-bin24 #=GS A0A0R2TSG0/238-350 DE DNA mismatch repair protein MutL #=GS A0A0R2TSG0/238-350 DR GENE3D; 03c564671974d7fea14d938a0ba83202/238-350; #=GS A0A0R2TSG0/238-350 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sp. BACL10 MAG-120910-bin24; #=GS A0A0C2HIC6/215-328 AC A0A0C2HIC6 #=GS A0A0C2HIC6/215-328 OS Geoalkalibacter ferrihydriticus DSM 17813 #=GS A0A0C2HIC6/215-328 DE DNA mismatch repair protein MutL #=GS A0A0C2HIC6/215-328 DR GENE3D; 03ff3ccfd6431b3af13df4c8afc2dc60/215-328; #=GS A0A0C2HIC6/215-328 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Geobacteraceae; Geoalkalibacter; Geoalkalibacter ferrihydriticus; #=GS A0A0N1L9R1/230-344 AC A0A0N1L9R1 #=GS A0A0N1L9R1/230-344 OS Porphyrobacter sp. AAP60 #=GS A0A0N1L9R1/230-344 DE DNA mismatch repair protein MutL #=GS A0A0N1L9R1/230-344 DR GENE3D; 040d79c9295c9220437bc8a7fd7f8da2/230-344; #=GS A0A0N1L9R1/230-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Porphyrobacter; Porphyrobacter sp. AAP60; #=GS A0A177Q6W4/224-336 AC A0A177Q6W4 #=GS A0A177Q6W4/224-336 OS Rhizomicrobium sp. SCGC AG-212-E05 #=GS A0A177Q6W4/224-336 DE DNA mismatch repair protein MutL #=GS A0A177Q6W4/224-336 DR GENE3D; 042c2f122589200f5cf41d768e8a805c/224-336; #=GS A0A177Q6W4/224-336 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Micropepsales; Micropepsaceae; Rhizomicrobium; Rhizomicrobium sp. SCGC AG-212-E05; #=GS A0A1A7RA79/225-337 AC A0A1A7RA79 #=GS A0A1A7RA79/225-337 OS Acinetobacter gandensis #=GS A0A1A7RA79/225-337 DE DNA mismatch repair protein MutL #=GS A0A1A7RA79/225-337 DR GENE3D; 0434b18018858502244293f78d75d941/225-337; #=GS A0A1A7RA79/225-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter gandensis; #=GS A0A077FIK4/221-333 AC A0A077FIK4 #=GS A0A077FIK4/221-333 OS Pseudomonas alkylphenolica #=GS A0A077FIK4/221-333 DE DNA mismatch repair protein MutL #=GS A0A077FIK4/221-333 DR GENE3D; 0434cb52b35f238eccaabd2a93c2a953/221-333; #=GS A0A077FIK4/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas alkylphenolica; #=GS U7U897/213-325 AC U7U897 #=GS U7U897/213-325 OS Alcaligenes sp. EGD-AK7 #=GS U7U897/213-325 DE DNA mismatch repair protein MutL #=GS U7U897/213-325 DR GENE3D; 0474ebec45b8e21c4b1f2398780091ce/213-325; #=GS U7U897/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Alcaligenes; Alcaligenes sp. EGD-AK7; #=GS A0A0S2KGJ0/220-332 AC A0A0S2KGJ0 #=GS A0A0S2KGJ0/220-332 OS Pseudohongiella spirulinae #=GS A0A0S2KGJ0/220-332 DE DNA mismatch repair protein MutL #=GS A0A0S2KGJ0/220-332 DR GENE3D; 0483ad5f4ff0e6c85fb84646509a6f19/220-332; #=GS A0A0S2KGJ0/220-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudohongiella; Pseudohongiella spirulinae; #=GS H8Z841/219-330 AC H8Z841 #=GS H8Z841/219-330 OS Thiorhodovibrio sp. 970 #=GS H8Z841/219-330 DE DNA mismatch repair protein MutL #=GS H8Z841/219-330 DR GENE3D; 04b0d14f78b338341cf2c50d343ab3a8/219-330; #=GS H8Z841/219-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thiorhodovibrio; Thiorhodovibrio sp. 970; #=GS C3XA07/237-352 AC C3XA07 #=GS C3XA07/237-352 OS Oxalobacter formigenes OXCC13 #=GS C3XA07/237-352 DE DNA mismatch repair protein MutL #=GS C3XA07/237-352 DR GENE3D; 04bc52c5a1398bc3a6615bee857ec47a/237-352; #=GS C3XA07/237-352 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Oxalobacter; Oxalobacter formigenes; #=GS A0A086Y656/232-344 AC A0A086Y656 #=GS A0A086Y656/232-344 OS Paenirhodobacter enshiensis #=GS A0A086Y656/232-344 DE DNA mismatch repair protein MutL #=GS A0A086Y656/232-344 DR GENE3D; 050d18f9ed3614e925804886de775fcb/232-344; #=GS A0A086Y656/232-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paenirhodobacter; Paenirhodobacter enshiensis; #=GS A7MX75/217-329 AC A7MX75 #=GS A7MX75/217-329 OS Vibrio campbellii ATCC BAA-1116 #=GS A7MX75/217-329 DE DNA mismatch repair protein MutL #=GS A7MX75/217-329 DR GENE3D; 050e5b404c168e545b48637743b78771/217-329; #=GS A7MX75/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio campbellii; #=GS A2S551/236-348 AC A2S551 #=GS A2S551/236-348 OS Burkholderia mallei NCTC 10229 #=GS A2S551/236-348 DE DNA mismatch repair protein MutL #=GS A2S551/236-348 DR GENE3D; 051829636e958bf04a3ea12d9a8081e8/236-348; #=GS A2S551/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia mallei; #=GS Q63R59/236-348 AC Q63R59 #=GS Q63R59/236-348 OS Burkholderia pseudomallei K96243 #=GS Q63R59/236-348 DE DNA mismatch repair protein MutL #=GS Q63R59/236-348 DR GENE3D; 051829636e958bf04a3ea12d9a8081e8/236-348; #=GS Q63R59/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A0H2WKI6/236-348 AC A0A0H2WKI6 #=GS A0A0H2WKI6/236-348 OS Burkholderia mallei ATCC 23344 #=GS A0A0H2WKI6/236-348 DE DNA mismatch repair protein MutL #=GS A0A0H2WKI6/236-348 DR GENE3D; 051829636e958bf04a3ea12d9a8081e8/236-348; #=GS A0A0H2WKI6/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia mallei; #=GS A0A095JYJ2/236-348 AC A0A095JYJ2 #=GS A0A095JYJ2/236-348 OS Burkholderia pseudomallei #=GS A0A095JYJ2/236-348 DE DNA mismatch repair protein MutL #=GS A0A095JYJ2/236-348 DR GENE3D; 051829636e958bf04a3ea12d9a8081e8/236-348; #=GS A0A095JYJ2/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS C4AU04/236-348 AC C4AU04 #=GS C4AU04/236-348 OS Burkholderia mallei GB8 horse 4 #=GS C4AU04/236-348 DE DNA mismatch repair protein MutL #=GS C4AU04/236-348 DR GENE3D; 051829636e958bf04a3ea12d9a8081e8/236-348; #=GS C4AU04/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia mallei; #=GS A0A0E1FXX0/236-348 AC A0A0E1FXX0 #=GS A0A0E1FXX0/236-348 OS Burkholderia mallei #=GS A0A0E1FXX0/236-348 DE DNA mismatch repair protein MutL #=GS A0A0E1FXX0/236-348 DR GENE3D; 051829636e958bf04a3ea12d9a8081e8/236-348; #=GS A0A0E1FXX0/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia mallei; #=GS A0A0E1URN2/236-348 AC A0A0E1URN2 #=GS A0A0E1URN2/236-348 OS Burkholderia pseudomallei Pakistan 9 #=GS A0A0E1URN2/236-348 DE DNA mismatch repair protein MutL #=GS A0A0E1URN2/236-348 DR GENE3D; 051829636e958bf04a3ea12d9a8081e8/236-348; #=GS A0A0E1URN2/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A8EHZ6/236-348 AC A8EHZ6 #=GS A8EHZ6/236-348 OS Burkholderia pseudomallei 406e #=GS A8EHZ6/236-348 DE DNA mismatch repair protein MutL #=GS A8EHZ6/236-348 DR GENE3D; 051829636e958bf04a3ea12d9a8081e8/236-348; #=GS A8EHZ6/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A0H3HGV1/236-348 AC A0A0H3HGV1 #=GS A0A0H3HGV1/236-348 OS Burkholderia pseudomallei 1026b #=GS A0A0H3HGV1/236-348 DE DNA mismatch repair protein MutL #=GS A0A0H3HGV1/236-348 DR GENE3D; 051829636e958bf04a3ea12d9a8081e8/236-348; #=GS A0A0H3HGV1/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A3NYW3/236-348 AC A3NYW3 #=GS A3NYW3/236-348 OS Burkholderia pseudomallei 1106a #=GS A3NYW3/236-348 DE DNA mismatch repair protein MutL #=GS A3NYW3/236-348 DR GENE3D; 051829636e958bf04a3ea12d9a8081e8/236-348; #=GS A3NYW3/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS Q1JVP7/217-329 AC Q1JVP7 #=GS Q1JVP7/217-329 OS Desulfuromonas acetoxidans DSM 684 #=GS Q1JVP7/217-329 DE DNA mismatch repair protein MutL #=GS Q1JVP7/217-329 DR GENE3D; 052afbe8a66d9ec00a2f571a2d2c7be8/217-329; #=GS Q1JVP7/217-329 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Desulfuromonadaceae; Desulfuromonas; Desulfuromonas acetoxidans; #=GS A0A031GZ52/218-330 AC A0A031GZ52 #=GS A0A031GZ52/218-330 OS Janthinobacterium lividum #=GS A0A031GZ52/218-330 DE DNA mismatch repair protein MutL #=GS A0A031GZ52/218-330 DR GENE3D; 057c4f353e7cbaa2864010e1abe2bd89/218-330; #=GS A0A031GZ52/218-330 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium lividum; #=GS A0A176H1Z8/218-330 AC A0A176H1Z8 #=GS A0A176H1Z8/218-330 OS Oleiphilus sp. HI0069 #=GS A0A176H1Z8/218-330 DE DNA mismatch repair protein MutL #=GS A0A176H1Z8/218-330 DR GENE3D; 05807eacc3310edb1b2e5050b8891698/218-330; #=GS A0A176H1Z8/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oleiphilaceae; Oleiphilus; Oleiphilus sp. HI0069; #=GS A0A1E4ZU63/217-329 AC A0A1E4ZU63 #=GS A0A1E4ZU63/217-329 OS Chromatiales bacterium (ex Bugula neritina AB1) #=GS A0A1E4ZU63/217-329 DE DNA mismatch repair protein MutL #=GS A0A1E4ZU63/217-329 DR GENE3D; 05aa3a8ee3c56d0c555ba6a29c68e787/217-329; #=GS A0A1E4ZU63/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiales bacterium (ex Bugula neritina AB1); #=GS A0A0X8XBV0/222-334 AC A0A0X8XBV0 #=GS A0A0X8XBV0/222-334 OS Halorhodospira halochloris #=GS A0A0X8XBV0/222-334 DE DNA mismatch repair protein MutL #=GS A0A0X8XBV0/222-334 DR GENE3D; 05cce873b387199203b23dbd0fe3d5bf/222-334; #=GS A0A0X8XBV0/222-334 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Halorhodospira; Halorhodospira halochloris; #=GS B6BEX4/238-350 AC B6BEX4 #=GS B6BEX4/238-350 OS Rhodobacterales bacterium Y4I #=GS B6BEX4/238-350 DE DNA mismatch repair protein MutL #=GS B6BEX4/238-350 DR GENE3D; 0608bb24cab6643f50b4f1a24d2d8cea/238-350; #=GS B6BEX4/238-350 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacterales bacterium Y4I; #=GS A6U6K5/212-324 AC A6U6K5 #=GS A6U6K5/212-324 OS Sinorhizobium medicae WSM419 #=GS A6U6K5/212-324 DE DNA mismatch repair protein MutL #=GS A6U6K5/212-324 DR GENE3D; 061a4715ba02605947ed4393c196cab5/212-324; #=GS A6U6K5/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium medicae; #=GS G4F8K7/223-335 AC G4F8K7 #=GS G4F8K7/223-335 OS Halomonas sp. HAL1 #=GS G4F8K7/223-335 DE DNA mismatch repair protein MutL #=GS G4F8K7/223-335 DR GENE3D; 0650169a58877439fff72085ce223f10/223-335; #=GS G4F8K7/223-335 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas sp. HAL1; #=GS A0A1M5RE28/230-342 AC A0A1M5RE28 #=GS A0A1M5RE28/230-342 OS Loktanella sediminum #=GS A0A1M5RE28/230-342 DE DNA mismatch repair protein MutL #=GS A0A1M5RE28/230-342 DR GENE3D; 0657b1717742a0c22eea57624c078f82/230-342; #=GS A0A1M5RE28/230-342 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Loktanella; Loktanella sediminum; #=GS A0A077LJT1/237-349 AC A0A077LJT1 #=GS A0A077LJT1/237-349 OS Pseudomonas sp. StFLB209 #=GS A0A077LJT1/237-349 DE DNA mismatch repair protein MutL #=GS A0A077LJT1/237-349 DR GENE3D; 066938e846bf70e0378a87fd3ba45b64/237-349; #=GS A0A077LJT1/237-349 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. StFLB209; #=GS A0A0K9JTP7/245-355 AC A0A0K9JTP7 #=GS A0A0K9JTP7/245-355 OS Candidatus Paraburkholderia calva #=GS A0A0K9JTP7/245-355 DE DNA mismatch repair protein MutL #=GS A0A0K9JTP7/245-355 DR GENE3D; 0694797cde3630c2d1d809e4cd333264/245-355; #=GS A0A0K9JTP7/245-355 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Paraburkholderia; Candidatus Paraburkholderia calva; #=GS A0A1N7F0Q4/237-349 AC A0A1N7F0Q4 #=GS A0A1N7F0Q4/237-349 OS Roseovarius nanhaiticus #=GS A0A1N7F0Q4/237-349 DE DNA mismatch repair protein MutL #=GS A0A1N7F0Q4/237-349 DR GENE3D; 0696784c9ae3df35bc2a0cd4d92dbb20/237-349; #=GS A0A1N7F0Q4/237-349 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseovarius; Roseovarius nanhaiticus; #=GS A0A0U3T1W3/225-337 AC A0A0U3T1W3 #=GS A0A0U3T1W3/225-337 OS Acinetobacter johnsonii XBB1 #=GS A0A0U3T1W3/225-337 DE DNA mismatch repair protein MutL #=GS A0A0U3T1W3/225-337 DR GENE3D; 06c1e18b36fb9c2b2d3dc676252d377b/225-337; #=GS A0A0U3T1W3/225-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter johnsonii; #=GS A0A1J5PV59/216-328 AC A0A1J5PV59 #=GS A0A1J5PV59/216-328 OS mine drainage metagenome #=GS A0A1J5PV59/216-328 DE DNA mismatch repair protein MutL #=GS A0A1J5PV59/216-328 DR GENE3D; 06ce3271eeb46f9cb8d49aa9f919c989/216-328; #=GS A0A1J5PV59/216-328 DR ORG; mine drainage metagenome; #=GS A0A023NQG4/240-352 AC A0A023NQG4 #=GS A0A023NQG4/240-352 OS Dyella jiangningensis #=GS A0A023NQG4/240-352 DE DNA mismatch repair protein MutL #=GS A0A023NQG4/240-352 DR GENE3D; 06d7d58d384a94429230a40bf543802e/240-352; #=GS A0A023NQG4/240-352 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Dyella; Dyella jiangningensis; #=GS E0WTQ5/219-334 AC E0WTQ5 #=GS E0WTQ5/219-334 OS Candidatus Regiella insecticola LSR1 #=GS E0WTQ5/219-334 DE DNA mismatch repair protein MutL #=GS E0WTQ5/219-334 DR GENE3D; 06fb9b4e35af2854120273a9129a371d/219-334; #=GS E0WTQ5/219-334 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Candidatus Regiella; Candidatus Regiella insecticola; #=GS A0A0H1ATH8/215-327 AC A0A0H1ATH8 #=GS A0A0H1ATH8/215-327 OS Luteimonas sp. FCS-9 #=GS A0A0H1ATH8/215-327 DE DNA mismatch repair protein MutL #=GS A0A0H1ATH8/215-327 DR GENE3D; 07235f82c928efcb20da8afce59db6c7/215-327; #=GS A0A0H1ATH8/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Luteimonas; Luteimonas sp. FCS-9; #=GS A0A0Q7EM30/228-340 AC A0A0Q7EM30 #=GS A0A0Q7EM30/228-340 OS Brevundimonas sp. Root1279 #=GS A0A0Q7EM30/228-340 DE DNA mismatch repair protein MutL #=GS A0A0Q7EM30/228-340 DR GENE3D; 07ab6c251bb2035575dd4d008d3e73a8/228-340; #=GS A0A0Q7EM30/228-340 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. Root1279; #=GS Q5WTA0/217-329 AC Q5WTA0 #=GS Q5WTA0/217-329 OS Legionella pneumophila str. Lens #=GS Q5WTA0/217-329 DE DNA mismatch repair protein MutL #=GS Q5WTA0/217-329 DR GENE3D; 07b1c9cdc8e337031694dfdd0fcaf2ed/217-329; #=GS Q5WTA0/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella pneumophila; #=GS A0A090P4S4/217-327 AC A0A090P4S4 #=GS A0A090P4S4/217-327 OS Vibrio ponticus #=GS A0A090P4S4/217-327 DE DNA mismatch repair protein MutL #=GS A0A090P4S4/217-327 DR GENE3D; 07fd95720ec4863e6f0793959f1e1518/217-327; #=GS A0A090P4S4/217-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio ponticus; #=GS F4BJN2/221-333 AC F4BJN2 #=GS F4BJN2/221-333 OS Francisella cf. tularensis subsp. novicida 3523 #=GS F4BJN2/221-333 DE DNA mismatch repair protein MutL #=GS F4BJN2/221-333 DR GENE3D; 081803318ff1a2201e022250540ab6bd/221-333; #=GS F4BJN2/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Francisellaceae; Francisella; Francisella tularensis; Francisella tularensis subsp. novicida; #=GS A0A0R0DZQ9/215-327 AC A0A0R0DZQ9 #=GS A0A0R0DZQ9/215-327 OS Stenotrophomonas daejeonensis #=GS A0A0R0DZQ9/215-327 DE DNA mismatch repair protein MutL #=GS A0A0R0DZQ9/215-327 DR GENE3D; 082fb8f8451114b2c826d6f5e26f5344/215-327; #=GS A0A0R0DZQ9/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas daejeonensis; #=GS A0A0G0KHT4/215-327 AC A0A0G0KHT4 #=GS A0A0G0KHT4/215-327 OS Parcubacteria group bacterium GW2011_GWC2_38_7 #=GS A0A0G0KHT4/215-327 DE DNA mismatch repair protein MutL #=GS A0A0G0KHT4/215-327 DR GENE3D; 0869bcfd944eb0c779a8cf21e10adc76/215-327; #=GS A0A0G0KHT4/215-327 DR ORG; Bacteria; Parcubacteria group bacterium GW2011_GWC2_38_7; #=GS E2CBG4/224-336 AC E2CBG4 #=GS E2CBG4/224-336 OS Roseibium sp. TrichSKD4 #=GS E2CBG4/224-336 DE DNA mismatch repair protein MutL #=GS E2CBG4/224-336 DR GENE3D; 088cc8aebfe6eadec393dcc999ce77c7/224-336; #=GS E2CBG4/224-336 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseibium; Roseibium sp. TrichSKD4; #=GS A0A154TGC0/213-325 AC A0A154TGC0 #=GS A0A154TGC0/213-325 OS Neisseria flavescens #=GS A0A154TGC0/213-325 DE DNA mismatch repair protein MutL #=GS A0A154TGC0/213-325 DR GENE3D; 08bf9e58df0e226939e481a2ee3f9f17/213-325; #=GS A0A154TGC0/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria flavescens; #=GS A0A1G0HG47/216-328 AC A0A1G0HG47 #=GS A0A1G0HG47/216-328 OS Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_41_15 #=GS A0A1G0HG47/216-328 DE DNA mismatch repair protein MutL #=GS A0A1G0HG47/216-328 DR GENE3D; 08c23e9e34d798844f5f70b052627b16/216-328; #=GS A0A1G0HG47/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_41_15; #=GS A0A154NAY0/212-327 AC A0A154NAY0 #=GS A0A154NAY0/212-327 OS Sphingomonas melonis TY #=GS A0A154NAY0/212-327 DE DNA mismatch repair protein MutL #=GS A0A154NAY0/212-327 DR GENE3D; 08fd3d047e2828cdd671f79000e8cb32/212-327; #=GS A0A154NAY0/212-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas melonis; #=GS A0A1G0DU64/213-325 AC A0A1G0DU64 #=GS A0A1G0DU64/213-325 OS Gallionellales bacterium RBG_16_57_15 #=GS A0A1G0DU64/213-325 DE DNA mismatch repair protein MutL #=GS A0A1G0DU64/213-325 DR GENE3D; 0909027498c7d91af394bf0f199eb75f/213-325; #=GS A0A1G0DU64/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Gallionellales; Gallionellales bacterium RBG_16_57_15; #=GS I1AWA4/233-345 AC I1AWA4 #=GS I1AWA4/233-345 OS Citreicella sp. 357 #=GS I1AWA4/233-345 DE DNA mismatch repair protein MutL #=GS I1AWA4/233-345 DR GENE3D; 091dd0c793ef5495e40955a444a2f300/233-345; #=GS I1AWA4/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Citreicella; Citreicella sp. 357; #=GS A4SR27/217-329 AC A4SR27 #=GS A4SR27/217-329 OS Aeromonas salmonicida subsp. salmonicida A449 #=GS A4SR27/217-329 DE DNA mismatch repair protein MutL #=GS A4SR27/217-329 DR GENE3D; 093d5c71d0eed56da2c4a6b6db4f35bc/217-329; #=GS A4SR27/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas salmonicida; Aeromonas salmonicida subsp. salmonicida; #=GS A0A023DZZ6/217-329 AC A0A023DZZ6 #=GS A0A023DZZ6/217-329 OS Aeromonas salmonicida subsp. masoucida NBRC 13784 #=GS A0A023DZZ6/217-329 DE DNA mismatch repair protein MutL #=GS A0A023DZZ6/217-329 DR GENE3D; 093d5c71d0eed56da2c4a6b6db4f35bc/217-329; #=GS A0A023DZZ6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas salmonicida; Aeromonas salmonicida subsp. masoucida; #=GS W0AAZ0/183-294 AC W0AAZ0 #=GS W0AAZ0/183-294 OS Sphingomonas sanxanigenens DSM 19645 = NX02 #=GS W0AAZ0/183-294 DE DNA mismatch repair protein MutL #=GS W0AAZ0/183-294 DR GENE3D; 09422449833d1c19581dbc172b4202c3/183-294; #=GS W0AAZ0/183-294 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sanxanigenens; #=GS A0A0P6X965/220-329 AC A0A0P6X965 #=GS A0A0P6X965/220-329 OS Erythrobacter sp. SG61-1L #=GS A0A0P6X965/220-329 DE DNA mismatch repair protein MutL #=GS A0A0P6X965/220-329 DR GENE3D; 09591705c6014e5e1fb2c1d2e260d403/220-329; #=GS A0A0P6X965/220-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. SG61-1L; #=GS A0A066UQZ3/217-328 AC A0A066UQZ3 #=GS A0A066UQZ3/217-328 OS Vibrio fortis #=GS A0A066UQZ3/217-328 DE DNA mismatch repair protein MutL #=GS A0A066UQZ3/217-328 DR GENE3D; 0970976a33ea1d359b95bb6f3bd42b6e/217-328; #=GS A0A066UQZ3/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fortis; #=GS N9WCX2/194-304 AC N9WCX2 #=GS N9WCX2/194-304 OS Sphingopyxis sp. MC1 #=GS N9WCX2/194-304 DE DNA mismatch repair protein MutL #=GS N9WCX2/194-304 DR GENE3D; 09824ca68551056024683dd1bdb1ad60/194-304; #=GS N9WCX2/194-304 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. MC1; #=GS A0A0M7F1J9/217-330 AC A0A0M7F1J9 #=GS A0A0M7F1J9/217-330 OS Achromobacter sp. #=GS A0A0M7F1J9/217-330 DE DNA mismatch repair protein MutL #=GS A0A0M7F1J9/217-330 DR GENE3D; 09d980edb55f741e79dfef2c2aa92ee8/217-330; #=GS A0A0M7F1J9/217-330 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Achromobacter; Achromobacter sp.; #=GS A0A0H1R8V6/216-328 AC A0A0H1R8V6 #=GS A0A0H1R8V6/216-328 OS Microvirga vignae #=GS A0A0H1R8V6/216-328 DE DNA mismatch repair protein MutL #=GS A0A0H1R8V6/216-328 DR GENE3D; 0a60ebe3a9f979657d8b87462d122775/216-328; #=GS A0A0H1R8V6/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Microvirga; Microvirga vignae; #=GS K6ZRH1/222-333 AC K6ZRH1 #=GS K6ZRH1/222-333 OS Paraglaciecola mesophila KMM 241 #=GS K6ZRH1/222-333 DE DNA mismatch repair protein MutL #=GS K6ZRH1/222-333 DR GENE3D; 0a8e251adbbfe1c773564b852e53826f/222-333; #=GS K6ZRH1/222-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Paraglaciecola; Paraglaciecola mesophila; #=GS A0A1E4GJ50/215-327 AC A0A1E4GJ50 #=GS A0A1E4GJ50/215-327 OS Pelagibacterium sp. SCN 64-44 #=GS A0A1E4GJ50/215-327 DE DNA mismatch repair protein MutL #=GS A0A1E4GJ50/215-327 DR GENE3D; 0a8f1986e3313070497287f6a6dc35b4/215-327; #=GS A0A1E4GJ50/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Pelagibacterium; Pelagibacterium sp. SCN 64-44; #=GS A0A161SEJ4/213-325 AC A0A161SEJ4 #=GS A0A161SEJ4/213-325 OS Crenobacter luteus #=GS A0A161SEJ4/213-325 DE DNA mismatch repair protein MutL #=GS A0A161SEJ4/213-325 DR GENE3D; 0ad984cdd8de1cef30136e8f48d70b11/213-325; #=GS A0A161SEJ4/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Crenobacter; Crenobacter luteus; #=GS H0Q286/210-322 AC H0Q286 #=GS H0Q286/210-322 OS Azoarcus sp. KH32C #=GS H0Q286/210-322 DE DNA mismatch repair protein MutL #=GS H0Q286/210-322 DR GENE3D; 0b38661f308d5d54c4e1abadd5a14f13/210-322; #=GS H0Q286/210-322 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Azoarcus; Azoarcus sp. KH32C; #=GS A0A0N1B327/216-328 AC A0A0N1B327 #=GS A0A0N1B327/216-328 OS Bosea sp. AAP35 #=GS A0A0N1B327/216-328 DE DNA mismatch repair protein MutL #=GS A0A0N1B327/216-328 DR GENE3D; 0b60967cd4698def124533a124edac2c/216-328; #=GS A0A0N1B327/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. AAP35; #=GS A4JBT3/229-341 AC A4JBT3 #=GS A4JBT3/229-341 OS Burkholderia vietnamiensis G4 #=GS A4JBT3/229-341 DE DNA mismatch repair protein MutL #=GS A4JBT3/229-341 DR GENE3D; 0b64fe33b6b25cfa51abab71d555843e/229-341; #=GS A4JBT3/229-341 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia vietnamiensis; #=GS U6B721/210-322 AC U6B721 #=GS U6B721/210-322 OS Candidatus Liberibacter americanus str. Sao Paulo #=GS U6B721/210-322 DE DNA mismatch repair protein MutL #=GS U6B721/210-322 DR GENE3D; 0b6e924335f365d51c37af07d89392bd/210-322; #=GS U6B721/210-322 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Liberibacter; Candidatus Liberibacter americanus; #=GS A0A0D8DA22/218-330 AC A0A0D8DA22 #=GS A0A0D8DA22/218-330 OS Thalassomonas viridans #=GS A0A0D8DA22/218-330 DE DNA mismatch repair protein MutL #=GS A0A0D8DA22/218-330 DR GENE3D; 0b91a9165f7db68283247025ca7b068a/218-330; #=GS A0A0D8DA22/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Colwelliaceae; Thalassomonas; Thalassomonas viridans; #=GS E1QF59/220-330 AC E1QF59 #=GS E1QF59/220-330 OS Desulfarculus baarsii DSM 2075 #=GS E1QF59/220-330 DE DNA mismatch repair protein MutL #=GS E1QF59/220-330 DR GENE3D; 0baeaad96159f11b6a2e91d003dc99b2/220-330; #=GS E1QF59/220-330 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfarculales; Desulfarculaceae; Desulfarculus; Desulfarculus baarsii; #=GS A0A0F5L326/215-327 AC A0A0F5L326 #=GS A0A0F5L326/215-327 OS Devosia soli #=GS A0A0F5L326/215-327 DE DNA mismatch repair protein MutL #=GS A0A0F5L326/215-327 DR GENE3D; 0bb294b3d3739a0f0e46d1f81ec9c24f/215-327; #=GS A0A0F5L326/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia soli; #=GS B0UUU5/217-329 AC B0UUU5 #=GS B0UUU5/217-329 OS Haemophilus somnus 2336 #=GS B0UUU5/217-329 DE DNA mismatch repair protein MutL #=GS B0UUU5/217-329 DR GENE3D; 0c195d8fcbacd60c9217812f00d1d915/217-329; #=GS B0UUU5/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Histophilus; Histophilus somni; #=GS J2RFQ3/212-324 AC J2RFQ3 #=GS J2RFQ3/212-324 OS Rhizobium sp. CF122 #=GS J2RFQ3/212-324 DE DNA mismatch repair protein MutL #=GS J2RFQ3/212-324 DR GENE3D; 0c1cab19c62ba39a209976ab0e1aa8f8/212-324; #=GS J2RFQ3/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. CF122; #=GS B2UBB0/230-341 AC B2UBB0 #=GS B2UBB0/230-341 OS Ralstonia pickettii 12J #=GS B2UBB0/230-341 DE DNA mismatch repair protein MutL #=GS B2UBB0/230-341 DR GENE3D; 0c1f18849013d84e780ce0f61d86f8b7/230-341; #=GS B2UBB0/230-341 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Ralstonia; Ralstonia pickettii; #=GS A0A0X3THL8/223-335 AC A0A0X3THL8 #=GS A0A0X3THL8/223-335 OS Thiomicrospira sp. XS5 #=GS A0A0X3THL8/223-335 DE DNA mismatch repair protein MutL #=GS A0A0X3THL8/223-335 DR GENE3D; 0c587ac2f4fa08c452b655eea59dfbe0/223-335; #=GS A0A0X3THL8/223-335 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Thiomicrospira; Thiomicrospira sp. XS5; #=GS I3DBX4/226-338 AC I3DBX4 #=GS I3DBX4/226-338 OS Haemophilus parahaemolyticus HK385 #=GS I3DBX4/226-338 DE DNA mismatch repair protein MutL #=GS I3DBX4/226-338 DR GENE3D; 0c5e664516431c6c48eb66365fdee383/226-338; #=GS I3DBX4/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus parahaemolyticus; #=GS I4C3I5/215-327 AC I4C3I5 #=GS I4C3I5/215-327 OS Desulfomonile tiedjei DSM 6799 #=GS I4C3I5/215-327 DE DNA mismatch repair protein MutL #=GS I4C3I5/215-327 DR GENE3D; 0c9ec5eb9f9145f10b382ab965a05d6a/215-327; #=GS I4C3I5/215-327 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Syntrophobacterales; Syntrophaceae; Desulfomonile; Desulfomonile tiedjei; #=GS C3M8B2/217-328 AC C3M8B2 #=GS C3M8B2/217-328 OS Candidatus Hamiltonella defensa 5AT (Acyrthosiphon pisum) #=GS C3M8B2/217-328 DE DNA mismatch repair protein MutL #=GS C3M8B2/217-328 DR GENE3D; 0ca2f692f936a9d22f661471652f7468/217-328; #=GS C3M8B2/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Candidatus Hamiltonella; Candidatus Hamiltonella defensa; #=GS A0A0N2ACR6/217-329 AC A0A0N2ACR6 #=GS A0A0N2ACR6/217-329 OS Serratia marcescens subsp. marcescens Db11 #=GS A0A0N2ACR6/217-329 DE DNA mismatch repair protein MutL #=GS A0A0N2ACR6/217-329 DR GENE3D; 0cae78090ad7b1f2ad4a883e7a1b0908/217-329; #=GS A0A0N2ACR6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia marcescens; Serratia marcescens subsp. marcescens; #=GS K8CZU7/43-156 AC K8CZU7 #=GS K8CZU7/43-156 OS Cronobacter sakazakii 701 #=GS K8CZU7/43-156 DE DNA mismatch repair protein MutL #=GS K8CZU7/43-156 DR GENE3D; 0ccf86189de1637093ae3875d266ee08/43-156; #=GS K8CZU7/43-156 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Cronobacter; Cronobacter sakazakii; #=GS E1W6U9/217-329 AC E1W6U9 #=GS E1W6U9/217-329 OS Haemophilus parainfluenzae T3T1 #=GS E1W6U9/217-329 DE DNA mismatch repair protein MutL #=GS E1W6U9/217-329 DR GENE3D; 0ce150cd19b98001ddd65b7224522104/217-329; #=GS E1W6U9/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus parainfluenzae; #=GS A0A0N8KD18/236-348 AC A0A0N8KD18 #=GS A0A0N8KD18/236-348 OS Rhodobacteraceae bacterium HLUCCA12 #=GS A0A0N8KD18/236-348 DE DNA mismatch repair protein MutL #=GS A0A0N8KD18/236-348 DR GENE3D; 0d25f156fa2ccdf5d5fa7dce53918f52/236-348; #=GS A0A0N8KD18/236-348 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacteraceae bacterium HLUCCA12; #=GS A0A060UN73/222-334 AC A0A060UN73 #=GS A0A060UN73/222-334 OS Acidithiobacillus ferrivorans #=GS A0A060UN73/222-334 DE DNA mismatch repair protein MutL #=GS A0A060UN73/222-334 DR GENE3D; 0d2b1627171975f1705402a1a0e737a6/222-334; #=GS A0A060UN73/222-334 DR ORG; Bacteria; Proteobacteria; Acidithiobacillia; Acidithiobacillales; Acidithiobacillaceae; Acidithiobacillus; Acidithiobacillus ferrivorans; #=GS I8U9U3/217-329 AC I8U9U3 #=GS I8U9U3/217-329 OS Alishewanella agri BL06 #=GS I8U9U3/217-329 DE DNA mismatch repair protein MutL #=GS I8U9U3/217-329 DR GENE3D; 0d365d27a0adf96d55cd1e66ef9a515a/217-329; #=GS I8U9U3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alishewanella; Alishewanella agri; #=GS A0A081NIG9/218-330 AC A0A081NIG9 #=GS A0A081NIG9/218-330 OS Endozoicomonas numazuensis #=GS A0A081NIG9/218-330 DE DNA mismatch repair protein MutL #=GS A0A081NIG9/218-330 DR GENE3D; 0d4ecc02ef6e0c4e6a01b0f2a7898e69/218-330; #=GS A0A081NIG9/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Hahellaceae; Endozoicomonas; Endozoicomonas numazuensis; #=GS A0A0Q9ILN2/216-327 AC A0A0Q9ILN2 #=GS A0A0Q9ILN2/216-327 OS Bosea sp. Root381 #=GS A0A0Q9ILN2/216-327 DE DNA mismatch repair protein MutL #=GS A0A0Q9ILN2/216-327 DR GENE3D; 0d5b2cfe262fbb38c9a6f845fad1c036/216-327; #=GS A0A0Q9ILN2/216-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. Root381; #=GS A2WCE7/229-341 AC A2WCE7 #=GS A2WCE7/229-341 OS Burkholderia dolosa AU0158 #=GS A2WCE7/229-341 DE DNA mismatch repair protein MutL #=GS A2WCE7/229-341 DR GENE3D; 0d5f547385cf99a7a6a489bab15c9fbb/229-341; #=GS A2WCE7/229-341 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia dolosa; #=GS A0A0T9U2D5/217-329 AC A0A0T9U2D5 #=GS A0A0T9U2D5/217-329 OS Yersinia frederiksenii #=GS A0A0T9U2D5/217-329 DE DNA mismatch repair protein MutL #=GS A0A0T9U2D5/217-329 DR GENE3D; 0d750ecf394e300466f8008537aa1188/217-329; #=GS A0A0T9U2D5/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia frederiksenii; #=GS A0A1F4DLK4/213-325 AC A0A1F4DLK4 #=GS A0A1F4DLK4/213-325 OS Betaproteobacteria bacterium RIFCSPLOWO2_12_FULL_62_58 #=GS A0A1F4DLK4/213-325 DE DNA mismatch repair protein MutL #=GS A0A1F4DLK4/213-325 DR GENE3D; 0d8af7f3c269ef068b816e9c4c37e8be/213-325; #=GS A0A1F4DLK4/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium RIFCSPLOWO2_12_FULL_62_58; #=GS A0A158F0P7/233-343 AC A0A158F0P7 #=GS A0A158F0P7/233-343 OS Caballeronia udeis #=GS A0A158F0P7/233-343 DE DNA mismatch repair protein MutL #=GS A0A158F0P7/233-343 DR GENE3D; 0e00ed531578f37c2057e60a7acb3ecc/233-343; #=GS A0A158F0P7/233-343 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Caballeronia; Caballeronia udeis; #=GS A0A1C3CW21/225-336 AC A0A1C3CW21 #=GS A0A1C3CW21/225-336 OS #=GS A0A1C3CW21/225-336 DE DNA mismatch repair protein MutL #=GS A0A1C3CW21/225-336 DR GENE3D; 0e2cf318b0d5d822701146c85f20dae4/225-336; #=GS A0A1C3CW21/225-336 DR ORG; #=GS A0A0G9HCV4/217-329 AC A0A0G9HCV4 #=GS A0A0G9HCV4/217-329 OS Luteibacter rhizovicinus DSM 16549 #=GS A0A0G9HCV4/217-329 DE DNA mismatch repair protein MutL #=GS A0A0G9HCV4/217-329 DR GENE3D; 0e6e38474611d77154c096357633ace1/217-329; #=GS A0A0G9HCV4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Luteibacter; Luteibacter rhizovicinus; #=GS A0A0M6YQH1/215-327 AC A0A0M6YQH1 #=GS A0A0M6YQH1/215-327 OS Labrenzia alba #=GS A0A0M6YQH1/215-327 DE DNA mismatch repair protein MutL #=GS A0A0M6YQH1/215-327 DR GENE3D; 0e9dc8a9e9e625c2b89c641605cec7d6/215-327; #=GS A0A0M6YQH1/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia alba; #=GS E6WFZ5/217-329 AC E6WFZ5 #=GS E6WFZ5/217-329 OS Pantoea sp. At-9b #=GS E6WFZ5/217-329 DE DNA mismatch repair protein MutL #=GS E6WFZ5/217-329 DR GENE3D; 0eb89d64d084cc9d58dd698f258bcebc/217-329; #=GS E6WFZ5/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea sp. At-9b; #=GS Q07RR2/216-327 AC Q07RR2 #=GS Q07RR2/216-327 OS Rhodopseudomonas palustris BisA53 #=GS Q07RR2/216-327 DE DNA mismatch repair protein MutL #=GS Q07RR2/216-327 DR GENE3D; 0ec007c6dd159ab9e3d64708a8fe5fd3/216-327; #=GS Q07RR2/216-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; #=GS A0A1G0ETH2/255-367 AC A0A1G0ETH2 #=GS A0A1G0ETH2/255-367 OS Gallionellales bacterium RIFCSPHIGHO2_02_FULL_57_16 #=GS A0A1G0ETH2/255-367 DE DNA mismatch repair protein MutL #=GS A0A1G0ETH2/255-367 DR GENE3D; 0ecc44ee6cf3dc209acc7db1de4b29f8/255-367; #=GS A0A1G0ETH2/255-367 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Gallionellales; Gallionellales bacterium RIFCSPHIGHO2_02_FULL_57_16; #=GS A0A1G0D974/255-367 AC A0A1G0D974 #=GS A0A1G0D974/255-367 OS Gallionellales bacterium RIFCSPLOWO2_02_FULL_57_47 #=GS A0A1G0D974/255-367 DE DNA mismatch repair protein MutL #=GS A0A1G0D974/255-367 DR GENE3D; 0ecc44ee6cf3dc209acc7db1de4b29f8/255-367; #=GS A0A1G0D974/255-367 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Gallionellales; Gallionellales bacterium RIFCSPLOWO2_02_FULL_57_47; #=GS A0A0P7YCN6/221-333 AC A0A0P7YCN6 #=GS A0A0P7YCN6/221-333 OS Rhizobiales bacterium HL-109 #=GS A0A0P7YCN6/221-333 DE DNA mismatch repair protein MutL #=GS A0A0P7YCN6/221-333 DR GENE3D; 0f053a456b21df5fcef5f1d3100636e0/221-333; #=GS A0A0P7YCN6/221-333 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiales bacterium HL-109; #=GS A0A0B4C661/228-340 AC A0A0B4C661 #=GS A0A0B4C661/228-340 OS Tateyamaria sp. ANG-S1 #=GS A0A0B4C661/228-340 DE DNA mismatch repair protein MutL #=GS A0A0B4C661/228-340 DR GENE3D; 0f191f22ea251994cc98969b1c37b974/228-340; #=GS A0A0B4C661/228-340 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Tateyamaria; Tateyamaria sp. ANG-S1; #=GS D0I8R5/217-329 AC D0I8R5 #=GS D0I8R5/217-329 OS Grimontia hollisae CIP 101886 #=GS D0I8R5/217-329 DE DNA mismatch repair protein MutL #=GS D0I8R5/217-329 DR GENE3D; 0f36abbe1825149372e70787b2bf7ad2/217-329; #=GS D0I8R5/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Grimontia; Grimontia hollisae; #=GS D2TN07/217-330 AC D2TN07 #=GS D2TN07/217-330 OS Citrobacter rodentium ICC168 #=GS D2TN07/217-330 DE DNA mismatch repair protein MutL #=GS D2TN07/217-330 DR GENE3D; 0f595e8c38855f8a639ed29198fad932/217-330; #=GS D2TN07/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter rodentium; #=GS Q6N1N4/216-327 AC Q6N1N4 #=GS Q6N1N4/216-327 OS Rhodopseudomonas palustris CGA009 #=GS Q6N1N4/216-327 DE DNA mismatch repair protein MutL #=GS Q6N1N4/216-327 DR GENE3D; 0f605a4693c87f7d8d8ac4d8f506dcd3/216-327; #=GS Q6N1N4/216-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; #=GS C5BDM9/217-329 AC C5BDM9 #=GS C5BDM9/217-329 OS Edwardsiella ictaluri 93-146 #=GS C5BDM9/217-329 DE DNA mismatch repair protein MutL #=GS C5BDM9/217-329 DR GENE3D; 0f92603e181c13a0417609de6641a69d/217-329; #=GS C5BDM9/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Edwardsiella; Edwardsiella ictaluri; #=GS A0A0C2K9A1/217-329 AC A0A0C2K9A1 #=GS A0A0C2K9A1/217-329 OS Vibrio renipiscarius #=GS A0A0C2K9A1/217-329 DE DNA mismatch repair protein MutL #=GS A0A0C2K9A1/217-329 DR GENE3D; 0fba96bc0f1a20b059299a49f2ac2a95/217-329; #=GS A0A0C2K9A1/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio renipiscarius; #=GS A0A086MEA9/216-328 AC A0A086MEA9 #=GS A0A086MEA9/216-328 OS Microvirga sp. BSC39 #=GS A0A086MEA9/216-328 DE DNA mismatch repair protein MutL #=GS A0A086MEA9/216-328 DR GENE3D; 0fc2c87290144a431f2a0d4c0c3e5a18/216-328; #=GS A0A086MEA9/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Microvirga; Microvirga sp. BSC39; #=GS B6CVZ2/174-274 AC B6CVZ2 #=GS B6CVZ2/174-274 OS Pseudomonas aeruginosa #=GS B6CVZ2/174-274 DE MutL #=GS B6CVZ2/174-274 DR GENE3D; 0ffabd7979cfd99b3d519878bb0e11fd/174-274; #=GS B6CVZ2/174-274 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS X7F4T6/234-346 AC X7F4T6 #=GS X7F4T6/234-346 OS Roseivivax isoporae LMG 25204 #=GS X7F4T6/234-346 DE DNA mismatch repair protein MutL #=GS X7F4T6/234-346 DR GENE3D; 101b691c29876ea495e75fe5454a71aa/234-346; #=GS X7F4T6/234-346 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseivivax; Roseivivax isoporae; #=GS A0A1E2UTY6/217-329 AC A0A1E2UTY6 #=GS A0A1E2UTY6/217-329 OS Candidatus Thiodiazotropha endoloripes #=GS A0A1E2UTY6/217-329 DE DNA mismatch repair protein MutL #=GS A0A1E2UTY6/217-329 DR GENE3D; 10271e9d61e273156f867b5af290145d/217-329; #=GS A0A1E2UTY6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Candidatus Thiodiazotropha; Candidatus Thiodiazotropha endoloripes; #=GS A0A1L8YNZ9/218-330 AC A0A1L8YNZ9 #=GS A0A1L8YNZ9/218-330 OS Alcanivorax borkumensis #=GS A0A1L8YNZ9/218-330 DE DNA mismatch repair protein #=GS A0A1L8YNZ9/218-330 DR GENE3D; 10431430df9de7c864e6db97c2fcd623/218-330; #=GS A0A1L8YNZ9/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Alcanivoracaceae; Alcanivorax; Alcanivorax borkumensis; #=GS Q0VME5/218-330 AC Q0VME5 #=GS Q0VME5/218-330 OS Alcanivorax borkumensis SK2 #=GS Q0VME5/218-330 DE DNA mismatch repair protein MutL #=GS Q0VME5/218-330 DR GENE3D; 10431430df9de7c864e6db97c2fcd623/218-330; #=GS Q0VME5/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Alcanivoracaceae; Alcanivorax; Alcanivorax borkumensis; #=GS V4PJZ5/222-334 AC V4PJZ5 #=GS V4PJZ5/222-334 OS Asticcacaulis benevestitus DSM 16100 = ATCC BAA-896 #=GS V4PJZ5/222-334 DE DNA mismatch repair protein MutL #=GS V4PJZ5/222-334 DR GENE3D; 105110b356bef4c3184d738177ff1a9a/222-334; #=GS V4PJZ5/222-334 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis benevestitus; #=GS Q5NQM6/214-325 AC Q5NQM6 #=GS Q5NQM6/214-325 OS Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821 #=GS Q5NQM6/214-325 DE DNA mismatch repair protein MutL #=GS Q5NQM6/214-325 DR GENE3D; 1064e50b16d18f152d7e71b488d169dc/214-325; #=GS Q5NQM6/214-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Zymomonas; Zymomonas mobilis; Zymomonas mobilis subsp. mobilis; #=GS E6V429/223-335 AC E6V429 #=GS E6V429/223-335 OS Variovorax paradoxus EPS #=GS E6V429/223-335 DE DNA mismatch repair protein MutL #=GS E6V429/223-335 DR GENE3D; 106b9ddff447ba3dca037445f82f5422/223-335; #=GS E6V429/223-335 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Variovorax; Variovorax paradoxus; #=GS B4RA70/227-339 AC B4RA70 #=GS B4RA70/227-339 OS Phenylobacterium zucineum HLK1 #=GS B4RA70/227-339 DE DNA mismatch repair protein MutL #=GS B4RA70/227-339 DR GENE3D; 10c4cc752bf948dfbfd9395cb58724d4/227-339; #=GS B4RA70/227-339 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium zucineum; #=GS K1ZAB6/217-329 AC K1ZAB6 #=GS K1ZAB6/217-329 OS groundwater metagenome #=GS K1ZAB6/217-329 DE Uncharacterized protein #=GS K1ZAB6/217-329 DR GENE3D; 10d5dbdca6ba166fb70129a1877fed47/217-329; #=GS K1ZAB6/217-329 DR ORG; groundwater metagenome; #=GS A0A1G0E5C7/217-329 AC A0A1G0E5C7 #=GS A0A1G0E5C7/217-329 OS Gammaproteobacteria bacterium RBG_16_37_9 #=GS A0A1G0E5C7/217-329 DE DNA mismatch repair protein MutL #=GS A0A1G0E5C7/217-329 DR GENE3D; 10d5dbdca6ba166fb70129a1877fed47/217-329; #=GS A0A1G0E5C7/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RBG_16_37_9; #=GS A0A1F3A491/227-339 AC A0A1F3A491 #=GS A0A1F3A491/227-339 OS Alphaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_66_14 #=GS A0A1F3A491/227-339 DE DNA mismatch repair protein MutL #=GS A0A1F3A491/227-339 DR GENE3D; 10d95fef55b5d2c85bd781b42ab0262d/227-339; #=GS A0A1F3A491/227-339 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Alphaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_66_14; #=GS A0A0W1L485/217-326 AC A0A0W1L485 #=GS A0A0W1L485/217-326 OS Pseudoalteromonas sp. H105 #=GS A0A0W1L485/217-326 DE DNA mismatch repair protein MutL #=GS A0A0W1L485/217-326 DR GENE3D; 1111e50a6e6653e16791360b608aee52/217-326; #=GS A0A0W1L485/217-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas sp. H105; #=GS I2NQB3/227-339 AC I2NQB3 #=GS I2NQB3/227-339 OS Haemophilus paraphrohaemolyticus HK411 #=GS I2NQB3/227-339 DE DNA mismatch repair protein MutL #=GS I2NQB3/227-339 DR GENE3D; 111b4713b7204d79090299902973621d/227-339; #=GS I2NQB3/227-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus paraphrohaemolyticus; #=GS A0A1B1AFB9/226-338 AC A0A1B1AFB9 #=GS A0A1B1AFB9/226-338 OS Caulobacteraceae bacterium OTSz_A_272 #=GS A0A1B1AFB9/226-338 DE DNA mismatch repair protein MutL #=GS A0A1B1AFB9/226-338 DR GENE3D; 11415f50d7f30ae95a9b8aba27cca119/226-338; #=GS A0A1B1AFB9/226-338 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacteraceae bacterium OTSz_A_272; #=GS A0A0M2QLH2/233-345 AC A0A0M2QLH2 #=GS A0A0M2QLH2/233-345 OS Burkholderia gladioli #=GS A0A0M2QLH2/233-345 DE DNA mismatch repair protein #=GS A0A0M2QLH2/233-345 DR GENE3D; 114fbe3a2a87b31d1f2bbc92d6515504/233-345; #=GS A0A0M2QLH2/233-345 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia gladioli; #=GS A0A101D5M9/223-335 AC A0A101D5M9 #=GS A0A101D5M9/223-335 OS Halomonas sp. 54_146 #=GS A0A101D5M9/223-335 DE DNA mismatch repair protein MutL #=GS A0A101D5M9/223-335 DR GENE3D; 11ba9610b2b4712c70eb9917f81eec09/223-335; #=GS A0A101D5M9/223-335 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas sp. 54_146; #=GS A0A1H7RA53/220-332 AC A0A1H7RA53 #=GS A0A1H7RA53/220-332 OS Roseovarius azorensis #=GS A0A1H7RA53/220-332 DE DNA mismatch repair protein MutL #=GS A0A1H7RA53/220-332 DR GENE3D; 11ef4ab089968dfcfdd39f49935f1adf/220-332; #=GS A0A1H7RA53/220-332 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseovarius; Roseovarius azorensis; #=GS A0A089YPV1/221-333 AC A0A089YPV1 #=GS A0A089YPV1/221-333 OS Pseudomonas rhizosphaerae #=GS A0A089YPV1/221-333 DE DNA mismatch repair protein MutL #=GS A0A089YPV1/221-333 DR GENE3D; 120cbe903e41ec6602aae8c6a453a51a/221-333; #=GS A0A089YPV1/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas rhizosphaerae; #=GS A0A1N6FAS4/211-323 AC A0A1N6FAS4 #=GS A0A1N6FAS4/211-323 OS Sphingorhabdus marina DSM 22363 #=GS A0A1N6FAS4/211-323 DE DNA mismatch repair protein MutL #=GS A0A1N6FAS4/211-323 DR GENE3D; 129238e18bf0c7558d9d3aee95ee1b4d/211-323; #=GS A0A1N6FAS4/211-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingorhabdus; Sphingorhabdus marina; #=GS A0A0Q4GX54/222-334 AC A0A0Q4GX54 #=GS A0A0Q4GX54/222-334 OS Xylophilus sp. Leaf220 #=GS A0A0Q4GX54/222-334 DE DNA mismatch repair protein MutL #=GS A0A0Q4GX54/222-334 DR GENE3D; 129a18fdbe3857ec829205e7c0180f3f/222-334; #=GS A0A0Q4GX54/222-334 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Xylophilus; Xylophilus sp. Leaf220; #=GS A0A0Q0G6T4/217-327 AC A0A0Q0G6T4 #=GS A0A0Q0G6T4/217-327 OS Shewanella sp. P1-14-1 #=GS A0A0Q0G6T4/217-327 DE DNA mismatch repair protein MutL #=GS A0A0Q0G6T4/217-327 DR GENE3D; 12f75bbc4bf7a7e2f77a368000715fd4/217-327; #=GS A0A0Q0G6T4/217-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella sp. P1-14-1; #=GS A0A074JW87/233-345 AC A0A074JW87 #=GS A0A074JW87/233-345 OS Thioclava indica #=GS A0A074JW87/233-345 DE DNA mismatch repair protein MutL #=GS A0A074JW87/233-345 DR GENE3D; 130acb5402c86469e75b7fb305776c5c/233-345; #=GS A0A074JW87/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Thioclava; Thioclava indica; #=GS A0A0Q6WI59/220-331 AC A0A0Q6WI59 #=GS A0A0Q6WI59/220-331 OS Rhizobacter sp. Root1221 #=GS A0A0Q6WI59/220-331 DE DNA mismatch repair protein MutL #=GS A0A0Q6WI59/220-331 DR GENE3D; 1379f6a62196d690d7b30716f77a9c41/220-331; #=GS A0A0Q6WI59/220-331 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Rhizobacter; Rhizobacter sp. Root1221; #=GS A0Y807/218-330 AC A0Y807 #=GS A0Y807/218-330 OS marine gamma proteobacterium HTCC2143 #=GS A0Y807/218-330 DE DNA mismatch repair protein MutL #=GS A0Y807/218-330 DR GENE3D; 139fd8043821bec825724261a525bb06/218-330; #=GS A0Y807/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Spongiibacteraceae; marine gamma proteobacterium HTCC2143; #=GS F3KQ22/237-354 AC F3KQ22 #=GS F3KQ22/237-354 OS Hylemonella gracilis ATCC 19624 #=GS F3KQ22/237-354 DE DNA mismatch repair protein MutL #=GS F3KQ22/237-354 DR GENE3D; 13e6052e2614f9dce6f3e20cb6facc01/237-354; #=GS F3KQ22/237-354 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Hylemonella; Hylemonella gracilis; #=GS M9X1M3/226-338 AC M9X1M3 #=GS M9X1M3/226-338 OS Mannheimia haemolytica M42548 #=GS M9X1M3/226-338 DE DNA mismatch repair protein MutL #=GS M9X1M3/226-338 DR GENE3D; 140289b7713c24fef17903de3253f1b3/226-338; #=GS M9X1M3/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Mannheimia; Mannheimia haemolytica; #=GS A0A1A7BLQ5/229-344 AC A0A1A7BLQ5 #=GS A0A1A7BLQ5/229-344 OS Porphyrobacter dokdonensis DSW-74 #=GS A0A1A7BLQ5/229-344 DE DNA mismatch repair protein MutL #=GS A0A1A7BLQ5/229-344 DR GENE3D; 1411a71c9b94ea21137e6816b2411995/229-344; #=GS A0A1A7BLQ5/229-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Porphyrobacter; Porphyrobacter dokdonensis; #=GS A0A163ZE02/216-328 AC A0A163ZE02 #=GS A0A163ZE02/216-328 OS #=GS A0A163ZE02/216-328 DE DNA mismatch repair protein MutL #=GS A0A163ZE02/216-328 DR GENE3D; 14394c9ee8b5d67930ac913147f6ac1e/216-328; #=GS A0A163ZE02/216-328 DR ORG; #=GS W3RN34/216-327 AC W3RN34 #=GS W3RN34/216-327 OS Afipia sp. P52-10 #=GS W3RN34/216-327 DE DNA mismatch repair protein MutL #=GS W3RN34/216-327 DR GENE3D; 144c8737ad9775908456ec3926800208/216-327; #=GS W3RN34/216-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Afipia; Afipia sp. P52-10; #=GS A0A069PFE4/234-345 AC A0A069PFE4 #=GS A0A069PFE4/234-345 OS Caballeronia grimmiae #=GS A0A069PFE4/234-345 DE DNA mismatch repair protein MutL #=GS A0A069PFE4/234-345 DR GENE3D; 1457eb0049ccdeb247cde0e6e63e9725/234-345; #=GS A0A069PFE4/234-345 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Caballeronia; Caballeronia grimmiae; #=GS A0A0H3H5C4/217-330 AC A0A0H3H5C4 #=GS A0A0H3H5C4/217-330 OS Klebsiella michiganensis KCTC 1686 #=GS A0A0H3H5C4/217-330 DE DNA mismatch repair protein MutL #=GS A0A0H3H5C4/217-330 DR GENE3D; 1463eed281e47a0bd07ae867e44787f1/217-330; #=GS A0A0H3H5C4/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella michiganensis; #=GS A0A127K572/210-322 AC A0A127K572 #=GS A0A127K572/210-322 OS Thauera humireducens #=GS A0A127K572/210-322 DE DNA mismatch repair protein MutL #=GS A0A127K572/210-322 DR GENE3D; 148c61257e18137f323561308965ca0a/210-322; #=GS A0A127K572/210-322 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Thauera; Thauera humireducens; #=GS A0A1G0KP11/213-325 AC A0A1G0KP11 #=GS A0A1G0KP11/213-325 OS Gammaproteobacteria bacterium RIFOXYD12_FULL_61_37 #=GS A0A1G0KP11/213-325 DE DNA mismatch repair protein MutL #=GS A0A1G0KP11/213-325 DR GENE3D; 148cd438c69296e1712ae93dffc0a384/213-325; #=GS A0A1G0KP11/213-325 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFOXYD12_FULL_61_37; #=GS A0A0J1DI10/219-330 AC A0A0J1DI10 #=GS A0A0J1DI10/219-330 OS Massilia sp. WF1 #=GS A0A0J1DI10/219-330 DE DNA mismatch repair protein MutL #=GS A0A0J1DI10/219-330 DR GENE3D; 148ecc437af119af823d1487f5808753/219-330; #=GS A0A0J1DI10/219-330 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Massilia; Massilia sp. WF1; #=GS F0G444/1-79 AC F0G444 #=GS F0G444/1-79 OS Burkholderia sp. TJI49 #=GS F0G444/1-79 DE DNA mismatch repair protein #=GS F0G444/1-79 DR GENE3D; 1491e1158e3894e4b6ce4d6d493bbd74/1-79; #=GS F0G444/1-79 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. TJI49; #=GS K2ID10/216-326 AC K2ID10 #=GS K2ID10/216-326 OS Gallaecimonas xiamenensis 3-C-1 #=GS K2ID10/216-326 DE DNA mismatch repair protein MutL #=GS K2ID10/216-326 DR GENE3D; 14b900ab469f120e072cbd882d1b795e/216-326; #=GS K2ID10/216-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gallaecimonas; Gallaecimonas xiamenensis; #=GS A0A1J5L8Y3/217-329 AC A0A1J5L8Y3 #=GS A0A1J5L8Y3/217-329 OS Vibrio sp. MedPE-SWchi #=GS A0A1J5L8Y3/217-329 DE DNA mismatch repair protein MutL #=GS A0A1J5L8Y3/217-329 DR GENE3D; 15185236101f0478e8657e813799ccbd/217-329; #=GS A0A1J5L8Y3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. MedPE-SWchi; #=GS A0A0A0ELL6/220-332 AC A0A0A0ELL6 #=GS A0A0A0ELL6/220-332 OS Lysobacter concretionis Ko07 = DSM 16239 #=GS A0A0A0ELL6/220-332 DE DNA mismatch repair protein MutL #=GS A0A0A0ELL6/220-332 DR GENE3D; 153523b893bbe9941a7efe3a1a4fa6d3/220-332; #=GS A0A0A0ELL6/220-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter concretionis; #=GS Q2BIN8/218-332 AC Q2BIN8 #=GS Q2BIN8/218-332 OS Neptuniibacter caesariensis #=GS Q2BIN8/218-332 DE DNA mismatch repair protein MutL #=GS Q2BIN8/218-332 DR GENE3D; 153dac1fdd602e7f32fe57fb05551331/218-332; #=GS Q2BIN8/218-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Neptuniibacter; Neptuniibacter caesariensis; #=GS A0A142L7L2/214-325 AC A0A142L7L2 #=GS A0A142L7L2/214-325 OS Bacteroidetes bacterium UKL13-3 #=GS A0A142L7L2/214-325 DE DNA mismatch repair protein MutL #=GS A0A142L7L2/214-325 DR GENE3D; 15764f9c5780bb86bb680f8780b11692/214-325; #=GS A0A142L7L2/214-325 DR ORG; Bacteria; Bacteroidetes; Bacteroidetes bacterium UKL13-3; #=GS A0A0Q0IZS3/217-326 AC A0A0Q0IZS3 #=GS A0A0Q0IZS3/217-326 OS Pseudoalteromonas sp. P1-16-1b #=GS A0A0Q0IZS3/217-326 DE DNA mismatch repair protein MutL #=GS A0A0Q0IZS3/217-326 DR GENE3D; 157e146f5edc688489524329edb0b463/217-326; #=GS A0A0Q0IZS3/217-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas sp. P1-16-1b; #=GS A0A0W0U1U2/217-329 AC A0A0W0U1U2 #=GS A0A0W0U1U2/217-329 OS Fluoribacter gormanii #=GS A0A0W0U1U2/217-329 DE DNA mismatch repair protein MutL #=GS A0A0W0U1U2/217-329 DR GENE3D; 1598f4b19da0f0b5f69213ae9ea2a143/217-329; #=GS A0A0W0U1U2/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Fluoribacter; Fluoribacter gormanii; #=GS A0A176TZQ3/241-353 AC A0A176TZQ3 #=GS A0A176TZQ3/241-353 OS Comamonas thiooxydans #=GS A0A176TZQ3/241-353 DE DNA mismatch repair protein MutL #=GS A0A176TZQ3/241-353 DR GENE3D; 15cad35f8b3c0679eed2ef448240c2d7/241-353; #=GS A0A176TZQ3/241-353 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas thiooxydans; #=GS A0A1M2ZHA8/212-323 AC A0A1M2ZHA8 #=GS A0A1M2ZHA8/212-323 OS Sphingomonas sp. 66-10 #=GS A0A1M2ZHA8/212-323 DE DNA mismatch repair protein MutL #=GS A0A1M2ZHA8/212-323 DR GENE3D; 15d60cdf40263126c91c22c8326ecf5b/212-323; #=GS A0A1M2ZHA8/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. 66-10; #=GS A0A0W1AD66/215-327 AC A0A0W1AD66 #=GS A0A0W1AD66/215-327 OS Legionella waltersii #=GS A0A0W1AD66/215-327 DE DNA mismatch repair protein MutL #=GS A0A0W1AD66/215-327 DR GENE3D; 1609af666c8bb5a35b9c2f6d4e464326/215-327; #=GS A0A0W1AD66/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella waltersii; #=GS B5WVX5/262-374 AC B5WVX5 #=GS B5WVX5/262-374 OS Burkholderia sp. H160 #=GS B5WVX5/262-374 DE DNA mismatch repair protein MutL #=GS B5WVX5/262-374 DR GENE3D; 16656b25e64cba63150c1b22b56774dc/262-374; #=GS B5WVX5/262-374 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. H160; #=GS F4GUF5/213-325 AC F4GUF5 #=GS F4GUF5/213-325 OS Pusillimonas sp. T7-7 #=GS F4GUF5/213-325 DE DNA mismatch repair protein MutL #=GS F4GUF5/213-325 DR GENE3D; 16a7ded3ad20978cdf3d214d49af1212/213-325; #=GS F4GUF5/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Pusillimonas; Pusillimonas sp. T7-7; #=GS J5KR59/83-195 AC J5KR59 #=GS J5KR59/83-195 OS Pasteurella multocida subsp. multocida str. Anand1_buffalo #=GS J5KR59/83-195 DE DNA mismatch repair protein #=GS J5KR59/83-195 DR GENE3D; 16d22e973349c4ef0afa948148f6b86a/83-195; #=GS J5KR59/83-195 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Pasteurella; Pasteurella multocida; Pasteurella multocida subsp. multocida; #=GS A0A060Q4G1/213-324 AC A0A060Q4G1 #=GS A0A060Q4G1/213-324 OS Wolbachia endosymbiont of Cimex lectularius #=GS A0A060Q4G1/213-324 DE DNA mismatch repair protein MutL #=GS A0A060Q4G1/213-324 DR GENE3D; 16d441cda3ea6e8fb55cb86cae299a7c/213-324; #=GS A0A060Q4G1/213-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Anaplasmataceae; Wolbachieae; Wolbachia; Wolbachia endosymbiont of Cimex lectularius; #=GS A0A0K8MD20/211-323 AC A0A0K8MD20 #=GS A0A0K8MD20/211-323 OS Caedibacter varicaedens #=GS A0A0K8MD20/211-323 DE DNA mismatch repair protein MutL #=GS A0A0K8MD20/211-323 DR GENE3D; 16e44ecf688747f40810cf5d46392edd/211-323; #=GS A0A0K8MD20/211-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Holosporales; Caedibacter; Caedibacter varicaedens; #=GS A0A0P1FAC8/233-345 AC A0A0P1FAC8 #=GS A0A0P1FAC8/233-345 OS Thalassobius gelatinovorus #=GS A0A0P1FAC8/233-345 DE DNA mismatch repair protein MutL #=GS A0A0P1FAC8/233-345 DR GENE3D; 170b0de31055ec4f99e23f5f946948c7/233-345; #=GS A0A0P1FAC8/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Thalassobius; Thalassobius gelatinovorus; #=GS A0A1M6DLS8/218-331 AC A0A1M6DLS8 #=GS A0A1M6DLS8/218-331 OS Malonomonas rubra DSM 5091 #=GS A0A1M6DLS8/218-331 DE DNA mismatch repair protein MutL #=GS A0A1M6DLS8/218-331 DR GENE3D; 171b3f60cc25a6d03702b7d05f296c66/218-331; #=GS A0A1M6DLS8/218-331 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Desulfuromonadaceae; Malonomonas; Malonomonas rubra; #=GS A0A0A0EFC3/233-345 AC A0A0A0EFC3 #=GS A0A0A0EFC3/233-345 OS Pseudooceanicola atlanticus #=GS A0A0A0EFC3/233-345 DE DNA mismatch repair protein MutL #=GS A0A0A0EFC3/233-345 DR GENE3D; 1753e3dbb8fa0ffc8f43841d240eaad2/233-345; #=GS A0A0A0EFC3/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Pseudooceanicola; Pseudooceanicola atlanticus; #=GS A0A0W1DUI5/212-322 AC A0A0W1DUI5 #=GS A0A0W1DUI5/212-322 OS Sphingopyxis sp. H050 #=GS A0A0W1DUI5/212-322 DE DNA mismatch repair protein MutL #=GS A0A0W1DUI5/212-322 DR GENE3D; 176d7181ba276f7ea8933e28178b571f/212-322; #=GS A0A0W1DUI5/212-322 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. H050; #=GS A0A0K1XCS7/219-331 AC A0A0K1XCS7 #=GS A0A0K1XCS7/219-331 OS Oblitimonas alkaliphila #=GS A0A0K1XCS7/219-331 DE DNA mismatch repair protein MutL #=GS A0A0K1XCS7/219-331 DR GENE3D; 177bad03c65c81ffeaf5652d02a941ef/219-331; #=GS A0A0K1XCS7/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Oblitimonas; Oblitimonas alkaliphila; #=GS U2B1E5/218-330 AC U2B1E5 #=GS U2B1E5/218-330 OS Pseudomonas sp. EGD-AK9 #=GS U2B1E5/218-330 DE Uncharacterized protein #=GS U2B1E5/218-330 DR GENE3D; 179b3979db3f1134050c136f43438316/218-330; #=GS U2B1E5/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. EGD-AK9; #=GS A0A0B2B998/230-341 AC A0A0B2B998 #=GS A0A0B2B998/230-341 OS Mumia flava #=GS A0A0B2B998/230-341 DE DNA mismatch repair protein MutL #=GS A0A0B2B998/230-341 DR GENE3D; 17bc689840ac38aebe5374e561655d28/230-341; #=GS A0A0B2B998/230-341 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Mumia; Mumia flava; #=GS A0A1G0LF04/216-328 AC A0A1G0LF04 #=GS A0A1G0LF04/216-328 OS Gammaproteobacteria bacterium RIFOXYB2_FULL_38_6 #=GS A0A1G0LF04/216-328 DE DNA mismatch repair protein MutL #=GS A0A1G0LF04/216-328 DR GENE3D; 17da8ac80ecb85c47f479cd862d05a7c/216-328; #=GS A0A1G0LF04/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFOXYB2_FULL_38_6; #=GS F6CXC6/218-330 AC F6CXC6 #=GS F6CXC6/218-330 OS Marinomonas posidonica IVIA-Po-181 #=GS F6CXC6/218-330 DE DNA mismatch repair protein MutL #=GS F6CXC6/218-330 DR GENE3D; 17e61cd6d991055e4c715acc7ac90521/218-330; #=GS F6CXC6/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Marinomonas; Marinomonas posidonica; #=GS A0A0L7Z148/217-329 AC A0A0L7Z148 #=GS A0A0L7Z148/217-329 OS Vibrio alginolyticus #=GS A0A0L7Z148/217-329 DE DNA mismatch repair protein MutL #=GS A0A0L7Z148/217-329 DR GENE3D; 17f497869aea85a478e393659f111ae9/217-329; #=GS A0A0L7Z148/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio alginolyticus; #=GS Q2KBX7/212-324 AC Q2KBX7 #=GS Q2KBX7/212-324 OS Rhizobium etli CFN 42 #=GS Q2KBX7/212-324 DE DNA mismatch repair protein MutL #=GS Q2KBX7/212-324 DR GENE3D; 1822a851a2b951b57172023295673bc7/212-324; #=GS Q2KBX7/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium etli; #=GS A0A1N6P4Q4/212-324 AC A0A1N6P4Q4 #=GS A0A1N6P4Q4/212-324 OS Rhizobium sp. RU35A #=GS A0A1N6P4Q4/212-324 DE DNA mismatch repair protein MutL #=GS A0A1N6P4Q4/212-324 DR GENE3D; 1823b29467e2af7c9605b11b2cccf9a1/212-324; #=GS A0A1N6P4Q4/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. RU35A; #=GS A0A0W1KUF3/217-326 AC A0A0W1KUF3 #=GS A0A0W1KUF3/217-326 OS Pseudoalteromonas sp. H103 #=GS A0A0W1KUF3/217-326 DE DNA mismatch repair protein MutL #=GS A0A0W1KUF3/217-326 DR GENE3D; 184128afb2c9d13f1325e06f455f3095/217-326; #=GS A0A0W1KUF3/217-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas sp. H103; #=GS L8D778/218-327 AC L8D778 #=GS L8D778/218-327 OS Pseudoalteromonas luteoviolacea B = ATCC 29581 #=GS L8D778/218-327 DE DNA mismatch repair protein MutL #=GS L8D778/218-327 DR GENE3D; 18644e7dba01100ec3a030c6fc996765/218-327; #=GS L8D778/218-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas luteoviolacea; #=GS A0A1G3HD82/210-322 AC A0A1G3HD82 #=GS A0A1G3HD82/210-322 OS Rhodocyclales bacterium GWA2_65_20 #=GS A0A1G3HD82/210-322 DE DNA mismatch repair protein MutL #=GS A0A1G3HD82/210-322 DR GENE3D; 186ecd6bbccc9e458d808a18fe6cb2b9/210-322; #=GS A0A1G3HD82/210-322 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclales bacterium GWA2_65_20; #=GS A0A037ZM61/233-345 AC A0A037ZM61 #=GS A0A037ZM61/233-345 OS Actibacterium mucosum KCTC 23349 #=GS A0A037ZM61/233-345 DE DNA mismatch repair protein MutL #=GS A0A037ZM61/233-345 DR GENE3D; 18907f0651a37d775d86c37900940016/233-345; #=GS A0A037ZM61/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Actibacterium; Actibacterium mucosum; #=GS A0A0L0QXM6/213-325 AC A0A0L0QXM6 #=GS A0A0L0QXM6/213-325 OS Achromobacter spanius #=GS A0A0L0QXM6/213-325 DE DNA mismatch repair protein MutL #=GS A0A0L0QXM6/213-325 DR GENE3D; 18a84bd7053c2155cf30b12a937f4c6d/213-325; #=GS A0A0L0QXM6/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Achromobacter; Achromobacter spanius; #=GS A0A0P7EGB5/217-326 AC A0A0P7EGB5 #=GS A0A0P7EGB5/217-326 OS Pseudoalteromonas lipolytica #=GS A0A0P7EGB5/217-326 DE DNA mismatch repair protein MutL #=GS A0A0P7EGB5/217-326 DR GENE3D; 18c00e93fe93eb14036139692097dc94/217-326; #=GS A0A0P7EGB5/217-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas lipolytica; #=GS D0J1V6/241-353 AC D0J1V6 #=GS D0J1V6/241-353 OS Comamonas testosteroni CNB-2 #=GS D0J1V6/241-353 DE DNA mismatch repair protein MutL #=GS D0J1V6/241-353 DR GENE3D; 18d420bdcd7c1d9ceb6eec5b9117b6c8/241-353; #=GS D0J1V6/241-353 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas testosteroni; #=GS C7R8S3/217-329 AC C7R8S3 #=GS C7R8S3/217-329 OS Kangiella koreensis DSM 16069 #=GS C7R8S3/217-329 DE DNA mismatch repair protein MutL #=GS C7R8S3/217-329 DR GENE3D; 18eee0f960e92ff7ab52bb1d846d0086/217-329; #=GS C7R8S3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Kangiellaceae; Kangiella; Kangiella koreensis; #=GS A0A177MGE5/217-329 AC A0A177MGE5 #=GS A0A177MGE5/217-329 OS Methylomonas methanica #=GS A0A177MGE5/217-329 DE DNA mismatch repair protein MutL #=GS A0A177MGE5/217-329 DR GENE3D; 195ee9fc9ba223efd9c446b0eebfe7a1/217-329; #=GS A0A177MGE5/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Methylococcales; Methylococcaceae; Methylomonas; Methylomonas methanica; #=GS A0A126T7W8/217-329 AC A0A126T7W8 #=GS A0A126T7W8/217-329 OS Methylomonas denitrificans #=GS A0A126T7W8/217-329 DE DNA mismatch repair protein MutL #=GS A0A126T7W8/217-329 DR GENE3D; 195ee9fc9ba223efd9c446b0eebfe7a1/217-329; #=GS A0A126T7W8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Methylococcales; Methylococcaceae; Methylomonas; Methylomonas denitrificans; #=GS I1DUT1/217-329 AC I1DUT1 #=GS I1DUT1/217-329 OS Rheinheimera nanhaiensis E407-8 #=GS I1DUT1/217-329 DE DNA mismatch repair protein MutL #=GS I1DUT1/217-329 DR GENE3D; 1960971b45b7c360b2cfb4bab2ad8eed/217-329; #=GS I1DUT1/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Rheinheimera; Rheinheimera nanhaiensis; #=GS A0A1G3GT17/230-342 AC A0A1G3GT17 #=GS A0A1G3GT17/230-342 OS Rhodobacterales bacterium RIFCSPHIGHO2_02_FULL_62_130 #=GS A0A1G3GT17/230-342 DE DNA mismatch repair protein MutL #=GS A0A1G3GT17/230-342 DR GENE3D; 199719bff132d92708a7b5895ba78538/230-342; #=GS A0A1G3GT17/230-342 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacterales bacterium RIFCSPHIGHO2_02_FULL_62_130; #=GS A0A1E7Z9Q7/216-328 AC A0A1E7Z9Q7 #=GS A0A1E7Z9Q7/216-328 OS Alteromonas confluentis #=GS A0A1E7Z9Q7/216-328 DE DNA mismatch repair protein MutL #=GS A0A1E7Z9Q7/216-328 DR GENE3D; 19c9e501dbb45cf295d15403921c3b4b/216-328; #=GS A0A1E7Z9Q7/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas confluentis; #=GS A0A0Q8QCK2/218-329 AC A0A0Q8QCK2 #=GS A0A0Q8QCK2/218-329 OS Duganella sp. Root198D2 #=GS A0A0Q8QCK2/218-329 DE DNA mismatch repair protein MutL #=GS A0A0Q8QCK2/218-329 DR GENE3D; 19cab64caeec40330635534269eb554e/218-329; #=GS A0A0Q8QCK2/218-329 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Duganella; Duganella sp. Root198D2; #=GS A0A1G3IJ81/193-305 AC A0A1G3IJ81 #=GS A0A1G3IJ81/193-305 OS Rhodospirillales bacterium RIFCSPLOWO2_01_FULL_65_14 #=GS A0A1G3IJ81/193-305 DE DNA mismatch repair protein MutL #=GS A0A1G3IJ81/193-305 DR GENE3D; 19cf422694e850d78ec76903bd8ecb40/193-305; #=GS A0A1G3IJ81/193-305 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillales bacterium RIFCSPLOWO2_01_FULL_65_14; #=GS A0A1M3H6D2/213-324 AC A0A1M3H6D2 #=GS A0A1M3H6D2/213-324 OS Thiobacillus sp. 65-1059 #=GS A0A1M3H6D2/213-324 DE DNA mismatch repair protein MutL #=GS A0A1M3H6D2/213-324 DR GENE3D; 1a6265b8cbac8b95ee182af52644aaca/213-324; #=GS A0A1M3H6D2/213-324 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Hydrogenophilales; Hydrogenophilaceae; Thiobacillus; Thiobacillus sp. 65-1059; #=GS A4Z0Q5/216-327 AC A4Z0Q5 #=GS A4Z0Q5/216-327 OS Bradyrhizobium sp. ORS 278 #=GS A4Z0Q5/216-327 DE DNA mismatch repair protein MutL #=GS A4Z0Q5/216-327 DR GENE3D; 1aa4f496e28c4e8e1d99cfa6dafa38ac/216-327; #=GS A4Z0Q5/216-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. ORS 278; #=GS A0A1M3GAK8/213-324 AC A0A1M3GAK8 #=GS A0A1M3GAK8/213-324 OS Thiobacillus sp. 65-69 #=GS A0A1M3GAK8/213-324 DE DNA mismatch repair protein MutL #=GS A0A1M3GAK8/213-324 DR GENE3D; 1ae915e20be1bc9e58118beed9d92e0e/213-324; #=GS A0A1M3GAK8/213-324 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Hydrogenophilales; Hydrogenophilaceae; Thiobacillus; Thiobacillus sp. 65-69; #=GS A0A1E4NCK0/213-324 AC A0A1E4NCK0 #=GS A0A1E4NCK0/213-324 OS Thiobacillus sp. SCN 65-179 #=GS A0A1E4NCK0/213-324 DE DNA mismatch repair protein MutL #=GS A0A1E4NCK0/213-324 DR GENE3D; 1ae915e20be1bc9e58118beed9d92e0e/213-324; #=GS A0A1E4NCK0/213-324 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Hydrogenophilales; Hydrogenophilaceae; Thiobacillus; Thiobacillus sp. SCN 65-179; #=GS A0A0D6T0Z2/221-333 AC A0A0D6T0Z2 #=GS A0A0D6T0Z2/221-333 OS Pseudomonas sp. FeS53a #=GS A0A0D6T0Z2/221-333 DE DNA mismatch repair protein MutL #=GS A0A0D6T0Z2/221-333 DR GENE3D; 1b0dcc35035d8c3b8851ccadc44e49db/221-333; #=GS A0A0D6T0Z2/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. FeS53a; #=GS D3SEG4/214-326 AC D3SEG4 #=GS D3SEG4/214-326 OS Thioalkalivibrio sp. K90mix #=GS D3SEG4/214-326 DE DNA mismatch repair protein MutL #=GS D3SEG4/214-326 DR GENE3D; 1b280bbf24b6a8b1bb51b1fa1209c2bd/214-326; #=GS D3SEG4/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thioalkalivibrio; Thioalkalivibrio sp. K90mix; #=GS A0A0N0E5J4/226-338 AC A0A0N0E5J4 #=GS A0A0N0E5J4/226-338 OS Pseudomonas fuscovaginae #=GS A0A0N0E5J4/226-338 DE DNA mismatch repair protein MutL #=GS A0A0N0E5J4/226-338 DR GENE3D; 1b710bd3140ea881791be7441d5e7db8/226-338; #=GS A0A0N0E5J4/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas fuscovaginae; #=GS A0A1M7F6M2/226-338 AC A0A1M7F6M2 #=GS A0A1M7F6M2/226-338 OS Halomonas subglaciescola #=GS A0A1M7F6M2/226-338 DE DNA mismatch repair protein MutL #=GS A0A1M7F6M2/226-338 DR GENE3D; 1b952c99976f3beb8b5da52f66bf0dcb/226-338; #=GS A0A1M7F6M2/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas subglaciescola; #=GS A0A0F5ARX8/217-328 AC A0A0F5ARX8 #=GS A0A0F5ARX8/217-328 OS Salinivibrio sp. KP-1 #=GS A0A0F5ARX8/217-328 DE DNA mismatch repair protein MutL #=GS A0A0F5ARX8/217-328 DR GENE3D; 1be61095b252a2af046b61812e19478e/217-328; #=GS A0A0F5ARX8/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Salinivibrio; Salinivibrio sp. KP-1; #=GS V5UBP7/217-329 AC V5UBP7 #=GS V5UBP7/217-329 OS Pandoraea pnomenusa #=GS V5UBP7/217-329 DE DNA mismatch repair protein MutL #=GS V5UBP7/217-329 DR GENE3D; 1bf4c77ba1432100d98b672fe68781ad/217-329; #=GS V5UBP7/217-329 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Pandoraea; Pandoraea pnomenusa; #=GS W9T239/221-333 AC W9T239 #=GS W9T239/221-333 OS Pseudomonas sp. BAY1663 #=GS W9T239/221-333 DE DNA mismatch repair protein MutL #=GS W9T239/221-333 DR GENE3D; 1c0411664a8181d084489b319a6d9641/221-333; #=GS W9T239/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. BAY1663; #=GS A0A125Y8P8/217-329 AC A0A125Y8P8 #=GS A0A125Y8P8/217-329 OS Aeromonas caviae #=GS A0A125Y8P8/217-329 DE DNA mismatch repair protein MutL #=GS A0A125Y8P8/217-329 DR GENE3D; 1c2131074b9df35ce627755c31696583/217-329; #=GS A0A125Y8P8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas caviae; #=GS A0A0A7RXU8/217-331 AC A0A0A7RXU8 #=GS A0A0A7RXU8/217-331 OS Frischella perrara #=GS A0A0A7RXU8/217-331 DE DNA mismatch repair protein MutL #=GS A0A0A7RXU8/217-331 DR GENE3D; 1c2be85e8acb018669d2be8f52c264a4/217-331; #=GS A0A0A7RXU8/217-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Frischella; Frischella perrara; #=GS A0A0H4KZ08/233-345 AC A0A0H4KZ08 #=GS A0A0H4KZ08/233-345 OS Marinovum algicola DG 898 #=GS A0A0H4KZ08/233-345 DE DNA mismatch repair protein MutL #=GS A0A0H4KZ08/233-345 DR GENE3D; 1c3982c8806aa31dc1b84bc470c79f41/233-345; #=GS A0A0H4KZ08/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Marinovum; Marinovum algicola; #=GS R8B5L5/218-330 AC R8B5L5 #=GS R8B5L5/218-330 OS Marinobacter lipolyticus SM19 #=GS R8B5L5/218-330 DE DNA mismatch repair protein MutL #=GS R8B5L5/218-330 DR GENE3D; 1c3989ae381f26e9d0cac671fbf74bbb/218-330; #=GS R8B5L5/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter lipolyticus; #=GS A0A0F7PLP7/212-324 AC A0A0F7PLP7 #=GS A0A0F7PLP7/212-324 OS Hoeflea sp. IMCC20628 #=GS A0A0F7PLP7/212-324 DE DNA mismatch repair protein MutL #=GS A0A0F7PLP7/212-324 DR GENE3D; 1c487405c9d41eb06e8bc7dcf8de4901/212-324; #=GS A0A0F7PLP7/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Hoeflea; Hoeflea sp. IMCC20628; #=GS A0A1H2H2Y6/228-340 AC A0A1H2H2Y6 #=GS A0A1H2H2Y6/228-340 OS Pseudomonas pohangensis #=GS A0A1H2H2Y6/228-340 DE DNA mismatch repair protein MutL #=GS A0A1H2H2Y6/228-340 DR GENE3D; 1c6966b7c5838d15f44f4b428d50c128/228-340; #=GS A0A1H2H2Y6/228-340 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas pohangensis; #=GS A0A0A3Z5M8/217-329 AC A0A0A3Z5M8 #=GS A0A0A3Z5M8/217-329 OS Erwinia typographi #=GS A0A0A3Z5M8/217-329 DE DNA mismatch repair protein MutL #=GS A0A0A3Z5M8/217-329 DR GENE3D; 1c697af52374c9ec9e27ef8b7599e6ef/217-329; #=GS A0A0A3Z5M8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Erwinia; Erwinia typographi; #=GS D9SFP7/233-345 AC D9SFP7 #=GS D9SFP7/233-345 OS Gallionella capsiferriformans ES-2 #=GS D9SFP7/233-345 DE DNA mismatch repair protein MutL #=GS D9SFP7/233-345 DR GENE3D; 1c6e1eeb4c7ac7f540208422f98f1990/233-345; #=GS D9SFP7/233-345 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Gallionellales; Gallionellaceae; Gallionella; Gallionella capsiferriformans; #=GS D2UCT2/214-326 AC D2UCT2 #=GS D2UCT2/214-326 OS Xanthomonas albilineans GPE PC73 #=GS D2UCT2/214-326 DE DNA mismatch repair protein MutL #=GS D2UCT2/214-326 DR GENE3D; 1c8d903380978d7df64e0435622116bd/214-326; #=GS D2UCT2/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas albilineans; #=GS A0A1D7P8T2/217-329 AC A0A1D7P8T2 #=GS A0A1D7P8T2/217-329 OS Xenorhabdus hominickii #=GS A0A1D7P8T2/217-329 DE DNA mismatch repair protein MutL #=GS A0A1D7P8T2/217-329 DR GENE3D; 1c8e23655e2b9ba307011a9982c6777c/217-329; #=GS A0A1D7P8T2/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus hominickii; #=GS W7Q9Q7/216-328 AC W7Q9Q7 #=GS W7Q9Q7/216-328 OS Catenovulum agarivorans DS-2 #=GS W7Q9Q7/216-328 DE DNA mismatch repair protein MutL #=GS W7Q9Q7/216-328 DR GENE3D; 1cd389e0daf49c66d267c13246e47b59/216-328; #=GS W7Q9Q7/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Catenovulum; Catenovulum agarivorans; #=GS U7FW84/215-327 AC U7FW84 #=GS U7FW84/215-327 OS Labrenzia sp. C1B10 #=GS U7FW84/215-327 DE DNA mismatch repair protein MutL #=GS U7FW84/215-327 DR GENE3D; 1cd513c07074c691b8749414c74ea721/215-327; #=GS U7FW84/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia sp. C1B10; #=GS A0A1M3P6S8/217-329 AC A0A1M3P6S8 #=GS A0A1M3P6S8/217-329 OS Rhodanobacter sp. 68-29 #=GS A0A1M3P6S8/217-329 DE DNA mismatch repair protein MutL #=GS A0A1M3P6S8/217-329 DR GENE3D; 1cd7001609c2ef34c6fddb21aa84f1f1/217-329; #=GS A0A1M3P6S8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Rhodanobacter; Rhodanobacter sp. 68-29; #=GS A0A1E4MTK4/217-329 AC A0A1E4MTK4 #=GS A0A1E4MTK4/217-329 OS Rhodanobacter sp. SCN 69-32 #=GS A0A1E4MTK4/217-329 DE DNA mismatch repair protein MutL #=GS A0A1E4MTK4/217-329 DR GENE3D; 1cd7001609c2ef34c6fddb21aa84f1f1/217-329; #=GS A0A1E4MTK4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Rhodanobacter; Rhodanobacter sp. SCN 69-32; #=GS W8RZD1/98-210 AC W8RZD1 #=GS W8RZD1/98-210 OS Roseibacterium elongatum DSM 19469 #=GS W8RZD1/98-210 DE DNA mismatch repair protein MutL #=GS W8RZD1/98-210 DR GENE3D; 1cdb10788162d2967bc233e48ed95729/98-210; #=GS W8RZD1/98-210 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseibacterium; Roseibacterium elongatum; #=GS A0A1C3J4E1/217-328 AC A0A1C3J4E1 #=GS A0A1C3J4E1/217-328 OS Vibrio atlanticus #=GS A0A1C3J4E1/217-328 DE DNA mismatch repair protein MutL #=GS A0A1C3J4E1/217-328 DR GENE3D; 1cdccc58bf189455b5c49faa9ad8f15a/217-328; #=GS A0A1C3J4E1/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio atlanticus; #=GS A0A143HIR6/219-331 AC A0A143HIR6 #=GS A0A143HIR6/219-331 OS Microbulbifer thermotolerans #=GS A0A143HIR6/219-331 DE DNA mismatch repair protein MutL #=GS A0A143HIR6/219-331 DR GENE3D; 1d3513f26cb51961febc2d9582502312/219-331; #=GS A0A143HIR6/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Microbulbiferaceae; Microbulbifer; Microbulbifer thermotolerans; #=GS A0A1N6XYY2/212-324 AC A0A1N6XYY2 #=GS A0A1N6XYY2/212-324 OS Rhizobium sp. RU20A #=GS A0A1N6XYY2/212-324 DE DNA mismatch repair protein MutL #=GS A0A1N6XYY2/212-324 DR GENE3D; 1d35d58f35b061c682d8752861a1ea70/212-324; #=GS A0A1N6XYY2/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. RU20A; #=GS P65489/215-327 AC P65489 #=GS P65489/215-327 OS Brucella melitensis bv. 1 str. 16M #=GS P65489/215-327 DE DNA mismatch repair protein MutL #=GS P65489/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS P65489/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella melitensis; #=GS A0A0M1WGZ2/215-327 AC A0A0M1WGZ2 #=GS A0A0M1WGZ2/215-327 OS Brucella abortus NCTC 8038 #=GS A0A0M1WGZ2/215-327 DE DNA mismatch repair protein MutL #=GS A0A0M1WGZ2/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS A0A0M1WGZ2/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS D7H524/215-327 AC D7H524 #=GS D7H524/215-327 OS Brucella abortus bv. 5 str. B3196 #=GS D7H524/215-327 DE DNA mismatch repair protein MutL #=GS D7H524/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS D7H524/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS N8N2R6/215-327 AC N8N2R6 #=GS N8N2R6/215-327 OS Brucella ovis IntaBari-2002-82-58 #=GS N8N2R6/215-327 DE DNA mismatch repair protein MutL #=GS N8N2R6/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS N8N2R6/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella ovis; #=GS C9V6Q1/215-327 AC C9V6Q1 #=GS C9V6Q1/215-327 OS Brucella neotomae 5K33 #=GS C9V6Q1/215-327 DE DNA mismatch repair protein MutL #=GS C9V6Q1/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS C9V6Q1/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella neotomae; #=GS C4IUL0/215-327 AC C4IUL0 #=GS C4IUL0/215-327 OS Brucella abortus str. 2308 A #=GS C4IUL0/215-327 DE DNA mismatch repair protein MutL #=GS C4IUL0/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS C4IUL0/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS B2SD15/215-327 AC B2SD15 #=GS B2SD15/215-327 OS Brucella abortus S19 #=GS B2SD15/215-327 DE DNA mismatch repair protein MutL #=GS B2SD15/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS B2SD15/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS A0A0E1WX44/215-327 AC A0A0E1WX44 #=GS A0A0E1WX44/215-327 OS Brucella pinnipedialis M292/94/1 #=GS A0A0E1WX44/215-327 DE DNA mismatch repair protein MutL #=GS A0A0E1WX44/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS A0A0E1WX44/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella pinnipedialis; #=GS P65490/215-327 AC P65490 #=GS P65490/215-327 OS Brucella suis 1330 #=GS P65490/215-327 DE DNA mismatch repair protein MutL #=GS P65490/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS P65490/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella suis; #=GS D0P5T9/215-327 AC D0P5T9 #=GS D0P5T9/215-327 OS Brucella suis bv. 5 str. 513 #=GS D0P5T9/215-327 DE DNA mismatch repair protein MutL #=GS D0P5T9/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS D0P5T9/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella suis; #=GS Q2YIH2/215-327 AC Q2YIH2 #=GS Q2YIH2/215-327 OS Brucella abortus 2308 #=GS Q2YIH2/215-327 DE DNA mismatch repair protein MutL #=GS Q2YIH2/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS Q2YIH2/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS A5VTW1/215-327 AC A5VTW1 #=GS A5VTW1/215-327 OS Brucella ovis ATCC 25840 #=GS A5VTW1/215-327 DE DNA mismatch repair protein MutL #=GS A5VTW1/215-327 DR GENE3D; 1d3e55ddae91eed46d1935327dc6f862/215-327; #=GS A5VTW1/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella ovis; #=GS J1K151/215-327 AC J1K151 #=GS J1K151/215-327 OS Bartonella tamiae Th239 #=GS J1K151/215-327 DE DNA mismatch repair protein MutL #=GS J1K151/215-327 DR GENE3D; 1d5642f8936894f0d409593c5084a596/215-327; #=GS J1K151/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella tamiae; #=GS A3WCG0/218-333 AC A3WCG0 #=GS A3WCG0/218-333 OS Erythrobacter sp. NAP1 #=GS A3WCG0/218-333 DE DNA mismatch repair protein MutL #=GS A3WCG0/218-333 DR GENE3D; 1d7184afbe855da312e5155433b60b6d/218-333; #=GS A3WCG0/218-333 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. NAP1; #=GS A0A0F7HB51/217-329 AC A0A0F7HB51 #=GS A0A0F7HB51/217-329 OS Serratia fonticola #=GS A0A0F7HB51/217-329 DE DNA mismatch repair protein MutL #=GS A0A0F7HB51/217-329 DR GENE3D; 1d80b75b003b3b501b69219f6b07bc08/217-329; #=GS A0A0F7HB51/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia fonticola; #=GS A0A060NVK8/287-399 AC A0A060NVK8 #=GS A0A060NVK8/287-399 OS Comamonadaceae bacterium B1 #=GS A0A060NVK8/287-399 DE DNA mismatch repair protein MutL #=GS A0A060NVK8/287-399 DR GENE3D; 1dabcf5a28b2d2a893783ae0b731c2be/287-399; #=GS A0A060NVK8/287-399 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonadaceae bacterium B1; #=GS A0A0R0C5S6/215-327 AC A0A0R0C5S6 #=GS A0A0R0C5S6/215-327 OS Stenotrophomonas humi #=GS A0A0R0C5S6/215-327 DE DNA mismatch repair protein MutL #=GS A0A0R0C5S6/215-327 DR GENE3D; 1dcc2b05826b8fd1e973e0a99fad4c1f/215-327; #=GS A0A0R0C5S6/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas humi; #=GS G2DD62/235-347 AC G2DD62 #=GS G2DD62/235-347 OS endosymbiont of Riftia pachyptila (vent Ph05) #=GS G2DD62/235-347 DE DNA mismatch repair protein MutL #=GS G2DD62/235-347 DR GENE3D; 1dcda79dc48a9676e8c9ed81156859d0/235-347; #=GS G2DD62/235-347 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; endosymbiont of Riftia pachyptila; #=GS A0A1F8I4N4/223-335 AC A0A1F8I4N4 #=GS A0A1F8I4N4/223-335 OS Caulobacterales bacterium RIFCSPHIGHO2_01_FULL_70_19 #=GS A0A1F8I4N4/223-335 DE DNA mismatch repair protein MutL #=GS A0A1F8I4N4/223-335 DR GENE3D; 1dd98d955adda1b0340ebdeb7129f570/223-335; #=GS A0A1F8I4N4/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacterales bacterium RIFCSPHIGHO2_01_FULL_70_19; #=GS A0A1G0HI33/218-330 AC A0A1G0HI33 #=GS A0A1G0HI33/218-330 OS Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_41_15 #=GS A0A1G0HI33/218-330 DE DNA mismatch repair protein MutL #=GS A0A1G0HI33/218-330 DR GENE3D; 1deaa74088a7886546897029e5a4ad3e/218-330; #=GS A0A1G0HI33/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_41_15; #=GS A0A1M2YRK3/215-327 AC A0A1M2YRK3 #=GS A0A1M2YRK3/215-327 OS Rhizobiales bacterium 65-79 #=GS A0A1M2YRK3/215-327 DE DNA mismatch repair protein MutL #=GS A0A1M2YRK3/215-327 DR GENE3D; 1e03a22ce8bf3467e4615b8a671d7fb6/215-327; #=GS A0A1M2YRK3/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiales bacterium 65-79; #=GS D2ZWL5/213-325 AC D2ZWL5 #=GS D2ZWL5/213-325 OS Neisseria mucosa ATCC 25996 #=GS D2ZWL5/213-325 DE DNA mismatch repair protein MutL #=GS D2ZWL5/213-325 DR GENE3D; 1e1e2a21d9e6f5ef814db727d5b952e2/213-325; #=GS D2ZWL5/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria mucosa; #=GS A0A1B9KT45/213-319 AC A0A1B9KT45 #=GS A0A1B9KT45/213-319 OS Gilliamella apicola #=GS A0A1B9KT45/213-319 DE DNA mismatch repair protein MutL #=GS A0A1B9KT45/213-319 DR GENE3D; 1e21e44c46b039176842dda0d50ba9f7/213-319; #=GS A0A1B9KT45/213-319 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; #=GS A0A1F4JRI2/218-330 AC A0A1F4JRI2 #=GS A0A1F4JRI2/218-330 OS Burkholderiales bacterium RIFCSPLOWO2_02_FULL_57_36 #=GS A0A1F4JRI2/218-330 DE DNA mismatch repair protein MutL #=GS A0A1F4JRI2/218-330 DR GENE3D; 1e308ce4dc9e53c29f70530cf3a3dd74/218-330; #=GS A0A1F4JRI2/218-330 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium RIFCSPLOWO2_02_FULL_57_36; #=GS E8WXW8/244-350 AC E8WXW8 #=GS E8WXW8/244-350 OS Granulicella tundricola MP5ACTX9 #=GS E8WXW8/244-350 DE DNA mismatch repair protein MutL #=GS E8WXW8/244-350 DR GENE3D; 1e5abe7a990d90fd8472a0be5d4866d2/244-350; #=GS E8WXW8/244-350 DR ORG; Bacteria; Acidobacteria; Acidobacteriia; Acidobacteriales; Acidobacteriaceae; Granulicella; Granulicella tundricola; #=GS A0A1J0V9I0/222-336 AC A0A1J0V9I0 #=GS A0A1J0V9I0/222-336 OS Erythrobacter gangjinensis #=GS A0A1J0V9I0/222-336 DE DNA mismatch repair protein MutL #=GS A0A1J0V9I0/222-336 DR GENE3D; 1e997c60bd1cc3ae9da12f5edd8b101c/222-336; #=GS A0A1J0V9I0/222-336 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter gangjinensis; #=GS Q0FEI2/234-346 AC Q0FEI2 #=GS Q0FEI2/234-346 OS Rhodobacterales bacterium HTCC2255 #=GS Q0FEI2/234-346 DE DNA mismatch repair protein MutL #=GS Q0FEI2/234-346 DR GENE3D; 1ebf70601194e838459c8e4c3b7cf046/234-346; #=GS Q0FEI2/234-346 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacterales bacterium HTCC2255; #=GS E0Y071/234-346 AC E0Y071 #=GS E0Y071/234-346 OS uncultured alpha proteobacterium EB080_L11F12 #=GS E0Y071/234-346 DE DNA mismatch repair protein MutL #=GS E0Y071/234-346 DR GENE3D; 1ebf70601194e838459c8e4c3b7cf046/234-346; #=GS E0Y071/234-346 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; uncultured alpha proteobacterium EB080_L11F12; #=GS A0A142W2S4/212-322 AC A0A142W2S4 #=GS A0A142W2S4/212-322 OS Sphingopyxis terrae NBRC 15098 #=GS A0A142W2S4/212-322 DE DNA mismatch repair protein MutL #=GS A0A142W2S4/212-322 DR GENE3D; 1ec2ab4161c6fff21cc47eee6aba5a09/212-322; #=GS A0A142W2S4/212-322 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis terrae; #=GS A0A0Q4YHN1/220-340 AC A0A0Q4YHN1 #=GS A0A0Q4YHN1/220-340 OS Pseudorhodoferax sp. Leaf267 #=GS A0A0Q4YHN1/220-340 DE DNA mismatch repair protein MutL #=GS A0A0Q4YHN1/220-340 DR GENE3D; 1ed73dbb8833dc0414e949312cbead7e/220-340; #=GS A0A0Q4YHN1/220-340 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Pseudorhodoferax; Pseudorhodoferax sp. Leaf267; #=GS A0A0S8JVH9/213-322 AC A0A0S8JVH9 #=GS A0A0S8JVH9/213-322 OS candidate division BRC1 bacterium SM23_51 #=GS A0A0S8JVH9/213-322 DE DNA mismatch repair protein MutL #=GS A0A0S8JVH9/213-322 DR GENE3D; 1edf9e822d1839793ec8d1edd0022a31/213-322; #=GS A0A0S8JVH9/213-322 DR ORG; Bacteria; candidate division BRC1 bacterium SM23_51; #=GS A0A0A5HUL8/217-329 AC A0A0A5HUL8 #=GS A0A0A5HUL8/217-329 OS Vibrio sinaloensis #=GS A0A0A5HUL8/217-329 DE DNA mismatch repair protein MutL #=GS A0A0A5HUL8/217-329 DR GENE3D; 1f0063c2e3ffdc70f16b3b6d291432b3/217-329; #=GS A0A0A5HUL8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio sinaloensis; #=GS A0A0N0IJE4/217-329 AC A0A0N0IJE4 #=GS A0A0N0IJE4/217-329 OS Idiomarina abyssalis #=GS A0A0N0IJE4/217-329 DE DNA mismatch repair protein MutL #=GS A0A0N0IJE4/217-329 DR GENE3D; 1f142f0c9c9eaa7e4fffcc70e701304d/217-329; #=GS A0A0N0IJE4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Idiomarinaceae; Idiomarina; Idiomarina abyssalis; #=GS A0A0G3CJV1/217-329 AC A0A0G3CJV1 #=GS A0A0G3CJV1/217-329 OS Pragia fontium #=GS A0A0G3CJV1/217-329 DE DNA mismatch repair protein MutL #=GS A0A0G3CJV1/217-329 DR GENE3D; 1f31c6eaa5f3a1071854bb1c67b27842/217-329; #=GS A0A0G3CJV1/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Budviciaceae; Pragia; Pragia fontium; #=GS B8GNC5/225-337 AC B8GNC5 #=GS B8GNC5/225-337 OS Thioalkalivibrio sulfidiphilus HL-EbGr7 #=GS B8GNC5/225-337 DE DNA mismatch repair protein MutL #=GS B8GNC5/225-337 DR GENE3D; 1f3e789e870fa1a634edc0d04225cf93/225-337; #=GS B8GNC5/225-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thioalkalivibrio; Thioalkalivibrio sulfidiphilus; #=GS B6Y9C5/39-151 AC B6Y9C5 #=GS B6Y9C5/39-151 OS Wolbachia endosymbiont of Culex quinquefasciatus JHB #=GS B6Y9C5/39-151 DE DNA mismatch repair protein MutL #=GS B6Y9C5/39-151 DR GENE3D; 1f561854d9b342a160eab9f4778da964/39-151; #=GS B6Y9C5/39-151 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Anaplasmataceae; Wolbachieae; Wolbachia; Wolbachia endosymbiont of Culex quinquefasciatus; #=GS A0A073J5T7/232-344 AC A0A073J5T7 #=GS A0A073J5T7/232-344 OS Sulfitobacter pseudonitzschiae #=GS A0A073J5T7/232-344 DE DNA mismatch repair protein MutL #=GS A0A073J5T7/232-344 DR GENE3D; 1fa5047ea1929c7faa027fbe16f05c7a/232-344; #=GS A0A073J5T7/232-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Sulfitobacter; Sulfitobacter pseudonitzschiae; #=GS A0A1G0GHF8/216-328 AC A0A1G0GHF8 #=GS A0A1G0GHF8/216-328 OS Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_37_14 #=GS A0A1G0GHF8/216-328 DE DNA mismatch repair protein MutL #=GS A0A1G0GHF8/216-328 DR GENE3D; 1fd15d27910808655ef13681570e3867/216-328; #=GS A0A1G0GHF8/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_37_14; #=GS D7VKZ8/214-326 AC D7VKZ8 #=GS D7VKZ8/214-326 OS Sphingobacterium spiritivorum ATCC 33861 #=GS D7VKZ8/214-326 DE DNA mismatch repair protein MutL #=GS D7VKZ8/214-326 DR GENE3D; 1fddb039b13c6731bda69e891814bb2f/214-326; #=GS D7VKZ8/214-326 DR ORG; Bacteria; Bacteroidetes; Sphingobacteriia; Sphingobacteriales; Sphingobacteriaceae; Sphingobacterium; Sphingobacterium spiritivorum; #=GS D4DR65/213-325 AC D4DR65 #=GS D4DR65/213-325 OS Neisseria elongata subsp. glycolytica ATCC 29315 #=GS D4DR65/213-325 DE DNA mismatch repair protein MutL #=GS D4DR65/213-325 DR GENE3D; 200ede458c03f67dee511b0b0d77bf5d/213-325; #=GS D4DR65/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria elongata; Neisseria elongata subsp. glycolytica; #=GS D5CRN4/263-375 AC D5CRN4 #=GS D5CRN4/263-375 OS Sideroxydans lithotrophicus ES-1 #=GS D5CRN4/263-375 DE DNA mismatch repair protein MutL #=GS D5CRN4/263-375 DR GENE3D; 20270554a535ce4a605290fec7d9237d/263-375; #=GS D5CRN4/263-375 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Gallionellales; Gallionellaceae; Sideroxydans; Sideroxydans lithotrophicus; #=GS B8CIX3/217-328 AC B8CIX3 #=GS B8CIX3/217-328 OS Shewanella piezotolerans WP3 #=GS B8CIX3/217-328 DE DNA mismatch repair protein MutL #=GS B8CIX3/217-328 DR GENE3D; 203534f82e1c0de3bc6c41c38c542b0c/217-328; #=GS B8CIX3/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella piezotolerans; #=GS A0A0M3TA98/214-329 AC A0A0M3TA98 #=GS A0A0M3TA98/214-329 OS Altererythrobacter epoxidivorans #=GS A0A0M3TA98/214-329 DE DNA mismatch repair protein MutL #=GS A0A0M3TA98/214-329 DR GENE3D; 205d52b5cf58cd83ef1b94be26817050/214-329; #=GS A0A0M3TA98/214-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Altererythrobacter; Altererythrobacter epoxidivorans; #=GS A0A1M3JV94/229-341 AC A0A1M3JV94 #=GS A0A1M3JV94/229-341 OS Burkholderiales bacterium 68-12 #=GS A0A1M3JV94/229-341 DE DNA mismatch repair protein MutL #=GS A0A1M3JV94/229-341 DR GENE3D; 20be535df5ac2bc3ec74198eb76c576d/229-341; #=GS A0A1M3JV94/229-341 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium 68-12; #=GS A0A0E3YEE9/217-329 AC A0A0E3YEE9 #=GS A0A0E3YEE9/217-329 OS Pandoraea oxalativorans #=GS A0A0E3YEE9/217-329 DE DNA mismatch repair protein MutL #=GS A0A0E3YEE9/217-329 DR GENE3D; 20db83020b704a040de631469f8b7b37/217-329; #=GS A0A0E3YEE9/217-329 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Pandoraea; Pandoraea oxalativorans; #=GS A0A0Q7Q1Z6/215-327 AC A0A0Q7Q1Z6 #=GS A0A0Q7Q1Z6/215-327 OS Lysobacter sp. Root494 #=GS A0A0Q7Q1Z6/215-327 DE DNA mismatch repair protein MutL #=GS A0A0Q7Q1Z6/215-327 DR GENE3D; 212dd236a299254bc8cc7c9375306a8e/215-327; #=GS A0A0Q7Q1Z6/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter sp. Root494; #=GS A9DXV6/233-345 AC A9DXV6 #=GS A9DXV6/233-345 OS Oceanibulbus indolifex HEL-45 #=GS A9DXV6/233-345 DE DNA mismatch repair protein MutL #=GS A9DXV6/233-345 DR GENE3D; 2149a763c38d1a196686aeb41a974978/233-345; #=GS A9DXV6/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Oceanibulbus; Oceanibulbus indolifex; #=GS A5V3J3/212-323 AC A5V3J3 #=GS A5V3J3/212-323 OS Sphingomonas wittichii RW1 #=GS A5V3J3/212-323 DE DNA mismatch repair protein MutL #=GS A5V3J3/212-323 DR GENE3D; 216ee91df682628dcc0c2db53b524594/212-323; #=GS A5V3J3/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas wittichii; #=GS A0A010R067/216-328 AC A0A010R067 #=GS A0A010R067/216-328 OS Alteromonas sp. ALT199 #=GS A0A010R067/216-328 DE DNA mismatch repair protein MutL #=GS A0A010R067/216-328 DR GENE3D; 2177ed41e4a4dca217ff3600c1d71cb6/216-328; #=GS A0A010R067/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas sp. ALT199; #=GS A0A166T8J7/220-331 AC A0A166T8J7 #=GS A0A166T8J7/220-331 OS Thalassolituus sp. HI0120 #=GS A0A166T8J7/220-331 DE DNA mismatch repair protein MutL #=GS A0A166T8J7/220-331 DR GENE3D; 21a5ae91773177be9e8813201d451e7d/220-331; #=GS A0A166T8J7/220-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Thalassolituus; Thalassolituus sp. HI0120; #=GS A8GY89/217-329 AC A8GY89 #=GS A8GY89/217-329 OS Rickettsia bellii OSU 85-389 #=GS A8GY89/217-329 DE DNA mismatch repair protein MutL #=GS A8GY89/217-329 DR GENE3D; 21dadb4dd0643681b57e4abc3064321a/217-329; #=GS A8GY89/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Rickettsiaceae; Rickettsieae; Rickettsia; belli group; Rickettsia bellii; #=GS A0A143WUE6/218-330 AC A0A143WUE6 #=GS A0A143WUE6/218-330 OS Candidatus Hoaglandella endobia #=GS A0A143WUE6/218-330 DE DNA mismatch repair protein MutL #=GS A0A143WUE6/218-330 DR GENE3D; 220db266feed51f7d51ceeaaddf581f7/218-330; #=GS A0A143WUE6/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Candidatus Hoaglandella; Candidatus Hoaglandella endobia; #=GS A0A1E8CN69/220-332 AC A0A1E8CN69 #=GS A0A1E8CN69/220-332 OS Pseudohongiella acticola #=GS A0A1E8CN69/220-332 DE DNA mismatch repair protein MutL #=GS A0A1E8CN69/220-332 DR GENE3D; 2233638ae53e5ee29189fce7e9ffc863/220-332; #=GS A0A1E8CN69/220-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudohongiella; Pseudohongiella acticola; #=GS K2HA11/231-343 AC K2HA11 #=GS K2HA11/231-343 OS Oceaniovalibus guishaninsula JLT2003 #=GS K2HA11/231-343 DE DNA mismatch repair protein MutL #=GS K2HA11/231-343 DR GENE3D; 223b01f5e30c184bc5c157d899e77136/231-343; #=GS K2HA11/231-343 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Oceaniovalibus; Oceaniovalibus guishaninsula; #=GS A0A0D5V7B9/236-348 AC A0A0D5V7B9 #=GS A0A0D5V7B9/236-348 OS Paraburkholderia fungorum #=GS A0A0D5V7B9/236-348 DE DNA mismatch repair protein MutL #=GS A0A0D5V7B9/236-348 DR GENE3D; 22504708c526e3caa852e20fab297446/236-348; #=GS A0A0D5V7B9/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Paraburkholderia; Paraburkholderia fungorum; #=GS A0A0Q7Z227/212-322 AC A0A0Q7Z227 #=GS A0A0Q7Z227/212-322 OS Sphingopyxis sp. Root1497 #=GS A0A0Q7Z227/212-322 DE DNA mismatch repair protein MutL #=GS A0A0Q7Z227/212-322 DR GENE3D; 225bbbf685c90ebad55a509c76f724a1/212-322; #=GS A0A0Q7Z227/212-322 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. Root1497; #=GS A9NCK3/216-328 AC A9NCK3 #=GS A9NCK3/216-328 OS Coxiella burnetii RSA 331 #=GS A9NCK3/216-328 DE DNA mismatch repair protein MutL #=GS A9NCK3/216-328 DR GENE3D; 2269452af6618c73427f626dcea6a9a1/216-328; #=GS A9NCK3/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Coxiellaceae; Coxiella; Coxiella burnetii; #=GS C8NA89/211-310 AC C8NA89 #=GS C8NA89/211-310 OS Cardiobacterium hominis ATCC 15826 #=GS C8NA89/211-310 DE DNA mismatch repair domain protein #=GS C8NA89/211-310 DR GENE3D; 228f34ff4cb7c15952bcad6cdadf7887/211-310; #=GS C8NA89/211-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cardiobacteriales; Cardiobacteriaceae; Cardiobacterium; Cardiobacterium hominis; #=GS V5B267/217-330 AC V5B267 #=GS V5B267/217-330 OS Enterobacter cloacae S611 #=GS V5B267/217-330 DE DNA mismatch repair protein MutL #=GS V5B267/217-330 DR GENE3D; 22ee2c9f5622f9ab9755174e798d50eb/217-330; #=GS V5B267/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; #=GS A0A1E5E085/217-329 AC A0A1E5E085 #=GS A0A1E5E085/217-329 OS Vibrio rumoiensis 1S-45 #=GS A0A1E5E085/217-329 DE DNA mismatch repair protein MutL #=GS A0A1E5E085/217-329 DR GENE3D; 2326bdb0b378df0371100ded9b2f5620/217-329; #=GS A0A1E5E085/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio rumoiensis; #=GS A0A147J613/212-323 AC A0A147J613 #=GS A0A147J613/212-323 OS Sphingomonas sanguinis #=GS A0A147J613/212-323 DE DNA mismatch repair protein MutL #=GS A0A147J613/212-323 DR GENE3D; 233080351aae3b1a069ae9d2be77bbbc/212-323; #=GS A0A147J613/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sanguinis; #=GS A0A0D5RK72/214-326 AC A0A0D5RK72 #=GS A0A0D5RK72/214-326 OS Xanthomonas citri subsp. citri #=GS A0A0D5RK72/214-326 DE DNA mismatch repair protein MutL #=GS A0A0D5RK72/214-326 DR GENE3D; 23330a8aa033bba1cbdef32ae07cae17/214-326; #=GS A0A0D5RK72/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas citri group; Xanthomonas citri; Xanthomonas citri subsp. citri; #=GS M4TV13/214-326 AC M4TV13 #=GS M4TV13/214-326 OS Xanthomonas axonopodis Xac29-1 #=GS M4TV13/214-326 DE DNA mismatch repair protein MutL #=GS M4TV13/214-326 DR GENE3D; 23330a8aa033bba1cbdef32ae07cae17/214-326; #=GS M4TV13/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas axonopodis; #=GS A0A0U4YM69/214-326 AC A0A0U4YM69 #=GS A0A0U4YM69/214-326 OS #=GS A0A0U4YM69/214-326 DE DNA mismatch repair protein MutL #=GS A0A0U4YM69/214-326 DR GENE3D; 23330a8aa033bba1cbdef32ae07cae17/214-326; #=GS A0A0U4YM69/214-326 DR ORG; #=GS Q8PJX2/214-326 AC Q8PJX2 #=GS Q8PJX2/214-326 OS Xanthomonas axonopodis pv. citri str. 306 #=GS Q8PJX2/214-326 DE DNA mismatch repair protein MutL #=GS Q8PJX2/214-326 DR GENE3D; 23330a8aa033bba1cbdef32ae07cae17/214-326; #=GS Q8PJX2/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas citri group; Xanthomonas citri; Xanthomonas citri subsp. citri; #=GS V7EJU0/691-803 AC V7EJU0 #=GS V7EJU0/691-803 OS Rhodobacter sp. CACIA14H1 #=GS V7EJU0/691-803 DE DNA mismatch repair protein MutL #=GS V7EJU0/691-803 DR GENE3D; 2347201b245594ef0b1a259dddaa69ba/691-803; #=GS V7EJU0/691-803 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sp. CACIA14H1; #=GS A0A1M7ZHH4/216-328 AC A0A1M7ZHH4 #=GS A0A1M7ZHH4/216-328 OS Pseudoxanthobacter soli DSM 19599 #=GS A0A1M7ZHH4/216-328 DE DNA mismatch repair protein MutL #=GS A0A1M7ZHH4/216-328 DR GENE3D; 2355e033b8d44231f4d7330e27bb815e/216-328; #=GS A0A1M7ZHH4/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Xanthobacteraceae; Pseudoxanthobacter; Pseudoxanthobacter soli; #=GS A0A173KS87/212-323 AC A0A173KS87 #=GS A0A173KS87/212-323 OS Sphingobium sp. EP60837 #=GS A0A173KS87/212-323 DE DNA mismatch repair protein MutL #=GS A0A173KS87/212-323 DR GENE3D; 2356546c50f50040e85d80cf7bfb6921/212-323; #=GS A0A173KS87/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. EP60837; #=GS A0A0A8UY94/215-327 AC A0A0A8UY94 #=GS A0A0A8UY94/215-327 OS Legionella hackeliae #=GS A0A0A8UY94/215-327 DE DNA mismatch repair protein MutL #=GS A0A0A8UY94/215-327 DR GENE3D; 2356710921c44751661f39600faba5d9/215-327; #=GS A0A0A8UY94/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella hackeliae; #=GS Q145C4/238-350 AC Q145C4 #=GS Q145C4/238-350 OS Paraburkholderia xenovorans LB400 #=GS Q145C4/238-350 DE DNA mismatch repair protein MutL #=GS Q145C4/238-350 DR GENE3D; 23857cf7f3cbdd996628989a62e65826/238-350; #=GS Q145C4/238-350 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Paraburkholderia; Paraburkholderia xenovorans; #=GS A0A1G0GU43/216-328 AC A0A1G0GU43 #=GS A0A1G0GU43/216-328 OS Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_37_34 #=GS A0A1G0GU43/216-328 DE DNA mismatch repair protein MutL #=GS A0A1G0GU43/216-328 DR GENE3D; 23c00bfe605312f5cba51a28bf85d459/216-328; #=GS A0A1G0GU43/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_37_34; #=GS W0DSE6/220-332 AC W0DSE6 #=GS W0DSE6/220-332 OS Thioalkalimicrobium aerophilum AL3 #=GS W0DSE6/220-332 DE DNA mismatch repair protein MutL #=GS W0DSE6/220-332 DR GENE3D; 23de1cd1fa7b01d7139241e58d97dd3d/220-332; #=GS W0DSE6/220-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Thioalkalimicrobium; Thioalkalimicrobium aerophilum; #=GS A0A1J0KV95/217-329 AC A0A1J0KV95 #=GS A0A1J0KV95/217-329 OS Francisella sp. CA97-1460 #=GS A0A1J0KV95/217-329 DE DNA mismatch repair protein MutL #=GS A0A1J0KV95/217-329 DR GENE3D; 23e8c14703ab2911f0954e45a510bc90/217-329; #=GS A0A1J0KV95/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Francisellaceae; Francisella; Francisella sp. CA97-1460; #=GS A0A0A5I5C3/217-329 AC A0A0A5I5C3 #=GS A0A0A5I5C3/217-329 OS Vibrio tubiashii #=GS A0A0A5I5C3/217-329 DE DNA mismatch repair protein MutL #=GS A0A0A5I5C3/217-329 DR GENE3D; 23ffc3799cb89c964ce3dc4f5e667a6b/217-329; #=GS A0A0A5I5C3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio tubiashii; #=GS F0LNP8/217-329 AC F0LNP8 #=GS F0LNP8/217-329 OS Vibrio furnissii NCTC 11218 #=GS F0LNP8/217-329 DE DNA mismatch repair protein MutL #=GS F0LNP8/217-329 DR GENE3D; 2406078e4b0f8515a8227e7d06366cf8/217-329; #=GS F0LNP8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio furnissii; #=GS M2U275/216-328 AC M2U275 #=GS M2U275/216-328 OS Pacificimonas flava #=GS M2U275/216-328 DE DNA mismatch repair protein MutL #=GS M2U275/216-328 DR GENE3D; 2420e92058f8401d86cebe802f9a3e32/216-328; #=GS M2U275/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Pacificimonas; Pacificimonas flava; #=GS N8WV66/225-337 AC N8WV66 #=GS N8WV66/225-337 OS Acinetobacter sp. NIPH 899 #=GS N8WV66/225-337 DE DNA mismatch repair protein MutL #=GS N8WV66/225-337 DR GENE3D; 24459e005dc226a82985217d584d9fe8/225-337; #=GS N8WV66/225-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter sp. NIPH 899; #=GS K6Y4U6/217-329 AC K6Y4U6 #=GS K6Y4U6/217-329 OS Paraglaciecola arctica BSs20135 #=GS K6Y4U6/217-329 DE DNA mismatch repair protein MutL #=GS K6Y4U6/217-329 DR GENE3D; 2452cef7ce85e4d81cfbfa100fb214e2/217-329; #=GS K6Y4U6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Paraglaciecola; Paraglaciecola arctica; #=GS U7P3L3/222-334 AC U7P3L3 #=GS U7P3L3/222-334 OS Halomonas sp. PBN3 #=GS U7P3L3/222-334 DE DNA mismatch repair protein MutL #=GS U7P3L3/222-334 DR GENE3D; 24704bf7c11215b58866e70351ebeb31/222-334; #=GS U7P3L3/222-334 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas sp. PBN3; #=GS A0A1J0VDC9/222-334 AC A0A1J0VDC9 #=GS A0A1J0VDC9/222-334 OS Halolamina sediminis #=GS A0A1J0VDC9/222-334 DE DNA mismatch repair protein MutL #=GS A0A1J0VDC9/222-334 DR GENE3D; 247a2a62ca14cfbf23140e0f3b188f37/222-334; #=GS A0A1J0VDC9/222-334 DR ORG; Archaea; Euryarchaeota; Halobacteria; Haloferacales; Halorubraceae; Halolamina; Halolamina sediminis; #=GS K4KPP5/220-332 AC K4KPP5 #=GS K4KPP5/220-332 OS Simiduia agarivorans SA1 = DSM 21679 #=GS K4KPP5/220-332 DE DNA mismatch repair protein MutL #=GS K4KPP5/220-332 DR GENE3D; 2494167950aa98c6918fec7288cfdb98/220-332; #=GS K4KPP5/220-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Cellvibrionaceae; Simiduia; Simiduia agarivorans; #=GS A0A1J4S4K7/225-347 AC A0A1J4S4K7 #=GS A0A1J4S4K7/225-347 OS Comamonadaceae bacterium CG1_02_60_18 #=GS A0A1J4S4K7/225-347 DE DNA mismatch repair protein MutL #=GS A0A1J4S4K7/225-347 DR GENE3D; 24a5c9619ae44621068dac20928afc42/225-347; #=GS A0A1J4S4K7/225-347 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonadaceae bacterium CG1_02_60_18; #=GS A0A1E7GXI8/215-326 AC A0A1E7GXI8 #=GS A0A1E7GXI8/215-326 OS Desulfobacterales bacterium S3730MH5 #=GS A0A1E7GXI8/215-326 DE DNA mismatch repair protein MutL #=GS A0A1E7GXI8/215-326 DR GENE3D; 24cafb130bfd5acdc12ea69f645fc294/215-326; #=GS A0A1E7GXI8/215-326 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfobacterales; Desulfobacterales bacterium S3730MH5; #=GS A6VN10/217-329 AC A6VN10 #=GS A6VN10/217-329 OS Actinobacillus succinogenes 130Z #=GS A6VN10/217-329 DE DNA mismatch repair protein MutL #=GS A6VN10/217-329 DR GENE3D; 24d128727177f321ef263c5399b10120/217-329; #=GS A6VN10/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus succinogenes; #=GS A0A1F4F5C7/213-325 AC A0A1F4F5C7 #=GS A0A1F4F5C7/213-325 OS Betaproteobacteria bacterium RIFCSPLOWO2_12_FULL_67_28 #=GS A0A1F4F5C7/213-325 DE DNA mismatch repair protein MutL #=GS A0A1F4F5C7/213-325 DR GENE3D; 24da2f3e990d8b683d2d0db4625a18bf/213-325; #=GS A0A1F4F5C7/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium RIFCSPLOWO2_12_FULL_67_28; #=GS H3NVI3/221-332 AC H3NVI3 #=GS H3NVI3/221-332 OS gamma proteobacterium HIMB55 #=GS H3NVI3/221-332 DE DNA mismatch repair protein MutL #=GS H3NVI3/221-332 DR GENE3D; 24e504c4b9a720dd217b41da229e9205/221-332; #=GS H3NVI3/221-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Halieaceae; gamma proteobacterium HIMB55; #=GS A0A0M2LL76/212-323 AC A0A0M2LL76 #=GS A0A0M2LL76/212-323 OS Sphingomonas sp. Ag1 #=GS A0A0M2LL76/212-323 DE DNA mismatch repair protein MutL #=GS A0A0M2LL76/212-323 DR GENE3D; 255712b835606ba886afece7ab014b6a/212-323; #=GS A0A0M2LL76/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Ag1; #=GS A0A077DE77/209-320 AC A0A077DE77 #=GS A0A077DE77/209-320 OS Basilea psittacipulmonis DSM 24701 #=GS A0A077DE77/209-320 DE DNA mismatch repair protein MutL #=GS A0A077DE77/209-320 DR GENE3D; 259bb922d75c1b149fc5da0bc39a19b3/209-320; #=GS A0A077DE77/209-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Basilea; Basilea psittacipulmonis; #=GS K2JJY1/239-351 AC K2JJY1 #=GS K2JJY1/239-351 OS Celeribacter baekdonensis B30 #=GS K2JJY1/239-351 DE DNA mismatch repair protein MutL #=GS K2JJY1/239-351 DR GENE3D; 25a0d7914c0c998549f2ddaed34ab4f5/239-351; #=GS K2JJY1/239-351 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Celeribacter; Celeribacter baekdonensis; #=GS A0A1B9P7N6/217-329 AC A0A1B9P7N6 #=GS A0A1B9P7N6/217-329 OS Aliivibrio sp. 1S175 #=GS A0A1B9P7N6/217-329 DE DNA mismatch repair protein MutL #=GS A0A1B9P7N6/217-329 DR GENE3D; 25bf15c6dbe3c24ab5e52ea856280ba8/217-329; #=GS A0A1B9P7N6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Aliivibrio; Aliivibrio sp. 1S175; #=GS A0A136A5A6/217-329 AC A0A136A5A6 #=GS A0A136A5A6/217-329 OS Paraglaciecola sp. S66 #=GS A0A136A5A6/217-329 DE DNA mismatch repair protein MutL #=GS A0A136A5A6/217-329 DR GENE3D; 25cfdfc73a4eed8187ee4a98dec8eac2/217-329; #=GS A0A136A5A6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Paraglaciecola; Paraglaciecola sp. S66; #=GS A0A1C7BXS7/217-329 AC A0A1C7BXS7 #=GS A0A1C7BXS7/217-329 OS Aggregatibacter actinomycetemcomitans serotype b str. SCC1398 #=GS A0A1C7BXS7/217-329 DE DNA mismatch repair protein MutL #=GS A0A1C7BXS7/217-329 DR GENE3D; 25d4f9aa10b6f0bf0dc7101091766895/217-329; #=GS A0A1C7BXS7/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Aggregatibacter; Aggregatibacter actinomycetemcomitans; #=GS A0A0Q6KFQ5/216-328 AC A0A0Q6KFQ5 #=GS A0A0Q6KFQ5/216-328 OS Bosea sp. Leaf344 #=GS A0A0Q6KFQ5/216-328 DE DNA mismatch repair protein MutL #=GS A0A0Q6KFQ5/216-328 DR GENE3D; 25ea3987f610a786b73299b03a60d018/216-328; #=GS A0A0Q6KFQ5/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. Leaf344; #=GS A0A160RQ89/219-331 AC A0A160RQ89 #=GS A0A160RQ89/219-331 OS Thiomonas sp. ACO7 #=GS A0A160RQ89/219-331 DE DNA mismatch repair protein MutL #=GS A0A160RQ89/219-331 DR GENE3D; 2626a99efa6842c2376e7edc1ab53f66/219-331; #=GS A0A160RQ89/219-331 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Thiomonas; Thiomonas sp. ACO7; #=GS D6CQG3/219-331 AC D6CQG3 #=GS D6CQG3/219-331 OS Thiomonas arsenitoxydans #=GS D6CQG3/219-331 DE DNA mismatch repair protein MutL #=GS D6CQG3/219-331 DR GENE3D; 2626a99efa6842c2376e7edc1ab53f66/219-331; #=GS D6CQG3/219-331 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Thiomonas; Thiomonas arsenitoxydans; #=GS W0QEV2/226-338 AC W0QEV2 #=GS W0QEV2/226-338 OS Mannheimia varigena USDA-ARS-USMARC-1296 #=GS W0QEV2/226-338 DE DNA mismatch repair protein MutL #=GS W0QEV2/226-338 DR GENE3D; 2634d70df1d98dd42888af44451dae12/226-338; #=GS W0QEV2/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Mannheimia; Mannheimia varigena; #=GS A0A0W0R0B6/217-329 AC A0A0W0R0B6 #=GS A0A0W0R0B6/217-329 OS Legionella adelaidensis #=GS A0A0W0R0B6/217-329 DE DNA mismatch repair protein MutL #=GS A0A0W0R0B6/217-329 DR GENE3D; 2642073ece852c441d2834c36f6f60c3/217-329; #=GS A0A0W0R0B6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella adelaidensis; #=GS A0A0U5IL62/219-331 AC A0A0U5IL62 #=GS A0A0U5IL62/219-331 OS Thiocapsa sp. KS1 #=GS A0A0U5IL62/219-331 DE DNA mismatch repair protein MutL #=GS A0A0U5IL62/219-331 DR GENE3D; 265ca78cc9475804bef0cabf592bf851/219-331; #=GS A0A0U5IL62/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thiocapsa; Thiocapsa sp. KS1; #=GS A0A1B3M7P5/212-324 AC A0A1B3M7P5 #=GS A0A1B3M7P5/212-324 OS Sinorhizobium sp. RAC02 #=GS A0A1B3M7P5/212-324 DE DNA mismatch repair protein MutL #=GS A0A1B3M7P5/212-324 DR GENE3D; 26662b023868afbf3baf8c3a579eae21/212-324; #=GS A0A1B3M7P5/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium sp. RAC02; #=GS F8J5E2/216-332 AC F8J5E2 #=GS F8J5E2/216-332 OS Hyphomicrobium sp. MC1 #=GS F8J5E2/216-332 DE DNA mismatch repair protein MutL #=GS F8J5E2/216-332 DR GENE3D; 26786c4ec97bb553862443a2589b7035/216-332; #=GS F8J5E2/216-332 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Hyphomicrobium; Hyphomicrobium sp. MC1; #=GS A0A1E3GR12/217-329 AC A0A1E3GR12 #=GS A0A1E3GR12/217-329 OS Methylophaga muralis #=GS A0A1E3GR12/217-329 DE DNA mismatch repair protein MutL #=GS A0A1E3GR12/217-329 DR GENE3D; 269f4cdabe5169f4bd1c1b37e1a9a10c/217-329; #=GS A0A1E3GR12/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Methylophaga; Methylophaga muralis; #=GS A0A0U1NKV2/229-341 AC A0A0U1NKV2 #=GS A0A0U1NKV2/229-341 OS Nereida ignava #=GS A0A0U1NKV2/229-341 DE DNA mismatch repair protein MutL #=GS A0A0U1NKV2/229-341 DR GENE3D; 26dc9914a1d6adce53c146c4d769fbf3/229-341; #=GS A0A0U1NKV2/229-341 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Nereida; Nereida ignava; #=GS A3XDN6/234-346 AC A3XDN6 #=GS A3XDN6/234-346 OS Roseobacter sp. MED193 #=GS A3XDN6/234-346 DE DNA mismatch repair protein MutL #=GS A3XDN6/234-346 DR GENE3D; 26e1f8e7975bacf392655830d80aec48/234-346; #=GS A3XDN6/234-346 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseobacter; Roseobacter sp. MED193; #=GS A0A1H2GIK3/218-330 AC A0A1H2GIK3 #=GS A0A1H2GIK3/218-330 OS Pseudomonas salegens #=GS A0A1H2GIK3/218-330 DE DNA mismatch repair protein MutL #=GS A0A1H2GIK3/218-330 DR GENE3D; 27044c6004d834ed3246c36be34a67ab/218-330; #=GS A0A1H2GIK3/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas salegens; #=GS A0A1E3ZAR9/211-323 AC A0A1E3ZAR9 #=GS A0A1E3ZAR9/211-323 OS Bordetella sp. SCN 67-23 #=GS A0A1E3ZAR9/211-323 DE DNA mismatch repair protein MutL #=GS A0A1E3ZAR9/211-323 DR GENE3D; 2712c2ade49966e8e5fa22fff5e3e112/211-323; #=GS A0A1E3ZAR9/211-323 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Bordetella; Bordetella sp. SCN 67-23; #=GS A0A0K1K442/217-329 AC A0A0K1K442 #=GS A0A0K1K442/217-329 OS Massilia sp. NR 4-1 #=GS A0A0K1K442/217-329 DE DNA mismatch repair protein MutL #=GS A0A0K1K442/217-329 DR GENE3D; 273cc1654e7506171b8304bd3209bfa7/217-329; #=GS A0A0K1K442/217-329 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Massilia; Massilia sp. NR 4-1; #=GS A0A073L529/220-330 AC A0A073L529 #=GS A0A073L529/220-330 OS Shewanella xiamenensis #=GS A0A073L529/220-330 DE DNA mismatch repair protein MutL #=GS A0A073L529/220-330 DR GENE3D; 276a49f0c404a9ec837ffc12745e30b5/220-330; #=GS A0A073L529/220-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella xiamenensis; #=GS R5Q276/214-326 AC R5Q276 #=GS R5Q276/214-326 OS Acetobacter sp. CAG:977 #=GS R5Q276/214-326 DE DNA mismatch repair protein MutL #=GS R5Q276/214-326 DR GENE3D; 27a9e828a7d8761443fef800f5b47bbb/214-326; #=GS R5Q276/214-326 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter sp. CAG:977; #=GS H5UZB4/217-329 AC H5UZB4 #=GS H5UZB4/217-329 OS Atlantibacter hermannii NBRC 105704 #=GS H5UZB4/217-329 DE DNA mismatch repair protein MutL #=GS H5UZB4/217-329 DR GENE3D; 27e6faba2b36e1bba14d16f25ab16ddc/217-329; #=GS H5UZB4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Atlantibacter; Atlantibacter hermannii; #=GS A0A0D7E8X1/216-328 AC A0A0D7E8X1 #=GS A0A0D7E8X1/216-328 OS Rhodopseudomonas palustris #=GS A0A0D7E8X1/216-328 DE DNA mismatch repair protein MutL #=GS A0A0D7E8X1/216-328 DR GENE3D; 27ed563c346850d0fe2863e773a8180a/216-328; #=GS A0A0D7E8X1/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; #=GS A0A0S2K5K5/216-325 AC A0A0S2K5K5 #=GS A0A0S2K5K5/216-325 OS Pseudoalteromonas phenolica #=GS A0A0S2K5K5/216-325 DE DNA mismatch repair protein MutL #=GS A0A0S2K5K5/216-325 DR GENE3D; 2817ae97e4bd7848dcb6587015c4219b/216-325; #=GS A0A0S2K5K5/216-325 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas phenolica; #=GS I4N4Q6/221-333 AC I4N4Q6 #=GS I4N4Q6/221-333 OS Pseudomonas sp. M47T1 #=GS I4N4Q6/221-333 DE DNA mismatch repair protein MutL #=GS I4N4Q6/221-333 DR GENE3D; 283b42ed761b5f98c4bbc550948dcc16/221-333; #=GS I4N4Q6/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. M47T1; #=GS A0A0E0YIA2/216-328 AC A0A0E0YIA2 #=GS A0A0E0YIA2/216-328 OS Alteromonas macleodii str. 'English Channel 673' #=GS A0A0E0YIA2/216-328 DE DNA mismatch repair protein MutL #=GS A0A0E0YIA2/216-328 DR GENE3D; 283ff0da4999edb997fd29d9b6efde1d/216-328; #=GS A0A0E0YIA2/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas macleodii; #=GS A0A0W0VZ25/215-327 AC A0A0W0VZ25 #=GS A0A0W0VZ25/215-327 OS Legionella maceachernii #=GS A0A0W0VZ25/215-327 DE DNA mismatch repair protein MutL #=GS A0A0W0VZ25/215-327 DR GENE3D; 287415b44e410c63652c484ae812d9b6/215-327; #=GS A0A0W0VZ25/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Tatlockia; Legionella maceachernii; #=GS A0A1E4P0J5/213-324 AC A0A1E4P0J5 #=GS A0A1E4P0J5/213-324 OS Thiobacillus sp. SCN 63-57 #=GS A0A1E4P0J5/213-324 DE DNA mismatch repair protein MutL #=GS A0A1E4P0J5/213-324 DR GENE3D; 287a44d548f49ae8a4158f8fb8c5fd26/213-324; #=GS A0A1E4P0J5/213-324 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Hydrogenophilales; Hydrogenophilaceae; Thiobacillus; Thiobacillus sp. SCN 63-57; #=GS A0A0H3SYK9/217-329 AC A0A0H3SYK9 #=GS A0A0H3SYK9/217-329 OS Photobacterium kishitanii #=GS A0A0H3SYK9/217-329 DE DNA mismatch repair protein MutL #=GS A0A0H3SYK9/217-329 DR GENE3D; 28be9e5ed774a83062519974091bc1d1/217-329; #=GS A0A0H3SYK9/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium kishitanii; #=GS A0A0S8C593/213-324 AC A0A0S8C593 #=GS A0A0S8C593/213-324 OS Betaproteobacteria bacterium SG8_41 #=GS A0A0S8C593/213-324 DE DNA mismatch repair protein MutL #=GS A0A0S8C593/213-324 DR GENE3D; 28bf981cbf4c09ad6f7247b0d867e8b4/213-324; #=GS A0A0S8C593/213-324 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium SG8_41; #=GS A8H8G8/217-328 AC A8H8G8 #=GS A8H8G8/217-328 OS Shewanella pealeana ATCC 700345 #=GS A8H8G8/217-328 DE DNA mismatch repair protein MutL #=GS A8H8G8/217-328 DR GENE3D; 28c02c322971d4f761ceef7ad61deb27/217-328; #=GS A8H8G8/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella pealeana; #=GS D0X188/217-329 AC D0X188 #=GS D0X188/217-329 OS Vibrio alginolyticus 40B #=GS D0X188/217-329 DE DNA mismatch repair protein MutL #=GS D0X188/217-329 DR GENE3D; 290d53fc9e60a5f2d1e4273add261dfa/217-329; #=GS D0X188/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio alginolyticus; #=GS A0A1M3LI45/217-329 AC A0A1M3LI45 #=GS A0A1M3LI45/217-329 OS Magnetospirillum sp. 64-120 #=GS A0A1M3LI45/217-329 DE DNA mismatch repair protein MutL #=GS A0A1M3LI45/217-329 DR GENE3D; 292239be69cfaa26af9cd781d00ee590/217-329; #=GS A0A1M3LI45/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetospirillum; Magnetospirillum sp. 64-120; #=GS E1T7U2/235-347 AC E1T7U2 #=GS E1T7U2/235-347 OS Burkholderia sp. CCGE1003 #=GS E1T7U2/235-347 DE DNA mismatch repair protein MutL #=GS E1T7U2/235-347 DR GENE3D; 295ca80bdc2ee4835f63a117cbac6e0a/235-347; #=GS E1T7U2/235-347 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. CCGE1003; #=GS A0A0G9H214/217-329 AC A0A0G9H214 #=GS A0A0G9H214/217-329 OS Dyella japonica DSM 16301 #=GS A0A0G9H214/217-329 DE DNA mismatch repair protein MutL #=GS A0A0G9H214/217-329 DR GENE3D; 2960314b74e626f075d56ce47d7021a2/217-329; #=GS A0A0G9H214/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Dyella; Dyella japonica; #=GS A0A074N1Y0/224-339 AC A0A074N1Y0 #=GS A0A074N1Y0/224-339 OS Erythrobacter litoralis #=GS A0A074N1Y0/224-339 DE DNA mismatch repair protein MutL #=GS A0A074N1Y0/224-339 DR GENE3D; 29736ca790830b013e0e3ca5a42b39b0/224-339; #=GS A0A074N1Y0/224-339 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter litoralis; #=GS A0A0P7KDZ9/237-349 AC A0A0P7KDZ9 #=GS A0A0P7KDZ9/237-349 OS Aliiroseovarius crassostreae #=GS A0A0P7KDZ9/237-349 DE DNA mismatch repair protein MutL #=GS A0A0P7KDZ9/237-349 DR GENE3D; 29780951c2ba3cf1e29ca90fa6baeca4/237-349; #=GS A0A0P7KDZ9/237-349 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Aliiroseovarius; Aliiroseovarius crassostreae; #=GS A0A1C2GLD0/214-326 AC A0A1C2GLD0 #=GS A0A1C2GLD0/214-326 OS Mucilaginibacter sp. PPCGB 2223 #=GS A0A1C2GLD0/214-326 DE DNA mismatch repair protein MutL #=GS A0A1C2GLD0/214-326 DR GENE3D; 298fa3f9bf29781b16c199dd442f083d/214-326; #=GS A0A1C2GLD0/214-326 DR ORG; Bacteria; Bacteroidetes; Sphingobacteriia; Sphingobacteriales; Sphingobacteriaceae; Mucilaginibacter; Mucilaginibacter sp. PPCGB 2223; #=GS A5L7H5/217-328 AC A5L7H5 #=GS A5L7H5/217-328 OS Vibrionales bacterium SWAT-3 #=GS A5L7H5/217-328 DE DNA mismatch repair protein MutL #=GS A5L7H5/217-328 DR GENE3D; 29bad38ed40b2adcc1eeb7b33c0abee4/217-328; #=GS A5L7H5/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionales bacterium SWAT-3; #=GS X5MG55/234-346 AC X5MG55 #=GS X5MG55/234-346 OS Candidatus Phaeomarinobacter ectocarpi #=GS X5MG55/234-346 DE DNA mismatch repair protein MutL #=GS X5MG55/234-346 DR GENE3D; 29bea35acd679f82f0d8640367d8ed35/234-346; #=GS X5MG55/234-346 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhodobiaceae; Candidatus Phaeomarinobacter; Candidatus Phaeomarinobacter ectocarpi; #=GS A0A1E4FCY4/215-326 AC A0A1E4FCY4 #=GS A0A1E4FCY4/215-326 OS Pelagibacterium sp. SCN 63-23 #=GS A0A1E4FCY4/215-326 DE DNA mismatch repair protein MutL #=GS A0A1E4FCY4/215-326 DR GENE3D; 29dbaa5d1076bf279c254a377f571e53/215-326; #=GS A0A1E4FCY4/215-326 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Pelagibacterium; Pelagibacterium sp. SCN 63-23; #=GS A0A1N6H9M6/232-344 AC A0A1N6H9M6 #=GS A0A1N6H9M6/232-344 OS Oceanicola litoreus #=GS A0A1N6H9M6/232-344 DE DNA mismatch repair protein MutL #=GS A0A1N6H9M6/232-344 DR GENE3D; 29e0a5b386990264f0c51a6498c37b89/232-344; #=GS A0A1N6H9M6/232-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Oceanicola; Oceanicola litoreus; #=GS F3L1V5/219-331 AC F3L1V5 #=GS F3L1V5/219-331 OS gamma proteobacterium IMCC3088 #=GS F3L1V5/219-331 DE DNA mismatch repair protein MutL #=GS F3L1V5/219-331 DR GENE3D; 29e8db8d6cbe70063fc6d85dc16942a4/219-331; #=GS F3L1V5/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Halieaceae; gamma proteobacterium IMCC3088; #=GS A0A066ZXF8/225-337 AC A0A066ZXF8 #=GS A0A066ZXF8/225-337 OS Hydrogenovibrio marinus #=GS A0A066ZXF8/225-337 DE DNA mismatch repair protein MutL #=GS A0A066ZXF8/225-337 DR GENE3D; 29f36948397047913520ecb0d3ec5bf1/225-337; #=GS A0A066ZXF8/225-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Hydrogenovibrio; Hydrogenovibrio marinus; #=GS V9HE25/213-325 AC V9HE25 #=GS V9HE25/213-325 OS Simonsiella muelleri ATCC 29453 #=GS V9HE25/213-325 DE DNA mismatch repair protein MutL #=GS V9HE25/213-325 DR GENE3D; 2a4df89558fca588775700622544080b/213-325; #=GS V9HE25/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Simonsiella; Simonsiella muelleri; #=GS A0A1A7QNU0/223-335 AC A0A1A7QNU0 #=GS A0A1A7QNU0/223-335 OS Erythrobacter sp. QSSC1-22B #=GS A0A1A7QNU0/223-335 DE DNA mismatch repair protein MutL #=GS A0A1A7QNU0/223-335 DR GENE3D; 2a6550986a50f38a1418e6f33a5bb0b4/223-335; #=GS A0A1A7QNU0/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. QSSC1-22B; #=GS A0A160TBR0/218-330 AC A0A160TBR0 #=GS A0A160TBR0/218-330 OS hydrothermal vent metagenome #=GS A0A160TBR0/218-330 DE DNA mismatch repair protein MutL #=GS A0A160TBR0/218-330 DR GENE3D; 2ac30a4852358a2ee524947f02115f1b/218-330; #=GS A0A160TBR0/218-330 DR ORG; hydrothermal vent metagenome; #=GS W8G6D5/218-330 AC W8G6D5 #=GS W8G6D5/218-330 OS Thalassolituus oleivorans R6-15 #=GS W8G6D5/218-330 DE DNA mismatch repair protein MutL #=GS W8G6D5/218-330 DR GENE3D; 2ac30a4852358a2ee524947f02115f1b/218-330; #=GS W8G6D5/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Thalassolituus; Thalassolituus oleivorans; #=GS M5DVW2/218-330 AC M5DVW2 #=GS M5DVW2/218-330 OS Thalassolituus oleivorans MIL-1 #=GS M5DVW2/218-330 DE DNA mismatch repair protein MutL #=GS M5DVW2/218-330 DR GENE3D; 2ac30a4852358a2ee524947f02115f1b/218-330; #=GS M5DVW2/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Thalassolituus; Thalassolituus oleivorans; #=GS A0A085FV24/216-328 AC A0A085FV24 #=GS A0A085FV24/216-328 OS Bosea sp. LC85 #=GS A0A085FV24/216-328 DE DNA mismatch repair protein MutL #=GS A0A085FV24/216-328 DR GENE3D; 2ad3751cf2c7e193ad2cad5650bd6c1d/216-328; #=GS A0A085FV24/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. LC85; #=GS A0A0Q5F2P5/212-324 AC A0A0Q5F2P5 #=GS A0A0Q5F2P5/212-324 OS Rhizobium sp. Leaf311 #=GS A0A0Q5F2P5/212-324 DE DNA mismatch repair protein MutL #=GS A0A0Q5F2P5/212-324 DR GENE3D; 2aeb861c08911889ec81a38f51d6850c/212-324; #=GS A0A0Q5F2P5/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Leaf311; #=GS D3NW34/217-329 AC D3NW34 #=GS D3NW34/217-329 OS Azospirillum sp. B510 #=GS D3NW34/217-329 DE DNA mismatch repair protein MutL #=GS D3NW34/217-329 DR GENE3D; 2b1788c5997bd0388620de37a6aaeb1e/217-329; #=GS D3NW34/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Azospirillum; Azospirillum lipoferum; #=GS A0A0Q8EXC7/214-326 AC A0A0Q8EXC7 #=GS A0A0Q8EXC7/214-326 OS Pseudoxanthomonas sp. Root65 #=GS A0A0Q8EXC7/214-326 DE DNA mismatch repair protein MutL #=GS A0A0Q8EXC7/214-326 DR GENE3D; 2b47fed7bc8e90b10c1e900a41bcc0f7/214-326; #=GS A0A0Q8EXC7/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Pseudoxanthomonas; Pseudoxanthomonas sp. Root65; #=GS K8WNQ0/217-328 AC K8WNQ0 #=GS K8WNQ0/217-328 OS Providencia sneebia DSM 19967 #=GS K8WNQ0/217-328 DE DNA mismatch repair protein MutL #=GS K8WNQ0/217-328 DR GENE3D; 2b4873590774c10feecdf2ebb4d43567/217-328; #=GS K8WNQ0/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Providencia; Providencia sneebia; #=GS N8ZKC3/226-338 AC N8ZKC3 #=GS N8ZKC3/226-338 OS Acinetobacter gerneri DSM 14967 = CIP 107464 #=GS N8ZKC3/226-338 DE DNA mismatch repair protein MutL #=GS N8ZKC3/226-338 DR GENE3D; 2b7ee95a786d02518c3fda4461375f42/226-338; #=GS N8ZKC3/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter gerneri; #=GS A0A0H5QEB2/213-325 AC A0A0H5QEB2 #=GS A0A0H5QEB2/213-325 OS Neisseria meningitidis serogroup B #=GS A0A0H5QEB2/213-325 DE DNA mismatch repair protein MutL #=GS A0A0H5QEB2/213-325 DR GENE3D; 2b85c467b123581e450ccd67b7db2b5a/213-325; #=GS A0A0H5QEB2/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria meningitidis; #=GS E6MXX8/213-325 AC E6MXX8 #=GS E6MXX8/213-325 OS Neisseria meningitidis H44/76 #=GS E6MXX8/213-325 DE DNA mismatch repair protein MutL #=GS E6MXX8/213-325 DR GENE3D; 2b85c467b123581e450ccd67b7db2b5a/213-325; #=GS E6MXX8/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria meningitidis; #=GS A0A0A8F7Y2/213-325 AC A0A0A8F7Y2 #=GS A0A0A8F7Y2/213-325 OS Neisseria meningitidis LNP21362 #=GS A0A0A8F7Y2/213-325 DE DNA mismatch repair protein MutL #=GS A0A0A8F7Y2/213-325 DR GENE3D; 2b85c467b123581e450ccd67b7db2b5a/213-325; #=GS A0A0A8F7Y2/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria meningitidis; #=GS Q9JYT2/213-325 AC Q9JYT2 #=GS Q9JYT2/213-325 OS Neisseria meningitidis MC58 #=GS Q9JYT2/213-325 DE DNA mismatch repair protein MutL #=GS Q9JYT2/213-325 DR GENE3D; 2b85c467b123581e450ccd67b7db2b5a/213-325; #=GS Q9JYT2/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria meningitidis; #=GS V8G9H0/213-325 AC V8G9H0 #=GS V8G9H0/213-325 OS Pelistega indica #=GS V8G9H0/213-325 DE DNA mismatch repair protein MutL #=GS V8G9H0/213-325 DR GENE3D; 2b9b99047168a7cc394269cc892983ba/213-325; #=GS V8G9H0/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Pelistega; Pelistega indica; #=GS A0A0W1AF72/215-327 AC A0A0W1AF72 #=GS A0A0W1AF72/215-327 OS Legionella worsleiensis #=GS A0A0W1AF72/215-327 DE DNA mismatch repair protein MutL #=GS A0A0W1AF72/215-327 DR GENE3D; 2bd0b87f4e81181549f1357e3ad84fa5/215-327; #=GS A0A0W1AF72/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella worsleiensis; #=GS A0A143G4L1/225-337 AC A0A143G4L1 #=GS A0A143G4L1/225-337 OS Acinetobacter sp. TGL-Y2 #=GS A0A143G4L1/225-337 DE DNA mismatch repair protein MutL #=GS A0A143G4L1/225-337 DR GENE3D; 2bd8d2f9ffc93e318816ad30c2628178/225-337; #=GS A0A143G4L1/225-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter sp. TGL-Y2; #=GS A0A0C9NEM2/150-261 AC A0A0C9NEM2 #=GS A0A0C9NEM2/150-261 OS Sphingomonas paucimobilis NBRC 13935 #=GS A0A0C9NEM2/150-261 DE MutL protein #=GS A0A0C9NEM2/150-261 DR GENE3D; 2c06c7b620d58a150104b5f4bdaba758/150-261; #=GS A0A0C9NEM2/150-261 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas paucimobilis; #=GS A0A0B4WZ87/212-324 AC A0A0B4WZ87 #=GS A0A0B4WZ87/212-324 OS Rhizobium gallicum bv. gallicum R602 #=GS A0A0B4WZ87/212-324 DE DNA mismatch repair protein MutL #=GS A0A0B4WZ87/212-324 DR GENE3D; 2c06ccce90197f22d46b331f1a5512d3/212-324; #=GS A0A0B4WZ87/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium gallicum; #=GS A0A0P0NWG4/223-335 AC A0A0P0NWG4 #=GS A0A0P0NWG4/223-335 OS Caulobacter henricii #=GS A0A0P0NWG4/223-335 DE DNA mismatch repair protein MutL #=GS A0A0P0NWG4/223-335 DR GENE3D; 2c27aa7c55eafdcf6a5d457f47688487/223-335; #=GS A0A0P0NWG4/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter henricii; #=GS A0A0A2WIF2/215-327 AC A0A0A2WIF2 #=GS A0A0A2WIF2/215-327 OS Lysobacter dokdonensis DS-58 #=GS A0A0A2WIF2/215-327 DE DNA mismatch repair protein MutL #=GS A0A0A2WIF2/215-327 DR GENE3D; 2c49b5c78e4c092bada9d806000b62f3/215-327; #=GS A0A0A2WIF2/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter dokdonensis; #=GS A0A0Q4XCW0/220-332 AC A0A0Q4XCW0 #=GS A0A0Q4XCW0/220-332 OS Methylobacterium sp. Leaf93 #=GS A0A0Q4XCW0/220-332 DE DNA mismatch repair protein MutL #=GS A0A0Q4XCW0/220-332 DR GENE3D; 2c6ac66f4de8e8844133e1085a34855b/220-332; #=GS A0A0Q4XCW0/220-332 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium sp. Leaf93; #=GS G4CRA6/217-329 AC G4CRA6 #=GS G4CRA6/217-329 OS Neisseria wadsworthii 9715 #=GS G4CRA6/217-329 DE DNA mismatch repair protein MutL #=GS G4CRA6/217-329 DR GENE3D; 2cd5cbd3cdbc3127787087085a4fc461/217-329; #=GS G4CRA6/217-329 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria wadsworthii; #=GS R9VTH7/217-330 AC R9VTH7 #=GS R9VTH7/217-330 OS Enterobacter sp. R4-368 #=GS R9VTH7/217-330 DE DNA mismatch repair protein MutL #=GS R9VTH7/217-330 DR GENE3D; 2ce9a29fa3691b67a69b142fb9ad0268/217-330; #=GS R9VTH7/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter sp. R4-368; #=GS A0A1F3WRK5/217-329 AC A0A1F3WRK5 #=GS A0A1F3WRK5/217-329 OS Betaproteobacteria bacterium RBG_16_56_24 #=GS A0A1F3WRK5/217-329 DE DNA mismatch repair protein MutL #=GS A0A1F3WRK5/217-329 DR GENE3D; 2d2fa87dec204ca2591633beab6e5aa6/217-329; #=GS A0A1F3WRK5/217-329 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium RBG_16_56_24; #=GS A0A0W0V301/217-329 AC A0A0W0V301 #=GS A0A0W0V301/217-329 OS Legionella israelensis #=GS A0A0W0V301/217-329 DE DNA mismatch repair protein MutL #=GS A0A0W0V301/217-329 DR GENE3D; 2d3f096f49d5ee61eb8315d04f048b2f/217-329; #=GS A0A0W0V301/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella israelensis; #=GS A0A1G5BIA2/217-329 AC A0A1G5BIA2 #=GS A0A1G5BIA2/217-329 OS Legionella israelensis DSM 19235 #=GS A0A1G5BIA2/217-329 DE DNA mismatch repair protein MutL #=GS A0A1G5BIA2/217-329 DR GENE3D; 2d3f096f49d5ee61eb8315d04f048b2f/217-329; #=GS A0A1G5BIA2/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella israelensis; #=GS A0A147EDD1/213-325 AC A0A147EDD1 #=GS A0A147EDD1/213-325 OS Novosphingobium barchaimii #=GS A0A147EDD1/213-325 DE DNA mismatch repair protein MutL #=GS A0A147EDD1/213-325 DR GENE3D; 2d419135de954dcbe37f4ce0d57bba8e/213-325; #=GS A0A147EDD1/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium barchaimii; #=GS A0A0W0UYU3/215-327 AC A0A0W0UYU3 #=GS A0A0W0UYU3/215-327 OS Legionella jamestowniensis #=GS A0A0W0UYU3/215-327 DE DNA mismatch repair protein MutL #=GS A0A0W0UYU3/215-327 DR GENE3D; 2d6e5ee04a7a6a5f0b444ff5a8055f9d/215-327; #=GS A0A0W0UYU3/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella jamestowniensis; #=GS A0A0Q5GZS5/213-325 AC A0A0Q5GZS5 #=GS A0A0Q5GZS5/213-325 OS Aureimonas sp. Leaf324 #=GS A0A0Q5GZS5/213-325 DE DNA mismatch repair protein MutL #=GS A0A0Q5GZS5/213-325 DR GENE3D; 2d9562feef0ad96bef19ee772d147bba/213-325; #=GS A0A0Q5GZS5/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Aureimonas; Aureimonas sp. Leaf324; #=GS T1D2M7/1-96 AC T1D2M7 #=GS T1D2M7/1-96 OS mine drainage metagenome #=GS T1D2M7/1-96 DE Protein containing MutL #=GS T1D2M7/1-96 DR GENE3D; 2da46a9bc6fef2df063d8b4eb50a116b/1-96; #=GS T1D2M7/1-96 DR ORG; mine drainage metagenome; #=GS B0SWX9/223-335 AC B0SWX9 #=GS B0SWX9/223-335 OS Caulobacter sp. K31 #=GS B0SWX9/223-335 DE DNA mismatch repair protein MutL #=GS B0SWX9/223-335 DR GENE3D; 2db3aa1cd0fa616c6fa6a58a6c6cf6a3/223-335; #=GS B0SWX9/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter sp. K31; #=GS A0A0F4QY98/216-325 AC A0A0F4QY98 #=GS A0A0F4QY98/216-325 OS Pseudoalteromonas rubra #=GS A0A0F4QY98/216-325 DE DNA mismatch repair protein MutL #=GS A0A0F4QY98/216-325 DR GENE3D; 2e058bb54306ed54d8fbbdb60ce2b9ec/216-325; #=GS A0A0F4QY98/216-325 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas rubra; #=GS A0A1A9F6D1/217-330 AC A0A1A9F6D1 #=GS A0A1A9F6D1/217-330 OS Lelliottia amnigena #=GS A0A1A9F6D1/217-330 DE DNA mismatch repair protein MutL #=GS A0A1A9F6D1/217-330 DR GENE3D; 2e26b40349a437337047c121910a8637/217-330; #=GS A0A1A9F6D1/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Lelliottia; Lelliottia amnigena; #=GS Q1GSN3/211-322 AC Q1GSN3 #=GS Q1GSN3/211-322 OS Sphingopyxis alaskensis RB2256 #=GS Q1GSN3/211-322 DE DNA mismatch repair protein MutL #=GS Q1GSN3/211-322 DR GENE3D; 2e6591b5c30028b7572bb0a772b5ec71/211-322; #=GS Q1GSN3/211-322 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis alaskensis; #=GS C5ABM7/238-350 AC C5ABM7 #=GS C5ABM7/238-350 OS Burkholderia glumae BGR1 #=GS C5ABM7/238-350 DE DNA mismatch repair protein MutL #=GS C5ABM7/238-350 DR GENE3D; 2ed4b28025dc55f20bb55bd302c38f80/238-350; #=GS C5ABM7/238-350 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS L0NBK1/212-324 AC L0NBK1 #=GS L0NBK1/212-324 OS Rhizobium sp. NT-26 #=GS L0NBK1/212-324 DE DNA mismatch repair protein MutL #=GS L0NBK1/212-324 DR GENE3D; 2f25b5b55dce96e6a6b7a761ebf50732/212-324; #=GS L0NBK1/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. NT-26; #=GS A4A186/214-325 AC A4A186 #=GS A4A186/214-325 OS Blastopirellula marina DSM 3645 #=GS A4A186/214-325 DE DNA mismatch repair protein MutL #=GS A4A186/214-325 DR GENE3D; 2f5e51aa0220525e28b6b46c59813f9b/214-325; #=GS A4A186/214-325 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Planctomycetales; Planctomycetaceae; Blastopirellula; Blastopirellula marina; #=GS A0A0N1EPR8/217-326 AC A0A0N1EPR8 #=GS A0A0N1EPR8/217-326 OS Pseudoalteromonas porphyrae #=GS A0A0N1EPR8/217-326 DE DNA mismatch repair protein MutL #=GS A0A0N1EPR8/217-326 DR GENE3D; 2f6736857ca5708101c98311c8138061/217-326; #=GS A0A0N1EPR8/217-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas porphyrae; #=GS A0A1N7PKD3/223-335 AC A0A1N7PKD3 #=GS A0A1N7PKD3/223-335 OS Insolitispirillum peregrinum #=GS A0A1N7PKD3/223-335 DE DNA mismatch repair protein MutL #=GS A0A1N7PKD3/223-335 DR GENE3D; 2f7351fc93ec2b3ac75ceb79d13ca2b8/223-335; #=GS A0A1N7PKD3/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Insolitispirillum; Insolitispirillum peregrinum; #=GS D0D9M9/233-345 AC D0D9M9 #=GS D0D9M9/233-345 OS Citreicella sp. SE45 #=GS D0D9M9/233-345 DE DNA mismatch repair protein MutL #=GS D0D9M9/233-345 DR GENE3D; 2f9597d753783a5a014afff490640447/233-345; #=GS D0D9M9/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Citreicella; Citreicella sp. SE45; #=GS U3U0R4/217-329 AC U3U0R4 #=GS U3U0R4/217-329 OS Plautia stali symbiont #=GS U3U0R4/217-329 DE DNA mismatch repair protein MutL #=GS U3U0R4/217-329 DR GENE3D; 2fa3cdbeefa566142b828f1bcff37429/217-329; #=GS U3U0R4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Plautia stali symbiont; #=GS G2J8D5/225-336 AC G2J8D5 #=GS G2J8D5/225-336 OS Candidatus Glomeribacter gigasporarum BEG34 #=GS G2J8D5/225-336 DE DNA mismatch repair protein MutL #=GS G2J8D5/225-336 DR GENE3D; 2fa52117df53491fc5e9db21bee6b4a8/225-336; #=GS G2J8D5/225-336 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Candidatus Glomeribacter; Candidatus Glomeribacter gigasporarum; #=GS W0F0J6/221-333 AC W0F0J6 #=GS W0F0J6/221-333 OS Niabella soli DSM 19437 #=GS W0F0J6/221-333 DE DNA mismatch repair protein MutL #=GS W0F0J6/221-333 DR GENE3D; 2fc0c75bee547c31da1c00a631732975/221-333; #=GS W0F0J6/221-333 DR ORG; Bacteria; Bacteroidetes; Chitinophagia; Chitinophagales; Chitinophagaceae; Niabella; Niabella soli; #=GS A0A1B9SCS8/212-324 AC A0A1B9SCS8 #=GS A0A1B9SCS8/212-324 OS Rhizobium sp. AC27/96 #=GS A0A1B9SCS8/212-324 DE DNA mismatch repair protein MutL #=GS A0A1B9SCS8/212-324 DR GENE3D; 2fd5a151f2c001a7fd520bab5ab97fc8/212-324; #=GS A0A1B9SCS8/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. AC27/96; #=GS A0A1L6HZH6/244-356 AC A0A1L6HZH6 #=GS A0A1L6HZH6/244-356 OS Paraburkholderia sp. SOS3 #=GS A0A1L6HZH6/244-356 DE DNA mismatch repair protein MutL #=GS A0A1L6HZH6/244-356 DR GENE3D; 2ff21639dda812b9fd51feba58903dee/244-356; #=GS A0A1L6HZH6/244-356 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Paraburkholderia; Paraburkholderia sp. SOS3; #=GS A0A0F5FT95/215-327 AC A0A0F5FT95 #=GS A0A0F5FT95/215-327 OS Devosia geojensis #=GS A0A0F5FT95/215-327 DE DNA mismatch repair protein MutL #=GS A0A0F5FT95/215-327 DR GENE3D; 303665b115328bfb894c7788de0bb132/215-327; #=GS A0A0F5FT95/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia geojensis; #=GS A0A1A6DSH4/232-344 AC A0A1A6DSH4 #=GS A0A1A6DSH4/232-344 OS Tepidimonas fonticaldi #=GS A0A1A6DSH4/232-344 DE DNA mismatch repair protein MutL #=GS A0A1A6DSH4/232-344 DR GENE3D; 30398b3672d3f930286164d92e137fdf/232-344; #=GS A0A1A6DSH4/232-344 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Tepidimonas; Tepidimonas fonticaldi; #=GS A0A094ILG0/216-327 AC A0A094ILG0 #=GS A0A094ILG0/216-327 OS Idiomarina atlantica #=GS A0A094ILG0/216-327 DE DNA mismatch repair protein MutL #=GS A0A094ILG0/216-327 DR GENE3D; 3051c5ebcf53124b41b417f3587a6a03/216-327; #=GS A0A094ILG0/216-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Idiomarinaceae; Idiomarina; Idiomarina atlantica; #=GS A0A0J9B689/217-329 AC A0A0J9B689 #=GS A0A0J9B689/217-329 OS bacteria symbiont BFo1 of Frankliniella occidentalis #=GS A0A0J9B689/217-329 DE DNA mismatch repair protein MutL #=GS A0A0J9B689/217-329 DR GENE3D; 305805bbd8859c15665c2f2645786f04/217-329; #=GS A0A0J9B689/217-329 DR ORG; Bacteria; bacteria symbiont BFo1 of Frankliniella occidentalis; #=GS A0A0S7XZ98/234-339 AC A0A0S7XZ98 #=GS A0A0S7XZ98/234-339 OS Coxiella sp. DG_40 #=GS A0A0S7XZ98/234-339 DE DNA mismatch repair protein MutL #=GS A0A0S7XZ98/234-339 DR GENE3D; 3061a843d283e2e435794bad2174360d/234-339; #=GS A0A0S7XZ98/234-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Coxiellaceae; Coxiella; Coxiella sp. DG_40; #=GS A0A099F6E6/231-343 AC A0A099F6E6 #=GS A0A099F6E6/231-343 OS Paracoccus halophilus #=GS A0A099F6E6/231-343 DE DNA mismatch repair protein MutL #=GS A0A099F6E6/231-343 DR GENE3D; 308a16edd5ce04d9f942a0eca877f4b6/231-343; #=GS A0A099F6E6/231-343 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus halophilus; #=GS A0A0J5P6K1/224-336 AC A0A0J5P6K1 #=GS A0A0J5P6K1/224-336 OS Muribacter muris #=GS A0A0J5P6K1/224-336 DE DNA mismatch repair protein MutL #=GS A0A0J5P6K1/224-336 DR GENE3D; 308f7a6dfe5c63e2ccbc460c7871b452/224-336; #=GS A0A0J5P6K1/224-336 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Muribacter; Muribacter muris; #=GS Q1KL71/216-328 AC Q1KL71 #=GS Q1KL71/216-328 OS uncultured bacterium pFosLip #=GS Q1KL71/216-328 DE DNA mismatch repair protein MutL #=GS Q1KL71/216-328 DR GENE3D; 30c9a4995fcd4d7516ff30830207aba3/216-328; #=GS Q1KL71/216-328 DR ORG; Bacteria; uncultured bacterium pFosLip; #=GS A0A0R0D907/214-326 AC A0A0R0D907 #=GS A0A0R0D907/214-326 OS Stenotrophomonas ginsengisoli #=GS A0A0R0D907/214-326 DE DNA mismatch repair protein MutL #=GS A0A0R0D907/214-326 DR GENE3D; 30da9389b06bc603e3a86045f8d011b1/214-326; #=GS A0A0R0D907/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas ginsengisoli; #=GS V5AHD0/217-331 AC V5AHD0 #=GS V5AHD0/217-331 OS Betaproteobacteria bacterium MOLA814 #=GS V5AHD0/217-331 DE DNA mismatch repair protein MutL #=GS V5AHD0/217-331 DR GENE3D; 30dbce8f247e9584c6f24a90d7c95acc/217-331; #=GS V5AHD0/217-331 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium MOLA814; #=GS A0A0Q5P2N3/212-323 AC A0A0Q5P2N3 #=GS A0A0Q5P2N3/212-323 OS Sphingomonas sp. Leaf343 #=GS A0A0Q5P2N3/212-323 DE DNA mismatch repair protein MutL #=GS A0A0Q5P2N3/212-323 DR GENE3D; 30f3ac1168c87a10ae214142299085fd/212-323; #=GS A0A0Q5P2N3/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf343; #=GS A0A0F7KKF7/213-325 AC A0A0F7KKF7 #=GS A0A0F7KKF7/213-325 OS Nitrosomonas communis #=GS A0A0F7KKF7/213-325 DE DNA mismatch repair protein MutL #=GS A0A0F7KKF7/213-325 DR GENE3D; 30feeb98527343829d0e377716aee8bb/213-325; #=GS A0A0F7KKF7/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosomonas; Nitrosomonas communis; #=GS D5WC62/239-351 AC D5WC62 #=GS D5WC62/239-351 OS Burkholderia sp. CCGE1002 #=GS D5WC62/239-351 DE DNA mismatch repair protein MutL #=GS D5WC62/239-351 DR GENE3D; 3173856221dc9bde7de018a33414b037/239-351; #=GS D5WC62/239-351 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. CCGE1002; #=GS A0A090FS64/215-327 AC A0A090FS64 #=GS A0A090FS64/215-327 OS Mesorhizobium sp. ORS3359 #=GS A0A090FS64/215-327 DE DNA mismatch repair protein MutL #=GS A0A090FS64/215-327 DR GENE3D; 31e75e326978e3c2e1f6c18ae477b546/215-327; #=GS A0A090FS64/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. ORS3359; #=GS B6VLM5/217-329 AC B6VLM5 #=GS B6VLM5/217-329 OS Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949 #=GS B6VLM5/217-329 DE DNA mismatch repair protein MutL #=GS B6VLM5/217-329 DR GENE3D; 32169ec62cec67b86b87027edb6b0d68/217-329; #=GS B6VLM5/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Photorhabdus; Photorhabdus asymbiotica; Photorhabdus asymbiotica subsp. asymbiotica; #=GS E7H3I5/213-324 AC E7H3I5 #=GS E7H3I5/213-324 OS Sutterella wadsworthensis 3_1_45B #=GS E7H3I5/213-324 DE DNA mismatch repair protein MutL #=GS E7H3I5/213-324 DR GENE3D; 3230fc98bef2560cec3ec11006357514/213-324; #=GS E7H3I5/213-324 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Sutterellaceae; Sutterella; Sutterella wadsworthensis; #=GS A0A0T9UKI3/217-329 AC A0A0T9UKI3 #=GS A0A0T9UKI3/217-329 OS Yersinia aldovae #=GS A0A0T9UKI3/217-329 DE DNA mismatch repair protein MutL #=GS A0A0T9UKI3/217-329 DR GENE3D; 328d4e4937a0141b8f40f741ced89012/217-329; #=GS A0A0T9UKI3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia aldovae; #=GS R4YRA5/222-334 AC R4YRA5 #=GS R4YRA5/222-334 OS Oleispira antarctica RB-8 #=GS R4YRA5/222-334 DE DNA mismatch repair protein MutL #=GS R4YRA5/222-334 DR GENE3D; 32a1f9c7f2511d8d7943ecc02e52a175/222-334; #=GS R4YRA5/222-334 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Oleispira; Oleispira antarctica; #=GS K2M9G3/215-327 AC K2M9G3 #=GS K2M9G3/215-327 OS Nitratireductor pacificus pht-3B #=GS K2M9G3/215-327 DE DNA mismatch repair protein MutL #=GS K2M9G3/215-327 DR GENE3D; 32aeac248d1d81dfdac10cf5fff68061/215-327; #=GS K2M9G3/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Nitratireductor; Nitratireductor pacificus; #=GS A0A074N0D4/222-337 AC A0A074N0D4 #=GS A0A074N0D4/222-337 OS Erythrobacter longus #=GS A0A074N0D4/222-337 DE DNA mismatch repair protein MutL #=GS A0A074N0D4/222-337 DR GENE3D; 32b8cc9af62353248b9a2a7b8ed0ef44/222-337; #=GS A0A074N0D4/222-337 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter longus; #=GS A0A1H5VHD7/233-345 AC A0A1H5VHD7 #=GS A0A1H5VHD7/233-345 OS Jhaorihella thermophila #=GS A0A1H5VHD7/233-345 DE DNA mismatch repair protein MutL #=GS A0A1H5VHD7/233-345 DR GENE3D; 32bad71ff7dce5707462828e95883f70/233-345; #=GS A0A1H5VHD7/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Jhaorihella; Jhaorihella thermophila; #=GS J1J794/234-346 AC J1J794 #=GS J1J794/234-346 OS Bartonella doshiae NCTC 12862 = ATCC 700133 #=GS J1J794/234-346 DE DNA mismatch repair protein MutL #=GS J1J794/234-346 DR GENE3D; 32c8cee621e0f67e8ac8f40bb67e4440/234-346; #=GS J1J794/234-346 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella doshiae; #=GS A0A0F6TZI3/217-330 AC A0A0F6TZI3 #=GS A0A0F6TZI3/217-330 OS Citrobacter amalonaticus Y19 #=GS A0A0F6TZI3/217-330 DE DNA mismatch repair protein MutL #=GS A0A0F6TZI3/217-330 DR GENE3D; 32d4616a7a425ba54d27a027532ce1af/217-330; #=GS A0A0F6TZI3/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter amalonaticus; #=GS J6LCQ4/230-342 AC J6LCQ4 #=GS J6LCQ4/230-342 OS Rhodovulum sp. PH10 #=GS J6LCQ4/230-342 DE DNA mismatch repair protein MutL #=GS J6LCQ4/230-342 DR GENE3D; 32fc9c4d45e98420682e9f5824f8497e/230-342; #=GS J6LCQ4/230-342 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodovulum; Rhodovulum sp. PH10; #=GS A0A1F4DI29/213-325 AC A0A1F4DI29 #=GS A0A1F4DI29/213-325 OS Betaproteobacteria bacterium RIFCSPLOWO2_12_FULL_62_13 #=GS A0A1F4DI29/213-325 DE DNA mismatch repair protein MutL #=GS A0A1F4DI29/213-325 DR GENE3D; 3300dbe2ade0ac93d27a416774938e21/213-325; #=GS A0A1F4DI29/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium RIFCSPLOWO2_12_FULL_62_13; #=GS E8LNH9/217-329 AC E8LNH9 #=GS E8LNH9/217-329 OS Vibrio brasiliensis LMG 20546 #=GS E8LNH9/217-329 DE DNA mismatch repair protein MutL #=GS E8LNH9/217-329 DR GENE3D; 33016fcc9ffb68d5709a853bf839a0ab/217-329; #=GS E8LNH9/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio brasiliensis; #=GS A0A0Q4XS85/226-338 AC A0A0Q4XS85 #=GS A0A0Q4XS85/226-338 OS Methylobacterium sp. Leaf99 #=GS A0A0Q4XS85/226-338 DE DNA mismatch repair protein MutL #=GS A0A0Q4XS85/226-338 DR GENE3D; 3302c34c2bb06aee3dd79668ddeb508d/226-338; #=GS A0A0Q4XS85/226-338 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium sp. Leaf99; #=GS A0A0M0HIM1/217-328 AC A0A0M0HIM1 #=GS A0A0M0HIM1/217-328 OS Vibrio nereis #=GS A0A0M0HIM1/217-328 DE DNA mismatch repair protein MutL #=GS A0A0M0HIM1/217-328 DR GENE3D; 330cb29ae36100c33be001a8b2827df0/217-328; #=GS A0A0M0HIM1/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio nereis; #=GS C0DUZ5/40-152 AC C0DUZ5 #=GS C0DUZ5/40-152 OS Eikenella corrodens ATCC 23834 #=GS C0DUZ5/40-152 DE DNA mismatch repair domain protein #=GS C0DUZ5/40-152 DR GENE3D; 332065039f55828d6565d441f8523de3/40-152; #=GS C0DUZ5/40-152 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Eikenella; Eikenella corrodens; #=GS A0A1M6DTN1/231-343 AC A0A1M6DTN1 #=GS A0A1M6DTN1/231-343 OS Wenxinia saemankumensis #=GS A0A1M6DTN1/231-343 DE DNA mismatch repair protein MutL #=GS A0A1M6DTN1/231-343 DR GENE3D; 332683d177015c26466fee3f449c9f1c/231-343; #=GS A0A1M6DTN1/231-343 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Wenxinia; Wenxinia saemankumensis; #=GS F6IPF6/213-325 AC F6IPF6 #=GS F6IPF6/213-325 OS Novosphingobium sp. PP1Y #=GS F6IPF6/213-325 DE DNA mismatch repair protein MutL #=GS F6IPF6/213-325 DR GENE3D; 339bd4fa71c913caec6c6635261132d2/213-325; #=GS F6IPF6/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. PP1Y; #=GS A0A1G3G4H0/231-342 AC A0A1G3G4H0 #=GS A0A1G3G4H0/231-342 OS Rhodobacteraceae bacterium GWF1_65_7 #=GS A0A1G3G4H0/231-342 DE DNA mismatch repair protein MutL #=GS A0A1G3G4H0/231-342 DR GENE3D; 339c742a77866eb509a6e1e62305c40c/231-342; #=GS A0A1G3G4H0/231-342 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacteraceae bacterium GWF1_65_7; #=GS A0A066RRI7/217-329 AC A0A066RRI7 #=GS A0A066RRI7/217-329 OS Photobacterium galatheae #=GS A0A066RRI7/217-329 DE DNA mismatch repair protein MutL #=GS A0A066RRI7/217-329 DR GENE3D; 33c8999f8b82e5e35085579265600581/217-329; #=GS A0A066RRI7/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium galatheae; #=GS A0A069IMY8/83-195 AC A0A069IMY8 #=GS A0A069IMY8/83-195 OS Brevundimonas sp. EAKA #=GS A0A069IMY8/83-195 DE DNA mismatch repair protein MutL #=GS A0A069IMY8/83-195 DR GENE3D; 33c8cd901c9a08c400f04c1105de7d12/83-195; #=GS A0A069IMY8/83-195 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. EAKA; #=GS A3VCF3/230-342 AC A3VCF3 #=GS A3VCF3/230-342 OS Maritimibacter alkaliphilus HTCC2654 #=GS A3VCF3/230-342 DE DNA mismatch repair protein MutL #=GS A3VCF3/230-342 DR GENE3D; 33d698204a27bf08c0927e5723168893/230-342; #=GS A3VCF3/230-342 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Maritimibacter; Maritimibacter alkaliphilus; #=GS A0A1N6I666/233-344 AC A0A1N6I666 #=GS A0A1N6I666/233-344 OS Paraburkholderia phenazinium #=GS A0A1N6I666/233-344 DE DNA mismatch repair protein MutL #=GS A0A1N6I666/233-344 DR GENE3D; 3401dfddcc5e4f8eb168abaa7b1ef234/233-344; #=GS A0A1N6I666/233-344 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Paraburkholderia; Paraburkholderia phenazinium; #=GS A0A158M639/213-325 AC A0A158M639 #=GS A0A158M639/213-325 OS Bordetella holmesii CDC-H585-BH #=GS A0A158M639/213-325 DE DNA mismatch repair protein MutL #=GS A0A158M639/213-325 DR GENE3D; 3440dfdb2f5f1be662d304001688faf8/213-325; #=GS A0A158M639/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Bordetella; Bordetella holmesii; #=GS A0A1M7TJE6/233-345 AC A0A1M7TJE6 #=GS A0A1M7TJE6/233-345 OS Pleomorphobacterium xiamenense #=GS A0A1M7TJE6/233-345 DE DNA mismatch repair protein MutL #=GS A0A1M7TJE6/233-345 DR GENE3D; 346a345a478ca36b84c35ef2cf1fee09/233-345; #=GS A0A1M7TJE6/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Pleomorphobacterium; Pleomorphobacterium xiamenense; #=GS A0A0P7WBV4/230-342 AC A0A0P7WBV4 #=GS A0A0P7WBV4/230-342 OS Rhodobacteraceae bacterium HLUCCO07 #=GS A0A0P7WBV4/230-342 DE DNA mismatch repair protein MutL #=GS A0A0P7WBV4/230-342 DR GENE3D; 34c6f3262fd8993221f265345b42f29f/230-342; #=GS A0A0P7WBV4/230-342 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacteraceae bacterium HLUCCO07; #=GS A0A139CBX8/227-339 AC A0A139CBX8 #=GS A0A139CBX8/227-339 OS Halomonadaceae bacterium T82-2 #=GS A0A139CBX8/227-339 DE DNA mismatch repair protein MutL #=GS A0A139CBX8/227-339 DR GENE3D; 34f00fcc309c5e23cc2d164391287716/227-339; #=GS A0A139CBX8/227-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonadaceae bacterium T82-2; #=GS V3TL06/217-329 AC V3TL06 #=GS V3TL06/217-329 OS Serratia sp. ATCC 39006 #=GS V3TL06/217-329 DE DNA mismatch repair protein MutL #=GS V3TL06/217-329 DR GENE3D; 34f5fff465c8c71a2a3a054a779f216f/217-329; #=GS V3TL06/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia sp. ATCC 39006; #=GS A0A0J7BNB7/223-335 AC A0A0J7BNB7 #=GS A0A0J7BNB7/223-335 OS Nitrospina sp. SCGC_AAA799_C22 #=GS A0A0J7BNB7/223-335 DE DNA mismatch repair protein MutL #=GS A0A0J7BNB7/223-335 DR GENE3D; 34fce3ac22975e0ff776867426447c71/223-335; #=GS A0A0J7BNB7/223-335 DR ORG; Bacteria; Nitrospinae; Nitrospinia; Nitrospinales; Nitrospinaceae; Nitrospina; Nitrospina sp. SCGC_AAA799_C22; #=GS R7BFD1/214-326 AC R7BFD1 #=GS R7BFD1/214-326 OS Firmicutes bacterium CAG:341 #=GS R7BFD1/214-326 DE DNA mismatch repair protein MutL #=GS R7BFD1/214-326 DR GENE3D; 352cac2d7bbf70ad02827b44f29617ef/214-326; #=GS R7BFD1/214-326 DR ORG; Bacteria; Firmicutes; Firmicutes bacterium CAG:341; #=GS E3GDC0/217-330 AC E3GDC0 #=GS E3GDC0/217-330 OS Enterobacter lignolyticus SCF1 #=GS E3GDC0/217-330 DE DNA mismatch repair protein MutL #=GS E3GDC0/217-330 DR GENE3D; 3535dd06af16187c15247ed0924a2df1/217-330; #=GS E3GDC0/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter lignolyticus; #=GS L8J3S3/217-329 AC L8J3S3 #=GS L8J3S3/217-329 OS Photobacterium marinum #=GS L8J3S3/217-329 DE DNA mismatch repair protein MutL #=GS L8J3S3/217-329 DR GENE3D; 3546bf60146dadafa573beee35581580/217-329; #=GS L8J3S3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium marinum; #=GS A0A099T6I0/230-342 AC A0A099T6I0 #=GS A0A099T6I0/230-342 OS Thalassobacter sp. 16PALIMAR09 #=GS A0A099T6I0/230-342 DE DNA mismatch repair protein MutL #=GS A0A099T6I0/230-342 DR GENE3D; 3584a16cc8dadf63d221ee82d5afc389/230-342; #=GS A0A099T6I0/230-342 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Thalassobacter; Thalassobacter sp. 16PALIMAR09; #=GS B0VM63/226-338 AC B0VM63 #=GS B0VM63/226-338 OS Acinetobacter baumannii SDF #=GS B0VM63/226-338 DE DNA mismatch repair protein MutL #=GS B0VM63/226-338 DR GENE3D; 3594099a8821c0bdfe74782bc930e7de/226-338; #=GS B0VM63/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter calcoaceticus/baumannii complex; Acinetobacter baumannii; #=GS A0A0J1C3B6/213-325 AC A0A0J1C3B6 #=GS A0A0J1C3B6/213-325 OS Neisseria arctica #=GS A0A0J1C3B6/213-325 DE DNA mismatch repair protein MutL #=GS A0A0J1C3B6/213-325 DR GENE3D; 35b6859b44f2ab3cadb821beb8328724/213-325; #=GS A0A0J1C3B6/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria arctica; #=GS A0A1F9ZZG6/213-325 AC A0A1F9ZZG6 #=GS A0A1F9ZZG6/213-325 OS Erythrobacter sp. RIFCSPHIGHO2_12_FULL_63_10 #=GS A0A1F9ZZG6/213-325 DE DNA mismatch repair protein MutL #=GS A0A1F9ZZG6/213-325 DR GENE3D; 35d1076c0690e161904d53e21c81183a/213-325; #=GS A0A1F9ZZG6/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. RIFCSPHIGHO2_12_FULL_63_10; #=GS A0A1B9K3W9/213-319 AC A0A1B9K3W9 #=GS A0A1B9K3W9/213-319 OS Gilliamella apicola #=GS A0A1B9K3W9/213-319 DE DNA mismatch repair protein MutL #=GS A0A1B9K3W9/213-319 DR GENE3D; 35e0d0f96712bd4a45b74dfa01eb645c/213-319; #=GS A0A1B9K3W9/213-319 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; #=GS Q1QY28/222-334 AC Q1QY28 #=GS Q1QY28/222-334 OS Chromohalobacter salexigens DSM 3043 #=GS Q1QY28/222-334 DE DNA mismatch repair protein MutL #=GS Q1QY28/222-334 DR GENE3D; 36308968862d78042644071a8757903d/222-334; #=GS Q1QY28/222-334 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Chromohalobacter; Chromohalobacter salexigens; #=GS A0A1K1NIX0/213-325 AC A0A1K1NIX0 #=GS A0A1K1NIX0/213-325 OS Nitrosovibrio sp. Nv17 #=GS A0A1K1NIX0/213-325 DE DNA mismatch repair protein MutL #=GS A0A1K1NIX0/213-325 DR GENE3D; 364f50666d0f04bc8fa1f65c1d70ce57/213-325; #=GS A0A1K1NIX0/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosovibrio; Nitrosovibrio sp. Nv17; #=GS A0A1C9W671/219-331 AC A0A1C9W671 #=GS A0A1C9W671/219-331 OS Microbulbifer sp. CCB-MM1 #=GS A0A1C9W671/219-331 DE DNA mismatch repair protein MutL #=GS A0A1C9W671/219-331 DR GENE3D; 3661e00c5291bf53ec49fa8b95cdd86e/219-331; #=GS A0A1C9W671/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Microbulbiferaceae; Microbulbifer; Microbulbifer sp. CCB-MM1; #=GS A3TYG1/202-314 AC A3TYG1 #=GS A3TYG1/202-314 OS Pseudooceanicola batsensis HTCC2597 #=GS A3TYG1/202-314 DE DNA mismatch repair protein MutL #=GS A3TYG1/202-314 DR GENE3D; 36739494ace453e8e885ee133ceac7b2/202-314; #=GS A3TYG1/202-314 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Pseudooceanicola; Pseudooceanicola batsensis; #=GS A0A063BLS0/229-341 AC A0A063BLS0 #=GS A0A063BLS0/229-341 OS Burkholderia sp. lig30 #=GS A0A063BLS0/229-341 DE DNA mismatch repair protein MutL #=GS A0A063BLS0/229-341 DR GENE3D; 3695ccd8215adbf17aa9164a910d641a/229-341; #=GS A0A063BLS0/229-341 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. lig30; #=GS Q1YH01/214-324 AC Q1YH01 #=GS Q1YH01/214-324 OS Aurantimonas manganoxydans SI85-9A1 #=GS Q1YH01/214-324 DE DNA mismatch repair protein MutL #=GS Q1YH01/214-324 DR GENE3D; 36a7d047902fd21c1dc6c02fcb49dc97/214-324; #=GS Q1YH01/214-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Aurantimonas; Aurantimonas manganoxydans; #=GS A0A0A0EZ71/215-327 AC A0A0A0EZ71 #=GS A0A0A0EZ71/215-327 OS Lysobacter daejeonensis GH1-9 #=GS A0A0A0EZ71/215-327 DE DNA mismatch repair protein MutL #=GS A0A0A0EZ71/215-327 DR GENE3D; 36dcb35793b7a7cc60a0f4915678e8f4/215-327; #=GS A0A0A0EZ71/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter daejeonensis; #=GS A3WJ76/219-331 AC A3WJ76 #=GS A3WJ76/219-331 OS Idiomarina baltica OS145 #=GS A3WJ76/219-331 DE DNA mismatch repair protein MutL #=GS A3WJ76/219-331 DR GENE3D; 36e977b90a72d5d8954bf36d9d9d7267/219-331; #=GS A3WJ76/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Idiomarinaceae; Idiomarina; Idiomarina baltica; #=GS A0A128XKK5/217-329 AC A0A128XKK5 #=GS A0A128XKK5/217-329 OS Legionella pneumophila #=GS A0A128XKK5/217-329 DE DNA mismatch repair protein MutL #=GS A0A128XKK5/217-329 DR GENE3D; 372a2445bb26a5c19b905c529bfaa43a/217-329; #=GS A0A128XKK5/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella pneumophila; #=GS Q12J93/217-327 AC Q12J93 #=GS Q12J93/217-327 OS Shewanella denitrificans OS217 #=GS Q12J93/217-327 DE DNA mismatch repair protein MutL #=GS Q12J93/217-327 DR GENE3D; 37456d7563880ea62e371b7ad518075b/217-327; #=GS Q12J93/217-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella denitrificans; #=GS A0A0B8YAB9/214-326 AC A0A0B8YAB9 #=GS A0A0B8YAB9/214-326 OS Pedobacter glucosidilyticus #=GS A0A0B8YAB9/214-326 DE DNA mismatch repair protein MutL #=GS A0A0B8YAB9/214-326 DR GENE3D; 37734ca5ae78d0c6c3e89640b6f10bfd/214-326; #=GS A0A0B8YAB9/214-326 DR ORG; Bacteria; Bacteroidetes; Sphingobacteriia; Sphingobacteriales; Sphingobacteriaceae; Pedobacter; Pedobacter glucosidilyticus; #=GS A8AMN1/217-330 AC A8AMN1 #=GS A8AMN1/217-330 OS Citrobacter koseri ATCC BAA-895 #=GS A8AMN1/217-330 DE DNA mismatch repair protein MutL #=GS A8AMN1/217-330 DR GENE3D; 3778aadb0f8c601806be3fd80be99129/217-330; #=GS A8AMN1/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter koseri; #=GS A0A192IKD7/217-329 AC A0A192IKD7 #=GS A0A192IKD7/217-329 OS Rhizobiales bacterium NRL2 #=GS A0A192IKD7/217-329 DE DNA mismatch repair protein MutL #=GS A0A192IKD7/217-329 DR GENE3D; 37836deace06b5b6209e1bc95519e6bf/217-329; #=GS A0A192IKD7/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiales bacterium NRL2; #=GS A0A069I9K1/221-333 AC A0A069I9K1 #=GS A0A069I9K1/221-333 OS Cupriavidus sp. SK-3 #=GS A0A069I9K1/221-333 DE DNA mismatch repair protein MutL #=GS A0A069I9K1/221-333 DR GENE3D; 379fcd7cb8d395b7382e9fa2bee79ae6/221-333; #=GS A0A069I9K1/221-333 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Cupriavidus; Cupriavidus sp. SK-3; #=GS A0A0T6UIA8/221-333 AC A0A0T6UIA8 #=GS A0A0T6UIA8/221-333 OS Pseudomonas sp. TTU2014-080ASC #=GS A0A0T6UIA8/221-333 DE DNA mismatch repair protein MutL #=GS A0A0T6UIA8/221-333 DR GENE3D; 3802c5f45c8c6020a159742cb826fcf2/221-333; #=GS A0A0T6UIA8/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. TTU2014-080ASC; #=GS I3BW01/217-329 AC I3BW01 #=GS I3BW01/217-329 OS Thiothrix nivea DSM 5205 #=GS I3BW01/217-329 DE DNA mismatch repair protein MutL #=GS I3BW01/217-329 DR GENE3D; 380694a4d95d18c4779a4af46107ca8b/217-329; #=GS I3BW01/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Thiotrichaceae; Thiothrix; Thiothrix nivea; #=GS V5C0J0/217-329 AC V5C0J0 #=GS V5C0J0/217-329 OS Methyloglobulus morosus KoM1 #=GS V5C0J0/217-329 DE DNA mismatch repair protein MutL #=GS V5C0J0/217-329 DR GENE3D; 380777dfe09044a1c3c57fbf9a5ceb5a/217-329; #=GS V5C0J0/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Methylococcales; Methylococcaceae; Methyloglobulus; Methyloglobulus morosus; #=GS A0A149VR86/213-325 AC A0A149VR86 #=GS A0A149VR86/213-325 OS Ferrovum sp. PN-J185 #=GS A0A149VR86/213-325 DE DNA mismatch repair protein MutL #=GS A0A149VR86/213-325 DR GENE3D; 38272b9a701f4aabec9870cea67bebb6/213-325; #=GS A0A149VR86/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Ferrovales; Ferrovaceae; Ferrovum; Ferrovum sp. PN-J185; #=GS A0A0J6NF50/213-325 AC A0A0J6NF50 #=GS A0A0J6NF50/213-325 OS Chromobacterium sp. LK11 #=GS A0A0J6NF50/213-325 DE DNA mismatch repair protein MutL #=GS A0A0J6NF50/213-325 DR GENE3D; 382925124a2f53a5e8fd6ff1d0ce268b/213-325; #=GS A0A0J6NF50/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Chromobacteriaceae; Chromobacterium; Chromobacterium sp. LK11; #=GS A0A0B8TAE1/214-326 AC A0A0B8TAE1 #=GS A0A0B8TAE1/214-326 OS Sphingobacterium deserti #=GS A0A0B8TAE1/214-326 DE DNA mismatch repair protein MutL #=GS A0A0B8TAE1/214-326 DR GENE3D; 38448dcdaa5e076e09de2aae0edb8f2c/214-326; #=GS A0A0B8TAE1/214-326 DR ORG; Bacteria; Bacteroidetes; Sphingobacteriia; Sphingobacteriales; Sphingobacteriaceae; Sphingobacterium; Sphingobacterium deserti; #=GS A0A0A8VF01/217-329 AC A0A0A8VF01 #=GS A0A0A8VF01/217-329 OS Yersinia ruckeri #=GS A0A0A8VF01/217-329 DE DNA mismatch repair protein MutL #=GS A0A0A8VF01/217-329 DR GENE3D; 3850b78fc7bdb897e6bb4cd87b5b9150/217-329; #=GS A0A0A8VF01/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia ruckeri; #=GS T0K9Q8/212-323 AC T0K9Q8 #=GS T0K9Q8/212-323 OS Sphingobium ummariense RL-3 #=GS T0K9Q8/212-323 DE DNA mismatch repair protein MutL #=GS T0K9Q8/212-323 DR GENE3D; 385929b9a2296f08cc45de31928aafab/212-323; #=GS T0K9Q8/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium ummariense; #=GS N6VT31/218-330 AC N6VT31 #=GS N6VT31/218-330 OS Marinobacter nanhaiticus D15-8W #=GS N6VT31/218-330 DE DNA mismatch repair protein MutL #=GS N6VT31/218-330 DR GENE3D; 388aecb175c66de01ffcb93caae92f42/218-330; #=GS N6VT31/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter nanhaiticus; #=GS A0A1G0LF66/214-326 AC A0A1G0LF66 #=GS A0A1G0LF66/214-326 OS Geobacteraceae bacterium GWB2_52_12 #=GS A0A1G0LF66/214-326 DE DNA mismatch repair protein MutL #=GS A0A1G0LF66/214-326 DR GENE3D; 38904f07ec602efc9e4caf7f6ce49c11/214-326; #=GS A0A1G0LF66/214-326 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Geobacteraceae; Geobacteraceae bacterium GWB2_52_12; #=GS A0A1M6ZSH8/213-325 AC A0A1M6ZSH8 #=GS A0A1M6ZSH8/213-325 OS Nitrosospira sp. Nsp11 #=GS A0A1M6ZSH8/213-325 DE DNA mismatch repair protein MutL #=GS A0A1M6ZSH8/213-325 DR GENE3D; 38b92c3bed19c7281b45a580f102b0d7/213-325; #=GS A0A1M6ZSH8/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosospira; Nitrosospira sp. Nsp11; #=GS D9P2Q6/222-335 AC D9P2Q6 #=GS D9P2Q6/222-335 OS Actinobacillus pleuropneumoniae serovar 2 str. 4226 #=GS D9P2Q6/222-335 DE DNA mismatch repair protein MutL #=GS D9P2Q6/222-335 DR GENE3D; 38e8f4c42b0f6301e8619a9d61959401/222-335; #=GS D9P2Q6/222-335 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; #=GS E0FJK8/222-335 AC E0FJK8 #=GS E0FJK8/222-335 OS Actinobacillus pleuropneumoniae serovar 12 str. 1096 #=GS E0FJK8/222-335 DE DNA mismatch repair protein MutL #=GS E0FJK8/222-335 DR GENE3D; 38e8f4c42b0f6301e8619a9d61959401/222-335; #=GS E0FJK8/222-335 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; #=GS E0ENA4/222-335 AC E0ENA4 #=GS E0ENA4/222-335 OS Actinobacillus pleuropneumoniae serovar 4 str. M62 #=GS E0ENA4/222-335 DE DNA mismatch repair protein MutL #=GS E0ENA4/222-335 DR GENE3D; 38e8f4c42b0f6301e8619a9d61959401/222-335; #=GS E0ENA4/222-335 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; #=GS A0A0K1J9P1/210-322 AC A0A0K1J9P1 #=GS A0A0K1J9P1/210-322 OS Azoarcus sp. CIB #=GS A0A0K1J9P1/210-322 DE DNA mismatch repair protein MutL #=GS A0A0K1J9P1/210-322 DR GENE3D; 3900ae0494e19269d98b171e7b68a39a/210-322; #=GS A0A0K1J9P1/210-322 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Azoarcus; Azoarcus sp. CIB; #=GS G4E690/217-329 AC G4E690 #=GS G4E690/217-329 OS Thiorhodospira sibirica ATCC 700588 #=GS G4E690/217-329 DE DNA mismatch repair protein MutL #=GS G4E690/217-329 DR GENE3D; 3936ce22ce7228a82ecf8de5606a20e6/217-329; #=GS G4E690/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thiorhodospira; Thiorhodospira sibirica; #=GS A0A0T7A9A2/212-324 AC A0A0T7A9A2 #=GS A0A0T7A9A2/212-324 OS Sinorhizobium sp. GL28 #=GS A0A0T7A9A2/212-324 DE DNA mismatch repair protein MutL #=GS A0A0T7A9A2/212-324 DR GENE3D; 3941b1cbf56970aeb40576a04c6a5127/212-324; #=GS A0A0T7A9A2/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium sp. GL28; #=GS A0A136HNW4/218-332 AC A0A136HNW4 #=GS A0A136HNW4/218-332 OS Neptuniibacter sp. Phe_28 #=GS A0A136HNW4/218-332 DE DNA mismatch repair protein MutL #=GS A0A136HNW4/218-332 DR GENE3D; 3957f9ecd8b2af4d45491a2d6348322d/218-332; #=GS A0A136HNW4/218-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Neptuniibacter; Neptuniibacter sp. Phe_28; #=GS A0A097EDX8/218-333 AC A0A097EDX8 #=GS A0A097EDX8/218-333 OS Sphingomonas taxi #=GS A0A097EDX8/218-333 DE DNA mismatch repair protein MutL #=GS A0A097EDX8/218-333 DR GENE3D; 396e2b0059a6ac7a8933db55512386b3/218-333; #=GS A0A097EDX8/218-333 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas taxi; #=GS A0A1N6FKK8/213-325 AC A0A1N6FKK8 #=GS A0A1N6FKK8/213-325 OS Nitrosomonas cryotolerans ATCC 49181 #=GS A0A1N6FKK8/213-325 DE DNA mismatch repair protein MutL #=GS A0A1N6FKK8/213-325 DR GENE3D; 39ace32547b954424666ff35a85a8357/213-325; #=GS A0A1N6FKK8/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosomonas; Nitrosomonas cryotolerans; #=GS A0A1M3DTB7/217-329 AC A0A1M3DTB7 #=GS A0A1M3DTB7/217-329 OS Alphaproteobacteria bacterium 43-37 #=GS A0A1M3DTB7/217-329 DE DNA mismatch repair protein MutL #=GS A0A1M3DTB7/217-329 DR GENE3D; 39d93a8ceb6685c9c4b66b985a07673a/217-329; #=GS A0A1M3DTB7/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Alphaproteobacteria bacterium 43-37; #=GS W0V2K7/215-326 AC W0V2K7 #=GS W0V2K7/215-326 OS Janthinobacterium agaricidamnosum NBRC 102515 = DSM 9628 #=GS W0V2K7/215-326 DE DNA mismatch repair protein MutL #=GS W0V2K7/215-326 DR GENE3D; 3a0a9ce5833c29a40e3ded0809220efb/215-326; #=GS W0V2K7/215-326 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium agaricidamnosum; #=GS A0A0F3REX1/83-195 AC A0A0F3REX1 #=GS A0A0F3REX1/83-195 OS Orientia tsutsugamushi str. Sido #=GS A0A0F3REX1/83-195 DE DNA mismatch repair, C-terminal domain protein #=GS A0A0F3REX1/83-195 DR GENE3D; 3a186cf97eb0f9e1deec430f6317ec04/83-195; #=GS A0A0F3REX1/83-195 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Rickettsiaceae; Rickettsieae; Orientia; Orientia tsutsugamushi; #=GS A0A1L5PZK5/232-344 AC A0A1L5PZK5 #=GS A0A1L5PZK5/232-344 OS Marivivens sp. JLT3646 #=GS A0A1L5PZK5/232-344 DE DNA mismatch repair protein MutL #=GS A0A1L5PZK5/232-344 DR GENE3D; 3a44b0005a48df5f08ff05a446d1e26a/232-344; #=GS A0A1L5PZK5/232-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Marivivens; Marivivens sp. JLT3646; #=GS A0A1B7YYE5/232-344 AC A0A1B7YYE5 #=GS A0A1B7YYE5/232-344 OS Donghicola sp. JL3646 #=GS A0A1B7YYE5/232-344 DE DNA mismatch repair protein MutL #=GS A0A1B7YYE5/232-344 DR GENE3D; 3a44b0005a48df5f08ff05a446d1e26a/232-344; #=GS A0A1B7YYE5/232-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Donghicola; Donghicola sp. JL3646; #=GS A3QAD8/217-328 AC A3QAD8 #=GS A3QAD8/217-328 OS Shewanella loihica PV-4 #=GS A3QAD8/217-328 DE DNA mismatch repair protein MutL #=GS A3QAD8/217-328 DR GENE3D; 3aa4cf4545d95f0b0d66883024c40a4d/217-328; #=GS A3QAD8/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella loihica; #=GS A0A014PTZ8/217-329 AC A0A014PTZ8 #=GS A0A014PTZ8/217-329 OS Erwinia mallotivora #=GS A0A014PTZ8/217-329 DE DNA mismatch repair protein MutL #=GS A0A014PTZ8/217-329 DR GENE3D; 3aa93fdcd8e20c15bcb047d7ed314a81/217-329; #=GS A0A014PTZ8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Erwinia; Erwinia mallotivora; #=GS Q11L80/215-327 AC Q11L80 #=GS Q11L80/215-327 OS Chelativorans sp. BNC1 #=GS Q11L80/215-327 DE DNA mismatch repair protein MutL #=GS Q11L80/215-327 DR GENE3D; 3aaacbc644db14cc01e804600df6a5a7/215-327; #=GS Q11L80/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Chelativorans; Chelativorans sp. BNC1; #=GS U1JUQ9/216-325 AC U1JUQ9 #=GS U1JUQ9/216-325 OS Pseudoalteromonas citrea DSM 8771 #=GS U1JUQ9/216-325 DE DNA mismatch repair protein MutL #=GS U1JUQ9/216-325 DR GENE3D; 3ac12e59072b504631cbc352080eb714/216-325; #=GS U1JUQ9/216-325 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas citrea; #=GS Q7NYD2/213-325 AC Q7NYD2 #=GS Q7NYD2/213-325 OS Chromobacterium violaceum ATCC 12472 #=GS Q7NYD2/213-325 DE DNA mismatch repair protein MutL #=GS Q7NYD2/213-325 DR GENE3D; 3ac62ecf5e29330c873d70628cef69f8/213-325; #=GS Q7NYD2/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Chromobacteriaceae; Chromobacterium; Chromobacterium violaceum; #=GS U3AB45/217-329 AC U3AB45 #=GS U3AB45/217-329 OS Vibrio azureus NBRC 104587 #=GS U3AB45/217-329 DE DNA mismatch repair protein MutL #=GS U3AB45/217-329 DR GENE3D; 3af5fcf1ce0d3748c2cccafebb2a7c1b/217-329; #=GS U3AB45/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio azureus; #=GS J8VD63/213-325 AC J8VD63 #=GS J8VD63/213-325 OS Sphingomonas sp. LH128 #=GS J8VD63/213-325 DE DNA mismatch repair protein MutL #=GS J8VD63/213-325 DR GENE3D; 3b633df6c74825252e55aa6bbdac0045/213-325; #=GS J8VD63/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. LH128; #=GS A0A177PFB2/217-329 AC A0A177PFB2 #=GS A0A177PFB2/217-329 OS Methylomonas koyamae #=GS A0A177PFB2/217-329 DE DNA mismatch repair protein MutL #=GS A0A177PFB2/217-329 DR GENE3D; 3b88ae43200209e7bc8558e115983637/217-329; #=GS A0A177PFB2/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Methylococcales; Methylococcaceae; Methylomonas; Methylomonas koyamae; #=GS A0A095UAL4/212-324 AC A0A095UAL4 #=GS A0A095UAL4/212-324 OS Rhizobium sp. YS-1r #=GS A0A095UAL4/212-324 DE DNA mismatch repair protein MutL #=GS A0A095UAL4/212-324 DR GENE3D; 3b94345b76cd416366bbb99aa7f74e4c/212-324; #=GS A0A095UAL4/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. YS-1r; #=GS A0A0Q8B705/212-324 AC A0A0Q8B705 #=GS A0A0Q8B705/212-324 OS Rhizobium sp. Root564 #=GS A0A0Q8B705/212-324 DE DNA mismatch repair protein MutL #=GS A0A0Q8B705/212-324 DR GENE3D; 3bc86d06bb960895ac9cffea65a85e97/212-324; #=GS A0A0Q8B705/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Root564; #=GS E0TDQ8/242-354 AC E0TDQ8 #=GS E0TDQ8/242-354 OS Parvularcula bermudensis HTCC2503 #=GS E0TDQ8/242-354 DE DNA mismatch repair protein MutL #=GS E0TDQ8/242-354 DR GENE3D; 3bf0da810b87d3441a0ccae0e3d531aa/242-354; #=GS E0TDQ8/242-354 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Parvularculales; Parvularculaceae; Parvularcula; Parvularcula bermudensis; #=GS A0A0Q7YQJ6/212-324 AC A0A0Q7YQJ6 #=GS A0A0Q7YQJ6/212-324 OS Rhizobium sp. Root149 #=GS A0A0Q7YQJ6/212-324 DE DNA mismatch repair protein MutL #=GS A0A0Q7YQJ6/212-324 DR GENE3D; 3bf5003376aba7a3b45a483953665aeb/212-324; #=GS A0A0Q7YQJ6/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Root149; #=GS A0A0N0JNT2/236-348 AC A0A0N0JNT2 #=GS A0A0N0JNT2/236-348 OS beta proteobacterium AAP51 #=GS A0A0N0JNT2/236-348 DE DNA mismatch repair protein MutL #=GS A0A0N0JNT2/236-348 DR GENE3D; 3bfc1f454c44aa2bbb73f227d1de1adc/236-348; #=GS A0A0N0JNT2/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; beta proteobacterium AAP51; #=GS A0A1N6TU18/218-332 AC A0A1N6TU18 #=GS A0A1N6TU18/218-332 OS Marinobacterium stanieri #=GS A0A1N6TU18/218-332 DE DNA mismatch repair protein MutL #=GS A0A1N6TU18/218-332 DR GENE3D; 3c2297af981809df2daec2c98f7679ab/218-332; #=GS A0A1N6TU18/218-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Marinobacterium; Marinobacterium stanieri; #=GS A0A1D2STU1/215-327 AC A0A1D2STU1 #=GS A0A1D2STU1/215-327 OS Mesorhizobium sp. SCN 65-20 #=GS A0A1D2STU1/215-327 DE DNA mismatch repair protein MutL #=GS A0A1D2STU1/215-327 DR GENE3D; 3c290b83015f20e5005e6e46a3c0e6a5/215-327; #=GS A0A1D2STU1/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. SCN 65-20; #=GS F4G4D1/244-356 AC F4G4D1 #=GS F4G4D1/244-356 OS Alicycliphilus denitrificans K601 #=GS F4G4D1/244-356 DE DNA mismatch repair protein MutL #=GS F4G4D1/244-356 DR GENE3D; 3c5ebb62702803add327d1fdb2059c6c/244-356; #=GS F4G4D1/244-356 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Alicycliphilus; Alicycliphilus denitrificans; #=GS A0A1M4SBR1/222-334 AC A0A1M4SBR1 #=GS A0A1M4SBR1/222-334 OS Halomonas ilicicola DSM 19980 #=GS A0A1M4SBR1/222-334 DE DNA mismatch repair protein MutL #=GS A0A1M4SBR1/222-334 DR GENE3D; 3c80f18dd4c80d08d8abf7dc10d55ebe/222-334; #=GS A0A1M4SBR1/222-334 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas ilicicola; #=GS A0A0E9MN88/217-328 AC A0A0E9MN88 #=GS A0A0E9MN88/217-328 OS Sphingomonas changbaiensis NBRC 104936 #=GS A0A0E9MN88/217-328 DE DNA mismatch repair protein MutL #=GS A0A0E9MN88/217-328 DR GENE3D; 3ca2f34d995fe1c49c44a9f5c9afc8e2/217-328; #=GS A0A0E9MN88/217-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas changbaiensis; #=GS A0A0Q2Y913/232-344 AC A0A0Q2Y913 #=GS A0A0Q2Y913/232-344 OS Loktanella sp. 3ANDIMAR09 #=GS A0A0Q2Y913/232-344 DE DNA mismatch repair protein MutL #=GS A0A0Q2Y913/232-344 DR GENE3D; 3cbcebe791cd946c6e564a56ea44841f/232-344; #=GS A0A0Q2Y913/232-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Loktanella; Loktanella sp. 3ANDIMAR09; #=GS A0A1C3IVS3/217-328 AC A0A1C3IVS3 #=GS A0A1C3IVS3/217-328 OS Vibrio hemicentroti #=GS A0A1C3IVS3/217-328 DE DNA mismatch repair protein MutL #=GS A0A1C3IVS3/217-328 DR GENE3D; 3cc45f7c4651ac57554cbbbc9671efda/217-328; #=GS A0A1C3IVS3/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio hemicentroti; #=GS D0CTX7/233-345 AC D0CTX7 #=GS D0CTX7/233-345 OS Silicibacter lacuscaerulensis ITI-1157 #=GS D0CTX7/233-345 DE DNA mismatch repair protein MutL #=GS D0CTX7/233-345 DR GENE3D; 3cd8965ac979aceaa912da8c04d53717/233-345; #=GS D0CTX7/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ruegeria; Ruegeria lacuscaerulensis; #=GS Q47B87/219-331 AC Q47B87 #=GS Q47B87/219-331 OS Dechloromonas aromatica RCB #=GS Q47B87/219-331 DE DNA mismatch repair protein MutL #=GS Q47B87/219-331 DR GENE3D; 3cf036dbebe01b8b9b276f3584ec0453/219-331; #=GS Q47B87/219-331 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Dechloromonas; Dechloromonas aromatica; #=GS F1VX50/217-329 AC F1VX50 #=GS F1VX50/217-329 OS Oxalobacteraceae bacterium IMCC9480 #=GS F1VX50/217-329 DE DNA mismatch repair protein MutL #=GS F1VX50/217-329 DR GENE3D; 3d1e91e2fff3480bc2d90f2f1018f5a6/217-329; #=GS F1VX50/217-329 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Oxalobacteraceae bacterium IMCC9480; #=GS A0A1F4BCR2/213-325 AC A0A1F4BCR2 #=GS A0A1F4BCR2/213-325 OS Betaproteobacteria bacterium RIFCSPLOWO2_02_FULL_67_26 #=GS A0A1F4BCR2/213-325 DE DNA mismatch repair protein MutL #=GS A0A1F4BCR2/213-325 DR GENE3D; 3d22819e51927f08586b481b5f2c392e/213-325; #=GS A0A1F4BCR2/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium RIFCSPLOWO2_02_FULL_67_26; #=GS A0A0W0SPD2/215-327 AC A0A0W0SPD2 #=GS A0A0W0SPD2/215-327 OS Legionella brunensis #=GS A0A0W0SPD2/215-327 DE DNA mismatch repair protein MutL #=GS A0A0W0SPD2/215-327 DR GENE3D; 3d38f3ee5a38b23769d95a331cfa13d2/215-327; #=GS A0A0W0SPD2/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella brunensis; #=GS A0A0D0SC95/220-332 AC A0A0D0SC95 #=GS A0A0D0SC95/220-332 OS Lysobacter sp. A03 #=GS A0A0D0SC95/220-332 DE DNA mismatch repair protein MutL #=GS A0A0D0SC95/220-332 DR GENE3D; 3d673802a05b38d5e46b145df52011da/220-332; #=GS A0A0D0SC95/220-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter sp. A03; #=GS A0A0A3AV01/217-329 AC A0A0A3AV01 #=GS A0A0A3AV01/217-329 OS Chelonobacter oris #=GS A0A0A3AV01/217-329 DE DNA mismatch repair protein MutL #=GS A0A0A3AV01/217-329 DR GENE3D; 3d92f820bf71d6d59cf131d2c3a7e879/217-329; #=GS A0A0A3AV01/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Chelonobacter; Chelonobacter oris; #=GS H8K3N8/217-329 AC H8K3N8 #=GS H8K3N8/217-329 OS Rickettsia amblyommatis str. GAT-30V #=GS H8K3N8/217-329 DE DNA mismatch repair protein MutL #=GS H8K3N8/217-329 DR GENE3D; 3da2d6130ad9a00895b60dc7be6805d0/217-329; #=GS H8K3N8/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Rickettsiaceae; Rickettsieae; Rickettsia; spotted fever group; Rickettsia amblyommatis; #=GS Q46XK3/221-333 AC Q46XK3 #=GS Q46XK3/221-333 OS Ralstonia eutropha JMP134 #=GS Q46XK3/221-333 DE DNA mismatch repair protein MutL #=GS Q46XK3/221-333 DR GENE3D; 3da8774de40e0d6c4f0f7cabd2d80620/221-333; #=GS Q46XK3/221-333 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Cupriavidus; Cupriavidus pinatubonensis; #=GS A0A1C1YU94/212-324 AC A0A1C1YU94 #=GS A0A1C1YU94/212-324 OS Hoeflea olei #=GS A0A1C1YU94/212-324 DE DNA mismatch repair protein MutL #=GS A0A1C1YU94/212-324 DR GENE3D; 3dabfb7293e8d152d36ed7ad9e9a526b/212-324; #=GS A0A1C1YU94/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Hoeflea; Hoeflea olei; #=GS E4PHX7/213-325 AC E4PHX7 #=GS E4PHX7/213-325 OS Marinobacter adhaerens HP15 #=GS E4PHX7/213-325 DE DNA mismatch repair protein MutL #=GS E4PHX7/213-325 DR GENE3D; 3dc4129ec4aa9edc268a0c980cd5e76c/213-325; #=GS E4PHX7/213-325 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter adhaerens; #=GS A0A1F4D9Z7/213-325 AC A0A1F4D9Z7 #=GS A0A1F4D9Z7/213-325 OS Betaproteobacteria bacterium RIFCSPLOWO2_12_FULL_63_13 #=GS A0A1F4D9Z7/213-325 DE DNA mismatch repair protein MutL #=GS A0A1F4D9Z7/213-325 DR GENE3D; 3de9f8b7e5838b2645faaa70817cae9e/213-325; #=GS A0A1F4D9Z7/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium RIFCSPLOWO2_12_FULL_63_13; #=GS T1AF61/216-328 AC T1AF61 #=GS T1AF61/216-328 OS mine drainage metagenome #=GS T1AF61/216-328 DE DNA mismatch repair protein MutL #=GS T1AF61/216-328 DR GENE3D; 3df9194ec06e56fba677ec4f8598d216/216-328; #=GS T1AF61/216-328 DR ORG; mine drainage metagenome; #=GS G0ADD3/217-329 AC G0ADD3 #=GS G0ADD3/217-329 OS Collimonas fungivorans Ter331 #=GS G0ADD3/217-329 DE DNA mismatch repair protein MutL #=GS G0ADD3/217-329 DR GENE3D; 3e14b18ede9f4fe4cd947fb68b5b48b4/217-329; #=GS G0ADD3/217-329 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Collimonas; Collimonas fungivorans; #=GS A0A0B0ENS5/215-326 AC A0A0B0ENS5 #=GS A0A0B0ENS5/215-326 OS Candidatus Scalindua brodae #=GS A0A0B0ENS5/215-326 DE DNA mismatch repair protein MutL #=GS A0A0B0ENS5/215-326 DR GENE3D; 3e386ebbea8b9173b5e990981ec3f2e4/215-326; #=GS A0A0B0ENS5/215-326 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Candidatus Brocadiales; Candidatus Brocadiaceae; Candidatus Scalindua; Candidatus Scalindua brodae; #=GS A0A1G7M1P9/248-350 AC A0A1G7M1P9 #=GS A0A1G7M1P9/248-350 OS Terriglobus roseus #=GS A0A1G7M1P9/248-350 DE DNA mismatch repair protein MutL #=GS A0A1G7M1P9/248-350 DR GENE3D; 3e3c2494ac93b930101bf556cd98acff/248-350; #=GS A0A1G7M1P9/248-350 DR ORG; Bacteria; Acidobacteria; Acidobacteriia; Acidobacteriales; Acidobacteriaceae; Terriglobus; Terriglobus roseus; #=GS A0A0S3ANM3/213-325 AC A0A0S3ANM3 #=GS A0A0S3ANM3/213-325 OS Nitrosomonas ureae #=GS A0A0S3ANM3/213-325 DE DNA mismatch repair protein MutL #=GS A0A0S3ANM3/213-325 DR GENE3D; 3e4c43f3a29bbf41fb7de081ed160411/213-325; #=GS A0A0S3ANM3/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosomonas; Nitrosomonas ureae; #=GS A0A163WU35/215-327 AC A0A163WU35 #=GS A0A163WU35/215-327 OS Labrenzia sp. OB1 #=GS A0A163WU35/215-327 DE DNA mismatch repair protein MutL #=GS A0A163WU35/215-327 DR GENE3D; 3e64045e4b89c9fe3e97ffec57d4868b/215-327; #=GS A0A163WU35/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia sp. OB1; #=GS A0A075K402/217-329 AC A0A075K402 #=GS A0A075K402/217-329 OS Dyella japonica A8 #=GS A0A075K402/217-329 DE DNA mismatch repair protein MutL #=GS A0A075K402/217-329 DR GENE3D; 3eeaf81da5dc22f1270d3902d485159f/217-329; #=GS A0A075K402/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Dyella; Dyella japonica; #=GS W0BCE7/215-326 AC W0BCE7 #=GS W0BCE7/215-326 OS Legionella oakridgensis ATCC 33761 = DSM 21215 #=GS W0BCE7/215-326 DE DNA mismatch repair protein MutL #=GS W0BCE7/215-326 DR GENE3D; 3ef7e0388eca397fc68079d9a0dc51fc/215-326; #=GS W0BCE7/215-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella oakridgensis; #=GS A0A0W0X4R8/215-326 AC A0A0W0X4R8 #=GS A0A0W0X4R8/215-326 OS Legionella oakridgensis #=GS A0A0W0X4R8/215-326 DE DNA mismatch repair protein MutL #=GS A0A0W0X4R8/215-326 DR GENE3D; 3ef7e0388eca397fc68079d9a0dc51fc/215-326; #=GS A0A0W0X4R8/215-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella oakridgensis; #=GS I3TPN5/218-330 AC I3TPN5 #=GS I3TPN5/218-330 OS Tistrella mobilis KA081020-065 #=GS I3TPN5/218-330 DE DNA mismatch repair protein MutL #=GS I3TPN5/218-330 DR GENE3D; 3f1ea1259bca231615ac9b502f7fcb7d/218-330; #=GS I3TPN5/218-330 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Tistrella; Tistrella mobilis; #=GS A0A060NHF2/265-377 AC A0A060NHF2 #=GS A0A060NHF2/265-377 OS Comamonadaceae bacterium A1 #=GS A0A060NHF2/265-377 DE DNA mismatch repair protein MutL #=GS A0A060NHF2/265-377 DR GENE3D; 3f1fcc20e6fc9c5a5fc9df034c3678f8/265-377; #=GS A0A060NHF2/265-377 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonadaceae bacterium A1; #=GS Q88DD1/221-333 AC Q88DD1 #=GS Q88DD1/221-333 OS Pseudomonas putida KT2440 #=GS Q88DD1/221-333 DE DNA mismatch repair protein MutL #=GS Q88DD1/221-333 DR GENE3D; 3f2e9cd41d6755d42f10735593783ed4/221-333; #=GS Q88DD1/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; #=GS K0CC13/218-330 AC K0CC13 #=GS K0CC13/218-330 OS Alcanivorax dieselolei B5 #=GS K0CC13/218-330 DE DNA mismatch repair protein MutL #=GS K0CC13/218-330 DR GENE3D; 3fba447ed5e4c3a45c42e3b7a380ad6b/218-330; #=GS K0CC13/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Alcanivoracaceae; Alcanivorax; Alcanivorax dieselolei; #=GS A0A1F4LNR9/233-345 AC A0A1F4LNR9 #=GS A0A1F4LNR9/233-345 OS Burkholderiales bacterium RIFCSPLOWO2_12_FULL_65_40 #=GS A0A1F4LNR9/233-345 DE DNA mismatch repair protein MutL #=GS A0A1F4LNR9/233-345 DR GENE3D; 3fbf1b05f37380170290c795f01e69b0/233-345; #=GS A0A1F4LNR9/233-345 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium RIFCSPLOWO2_12_FULL_65_40; #=GS K2JDS1/217-329 AC K2JDS1 #=GS K2JDS1/217-329 OS Idiomarina xiamenensis 10-D-4 #=GS K2JDS1/217-329 DE DNA mismatch repair protein MutL #=GS K2JDS1/217-329 DR GENE3D; 3fe0c514346570f7963ddc428354cfb4/217-329; #=GS K2JDS1/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Idiomarinaceae; Idiomarina; Idiomarina xiamenensis; #=GS A0A139SVV8/220-332 AC A0A139SVV8 #=GS A0A139SVV8/220-332 OS Ventosimonas gracilis #=GS A0A139SVV8/220-332 DE DNA mismatch repair protein MutL #=GS A0A139SVV8/220-332 DR GENE3D; 40201fa11db74e0d4e6ba6e993ea5d72/220-332; #=GS A0A139SVV8/220-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Ventosimonadaceae; Ventosimonas; Ventosimonas gracilis; #=GS A0A0W0RRT6/211-323 AC A0A0W0RRT6 #=GS A0A0W0RRT6/211-323 OS Legionella birminghamensis #=GS A0A0W0RRT6/211-323 DE DNA mismatch repair protein MutL #=GS A0A0W0RRT6/211-323 DR GENE3D; 404fb4ea9177e6f0d71e84fc6b642f1f/211-323; #=GS A0A0W0RRT6/211-323 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella birminghamensis; #=GS A0A0F2IAY4/217-329 AC A0A0F2IAY4 #=GS A0A0F2IAY4/217-329 OS Vibrio sp. S234-5 #=GS A0A0F2IAY4/217-329 DE DNA mismatch repair protein MutL #=GS A0A0F2IAY4/217-329 DR GENE3D; 4052efd759a0c6bb3c4e910b4d8b2c37/217-329; #=GS A0A0F2IAY4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. S234-5; #=GS A0A127JZ49/219-331 AC A0A127JZ49 #=GS A0A127JZ49/219-331 OS Ramlibacter tataouinensis #=GS A0A127JZ49/219-331 DE DNA mismatch repair protein MutL #=GS A0A127JZ49/219-331 DR GENE3D; 40bb546fb90077c37acd19901e95748a/219-331; #=GS A0A127JZ49/219-331 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Ramlibacter; Ramlibacter tataouinensis; #=GS D2TWX9/191-302 AC D2TWX9 #=GS D2TWX9/191-302 OS Arsenophonus nasoniae #=GS D2TWX9/191-302 DE DNA mismatch repair protein MutL #=GS D2TWX9/191-302 DR GENE3D; 40be5956e2c75857b544dda7613f6aaa/191-302; #=GS D2TWX9/191-302 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Arsenophonus; Arsenophonus nasoniae; #=GS F4N2F6/44-156 AC F4N2F6 #=GS F4N2F6/44-156 OS Yersinia enterocolitica W22703 #=GS F4N2F6/44-156 DE Putative uncharacterized protein #=GS F4N2F6/44-156 DR GENE3D; 40f7e7f84ae8e36a39ba3973e776a227/44-156; #=GS F4N2F6/44-156 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia enterocolitica; #=GS A3STM8/233-345 AC A3STM8 #=GS A3STM8/233-345 OS Sulfitobacter sp. NAS-14.1 #=GS A3STM8/233-345 DE DNA mismatch repair protein MutL #=GS A3STM8/233-345 DR GENE3D; 410d715148a20b4e5c880ec72d5a5814/233-345; #=GS A3STM8/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Sulfitobacter; Sulfitobacter sp. NAS-14.1; #=GS A0A011P4J3/237-349 AC A0A011P4J3 #=GS A0A011P4J3/237-349 OS Candidatus Accumulibacter sp. BA-92 #=GS A0A011P4J3/237-349 DE DNA mismatch repair protein MutL #=GS A0A011P4J3/237-349 DR GENE3D; 41415b6814f69dfb35a5c1956b4fff58/237-349; #=GS A0A011P4J3/237-349 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Candidatus Accumulibacter; Candidatus Accumulibacter sp. BA-92; #=GS A0A1A9RYG8/213-325 AC A0A1A9RYG8 #=GS A0A1A9RYG8/213-325 OS Eikenella sp. NML02-A-017 #=GS A0A1A9RYG8/213-325 DE DNA mismatch repair protein MutL #=GS A0A1A9RYG8/213-325 DR GENE3D; 4153b0cd155c31878770ce545733854a/213-325; #=GS A0A1A9RYG8/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Eikenella; Eikenella sp. NML02-A-017; #=GS A0A1N7LE02/225-336 AC A0A1N7LE02 #=GS A0A1N7LE02/225-336 OS Paracoccus saliphilus #=GS A0A1N7LE02/225-336 DE DNA mismatch repair protein MutL #=GS A0A1N7LE02/225-336 DR GENE3D; 417201897354d36659b52f9a44c9e198/225-336; #=GS A0A1N7LE02/225-336 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus saliphilus; #=GS A0A1M6K893/233-345 AC A0A1M6K893 #=GS A0A1M6K893/233-345 OS Maribius salinus #=GS A0A1M6K893/233-345 DE DNA mismatch repair protein MutL #=GS A0A1M6K893/233-345 DR GENE3D; 41a71f549b0378482f07e03548ae4a62/233-345; #=GS A0A1M6K893/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Maribius; Maribius salinus; #=GS W8IF52/212-324 AC W8IF52 #=GS W8IF52/212-324 OS Ensifer adhaerens OV14 #=GS W8IF52/212-324 DE DNA mismatch repair protein MutL #=GS W8IF52/212-324 DR GENE3D; 41dc4c12b7549c8af1f8ce6b5ec07944/212-324; #=GS W8IF52/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Ensifer; Ensifer adhaerens; #=GS A0A0Q7R5P7/212-324 AC A0A0Q7R5P7 #=GS A0A0Q7R5P7/212-324 OS Ensifer sp. Root142 #=GS A0A0Q7R5P7/212-324 DE DNA mismatch repair protein MutL #=GS A0A0Q7R5P7/212-324 DR GENE3D; 41dc4c12b7549c8af1f8ce6b5ec07944/212-324; #=GS A0A0Q7R5P7/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Ensifer; Ensifer sp. Root142; #=GS A0A0E3ULR2/214-326 AC A0A0E3ULR2 #=GS A0A0E3ULR2/214-326 OS Pseudoxanthomonas suwonensis #=GS A0A0E3ULR2/214-326 DE DNA mismatch repair protein MutL #=GS A0A0E3ULR2/214-326 DR GENE3D; 41f48e2493a4e44b8b7a104454932b8b/214-326; #=GS A0A0E3ULR2/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Pseudoxanthomonas; Pseudoxanthomonas suwonensis; #=GS A0A1B7UNR0/217-329 AC A0A1B7UNR0 #=GS A0A1B7UNR0/217-329 OS Rheinheimera sp. SA_1 #=GS A0A1B7UNR0/217-329 DE DNA mismatch repair protein MutL #=GS A0A1B7UNR0/217-329 DR GENE3D; 421ad54a6b5df7cde8fbc1fc299ae119/217-329; #=GS A0A1B7UNR0/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Rheinheimera; Rheinheimera sp. SA_1; #=GS A0A1G0GRA1/216-328 AC A0A1G0GRA1 #=GS A0A1G0GRA1/216-328 OS Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_38_14 #=GS A0A1G0GRA1/216-328 DE DNA mismatch repair protein MutL #=GS A0A1G0GRA1/216-328 DR GENE3D; 42dcd451315997fe7257b2c2cfc53102/216-328; #=GS A0A1G0GRA1/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_38_14; #=GS A0A1M3GY59/213-324 AC A0A1M3GY59 #=GS A0A1M3GY59/213-324 OS Alphaproteobacteria bacterium 41-28 #=GS A0A1M3GY59/213-324 DE DNA mismatch repair protein MutL #=GS A0A1M3GY59/213-324 DR GENE3D; 4308ea0a295506b9e879e9ed92e87072/213-324; #=GS A0A1M3GY59/213-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Alphaproteobacteria bacterium 41-28; #=GS A0A109BAC1/216-328 AC A0A109BAC1 #=GS A0A109BAC1/216-328 OS Hyphomicrobium sulfonivorans #=GS A0A109BAC1/216-328 DE DNA mismatch repair protein MutL #=GS A0A109BAC1/216-328 DR GENE3D; 43230782b223fbe703d8d3fa6fd3569a/216-328; #=GS A0A109BAC1/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Hyphomicrobium; Hyphomicrobium sulfonivorans; #=GS A0A1D2RWX8/216-328 AC A0A1D2RWX8 #=GS A0A1D2RWX8/216-328 OS Arenimonas sp. SCN 70-307 #=GS A0A1D2RWX8/216-328 DE DNA mismatch repair protein MutL #=GS A0A1D2RWX8/216-328 DR GENE3D; 435965476e5f8b262fb499a52008445a/216-328; #=GS A0A1D2RWX8/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Arenimonas; Arenimonas sp. SCN 70-307; #=GS A0A098G020/215-327 AC A0A098G020 #=GS A0A098G020/215-327 OS Legionella fallonii LLAP-10 #=GS A0A098G020/215-327 DE DNA mismatch repair protein MutL #=GS A0A098G020/215-327 DR GENE3D; 4381d9380bf282d53fa9babd55d7c2c0/215-327; #=GS A0A098G020/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella fallonii; #=GS A0A1H6BWC5/247-350 AC A0A1H6BWC5 #=GS A0A1H6BWC5/247-350 OS Bryocella elongata #=GS A0A1H6BWC5/247-350 DE DNA mismatch repair protein MutL #=GS A0A1H6BWC5/247-350 DR GENE3D; 438e404deef5a1cd71a7efe2a92ac168/247-350; #=GS A0A1H6BWC5/247-350 DR ORG; Bacteria; Acidobacteria; Acidobacteriia; Acidobacteriales; Acidobacteriaceae; Bryocella; Bryocella elongata; #=GS Q1QIP3/216-328 AC Q1QIP3 #=GS Q1QIP3/216-328 OS Nitrobacter hamburgensis X14 #=GS Q1QIP3/216-328 DE DNA mismatch repair protein MutL #=GS Q1QIP3/216-328 DR GENE3D; 43d41a25278814134a8da29740450573/216-328; #=GS Q1QIP3/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Nitrobacter; Nitrobacter hamburgensis; #=GS A0A1E4G0A1/215-327 AC A0A1E4G0A1 #=GS A0A1E4G0A1/215-327 OS Pelagibacterium sp. SCN 64-44 #=GS A0A1E4G0A1/215-327 DE DNA mismatch repair protein MutL #=GS A0A1E4G0A1/215-327 DR GENE3D; 43daf806544134b4321be8d7fe87f839/215-327; #=GS A0A1E4G0A1/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Pelagibacterium; Pelagibacterium sp. SCN 64-44; #=GS A0A1E4HDD8/217-329 AC A0A1E4HDD8 #=GS A0A1E4HDD8/217-329 OS Rhodanobacter sp. SCN 67-45 #=GS A0A1E4HDD8/217-329 DE DNA mismatch repair protein MutL #=GS A0A1E4HDD8/217-329 DR GENE3D; 43e44193520d54b6b5a08d023ae27e9b/217-329; #=GS A0A1E4HDD8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Rhodanobacter; Rhodanobacter sp. SCN 67-45; #=GS I0HP78/216-328 AC I0HP78 #=GS I0HP78/216-328 OS Rubrivivax gelatinosus IL144 #=GS I0HP78/216-328 DE DNA mismatch repair protein MutL #=GS I0HP78/216-328 DR GENE3D; 43e4438665bbcea457b24162db095abe/216-328; #=GS I0HP78/216-328 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Rubrivivax; Rubrivivax gelatinosus; #=GS A0A160N0T3/215-327 AC A0A160N0T3 #=GS A0A160N0T3/215-327 OS Dyella thiooxydans #=GS A0A160N0T3/215-327 DE DNA mismatch repair protein MutL #=GS A0A160N0T3/215-327 DR GENE3D; 43ef8a677a2364d9a096312c9a597538/215-327; #=GS A0A160N0T3/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Dyella; Dyella thiooxydans; #=GS A0A1E4AYB2/224-339 AC A0A1E4AYB2 #=GS A0A1E4AYB2/224-339 OS Erythrobacter sp. SCN 62-14 #=GS A0A1E4AYB2/224-339 DE DNA mismatch repair protein MutL #=GS A0A1E4AYB2/224-339 DR GENE3D; 4439b2177a38497de811fd55d8f2c92c/224-339; #=GS A0A1E4AYB2/224-339 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. SCN 62-14; #=GS A0A0K6H3X9/213-325 AC A0A0K6H3X9 #=GS A0A0K6H3X9/213-325 OS Gulbenkiania indica #=GS A0A0K6H3X9/213-325 DE DNA mismatch repair protein MutL #=GS A0A0K6H3X9/213-325 DR GENE3D; 448bf3f9b926e696f4ee82e31477eebe/213-325; #=GS A0A0K6H3X9/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Chromobacteriaceae; Gulbenkiania; Gulbenkiania indica; #=GS A0A0M2KBE6/217-329 AC A0A0M2KBE6 #=GS A0A0M2KBE6/217-329 OS Erwinia tracheiphila #=GS A0A0M2KBE6/217-329 DE DNA mismatch repair protein MutL #=GS A0A0M2KBE6/217-329 DR GENE3D; 44911e70edcfa6b2d81ac523e7277138/217-329; #=GS A0A0M2KBE6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Erwinia; Erwinia tracheiphila; #=GS E8V4Q0/248-350 AC E8V4Q0 #=GS E8V4Q0/248-350 OS Terriglobus saanensis SP1PR4 #=GS E8V4Q0/248-350 DE DNA mismatch repair protein MutL #=GS E8V4Q0/248-350 DR GENE3D; 44a3e07903807ca77d91b5914f6f849d/248-350; #=GS E8V4Q0/248-350 DR ORG; Bacteria; Acidobacteria; Acidobacteriia; Acidobacteriales; Acidobacteriaceae; Terriglobus; Terriglobus saanensis; #=GS A0A142LFH7/225-337 AC A0A142LFH7 #=GS A0A142LFH7/225-337 OS Hyphomonadaceae bacterium UKL13-1 #=GS A0A142LFH7/225-337 DE DNA mismatch repair protein MutL #=GS A0A142LFH7/225-337 DR GENE3D; 44ca35a1bb8b21aa070e4a120ec03975/225-337; #=GS A0A142LFH7/225-337 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonadaceae bacterium UKL13-1; #=GS C3KDW1/221-333 AC C3KDW1 #=GS C3KDW1/221-333 OS Pseudomonas fluorescens SBW25 #=GS C3KDW1/221-333 DE DNA mismatch repair protein MutL #=GS C3KDW1/221-333 DR GENE3D; 44daeed4ce1c8be86fc3de9fdb8fdf66/221-333; #=GS C3KDW1/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; #=GS A0A0K0TRP6/215-327 AC A0A0K0TRP6 #=GS A0A0K0TRP6/215-327 OS Devosia sp. H5989 #=GS A0A0K0TRP6/215-327 DE DNA mismatch repair protein MutL #=GS A0A0K0TRP6/215-327 DR GENE3D; 44fa4b98c23eb5186f3d4e734c588c8a/215-327; #=GS A0A0K0TRP6/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. H5989; #=GS A0A1G0JPM7/220-332 AC A0A1G0JPM7 #=GS A0A1G0JPM7/220-332 OS Gammaproteobacteria bacterium RIFCSPLOWO2_02_FULL_56_15 #=GS A0A1G0JPM7/220-332 DE DNA mismatch repair protein MutL #=GS A0A1G0JPM7/220-332 DR GENE3D; 4512097d94aeebdf34979f08c8350c92/220-332; #=GS A0A1G0JPM7/220-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPLOWO2_02_FULL_56_15; #=GS A0A0U4GPY8/217-329 AC A0A0U4GPY8 #=GS A0A0U4GPY8/217-329 OS Rheinheimera sp. F8 #=GS A0A0U4GPY8/217-329 DE DNA mismatch repair protein MutL #=GS A0A0U4GPY8/217-329 DR GENE3D; 453263f5ace1a8213e0c32722686167c/217-329; #=GS A0A0U4GPY8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Rheinheimera; Rheinheimera sp. F8; #=GS C6CIZ3/217-329 AC C6CIZ3 #=GS C6CIZ3/217-329 OS Dickeya chrysanthemi Ech1591 #=GS C6CIZ3/217-329 DE DNA mismatch repair protein MutL #=GS C6CIZ3/217-329 DR GENE3D; 453a8ae6634f5a5f2c670ea4a7c16ac1/217-329; #=GS C6CIZ3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Dickeya; Dickeya chrysanthemi; #=GS A0A0B1Q5Q6/211-323 AC A0A0B1Q5Q6 #=GS A0A0B1Q5Q6/211-323 OS Aureimonas altamirensis #=GS A0A0B1Q5Q6/211-323 DE DNA mismatch repair protein MutL #=GS A0A0B1Q5Q6/211-323 DR GENE3D; 456c768a6247962ca8d1c48cdc9e7449/211-323; #=GS A0A0B1Q5Q6/211-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Aureimonas; Aureimonas altamirensis; #=GS A0A0Q9JHV4/216-328 AC A0A0Q9JHV4 #=GS A0A0Q9JHV4/216-328 OS Bosea sp. Root483D1 #=GS A0A0Q9JHV4/216-328 DE DNA mismatch repair protein MutL #=GS A0A0Q9JHV4/216-328 DR GENE3D; 4591ce5a9928267e8d89a39788e009ed/216-328; #=GS A0A0Q9JHV4/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. Root483D1; #=GS A0A1A6L1P7/218-330 AC A0A1A6L1P7 #=GS A0A1A6L1P7/218-330 OS Vibrio sp. UCD-FRSSP16_10 #=GS A0A1A6L1P7/218-330 DE DNA mismatch repair protein MutL #=GS A0A1A6L1P7/218-330 DR GENE3D; 45a969e2014e470c2ab440b044a23928/218-330; #=GS A0A1A6L1P7/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. UCD-FRSSP16_10; #=GS A0A1E4CN39/216-328 AC A0A1E4CN39 #=GS A0A1E4CN39/216-328 OS Hyphomicrobium sp. SCN 65-11 #=GS A0A1E4CN39/216-328 DE DNA mismatch repair protein MutL #=GS A0A1E4CN39/216-328 DR GENE3D; 45c0f626db449ee97dd829e1e8d0f4d5/216-328; #=GS A0A1E4CN39/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Hyphomicrobium; Hyphomicrobium sp. SCN 65-11; #=GS A0A0J7Y1S6/212-323 AC A0A0J7Y1S6 #=GS A0A0J7Y1S6/212-323 OS Sphingobium czechense LL01 #=GS A0A0J7Y1S6/212-323 DE DNA mismatch repair protein MutL #=GS A0A0J7Y1S6/212-323 DR GENE3D; 45c50f62d05f48491942a01496a87071/212-323; #=GS A0A0J7Y1S6/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium czechense; #=GS V9VNQ2/234-346 AC V9VNQ2 #=GS V9VNQ2/234-346 OS Leisingera methylohalidivorans DSM 14336 #=GS V9VNQ2/234-346 DE DNA mismatch repair protein MutL #=GS V9VNQ2/234-346 DR GENE3D; 45d0f2046c6512e2433dbe689f793125/234-346; #=GS V9VNQ2/234-346 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Leisingera; Leisingera methylohalidivorans; #=GS A5EXM6/211-323 AC A5EXM6 #=GS A5EXM6/211-323 OS Dichelobacter nodosus VCS1703A #=GS A5EXM6/211-323 DE DNA mismatch repair protein MutL #=GS A5EXM6/211-323 DR GENE3D; 4606674a1d667683ea36220427facb95/211-323; #=GS A5EXM6/211-323 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cardiobacteriales; Cardiobacteriaceae; Dichelobacter; Dichelobacter nodosus; #=GS A0A091B9S8/216-328 AC A0A091B9S8 #=GS A0A091B9S8/216-328 OS Arenimonas metalli CF5-1 #=GS A0A091B9S8/216-328 DE DNA mismatch repair protein MutL #=GS A0A091B9S8/216-328 DR GENE3D; 460913cf0f103aca731ff08895189848/216-328; #=GS A0A091B9S8/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Arenimonas; Arenimonas metalli; #=GS A0A128FE62/217-329 AC A0A128FE62 #=GS A0A128FE62/217-329 OS Grimontia marina #=GS A0A128FE62/217-329 DE DNA mismatch repair protein MutL #=GS A0A128FE62/217-329 DR GENE3D; 461aa575b1917446a83a9e1a823cee3a/217-329; #=GS A0A128FE62/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Grimontia; Grimontia marina; #=GS A0A0W0ZQS3/217-329 AC A0A0W0ZQS3 #=GS A0A0W0ZQS3/217-329 OS Legionella tucsonensis #=GS A0A0W0ZQS3/217-329 DE DNA mismatch repair protein MutL #=GS A0A0W0ZQS3/217-329 DR GENE3D; 4621303f13ee920aa7cd088442abae9d/217-329; #=GS A0A0W0ZQS3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella tucsonensis; #=GS A0A0G3EUI8/223-335 AC A0A0G3EUI8 #=GS A0A0G3EUI8/223-335 OS Pandoraea thiooxydans #=GS A0A0G3EUI8/223-335 DE DNA mismatch repair protein MutL #=GS A0A0G3EUI8/223-335 DR GENE3D; 4622093eaba79f270e93230a66ea38d3/223-335; #=GS A0A0G3EUI8/223-335 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Pandoraea; Pandoraea thiooxydans; #=GS R6JRY4/217-329 AC R6JRY4 #=GS R6JRY4/217-329 OS Azospirillum sp. CAG:239 #=GS R6JRY4/217-329 DE DNA mismatch repair protein MutL #=GS R6JRY4/217-329 DR GENE3D; 4662735d6df2351e06b2adc224eea993/217-329; #=GS R6JRY4/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Azospirillum; Azospirillum sp. CAG:239; #=GS A0A1J4YU95/213-325 AC A0A1J4YU95 #=GS A0A1J4YU95/213-325 OS Hydrogenophilaceae bacterium CG1_02_62_390 #=GS A0A1J4YU95/213-325 DE DNA mismatch repair protein MutL #=GS A0A1J4YU95/213-325 DR GENE3D; 46e9b973a19b081ad92d51ae3db2adf7/213-325; #=GS A0A1J4YU95/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Hydrogenophilales; Hydrogenophilaceae; Hydrogenophilaceae bacterium CG1_02_62_390; #=GS A0A1B8HL48/217-329 AC A0A1B8HL48 #=GS A0A1B8HL48/217-329 OS Morganella psychrotolerans #=GS A0A1B8HL48/217-329 DE DNA mismatch repair protein MutL #=GS A0A1B8HL48/217-329 DR GENE3D; 46ee5060b75c9a0faf253ccc9a8742f2/217-329; #=GS A0A1B8HL48/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Morganella; Morganella psychrotolerans; #=GS A0A1A6IUE2/217-328 AC A0A1A6IUE2 #=GS A0A1A6IUE2/217-328 OS Vibrio tasmaniensis #=GS A0A1A6IUE2/217-328 DE DNA mismatch repair protein MutL #=GS A0A1A6IUE2/217-328 DR GENE3D; 470f57adcd1e8777acce0e0ac0f96323/217-328; #=GS A0A1A6IUE2/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio tasmaniensis; #=GS A0A1M5XAE8/217-328 AC A0A1M5XAE8 #=GS A0A1M5XAE8/217-328 OS Ferrimonas marina #=GS A0A1M5XAE8/217-328 DE DNA mismatch repair protein MutL #=GS A0A1M5XAE8/217-328 DR GENE3D; 474a3f53ca734f4fee665d88298a7933/217-328; #=GS A0A1M5XAE8/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Ferrimonadaceae; Ferrimonas; Ferrimonas marina; #=GS A0A1G0BWP0/227-339 AC A0A1G0BWP0 #=GS A0A1G0BWP0/227-339 OS Gallionellales bacterium GWA2_55_18 #=GS A0A1G0BWP0/227-339 DE DNA mismatch repair protein MutL #=GS A0A1G0BWP0/227-339 DR GENE3D; 475ac873bfe278ea10848edcdf137dac/227-339; #=GS A0A1G0BWP0/227-339 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Gallionellales; Gallionellales bacterium GWA2_55_18; #=GS B7VI53/217-328 AC B7VI53 #=GS B7VI53/217-328 OS Vibrio tasmaniensis LGP32 #=GS B7VI53/217-328 DE DNA mismatch repair protein MutL #=GS B7VI53/217-328 DR GENE3D; 47855f8f63f8c930d692ad2c7d3848cb/217-328; #=GS B7VI53/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio tasmaniensis; #=GS A0A0Q8QJ81/212-323 AC A0A0Q8QJ81 #=GS A0A0Q8QJ81/212-323 OS Sphingomonas sp. Root710 #=GS A0A0Q8QJ81/212-323 DE DNA mismatch repair protein MutL #=GS A0A0Q8QJ81/212-323 DR GENE3D; 4790ca0941707f9b1bdd544ff083f16b/212-323; #=GS A0A0Q8QJ81/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Root710; #=GS K9E134/227-338 AC K9E134 #=GS K9E134/227-338 OS Massilia timonae CCUG 45783 #=GS K9E134/227-338 DE DNA mismatch repair protein MutL #=GS K9E134/227-338 DR GENE3D; 47cca1712c082f82c7fd3fca845aa45b/227-338; #=GS K9E134/227-338 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Massilia; Massilia timonae; #=GS A0A1J5RZP4/212-324 AC A0A1J5RZP4 #=GS A0A1J5RZP4/212-324 OS mine drainage metagenome #=GS A0A1J5RZP4/212-324 DE DNA mismatch repair protein MutL #=GS A0A1J5RZP4/212-324 DR GENE3D; 4805c19fd0e9d81c882138faeae69a6e/212-324; #=GS A0A1J5RZP4/212-324 DR ORG; mine drainage metagenome; #=GS A0A0S8FDA8/206-301 AC A0A0S8FDA8 #=GS A0A0S8FDA8/206-301 OS Gammaproteobacteria bacterium SG8_31 #=GS A0A0S8FDA8/206-301 DE DNA mismatch repair protein #=GS A0A0S8FDA8/206-301 DR GENE3D; 4863324d8717400c5f4f835db3fc3141/206-301; #=GS A0A0S8FDA8/206-301 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium SG8_31; #=GS K0PKZ4/212-324 AC K0PKZ4 #=GS K0PKZ4/212-324 OS Rhizobium mesoamericanum STM3625 #=GS K0PKZ4/212-324 DE DNA mismatch repair protein MutL #=GS K0PKZ4/212-324 DR GENE3D; 4890091f9e157994528da212af99e04c/212-324; #=GS K0PKZ4/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium mesoamericanum; #=GS F3GJ75/78-190 AC F3GJ75 #=GS F3GJ75/78-190 OS Pseudomonas syringae pv. pisi str. 1704B #=GS F3GJ75/78-190 DE DNA mismatch repair protein #=GS F3GJ75/78-190 DR GENE3D; 48b91056721759dda9e6bbac5e027356/78-190; #=GS F3GJ75/78-190 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; #=GS A0A085GKS0/217-330 AC A0A085GKS0 #=GS A0A085GKS0/217-330 OS Buttiauxella agrestis ATCC 33320 #=GS A0A085GKS0/217-330 DE DNA mismatch repair protein MutL #=GS A0A085GKS0/217-330 DR GENE3D; 48c7f7228b5cc47f4a8d349cfbae75c4/217-330; #=GS A0A085GKS0/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Buttiauxella; Buttiauxella agrestis; #=GS A0A157S8Q6/213-325 AC A0A157S8Q6 #=GS A0A157S8Q6/213-325 OS Bordetella trematum #=GS A0A157S8Q6/213-325 DE DNA mismatch repair protein MutL #=GS A0A157S8Q6/213-325 DR GENE3D; 48ea93ee7724fd2c29da8aa70f49b8ce/213-325; #=GS A0A157S8Q6/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Bordetella; Bordetella trematum; #=GS A0A0F2RMY4/232-343 AC A0A0F2RMY4 #=GS A0A0F2RMY4/232-343 OS Hyphomonas sp. BRH_c22 #=GS A0A0F2RMY4/232-343 DE DNA mismatch repair protein MutL #=GS A0A0F2RMY4/232-343 DR GENE3D; 48f9259526264391aa7230d04d5265d6/232-343; #=GS A0A0F2RMY4/232-343 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas sp. BRH_c22; #=GS C4GK64/213-325 AC C4GK64 #=GS C4GK64/213-325 OS Kingella oralis ATCC 51147 #=GS C4GK64/213-325 DE DNA mismatch repair protein MutL #=GS C4GK64/213-325 DR GENE3D; 490127d11d37c7b42b439cb71ab6e7c9/213-325; #=GS C4GK64/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Kingella; Kingella oralis; #=GS A0A172YPH6/225-337 AC A0A172YPH6 #=GS A0A172YPH6/225-337 OS Acinetobacter sp. NCu2D-2 #=GS A0A172YPH6/225-337 DE DNA mismatch repair protein MutL #=GS A0A172YPH6/225-337 DR GENE3D; 490d010516d120c3866c261d5959da5a/225-337; #=GS A0A172YPH6/225-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter sp. NCu2D-2; #=GS E8RUC5/224-336 AC E8RUC5 #=GS E8RUC5/224-336 OS Asticcacaulis excentricus CB 48 #=GS E8RUC5/224-336 DE DNA mismatch repair protein MutL #=GS E8RUC5/224-336 DR GENE3D; 492271f22f738600af83ed7ade8f93d7/224-336; #=GS E8RUC5/224-336 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis excentricus; #=GS A0A1C9BH52/233-345 AC A0A1C9BH52 #=GS A0A1C9BH52/233-345 OS Cobetia marina #=GS A0A1C9BH52/233-345 DE DNA mismatch repair protein MutL #=GS A0A1C9BH52/233-345 DR GENE3D; 4926cc009a9048d380cac4b64ed1f93e/233-345; #=GS A0A1C9BH52/233-345 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Cobetia; Cobetia marina; #=GS A0A1E4KAF4/217-329 AC A0A1E4KAF4 #=GS A0A1E4KAF4/217-329 OS Xanthomonadaceae bacterium SCN 69-320 #=GS A0A1E4KAF4/217-329 DE DNA mismatch repair protein MutL #=GS A0A1E4KAF4/217-329 DR GENE3D; 492c737c6dee61dc2afe3851b440c322/217-329; #=GS A0A1E4KAF4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonadaceae bacterium SCN 69-320; #=GS A0A1N7P8E6/218-332 AC A0A1N7P8E6 #=GS A0A1N7P8E6/218-332 OS Neptunomonas antarctica #=GS A0A1N7P8E6/218-332 DE DNA mismatch repair protein MutL #=GS A0A1N7P8E6/218-332 DR GENE3D; 494cbe358c2ff3d194f5ceb094496137/218-332; #=GS A0A1N7P8E6/218-332 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Neptunomonas; Neptunomonas antarctica; #=GS Q6LM28/217-329 AC Q6LM28 #=GS Q6LM28/217-329 OS Photobacterium profundum SS9 #=GS Q6LM28/217-329 DE DNA mismatch repair protein MutL #=GS Q6LM28/217-329 DR GENE3D; 495f2371d584df5feb8d4b58a3c51a3a/217-329; #=GS Q6LM28/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium profundum; #=GS A0A0B1ZPV1/214-325 AC A0A0B1ZPV1 #=GS A0A0B1ZPV1/214-325 OS Novosphingobium malaysiense #=GS A0A0B1ZPV1/214-325 DE DNA mismatch repair protein MutL #=GS A0A0B1ZPV1/214-325 DR GENE3D; 498afb66abc13d0f28b4c288340beb72/214-325; #=GS A0A0B1ZPV1/214-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium malaysiense; #=GS A0A066TA07/213-319 AC A0A066TA07 #=GS A0A066TA07/213-319 OS Gilliamella apicola #=GS A0A066TA07/213-319 DE DNA mismatch repair protein MutL #=GS A0A066TA07/213-319 DR GENE3D; 4990a7e1a51133a7e21d43420ca0ff38/213-319; #=GS A0A066TA07/213-319 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; #=GS E8TIH3/215-327 AC E8TIH3 #=GS E8TIH3/215-327 OS Mesorhizobium ciceri biovar biserrulae WSM1271 #=GS E8TIH3/215-327 DE DNA mismatch repair protein MutL #=GS E8TIH3/215-327 DR GENE3D; 49a896f515cc8f581109b0d53c73c863/215-327; #=GS E8TIH3/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium ciceri; #=GS N9FLN0/225-336 AC N9FLN0 #=GS N9FLN0/225-336 OS Acinetobacter lwoffii NCTC 5866 = CIP 64.10 = NIPH 512 #=GS N9FLN0/225-336 DE DNA mismatch repair protein MutL #=GS N9FLN0/225-336 DR GENE3D; 49c8a7533510f7f2e394304670d729a3/225-336; #=GS N9FLN0/225-336 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter lwoffii; #=GS Q5GSP0/212-324 AC Q5GSP0 #=GS Q5GSP0/212-324 OS Wolbachia endosymbiont strain TRS of Brugia malayi #=GS Q5GSP0/212-324 DE DNA mismatch repair protein MutL #=GS Q5GSP0/212-324 DR GENE3D; 49d34280e8c58ac6031eb5b86e5d53b1/212-324; #=GS Q5GSP0/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Anaplasmataceae; Wolbachieae; Wolbachia; Wolbachia endosymbiont of Brugia malayi; #=GS A8TSG5/228-340 AC A8TSG5 #=GS A8TSG5/228-340 OS alpha proteobacterium BAL199 #=GS A8TSG5/228-340 DE DNA mismatch repair protein MutL #=GS A8TSG5/228-340 DR GENE3D; 4a1dffaba5411c0fa4c2c9042a09be8b/228-340; #=GS A8TSG5/228-340 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; alpha proteobacterium BAL199; #=GS A0A127CL41/212-324 AC A0A127CL41 #=GS A0A127CL41/212-324 OS Martelella sp. AD-3 #=GS A0A127CL41/212-324 DE DNA mismatch repair protein MutL #=GS A0A127CL41/212-324 DR GENE3D; 4a21c94efc851dbe0cb46f8883583adc/212-324; #=GS A0A127CL41/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Martelella; Martelella sp. AD-3; #=GS A0A1G2W0T0/223-335 AC A0A1G2W0T0 #=GS A0A1G2W0T0/223-335 OS Phenylobacterium sp. RIFCSPHIGHO2_01_FULL_69_31 #=GS A0A1G2W0T0/223-335 DE DNA mismatch repair protein MutL #=GS A0A1G2W0T0/223-335 DR GENE3D; 4a90fdf66cd9e5c8576ac6a54a1448e9/223-335; #=GS A0A1G2W0T0/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium sp. RIFCSPHIGHO2_01_FULL_69_31; #=GS A0A0Q6BCD5/213-324 AC A0A0Q6BCD5 #=GS A0A0Q6BCD5/213-324 OS Methylophilus sp. Leaf416 #=GS A0A0Q6BCD5/213-324 DE DNA mismatch repair protein MutL #=GS A0A0Q6BCD5/213-324 DR GENE3D; 4a971cae59c4db31801c407022c7fe11/213-324; #=GS A0A0Q6BCD5/213-324 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Methylophilales; Methylophilaceae; Methylophilus; Methylophilus sp. Leaf416; #=GS A0A0Q8BIJ9/215-327 AC A0A0Q8BIJ9 #=GS A0A0Q8BIJ9/215-327 OS Mesorhizobium sp. Root157 #=GS A0A0Q8BIJ9/215-327 DE DNA mismatch repair protein MutL #=GS A0A0Q8BIJ9/215-327 DR GENE3D; 4abbd1b19bd3157b79b5bf58b0f17f25/215-327; #=GS A0A0Q8BIJ9/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. Root157; #=GS Q7PA98/217-329 AC Q7PA98 #=GS Q7PA98/217-329 OS Rickettsia sibirica 246 #=GS Q7PA98/217-329 DE DNA mismatch repair protein MutL #=GS Q7PA98/217-329 DR GENE3D; 4ae359d71f381dcf8e224647e857417a/217-329; #=GS Q7PA98/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Rickettsiaceae; Rickettsieae; Rickettsia; spotted fever group; Rickettsia sibirica subgroup; Rickettsia sibirica; #=GS A0A0L7MDR9/241-353 AC A0A0L7MDR9 #=GS A0A0L7MDR9/241-353 OS Comamonas testosteroni #=GS A0A0L7MDR9/241-353 DE DNA mismatch repair protein MutL #=GS A0A0L7MDR9/241-353 DR GENE3D; 4b1b6cf81d22ce9274d9d876a7752efd/241-353; #=GS A0A0L7MDR9/241-353 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas testosteroni; #=GS A0A0S2EM62/210-322 AC A0A0S2EM62 #=GS A0A0S2EM62/210-322 OS Aureimonas sp. AU20 #=GS A0A0S2EM62/210-322 DE DNA mismatch repair protein MutL #=GS A0A0S2EM62/210-322 DR GENE3D; 4b51e9e10f48322b295e2c99a46ad05d/210-322; #=GS A0A0S2EM62/210-322 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Aureimonas; Aureimonas sp. AU20; #=GS A0A176F5D2/233-345 AC A0A176F5D2 #=GS A0A176F5D2/233-345 OS Roseovarius sp. HI0049 #=GS A0A176F5D2/233-345 DE DNA mismatch repair protein MutL #=GS A0A176F5D2/233-345 DR GENE3D; 4b604dda0be68e689cb69bf5a7652217/233-345; #=GS A0A176F5D2/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseovarius; Roseovarius sp. HI0049; #=GS I4AGJ1/214-326 AC I4AGJ1 #=GS I4AGJ1/214-326 OS Bernardetia litoralis DSM 6794 #=GS I4AGJ1/214-326 DE DNA mismatch repair protein MutL #=GS I4AGJ1/214-326 DR GENE3D; 4b612fc732f9bf03bb5f17672a1ae4f8/214-326; #=GS I4AGJ1/214-326 DR ORG; Bacteria; Bacteroidetes; Cytophagia; Cytophagales; Bernardetiaceae; Bernardetia; Bernardetia litoralis; #=GS D8KAV8/218-330 AC D8KAV8 #=GS D8KAV8/218-330 OS Nitrosococcus watsonii C-113 #=GS D8KAV8/218-330 DE DNA mismatch repair protein MutL #=GS D8KAV8/218-330 DR GENE3D; 4b64c888bc252450cd7886161af1f2bb/218-330; #=GS D8KAV8/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Nitrosococcus; Nitrosococcus watsonii; #=GS A0A1B2QZX2/213-325 AC A0A1B2QZX2 #=GS A0A1B2QZX2/213-325 OS Bordetella sp. H567 #=GS A0A1B2QZX2/213-325 DE DNA mismatch repair protein MutL #=GS A0A1B2QZX2/213-325 DR GENE3D; 4b84152e51124732993b2249299e3309/213-325; #=GS A0A1B2QZX2/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Bordetella; Bordetella sp. H567; #=GS A0A1G3HDX2/210-322 AC A0A1G3HDX2 #=GS A0A1G3HDX2/210-322 OS Rhodocyclales bacterium GWA2_65_20 #=GS A0A1G3HDX2/210-322 DE DNA mismatch repair protein MutL #=GS A0A1G3HDX2/210-322 DR GENE3D; 4bb72091c1b0b717c37e351ebcbfd1e1/210-322; #=GS A0A1G3HDX2/210-322 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclales bacterium GWA2_65_20; #=GS A0A1F8VC00/235-353 AC A0A1F8VC00 #=GS A0A1F8VC00/235-353 OS Curvibacter sp. GWA2_63_95 #=GS A0A1F8VC00/235-353 DE DNA mismatch repair protein MutL #=GS A0A1F8VC00/235-353 DR GENE3D; 4bcfaa24980360109687fb0641b5daef/235-353; #=GS A0A1F8VC00/235-353 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Curvibacter; Curvibacter sp. GWA2_63_95; #=GS A1WUT8/219-331 AC A1WUT8 #=GS A1WUT8/219-331 OS Halorhodospira halophila SL1 #=GS A1WUT8/219-331 DE DNA mismatch repair protein MutL #=GS A1WUT8/219-331 DR GENE3D; 4bd07a9bec1528e33d3060dd365fdfe1/219-331; #=GS A1WUT8/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Halorhodospira; Halorhodospira halophila; #=GS G7LW24/217-329 AC G7LW24 #=GS G7LW24/217-329 OS Brenneria sp. EniD312 #=GS G7LW24/217-329 DE DNA mismatch repair protein MutL #=GS G7LW24/217-329 DR GENE3D; 4bd31d1fbd7e7c058c1a580b4135b02e/217-329; #=GS G7LW24/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Brenneria; Brenneria sp. EniD312; #=GS A0A1D2S8Y3/234-346 AC A0A1D2S8Y3 #=GS A0A1D2S8Y3/234-346 OS Comamonas sp. SCN 65-56 #=GS A0A1D2S8Y3/234-346 DE DNA mismatch repair protein MutL #=GS A0A1D2S8Y3/234-346 DR GENE3D; 4c4ed66ad438605b76530b9d9c4662bb/234-346; #=GS A0A1D2S8Y3/234-346 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas sp. SCN 65-56; #=GS A0A0H0ZWH3/215-327 AC A0A0H0ZWH3 #=GS A0A0H0ZWH3/215-327 OS Mesorhizobium sp. LC103 #=GS A0A0H0ZWH3/215-327 DE DNA mismatch repair protein MutL #=GS A0A0H0ZWH3/215-327 DR GENE3D; 4c53128dfd7664b118eaab30e5ee7bce/215-327; #=GS A0A0H0ZWH3/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LC103; #=GS Q5QW89/217-329 AC Q5QW89 #=GS Q5QW89/217-329 OS Idiomarina loihiensis L2TR #=GS Q5QW89/217-329 DE DNA mismatch repair protein MutL #=GS Q5QW89/217-329 DR GENE3D; 4c65acfba59646d1eb1712cfa70971a0/217-329; #=GS Q5QW89/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Idiomarinaceae; Idiomarina; Idiomarina loihiensis; #=GS Q0G3V1/213-325 AC Q0G3V1 #=GS Q0G3V1/213-325 OS Fulvimarina pelagi HTCC2506 #=GS Q0G3V1/213-325 DE DNA mismatch repair protein MutL #=GS Q0G3V1/213-325 DR GENE3D; 4c9febcb43ae9e3b703b45b8e487b320/213-325; #=GS Q0G3V1/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Fulvimarina; Fulvimarina pelagi; #=GS A1UU01/215-327 AC A1UU01 #=GS A1UU01/215-327 OS Bartonella bacilliformis KC583 #=GS A1UU01/215-327 DE DNA mismatch repair protein MutL #=GS A1UU01/215-327 DR GENE3D; 4cb620dd6e66d588582c25df1dbbd5a2/215-327; #=GS A1UU01/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella bacilliformis; #=GS A0A1E4UX51/221-333 AC A0A1E4UX51 #=GS A0A1E4UX51/221-333 OS Pseudomonas sp. 21C1 #=GS A0A1E4UX51/221-333 DE DNA mismatch repair protein MutL #=GS A0A1E4UX51/221-333 DR GENE3D; 4cd03ad6677a1148619daab7af98cc52/221-333; #=GS A0A1E4UX51/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 21C1; #=GS Q2SBC0/218-330 AC Q2SBC0 #=GS Q2SBC0/218-330 OS Hahella chejuensis KCTC 2396 #=GS Q2SBC0/218-330 DE DNA mismatch repair protein MutL #=GS Q2SBC0/218-330 DR GENE3D; 4ce04a29e100b2499420ab19d12ce4a1/218-330; #=GS Q2SBC0/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Hahellaceae; Hahella; Hahella chejuensis; #=GS A0A1I4TU94/215-326 AC A0A1I4TU94 #=GS A0A1I4TU94/215-326 OS Pleomorphomonas diazotrophica #=GS A0A1I4TU94/215-326 DE DNA mismatch repair protein MutL #=GS A0A1I4TU94/215-326 DR GENE3D; 4d058ae42ef20bc1c968182784f7094c/215-326; #=GS A0A1I4TU94/215-326 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylocystaceae; Pleomorphomonas; Pleomorphomonas diazotrophica; #=GS A0A165YCN8/215-326 AC A0A165YCN8 #=GS A0A165YCN8/215-326 OS Pseudovibrio axinellae #=GS A0A165YCN8/215-326 DE DNA mismatch repair protein MutL #=GS A0A165YCN8/215-326 DR GENE3D; 4d26d050bbf218a64e6eff30d6bac23b/215-326; #=GS A0A165YCN8/215-326 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Pseudovibrio; Pseudovibrio axinellae; #=GS A0A1M7EPB8/226-338 AC A0A1M7EPB8 #=GS A0A1M7EPB8/226-338 OS Halomonas cupida #=GS A0A1M7EPB8/226-338 DE DNA mismatch repair protein MutL #=GS A0A1M7EPB8/226-338 DR GENE3D; 4d2c72ae4ea831943f5c39d8c57b1c1c/226-338; #=GS A0A1M7EPB8/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas cupida; #=GS A0A1E4JDS2/212-323 AC A0A1E4JDS2 #=GS A0A1E4JDS2/212-323 OS Sphingomonas sp. SCN 67-18 #=GS A0A1E4JDS2/212-323 DE DNA mismatch repair protein MutL #=GS A0A1E4JDS2/212-323 DR GENE3D; 4d3860753e099f56799cc48796a3bd16/212-323; #=GS A0A1E4JDS2/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. SCN 67-18; #=GS Q0AS28/231-343 AC Q0AS28 #=GS Q0AS28/231-343 OS Maricaulis maris MCS10 #=GS Q0AS28/231-343 DE DNA mismatch repair protein MutL #=GS Q0AS28/231-343 DR GENE3D; 4d4bd9da6d05bd7b14ed35abb95ae563/231-343; #=GS Q0AS28/231-343 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Maricaulis; Maricaulis maris; #=GS A0A1B7HWP6/217-330 AC A0A1B7HWP6 #=GS A0A1B7HWP6/217-330 OS Buttiauxella gaviniae ATCC 51604 #=GS A0A1B7HWP6/217-330 DE DNA mismatch repair protein MutL #=GS A0A1B7HWP6/217-330 DR GENE3D; 4d7b6ec356090231eedfedf7cb2fbe8c/217-330; #=GS A0A1B7HWP6/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Buttiauxella; Buttiauxella gaviniae; #=GS L0DZK2/216-328 AC L0DZK2 #=GS L0DZK2/216-328 OS Thioalkalivibrio nitratireducens DSM 14787 #=GS L0DZK2/216-328 DE DNA mismatch repair protein MutL #=GS L0DZK2/216-328 DR GENE3D; 4da2ddbb9efad842129569e19aab9a65/216-328; #=GS L0DZK2/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thioalkalivibrio; Thioalkalivibrio nitratireducens; #=GS A0A127MEE5/212-323 AC A0A127MEE5 #=GS A0A127MEE5/212-323 OS Sphingorhabdus sp. M41 #=GS A0A127MEE5/212-323 DE DNA mismatch repair protein MutL #=GS A0A127MEE5/212-323 DR GENE3D; 4da5700f7a798aa7e3ce8eb65a83a63f/212-323; #=GS A0A127MEE5/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingorhabdus; Sphingorhabdus sp. M41; #=GS A0A1E7JDT8/215-326 AC A0A1E7JDT8 #=GS A0A1E7JDT8/215-326 OS Desulfobacterales bacterium S5133MH4 #=GS A0A1E7JDT8/215-326 DE DNA mismatch repair protein MutL #=GS A0A1E7JDT8/215-326 DR GENE3D; 4dda11a953949df35f383ecd1c0a0a88/215-326; #=GS A0A1E7JDT8/215-326 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfobacterales; Desulfobacterales bacterium S5133MH4; #=GS K1JSL0/221-332 AC K1JSL0 #=GS K1JSL0/221-332 OS Sutterella wadsworthensis 2_1_59BFAA #=GS K1JSL0/221-332 DE DNA mismatch repair protein MutL #=GS K1JSL0/221-332 DR GENE3D; 4de8c5b3096b2b33b64dffbbcc821320/221-332; #=GS K1JSL0/221-332 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Sutterellaceae; Sutterella; Sutterella wadsworthensis; #=GS A0A103E731/238-350 AC A0A103E731 #=GS A0A103E731/238-350 OS Burkholderia sp. TSV85 #=GS A0A103E731/238-350 DE DNA mismatch repair protein MutL #=GS A0A103E731/238-350 DR GENE3D; 4e314820501a8192ee0f80fbd545ee11/238-350; #=GS A0A103E731/238-350 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia sp. TSV85; #=GS W6M2H0/219-331 AC W6M2H0 #=GS W6M2H0/219-331 OS Candidatus Competibacter denitrificans Run_A_D11 #=GS W6M2H0/219-331 DE DNA mismatch repair protein MutL #=GS W6M2H0/219-331 DR GENE3D; 4e6dba27ef3bfbef7b58611b6d137480/219-331; #=GS W6M2H0/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Competibacteraceae; Candidatus Competibacter; Candidatus Competibacter denitrificans; #=GS A0A1A9FN39/215-327 AC A0A1A9FN39 #=GS A0A1A9FN39/215-327 OS Ochrobactrum pseudogrignonense #=GS A0A1A9FN39/215-327 DE DNA mismatch repair protein MutL #=GS A0A1A9FN39/215-327 DR GENE3D; 4e833bbbc5484693e963ef5c21593901/215-327; #=GS A0A1A9FN39/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Ochrobactrum; Ochrobactrum pseudogrignonense; #=GS A0A0N8K6I3/233-345 AC A0A0N8K6I3 #=GS A0A0N8K6I3/233-345 OS Rhodobacteraceae bacterium HLUCCA08 #=GS A0A0N8K6I3/233-345 DE DNA mismatch repair protein MutL #=GS A0A0N8K6I3/233-345 DR GENE3D; 4e87bc915c6d9a594fc1e492ccd83e9f/233-345; #=GS A0A0N8K6I3/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacteraceae bacterium HLUCCA08; #=GS A0A0P9C5V6/215-328 AC A0A0P9C5V6 #=GS A0A0P9C5V6/215-328 OS Thiohalorhabdus denitrificans #=GS A0A0P9C5V6/215-328 DE DNA mismatch repair protein MutL #=GS A0A0P9C5V6/215-328 DR GENE3D; 4eeac348e2908c0380397b9903fda279/215-328; #=GS A0A0P9C5V6/215-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiohalorhabdus; Thiohalorhabdus denitrificans; #=GS A0A1H0E2T8/230-342 AC A0A1H0E2T8 #=GS A0A1H0E2T8/230-342 OS Lutimaribacter pacificus #=GS A0A1H0E2T8/230-342 DE DNA mismatch repair protein MutL #=GS A0A1H0E2T8/230-342 DR GENE3D; 4f019d95ed86cdda42767bf03f0619bc/230-342; #=GS A0A1H0E2T8/230-342 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Lutimaribacter; Lutimaribacter pacificus; #=GS A0A0P7X9T6/221-333 AC A0A0P7X9T6 #=GS A0A0P7X9T6/221-333 OS Idiomarinaceae bacterium HL-53 #=GS A0A0P7X9T6/221-333 DE DNA mismatch repair protein MutL #=GS A0A0P7X9T6/221-333 DR GENE3D; 4f063a35ecc3f122ba392a768a6e2d35/221-333; #=GS A0A0P7X9T6/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Idiomarinaceae; Idiomarinaceae bacterium HL-53; #=GS A0A0F4NER4/217-329 AC A0A0F4NER4 #=GS A0A0F4NER4/217-329 OS Vibrio galatheae #=GS A0A0F4NER4/217-329 DE DNA mismatch repair protein MutL #=GS A0A0F4NER4/217-329 DR GENE3D; 4f2bc8a476ed329519cb2d146c45eb7b/217-329; #=GS A0A0F4NER4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio galatheae; #=GS A0A0G3G3X8/214-326 AC A0A0G3G3X8 #=GS A0A0G3G3X8/214-326 OS Thioalkalivibrio versutus #=GS A0A0G3G3X8/214-326 DE DNA mismatch repair protein MutL #=GS A0A0G3G3X8/214-326 DR GENE3D; 4f4ef0188dc9b9abbf8fe6f714ac5c49/214-326; #=GS A0A0G3G3X8/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thioalkalivibrio; Thioalkalivibrio versutus; #=GS A0A0F3KR80/213-325 AC A0A0F3KR80 #=GS A0A0F3KR80/213-325 OS Aquitalea magnusonii #=GS A0A0F3KR80/213-325 DE DNA mismatch repair protein MutL #=GS A0A0F3KR80/213-325 DR GENE3D; 4f625cc8705a86c3a8da044c354082c8/213-325; #=GS A0A0F3KR80/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Chromobacteriaceae; Aquitalea; Aquitalea magnusonii; #=GS A0A0X3YBX6/217-329 AC A0A0X3YBX6 #=GS A0A0X3YBX6/217-329 OS Rheinheimera sp. EpRS3 #=GS A0A0X3YBX6/217-329 DE DNA mismatch repair protein MutL #=GS A0A0X3YBX6/217-329 DR GENE3D; 4f68ee10c2dfeda7a581c8b4377219c1/217-329; #=GS A0A0X3YBX6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Rheinheimera; Rheinheimera sp. EpRS3; #=GS I1YIS4/221-333 AC I1YIS4 #=GS I1YIS4/221-333 OS Methylophaga frappieri #=GS I1YIS4/221-333 DE DNA mismatch repair protein MutL #=GS I1YIS4/221-333 DR GENE3D; 4f6d934bf4ce8984cb9b458810170793/221-333; #=GS I1YIS4/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Methylophaga; Methylophaga frappieri; #=GS R9PRS8/217-329 AC R9PRS8 #=GS R9PRS8/217-329 OS Agarivorans albus MKT 106 #=GS R9PRS8/217-329 DE DNA mismatch repair protein MutL #=GS R9PRS8/217-329 DR GENE3D; 4f71cc5f97809ac54269ea65188b0d2b/217-329; #=GS R9PRS8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Agarivorans; Agarivorans albus; #=GS A0A0X9VJH4/224-335 AC A0A0X9VJH4 #=GS A0A0X9VJH4/224-335 OS Arsenophonus symbiont of Lipoptena fortisetosa #=GS A0A0X9VJH4/224-335 DE DNA mismatch repair protein MutL #=GS A0A0X9VJH4/224-335 DR GENE3D; 4f77a384ccdab6532978e6ca55986645/224-335; #=GS A0A0X9VJH4/224-335 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Arsenophonus; Arsenophonus symbiont of Lipoptena fortisetosa; #=GS F9ZID1/213-325 AC F9ZID1 #=GS F9ZID1/213-325 OS Nitrosomonas sp. AL212 #=GS F9ZID1/213-325 DE DNA mismatch repair protein MutL #=GS F9ZID1/213-325 DR GENE3D; 5004a3cc7fa22ae9917b1cf3c2a27261/213-325; #=GS F9ZID1/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosomonas; Nitrosomonas sp. AL212; #=GS A0A1M4XGX4/215-327 AC A0A1M4XGX4 #=GS A0A1M4XGX4/215-327 OS Thermomonas hydrothermalis #=GS A0A1M4XGX4/215-327 DE DNA mismatch repair protein MutL #=GS A0A1M4XGX4/215-327 DR GENE3D; 500918d026c30de6abe86c2eb2322d03/215-327; #=GS A0A1M4XGX4/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Thermomonas; Thermomonas hydrothermalis; #=GS A0A1F4NJ86/230-342 AC A0A1F4NJ86 #=GS A0A1F4NJ86/230-342 OS Burkholderiales bacterium RIFOXYC12_FULL_65_23 #=GS A0A1F4NJ86/230-342 DE DNA mismatch repair protein MutL #=GS A0A1F4NJ86/230-342 DR GENE3D; 501dba13c81ec851ecf5754dfc70ad0f/230-342; #=GS A0A1F4NJ86/230-342 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium RIFOXYC12_FULL_65_23; #=GS A0A1B7IED7/217-330 AC A0A1B7IED7 #=GS A0A1B7IED7/217-330 OS Buttiauxella brennerae ATCC 51605 #=GS A0A1B7IED7/217-330 DE DNA mismatch repair protein MutL #=GS A0A1B7IED7/217-330 DR GENE3D; 506a04ca2d3949cd22c2313f2a144b1a/217-330; #=GS A0A1B7IED7/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Buttiauxella; Buttiauxella brennerae; #=GS A0A0Q0TJY7/241-353 AC A0A0Q0TJY7 #=GS A0A0Q0TJY7/241-353 OS Acidovorax sp. SD340 #=GS A0A0Q0TJY7/241-353 DE DNA mismatch repair protein MutL #=GS A0A0Q0TJY7/241-353 DR GENE3D; 506d3fade7acff5c4e4a0c88c2760764/241-353; #=GS A0A0Q0TJY7/241-353 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax sp. SD340; #=GS A0A099L382/217-329 AC A0A099L382 #=GS A0A099L382/217-329 OS Colwellia psychrerythraea #=GS A0A099L382/217-329 DE DNA mismatch repair protein MutL #=GS A0A099L382/217-329 DR GENE3D; 509a3ffc59f0eb362a17ad3e0a68ad7b/217-329; #=GS A0A099L382/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Colwelliaceae; Colwellia; Colwellia psychrerythraea; #=GS A0A147I1Y9/212-323 AC A0A147I1Y9 #=GS A0A147I1Y9/212-323 OS Sphingomonas endophytica #=GS A0A147I1Y9/212-323 DE DNA mismatch repair protein MutL #=GS A0A147I1Y9/212-323 DR GENE3D; 50aff050a3d5b9a37caab48ad48925bb/212-323; #=GS A0A147I1Y9/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas endophytica; #=GS A0A0H5LYH9/217-329 AC A0A0H5LYH9 #=GS A0A0H5LYH9/217-329 OS Yersinia intermedia #=GS A0A0H5LYH9/217-329 DE DNA mismatch repair protein MutL #=GS A0A0H5LYH9/217-329 DR GENE3D; 5100713c77a172ff8c87931db0c155f9/217-329; #=GS A0A0H5LYH9/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia intermedia; #=GS A0A1M7GLM5/227-339 AC A0A1M7GLM5 #=GS A0A1M7GLM5/227-339 OS Paracoccus solventivorans #=GS A0A1M7GLM5/227-339 DE DNA mismatch repair protein MutL #=GS A0A1M7GLM5/227-339 DR GENE3D; 5117c512c29d86d74201d2ae72d62860/227-339; #=GS A0A1M7GLM5/227-339 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus solventivorans; #=GS W8R2P9/221-333 AC W8R2P9 #=GS W8R2P9/221-333 OS Pseudomonas stutzeri #=GS W8R2P9/221-333 DE DNA mismatch repair protein MutL #=GS W8R2P9/221-333 DR GENE3D; 511f4e7f1843f9c13d946ecc0d5a4890/221-333; #=GS W8R2P9/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS A0A097QYD1/217-329 AC A0A097QYD1 #=GS A0A097QYD1/217-329 OS Hafnia alvei FB1 #=GS A0A097QYD1/217-329 DE DNA mismatch repair protein MutL #=GS A0A097QYD1/217-329 DR GENE3D; 515705317279b09ab533a039a3a499cb/217-329; #=GS A0A097QYD1/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Hafnia; Hafnia alvei; #=GS A0A160FHT8/236-348 AC A0A160FHT8 #=GS A0A160FHT8/236-348 OS Burkholderia sp. OLGA172 #=GS A0A160FHT8/236-348 DE DNA mismatch repair protein MutL #=GS A0A160FHT8/236-348 DR GENE3D; 516b5a730c1b780f262def76d7d5d2f4/236-348; #=GS A0A160FHT8/236-348 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. OLGA172; #=GS A6GSL9/215-326 AC A6GSL9 #=GS A6GSL9/215-326 OS Limnobacter sp. MED105 #=GS A6GSL9/215-326 DE DNA mismatch repair protein MutL #=GS A6GSL9/215-326 DR GENE3D; 518583cf77030b61a7dd382ed5769654/215-326; #=GS A6GSL9/215-326 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Limnobacter; Limnobacter sp. MED105; #=GS A0A0M2WK82/218-330 AC A0A0M2WK82 #=GS A0A0M2WK82/218-330 OS Janthinobacterium sp. KBS0711 #=GS A0A0M2WK82/218-330 DE DNA mismatch repair protein MutL #=GS A0A0M2WK82/218-330 DR GENE3D; 5189b21ec7cf004a024732f23927563d/218-330; #=GS A0A0M2WK82/218-330 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium sp. KBS0711; #=GS A0A160JIW7/217-329 AC A0A160JIW7 #=GS A0A160JIW7/217-329 OS Azospirillum humicireducens #=GS A0A160JIW7/217-329 DE DNA mismatch repair protein MutL #=GS A0A160JIW7/217-329 DR GENE3D; 51a756e4e7aa3bfb428607f1b7c48baf/217-329; #=GS A0A160JIW7/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Azospirillum; Azospirillum humicireducens; #=GS A0A1M3JDH4/237-349 AC A0A1M3JDH4 #=GS A0A1M3JDH4/237-349 OS Burkholderiales bacterium 68-20 #=GS A0A1M3JDH4/237-349 DE DNA mismatch repair protein MutL #=GS A0A1M3JDH4/237-349 DR GENE3D; 51c86457ad972a106ebf1dfa07e40da7/237-349; #=GS A0A1M3JDH4/237-349 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium 68-20; #=GS A0A1E4LWR6/237-349 AC A0A1E4LWR6 #=GS A0A1E4LWR6/237-349 OS Comamonadaceae bacterium SCN 68-20 #=GS A0A1E4LWR6/237-349 DE DNA mismatch repair protein MutL #=GS A0A1E4LWR6/237-349 DR GENE3D; 51c86457ad972a106ebf1dfa07e40da7/237-349; #=GS A0A1E4LWR6/237-349 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonadaceae bacterium SCN 68-20; #=GS Q7MYT9/217-329 AC Q7MYT9 #=GS Q7MYT9/217-329 OS Photorhabdus luminescens subsp. laumondii TTO1 #=GS Q7MYT9/217-329 DE DNA mismatch repair protein MutL #=GS Q7MYT9/217-329 DR GENE3D; 51cfd55106a1e076cebf278f7ed72ce8/217-329; #=GS Q7MYT9/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Photorhabdus; Photorhabdus luminescens; Photorhabdus luminescens subsp. laumondii; #=GS A0A1E4PZ91/213-324 AC A0A1E4PZ91 #=GS A0A1E4PZ91/213-324 OS Thiobacillus sp. SCN 64-317 #=GS A0A1E4PZ91/213-324 DE DNA mismatch repair protein MutL #=GS A0A1E4PZ91/213-324 DR GENE3D; 51d6efe4be37c6b5091b19d3915edfe5/213-324; #=GS A0A1E4PZ91/213-324 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Hydrogenophilales; Hydrogenophilaceae; Thiobacillus; Thiobacillus sp. SCN 64-317; #=GS A0A081K774/218-330 AC A0A081K774 #=GS A0A081K774/218-330 OS Endozoicomonas elysicola #=GS A0A081K774/218-330 DE DNA mismatch repair protein MutL #=GS A0A081K774/218-330 DR GENE3D; 51dd0df1881b08f54dbf7d29b057dd3f/218-330; #=GS A0A081K774/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Hahellaceae; Endozoicomonas; Endozoicomonas elysicola; #=GS I7JEC9/212-324 AC I7JEC9 #=GS I7JEC9/212-324 OS Wolbachia endosymbiont of Onchocerca ochengi #=GS I7JEC9/212-324 DE DNA mismatch repair protein MutL #=GS I7JEC9/212-324 DR GENE3D; 51e46a5ee83c585ac8a66fdf1a5ccab5/212-324; #=GS I7JEC9/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Anaplasmataceae; Wolbachieae; Wolbachia; Wolbachia endosymbiont of Onchocerca ochengi; #=GS Q1NE12/212-323 AC Q1NE12 #=GS Q1NE12/212-323 OS Sphingomonas sp. SKA58 #=GS Q1NE12/212-323 DE DNA mismatch repair protein MutL #=GS Q1NE12/212-323 DR GENE3D; 51e8b86d541d0d1eef5a48fa37c0c603/212-323; #=GS Q1NE12/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. SKA58; #=GS M7Z5E5/222-334 AC M7Z5E5 #=GS M7Z5E5/222-334 OS Methylobacterium mesophilicum SR1.6/6 #=GS M7Z5E5/222-334 DE DNA mismatch repair protein MutL #=GS M7Z5E5/222-334 DR GENE3D; 51f099b6c75f0b7a74fc8ec1a28c57e1/222-334; #=GS M7Z5E5/222-334 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium mesophilicum; #=GS A0A158F425/235-345 AC A0A158F425 #=GS A0A158F425/235-345 OS Burkholderia concitans #=GS A0A158F425/235-345 DE DNA mismatch repair protein MutL #=GS A0A158F425/235-345 DR GENE3D; 5200c31372af969ca8a5d9dce6ffda25/235-345; #=GS A0A158F425/235-345 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia concitans; #=GS A0A0C1Z4B6/235-345 AC A0A0C1Z4B6 #=GS A0A0C1Z4B6/235-345 OS Burkholderia sp. MR1 #=GS A0A0C1Z4B6/235-345 DE DNA mismatch repair protein MutL #=GS A0A0C1Z4B6/235-345 DR GENE3D; 5200c31372af969ca8a5d9dce6ffda25/235-345; #=GS A0A0C1Z4B6/235-345 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. MR1; #=GS A0A073A7W0/217-329 AC A0A073A7W0 #=GS A0A073A7W0/217-329 OS Francisella sp. W12-1067 #=GS A0A073A7W0/217-329 DE DNA mismatch repair protein MutL #=GS A0A073A7W0/217-329 DR GENE3D; 5223108e37845123d2ef94eb2d11bd4d/217-329; #=GS A0A073A7W0/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Francisellaceae; Francisella; Francisella sp. W12-1067; #=GS A0A1N7KYW1/231-343 AC A0A1N7KYW1 #=GS A0A1N7KYW1/231-343 OS Rhodobacter vinaykumarii #=GS A0A1N7KYW1/231-343 DE DNA mismatch repair protein MutL #=GS A0A1N7KYW1/231-343 DR GENE3D; 523bdcc98457ade7a8812c5a3f4b0dd3/231-343; #=GS A0A1N7KYW1/231-343 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter vinaykumarii; #=GS D0KVK7/218-330 AC D0KVK7 #=GS D0KVK7/218-330 OS Halothiobacillus neapolitanus c2 #=GS D0KVK7/218-330 DE DNA mismatch repair protein MutL #=GS D0KVK7/218-330 DR GENE3D; 524ff02efa9a73468f861ed9dfda0d96/218-330; #=GS D0KVK7/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Halothiobacillaceae; Halothiobacillus; Halothiobacillus neapolitanus; #=GS A0A1E7Q990/217-329 AC A0A1E7Q990 #=GS A0A1E7Q990/217-329 OS Rheinheimera salexigens #=GS A0A1E7Q990/217-329 DE DNA mismatch repair protein MutL #=GS A0A1E7Q990/217-329 DR GENE3D; 527354a2a8179a06fd6b7824f8be4f16/217-329; #=GS A0A1E7Q990/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Rheinheimera; Rheinheimera salexigens; #=GS T0B236/210-322 AC T0B236 #=GS T0B236/210-322 OS Thauera terpenica 58Eu #=GS T0B236/210-322 DE DNA mismatch repair protein MutL #=GS T0B236/210-322 DR GENE3D; 52949517509df3893876222ec4aa0d25/210-322; #=GS T0B236/210-322 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Thauera; Thauera terpenica; #=GS D4ZFK5/217-328 AC D4ZFK5 #=GS D4ZFK5/217-328 OS Shewanella violacea DSS12 #=GS D4ZFK5/217-328 DE DNA mismatch repair protein MutL #=GS D4ZFK5/217-328 DR GENE3D; 52a3f10fbd28f2fc8bd6feb4d55290bb/217-328; #=GS D4ZFK5/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella violacea; #=GS A0A1L6JBH1/212-323 AC A0A1L6JBH1 #=GS A0A1L6JBH1/212-323 OS #=GS A0A1L6JBH1/212-323 DE DNA mismatch repair protein MutL #=GS A0A1L6JBH1/212-323 DR GENE3D; 52b5aa59c2628ffd50be25becc97999e/212-323; #=GS A0A1L6JBH1/212-323 DR ORG; #=GS I3I5Q0/218-330 AC I3I5Q0 #=GS I3I5Q0/218-330 OS Cellvibrio sp. BR #=GS I3I5Q0/218-330 DE DNA mismatch repair protein MutL #=GS I3I5Q0/218-330 DR GENE3D; 52c7651d8d673a8e2ebbfa943683f8e9/218-330; #=GS I3I5Q0/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Cellvibrionaceae; Cellvibrio; Cellvibrio sp. BR; #=GS A0A059E8S4/195-307 AC A0A059E8S4 #=GS A0A059E8S4/195-307 OS Hyphomonas sp. L-53-1-40 #=GS A0A059E8S4/195-307 DE DNA mismatch repair protein MutL #=GS A0A059E8S4/195-307 DR GENE3D; 52cb78d6b03044eb26d357b147feb689/195-307; #=GS A0A059E8S4/195-307 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas sp. L-53-1-40; #=GS F7YIT3/219-331 AC F7YIT3 #=GS F7YIT3/219-331 OS Vibrio anguillarum 775 #=GS F7YIT3/219-331 DE DNA mismatch repair protein MutL #=GS F7YIT3/219-331 DR GENE3D; 52d3cceeeee7465db9c661b8c972dedd/219-331; #=GS F7YIT3/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio anguillarum; #=GS A0A1N6MSJ3/217-329 AC A0A1N6MSJ3 #=GS A0A1N6MSJ3/217-329 OS Xenorhabdus innexi #=GS A0A1N6MSJ3/217-329 DE DNA mismatch repair protein mutL #=GS A0A1N6MSJ3/217-329 DR GENE3D; 52e6babd6a1d7a582b352ce793654159/217-329; #=GS A0A1N6MSJ3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus innexi; #=GS D9QKA6/222-334 AC D9QKA6 #=GS D9QKA6/222-334 OS Brevundimonas subvibrioides ATCC 15264 #=GS D9QKA6/222-334 DE DNA mismatch repair protein MutL #=GS D9QKA6/222-334 DR GENE3D; 52ef8666bbbe9c98d5fa11756fa4c61a/222-334; #=GS D9QKA6/222-334 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas subvibrioides; #=GS H0TK36/216-328 AC H0TK36 #=GS H0TK36/216-328 OS Bradyrhizobium sp. STM 3843 #=GS H0TK36/216-328 DE DNA mismatch repair protein MutL #=GS H0TK36/216-328 DR GENE3D; 52fe54ab5dc3fed5d110f41e083c8d07/216-328; #=GS H0TK36/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. STM 3843; #=GS A0A010RRX8/225-337 AC A0A010RRX8 #=GS A0A010RRX8/225-337 OS Pseudomonas fluorescens HK44 #=GS A0A010RRX8/225-337 DE DNA mismatch repair protein MutL #=GS A0A010RRX8/225-337 DR GENE3D; 52ff9fec9de86112093c175bff9147ea/225-337; #=GS A0A010RRX8/225-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; #=GS V4HSY2/216-325 AC V4HSY2 #=GS V4HSY2/216-325 OS Pseudoalteromonas luteoviolacea 2ta16 #=GS V4HSY2/216-325 DE DNA mismatch repair protein MutL #=GS V4HSY2/216-325 DR GENE3D; 5336b39d39c38bc751d28b64ef63a39b/216-325; #=GS V4HSY2/216-325 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas luteoviolacea; #=GS Q92FW6/217-329 AC Q92FW6 #=GS Q92FW6/217-329 OS Rickettsia conorii str. Malish 7 #=GS Q92FW6/217-329 DE DNA mismatch repair protein MutL #=GS Q92FW6/217-329 DR GENE3D; 533d3143e4a9ec8f698febfe1a20db9f/217-329; #=GS Q92FW6/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Rickettsiaceae; Rickettsieae; Rickettsia; spotted fever group; Rickettsia conorii; #=GS A0A1E4FHF5/215-327 AC A0A1E4FHF5 #=GS A0A1E4FHF5/215-327 OS Pelagibacterium sp. SCN 63-23 #=GS A0A1E4FHF5/215-327 DE DNA mismatch repair protein MutL #=GS A0A1E4FHF5/215-327 DR GENE3D; 536789dbf8b7d447111592183b20c84a/215-327; #=GS A0A1E4FHF5/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Pelagibacterium; Pelagibacterium sp. SCN 63-23; #=GS D7DII2/213-325 AC D7DII2 #=GS D7DII2/213-325 OS Methylotenera versatilis 301 #=GS D7DII2/213-325 DE DNA mismatch repair protein MutL #=GS D7DII2/213-325 DR GENE3D; 538c13137e1f1d526ef52c530609f477/213-325; #=GS D7DII2/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Methylophilales; Methylophilaceae; Methylotenera; Methylotenera versatilis; #=GS A0A0M9GPV8/215-327 AC A0A0M9GPV8 #=GS A0A0M9GPV8/215-327 OS Ahrensia marina #=GS A0A0M9GPV8/215-327 DE DNA mismatch repair protein MutL #=GS A0A0M9GPV8/215-327 DR GENE3D; 5392a154f3790cc102674631dca46a45/215-327; #=GS A0A0M9GPV8/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ahrensia; Ahrensia marina; #=GS A0A1N7BHH6/217-329 AC A0A1N7BHH6 #=GS A0A1N7BHH6/217-329 OS Aeromonas sp. RU39B #=GS A0A1N7BHH6/217-329 DE DNA mismatch repair protein MutL #=GS A0A1N7BHH6/217-329 DR GENE3D; 53a436b06dab2ec305adab1ee81909bf/217-329; #=GS A0A1N7BHH6/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas sp. RU39B; #=GS A0A1M7APJ2/215-327 AC A0A1M7APJ2 #=GS A0A1M7APJ2/215-327 OS Labrenzia suaedae #=GS A0A1M7APJ2/215-327 DE DNA mismatch repair protein MutL #=GS A0A1M7APJ2/215-327 DR GENE3D; 53d708fc13a2e046fd8285354d7d5b42/215-327; #=GS A0A1M7APJ2/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia suaedae; #=GS N6Y8X4/210-322 AC N6Y8X4 #=GS N6Y8X4/210-322 OS Thauera linaloolentis 47Lol = DSM 12138 #=GS N6Y8X4/210-322 DE DNA mismatch repair protein MutL #=GS N6Y8X4/210-322 DR GENE3D; 53d74faabcb58e86ab082b90fe71bab0/210-322; #=GS N6Y8X4/210-322 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Thauera; Thauera linaloolentis; #=GS U2Y8N9/214-325 AC U2Y8N9 #=GS U2Y8N9/214-325 OS Novosphingobium tardaugens NBRC 16725 #=GS U2Y8N9/214-325 DE DNA mismatch repair protein MutL #=GS U2Y8N9/214-325 DR GENE3D; 53e1aca3d70ba0767c562a2fad054b35/214-325; #=GS U2Y8N9/214-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium tardaugens; #=GS H8KY78/217-329 AC H8KY78 #=GS H8KY78/217-329 OS Frateuria aurantia DSM 6220 #=GS H8KY78/217-329 DE DNA mismatch repair protein MutL #=GS H8KY78/217-329 DR GENE3D; 53efb923007f5d0a6ba36e5a9c88bf58/217-329; #=GS H8KY78/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Frateuria; Frateuria aurantia; #=GS Q983L2/215-327 AC Q983L2 #=GS Q983L2/215-327 OS Mesorhizobium loti MAFF303099 #=GS Q983L2/215-327 DE DNA mismatch repair protein MutL #=GS Q983L2/215-327 DR GENE3D; 5412dcdcbd6a38ea2927e44696af2b8c/215-327; #=GS Q983L2/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium loti; #=GS A0A061QDH4/224-336 AC A0A061QDH4 #=GS A0A061QDH4/224-336 OS alpha proteobacterium Q-1 #=GS A0A061QDH4/224-336 DE DNA mismatch repair protein MutL #=GS A0A061QDH4/224-336 DR GENE3D; 542641aa5d3c81eede4b364878c51403/224-336; #=GS A0A061QDH4/224-336 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; alpha proteobacterium Q-1; #=GS N9AFZ0/226-338 AC N9AFZ0 #=GS N9AFZ0/226-338 OS Acinetobacter soli NIPH 2899 #=GS N9AFZ0/226-338 DE DNA mismatch repair protein MutL #=GS N9AFZ0/226-338 DR GENE3D; 5448a8aa2165aaf90818a628e87c07fe/226-338; #=GS N9AFZ0/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter soli; #=GS A0A0T5PEW8/233-345 AC A0A0T5PEW8 #=GS A0A0T5PEW8/233-345 OS Roseovarius indicus #=GS A0A0T5PEW8/233-345 DE DNA mismatch repair protein MutL #=GS A0A0T5PEW8/233-345 DR GENE3D; 546110f52097c7e9bc799465a0c39ed1/233-345; #=GS A0A0T5PEW8/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseovarius; Roseovarius indicus; #=GS A0A0W0NME5/225-337 AC A0A0W0NME5 #=GS A0A0W0NME5/225-337 OS Pseudomonas sp. ABAC61 #=GS A0A0W0NME5/225-337 DE DNA mismatch repair protein MutL #=GS A0A0W0NME5/225-337 DR GENE3D; 54c5c0200b1c05983f23ae10dc2aa95b/225-337; #=GS A0A0W0NME5/225-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. ABAC61; #=GS A0A1B2ED77/216-328 AC A0A1B2ED77 #=GS A0A1B2ED77/216-328 OS Microvirga ossetica #=GS A0A1B2ED77/216-328 DE DNA mismatch repair protein MutL #=GS A0A1B2ED77/216-328 DR GENE3D; 54ce3f8860d87b512c771f1f2aea51e5/216-328; #=GS A0A1B2ED77/216-328 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Microvirga; Microvirga ossetica; #=GS A0A1C2IEU6/224-336 AC A0A1C2IEU6 #=GS A0A1C2IEU6/224-336 OS Acidithiobacillus thiooxidans #=GS A0A1C2IEU6/224-336 DE DNA mismatch repair protein MutL #=GS A0A1C2IEU6/224-336 DR GENE3D; 54dc3c94c2a634732d935aa90ef7d8f0/224-336; #=GS A0A1C2IEU6/224-336 DR ORG; Bacteria; Proteobacteria; Acidithiobacillia; Acidithiobacillales; Acidithiobacillaceae; Acidithiobacillus; Acidithiobacillus thiooxidans; #=GS N9B4A9/226-338 AC N9B4A9 #=GS N9B4A9/226-338 OS Acinetobacter towneri DSM 14962 = CIP 107472 #=GS N9B4A9/226-338 DE DNA mismatch repair protein MutL #=GS N9B4A9/226-338 DR GENE3D; 5523ecfa75693d6dee2045569bec43b8/226-338; #=GS N9B4A9/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter towneri; #=GS A0A1M3P554/212-323 AC A0A1M3P554 #=GS A0A1M3P554/212-323 OS Sphingobium sp. 66-54 #=GS A0A1M3P554/212-323 DE DNA mismatch repair protein MutL #=GS A0A1M3P554/212-323 DR GENE3D; 5538e9f7b7391ef4ad49de371bdd3e65/212-323; #=GS A0A1M3P554/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. 66-54; #=GS A0A0F2RQH0/212-324 AC A0A0F2RQH0 #=GS A0A0F2RQH0/212-324 OS Rhodospirillaceae bacterium BRH_c57 #=GS A0A0F2RQH0/212-324 DE DNA mismatch repair protein MutL #=GS A0A0F2RQH0/212-324 DR GENE3D; 556d3f6ebfa58c9399a91a7469bb91a0/212-324; #=GS A0A0F2RQH0/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Rhodospirillaceae bacterium BRH_c57; #=GS N9R3E0/224-336 AC N9R3E0 #=GS N9R3E0/224-336 OS Acinetobacter sp. NIPH 1859 #=GS N9R3E0/224-336 DE DNA mismatch repair protein MutL #=GS N9R3E0/224-336 DR GENE3D; 55dda49494ed39dd37d09a25c0ba8262/224-336; #=GS N9R3E0/224-336 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter sp. NIPH 1859; #=GS C9QNB2/217-329 AC C9QNB2 #=GS C9QNB2/217-329 OS Vibrio orientalis CIP 102891 = ATCC 33934 #=GS C9QNB2/217-329 DE DNA mismatch repair protein MutL #=GS C9QNB2/217-329 DR GENE3D; 55fb9f87d1565ef3a349f301fd680cf3/217-329; #=GS C9QNB2/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio orientalis; #=GS A0A149VY84/213-323 AC A0A149VY84 #=GS A0A149VY84/213-323 OS Ferrovum sp. Z-31 #=GS A0A149VY84/213-323 DE DNA mismatch repair protein MutL #=GS A0A149VY84/213-323 DR GENE3D; 5636a7b450df6861d8907b6f85dbd2a8/213-323; #=GS A0A149VY84/213-323 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Ferrovales; Ferrovaceae; Ferrovum; Ferrovum sp. Z-31; #=GS A0A0U4WVK2/222-333 AC A0A0U4WVK2 #=GS A0A0U4WVK2/222-333 OS Pseudomonas oryzihabitans #=GS A0A0U4WVK2/222-333 DE DNA mismatch repair protein MutL #=GS A0A0U4WVK2/222-333 DR GENE3D; 563c20cdec4b69c3b86a655e746f9225/222-333; #=GS A0A0U4WVK2/222-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas oryzihabitans; #=GS F2JWL8/218-330 AC F2JWL8 #=GS F2JWL8/218-330 OS Marinomonas mediterranea MMB-1 #=GS F2JWL8/218-330 DE DNA mismatch repair protein MutL #=GS F2JWL8/218-330 DR GENE3D; 5648b5c817ca12ae4c87ff37a26687fd/218-330; #=GS F2JWL8/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Marinomonas; Marinomonas mediterranea; #=GS A6FTG3/226-338 AC A6FTG3 #=GS A6FTG3/226-338 OS Roseobacter sp. AzwK-3b #=GS A6FTG3/226-338 DE DNA mismatch repair protein MutL #=GS A6FTG3/226-338 DR GENE3D; 566ae80473c546cb27b7875a2e041f4c/226-338; #=GS A6FTG3/226-338 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseobacter; Roseobacter sp. AzwK-3b; #=GS D2BXA0/217-329 AC D2BXA0 #=GS D2BXA0/217-329 OS Dickeya zeae Ech586 #=GS D2BXA0/217-329 DE DNA mismatch repair protein MutL #=GS D2BXA0/217-329 DR GENE3D; 567b9112a862fa10f5489b5705400428/217-329; #=GS D2BXA0/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Dickeya; Dickeya zeae; #=GS A0A0C5L314/213-324 AC A0A0C5L314 #=GS A0A0C5L314/213-324 OS Sphingomonas hengshuiensis #=GS A0A0C5L314/213-324 DE DNA mismatch repair protein MutL #=GS A0A0C5L314/213-324 DR GENE3D; 568f356b56f07d959426022cb2961fb6/213-324; #=GS A0A0C5L314/213-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas hengshuiensis; #=GS F7S0K7/217-333 AC F7S0K7 #=GS F7S0K7/217-333 OS Idiomarina sp. A28L #=GS F7S0K7/217-333 DE DNA mismatch repair protein MutL #=GS F7S0K7/217-333 DR GENE3D; 56bd1265d9efb7d078a51c7a928e2ca9/217-333; #=GS F7S0K7/217-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Idiomarinaceae; Idiomarina; Idiomarina sp. A28L; #=GS A0A1B2LZY6/226-337 AC A0A1B2LZY6 #=GS A0A1B2LZY6/226-337 OS Acinetobacter larvae #=GS A0A1B2LZY6/226-337 DE DNA mismatch repair protein MutL #=GS A0A1B2LZY6/226-337 DR GENE3D; 56c19a621288a1360e8f7b4db8937566/226-337; #=GS A0A1B2LZY6/226-337 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter larvae; #=GS F7QG51/216-327 AC F7QG51 #=GS F7QG51/216-327 OS Bradyrhizobiaceae bacterium SG-6C #=GS F7QG51/216-327 DE DNA mismatch repair protein MutL #=GS F7QG51/216-327 DR GENE3D; 56e626bb277ea1ad839a61cacb0aa36b/216-327; #=GS F7QG51/216-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobiaceae bacterium SG-6C; #=GS A0A0B8QXE9/199-311 AC A0A0B8QXE9 #=GS A0A0B8QXE9/199-311 OS Vibrio ishigakensis #=GS A0A0B8QXE9/199-311 DE DNA mismatch repair protein MutL #=GS A0A0B8QXE9/199-311 DR GENE3D; 56e742fe1d3dbe1de7f2fe61dc28956e/199-311; #=GS A0A0B8QXE9/199-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio ishigakensis; #=GS A0A0N1LML6/218-330 AC A0A0N1LML6 #=GS A0A0N1LML6/218-330 OS alpha proteobacterium AAP38 #=GS A0A0N1LML6/218-330 DE DNA mismatch repair protein MutL #=GS A0A0N1LML6/218-330 DR GENE3D; 56f9698111f56533dd97e68ae7cb753c/218-330; #=GS A0A0N1LML6/218-330 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; alpha proteobacterium AAP38; #=GS A0A1M3PGV3/214-326 AC A0A1M3PGV3 #=GS A0A1M3PGV3/214-326 OS Rhodospirillales bacterium 70-18 #=GS A0A1M3PGV3/214-326 DE DNA mismatch repair protein MutL #=GS A0A1M3PGV3/214-326 DR GENE3D; 573112b7f5d2fc87337fe6c8708780ae/214-326; #=GS A0A1M3PGV3/214-326 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillales bacterium 70-18; #=GS R5PLU3/213-324 AC R5PLU3 #=GS R5PLU3/213-324 OS Sutterella wadsworthensis CAG:135 #=GS R5PLU3/213-324 DE DNA mismatch repair protein MutL #=GS R5PLU3/213-324 DR GENE3D; 577c2b73d40f3a23dae2bfa3ad174865/213-324; #=GS R5PLU3/213-324 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Sutterellaceae; Sutterella; Sutterella wadsworthensis CAG:135; #=GS A0A1N6VQG0/219-331 AC A0A1N6VQG0 #=GS A0A1N6VQG0/219-331 OS Luteimonas tolerans #=GS A0A1N6VQG0/219-331 DE DNA mismatch repair protein MutL #=GS A0A1N6VQG0/219-331 DR GENE3D; 577fa96efdf1f498f502b8af4b358c46/219-331; #=GS A0A1N6VQG0/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Luteimonas; Luteimonas tolerans; #=GS K2BHV6/217-329 AC K2BHV6 #=GS K2BHV6/217-329 OS groundwater metagenome #=GS K2BHV6/217-329 DE Uncharacterized protein #=GS K2BHV6/217-329 DR GENE3D; 5788a33f2db8349c9ba8d637c15dfe91/217-329; #=GS K2BHV6/217-329 DR ORG; groundwater metagenome; #=GS A0A0Q7DPX8/223-335 AC A0A0Q7DPX8 #=GS A0A0Q7DPX8/223-335 OS Phenylobacterium sp. Root1277 #=GS A0A0Q7DPX8/223-335 DE DNA mismatch repair protein MutL #=GS A0A0Q7DPX8/223-335 DR GENE3D; 57c2beaea92ab06930b62dacc77f617d/223-335; #=GS A0A0Q7DPX8/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium sp. Root1277; #=GS A0A0Q8UFA7/223-335 AC A0A0Q8UFA7 #=GS A0A0Q8UFA7/223-335 OS Phenylobacterium sp. Root77 #=GS A0A0Q8UFA7/223-335 DE DNA mismatch repair protein MutL #=GS A0A0Q8UFA7/223-335 DR GENE3D; 57c2beaea92ab06930b62dacc77f617d/223-335; #=GS A0A0Q8UFA7/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium sp. Root77; #=GS A0A0Q7F7R2/223-335 AC A0A0Q7F7R2 #=GS A0A0Q7F7R2/223-335 OS Phenylobacterium sp. Root1290 #=GS A0A0Q7F7R2/223-335 DE DNA mismatch repair protein MutL #=GS A0A0Q7F7R2/223-335 DR GENE3D; 57c2beaea92ab06930b62dacc77f617d/223-335; #=GS A0A0Q7F7R2/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium sp. Root1290; #=GS I1XLL7/217-329 AC I1XLL7 #=GS I1XLL7/217-329 OS Methylophaga nitratireducenticrescens #=GS I1XLL7/217-329 DE DNA mismatch repair protein MutL #=GS I1XLL7/217-329 DR GENE3D; 57ce40504caf21018c8ea22c566d73f5/217-329; #=GS I1XLL7/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Methylophaga; Methylophaga nitratireducenticrescens; #=GS A0A177NBX4/217-329 AC A0A177NBX4 #=GS A0A177NBX4/217-329 OS Methylomonas koyamae #=GS A0A177NBX4/217-329 DE DNA mismatch repair protein MutL #=GS A0A177NBX4/217-329 DR GENE3D; 57eff86c225ec4c9fb1a71bd0e23d8db/217-329; #=GS A0A177NBX4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Methylococcales; Methylococcaceae; Methylomonas; Methylomonas koyamae; #=GS G2ISN1/229-340 AC G2ISN1 #=GS G2ISN1/229-340 OS Sphingobium sp. SYK-6 #=GS G2ISN1/229-340 DE DNA mismatch repair protein MutL #=GS G2ISN1/229-340 DR GENE3D; 57fae8a98a252659409094018901b64c/229-340; #=GS G2ISN1/229-340 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. SYK-6; #=GS A0A1M3KP21/211-323 AC A0A1M3KP21 #=GS A0A1M3KP21/211-323 OS Devosia sp. 66-22 #=GS A0A1M3KP21/211-323 DE DNA mismatch repair protein MutL #=GS A0A1M3KP21/211-323 DR GENE3D; 5804ce2c336f33da9095113b1ca27f1d/211-323; #=GS A0A1M3KP21/211-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. 66-22; #=GS A0A1H1M533/218-330 AC A0A1H1M533 #=GS A0A1H1M533/218-330 OS Pseudomonas xinjiangensis #=GS A0A1H1M533/218-330 DE DNA mismatch repair protein MutL #=GS A0A1H1M533/218-330 DR GENE3D; 586d6d3cbdec4dceedb1070d85beb7d2/218-330; #=GS A0A1H1M533/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas xinjiangensis; #=GS A0A0G3LLE5/214-326 AC A0A0G3LLE5 #=GS A0A0G3LLE5/214-326 OS Xanthomonas translucens pv. undulosa #=GS A0A0G3LLE5/214-326 DE DNA mismatch repair protein MutL #=GS A0A0G3LLE5/214-326 DR GENE3D; 58946d6dbd19bd3d4458ee1b07f42173/214-326; #=GS A0A0G3LLE5/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas translucens; #=GS L7G3M8/214-326 AC L7G3M8 #=GS L7G3M8/214-326 OS Xanthomonas translucens DAR61454 #=GS L7G3M8/214-326 DE DNA mismatch repair protein MutL #=GS L7G3M8/214-326 DR GENE3D; 58946d6dbd19bd3d4458ee1b07f42173/214-326; #=GS L7G3M8/214-326 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas translucens; #=GS D4Z1Z4/212-323 AC D4Z1Z4 #=GS D4Z1Z4/212-323 OS Sphingobium japonicum UT26S #=GS D4Z1Z4/212-323 DE DNA mismatch repair protein MutL #=GS D4Z1Z4/212-323 DR GENE3D; 589ad24c75bfb8a9b0682819fb4327cf/212-323; #=GS D4Z1Z4/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium japonicum; #=GS A0A136N2I1/214-326 AC A0A136N2I1 #=GS A0A136N2I1/214-326 OS Bacteroidetes bacterium OLB9 #=GS A0A136N2I1/214-326 DE DNA mismatch repair protein MutL #=GS A0A136N2I1/214-326 DR GENE3D; 58bdf7c40f30d3163e0bc2401bea5c13/214-326; #=GS A0A136N2I1/214-326 DR ORG; Bacteria; Bacteroidetes; Bacteroidetes bacterium OLB9; #=GS A0A1F9DG75/215-327 AC A0A1F9DG75 #=GS A0A1F9DG75/215-327 OS Deltaproteobacteria bacterium RBG_16_54_18 #=GS A0A1F9DG75/215-327 DE DNA mismatch repair protein MutL #=GS A0A1F9DG75/215-327 DR GENE3D; 58d502686d8a1369a0da562e05c20946/215-327; #=GS A0A1F9DG75/215-327 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium RBG_16_54_18; #=GS A1KA87/210-322 AC A1KA87 #=GS A1KA87/210-322 OS Azoarcus sp. BH72 #=GS A1KA87/210-322 DE DNA mismatch repair protein MutL #=GS A1KA87/210-322 DR GENE3D; 58d98a8053db3a3f8159839e493c6b92/210-322; #=GS A1KA87/210-322 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Azoarcus; Azoarcus sp. BH72; #=GS F7T289/213-325 AC F7T289 #=GS F7T289/213-325 OS Achromobacter insuavis AXX-A #=GS F7T289/213-325 DE DNA mismatch repair protein MutL #=GS F7T289/213-325 DR GENE3D; 58dc61fe133beb945bcb2063547a80bc/213-325; #=GS F7T289/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Achromobacter; Achromobacter insuavis; #=GS A0A0J9BDY2/217-329 AC A0A0J9BDY2 #=GS A0A0J9BDY2/217-329 OS bacteria symbiont BFo2 of Frankliniella occidentalis #=GS A0A0J9BDY2/217-329 DE DNA mismatch repair protein MutL #=GS A0A0J9BDY2/217-329 DR GENE3D; 592413cb5560917111178feb54810498/217-329; #=GS A0A0J9BDY2/217-329 DR ORG; Bacteria; bacteria symbiont BFo2 of Frankliniella occidentalis; #=GS A0A0A1AV93/217-329 AC A0A0A1AV93 #=GS A0A0A1AV93/217-329 OS Pantoea sp. PSNIH2 #=GS A0A0A1AV93/217-329 DE DNA mismatch repair protein MutL #=GS A0A0A1AV93/217-329 DR GENE3D; 59548fe921e48b1ba3269743531570ea/217-329; #=GS A0A0A1AV93/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea sp. PSNIH2; #=GS F5JCH6/212-324 AC F5JCH6 #=GS F5JCH6/212-324 OS Agrobacterium sp. ATCC 31749 #=GS F5JCH6/212-324 DE DNA mismatch repair protein MutL #=GS F5JCH6/212-324 DR GENE3D; 595e59c50a93e22b5a99b7194d6c632a/212-324; #=GS F5JCH6/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium sp. ATCC 31749; #=GS A0A059IKC0/239-351 AC A0A059IKC0 #=GS A0A059IKC0/239-351 OS Defluviimonas sp. 20V17 #=GS A0A059IKC0/239-351 DE DNA mismatch repair protein MutL #=GS A0A059IKC0/239-351 DR GENE3D; 595ee4820fa359b26e8385399b5ac14c/239-351; #=GS A0A059IKC0/239-351 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Defluviimonas; Defluviimonas sp. 20V17; #=GS A0A1L5FS86/217-330 AC A0A1L5FS86 #=GS A0A1L5FS86/217-330 OS Klebsiella pneumoniae #=GS A0A1L5FS86/217-330 DE DNA mismatch repair protein MutL #=GS A0A1L5FS86/217-330 DR GENE3D; 5966f5155ca628c420246968c1f9ef7f/217-330; #=GS A0A1L5FS86/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella pneumoniae; #=GS A0A1M7P4J0/220-331 AC A0A1M7P4J0 #=GS A0A1M7P4J0/220-331 OS Rhizobacter sp. OV335 #=GS A0A1M7P4J0/220-331 DE DNA mismatch repair protein MutL #=GS A0A1M7P4J0/220-331 DR GENE3D; 5967e828b62b98aa6e402e865fdb6fcc/220-331; #=GS A0A1M7P4J0/220-331 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Rhizobacter; Rhizobacter sp. OV335; #=GS A0A1D2SJG1/227-339 AC A0A1D2SJG1 #=GS A0A1D2SJG1/227-339 OS Lautropia sp. SCN 69-89 #=GS A0A1D2SJG1/227-339 DE DNA mismatch repair protein MutL #=GS A0A1D2SJG1/227-339 DR GENE3D; 596bf1e75e8fe3ef6232af0fc78c125e/227-339; #=GS A0A1D2SJG1/227-339 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Lautropia; Lautropia sp. SCN 69-89; #=GS A0A078KE38/227-338 AC A0A078KE38 #=GS A0A078KE38/227-338 OS Candidatus Evansia muelleri #=GS A0A078KE38/227-338 DE DNA mismatch repair protein MutL #=GS A0A078KE38/227-338 DR GENE3D; 5985329b79460015902a79b4269d966b/227-338; #=GS A0A078KE38/227-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Candidatus Evansia; Candidatus Evansia muelleri; #=GS K2DRN3/217-329 AC K2DRN3 #=GS K2DRN3/217-329 OS groundwater metagenome #=GS K2DRN3/217-329 DE Uncharacterized protein #=GS K2DRN3/217-329 DR GENE3D; 59bd395220c5c36a8b92ff92aa0d05b5/217-329; #=GS K2DRN3/217-329 DR ORG; groundwater metagenome; #=GS Q7MH01/217-329 AC Q7MH01 #=GS Q7MH01/217-329 OS Vibrio vulnificus YJ016 #=GS Q7MH01/217-329 DE DNA mismatch repair protein MutL #=GS Q7MH01/217-329 DR GENE3D; 59bee65bab76a50f78b237a2a7d55330/217-329; #=GS Q7MH01/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; #=GS A0A0F4R1S3/222-334 AC A0A0F4R1S3 #=GS A0A0F4R1S3/222-334 OS Halomonas sp. S2151 #=GS A0A0F4R1S3/222-334 DE DNA mismatch repair protein MutL #=GS A0A0F4R1S3/222-334 DR GENE3D; 59cdcf830d03f347193e4adc5f5e6e24/222-334; #=GS A0A0F4R1S3/222-334 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas sp. S2151; #=GS W8U830/217-329 AC W8U830 #=GS W8U830/217-329 OS Yersinia enterocolitica LC20 #=GS W8U830/217-329 DE DNA mismatch repair protein MutL #=GS W8U830/217-329 DR GENE3D; 59d992e89378b81a1de869c6fce00f6d/217-329; #=GS W8U830/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia enterocolitica; #=GS A0A0W0TLT3/223-334 AC A0A0W0TLT3 #=GS A0A0W0TLT3/223-334 OS Legionella geestiana #=GS A0A0W0TLT3/223-334 DE DNA mismatch repair protein MutL #=GS A0A0W0TLT3/223-334 DR GENE3D; 59dbad499dafa1141195dc3e7d3b036c/223-334; #=GS A0A0W0TLT3/223-334 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella geestiana; #=GS W1N512/226-338 AC W1N512 #=GS W1N512/226-338 OS Halomonas huangheensis #=GS W1N512/226-338 DE DNA mismatch repair protein MutL #=GS W1N512/226-338 DR GENE3D; 59dec6c4d1cbf7e7afe5651b14233942/226-338; #=GS W1N512/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas huangheensis; #=GS A0A0C4Y624/221-333 AC A0A0C4Y624 #=GS A0A0C4Y624/221-333 OS Cupriavidus basilensis #=GS A0A0C4Y624/221-333 DE DNA mismatch repair protein MutL #=GS A0A0C4Y624/221-333 DR GENE3D; 59f622cd1f920bb852074db425e13a0b/221-333; #=GS A0A0C4Y624/221-333 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Cupriavidus; Cupriavidus basilensis; #=GS A0A193LGZ9/216-328 AC A0A193LGZ9 #=GS A0A193LGZ9/216-328 OS Woeseia oceani #=GS A0A193LGZ9/216-328 DE DNA mismatch repair protein MutL #=GS A0A193LGZ9/216-328 DR GENE3D; 5a04413480618c7c450980c04b643f36/216-328; #=GS A0A193LGZ9/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Woeseiaceae; Woeseia; Woeseia oceani; #=GS E6PSJ2/236-348 AC E6PSJ2 #=GS E6PSJ2/236-348 OS mine drainage metagenome #=GS E6PSJ2/236-348 DE Putative DNA mismatch repair protein mutL #=GS E6PSJ2/236-348 DR GENE3D; 5a461220b18ff4f3b506faf98394f70f/236-348; #=GS E6PSJ2/236-348 DR ORG; mine drainage metagenome; #=GS A0NV47/215-327 AC A0NV47 #=GS A0NV47/215-327 OS Labrenzia aggregata IAM 12614 #=GS A0NV47/215-327 DE DNA mismatch repair protein MutL #=GS A0NV47/215-327 DR GENE3D; 5a467714cd4d13efeeabdd6505a51813/215-327; #=GS A0NV47/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia aggregata; #=GS A0A178HSR1/215-327 AC A0A178HSR1 #=GS A0A178HSR1/215-327 OS Devosia sp. S37 #=GS A0A178HSR1/215-327 DE DNA mismatch repair protein MutL #=GS A0A178HSR1/215-327 DR GENE3D; 5a4c4a394083b687882977e7680c1d46/215-327; #=GS A0A178HSR1/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. S37; #=GS A0A0D1LJA4/221-333 AC A0A0D1LJA4 #=GS A0A0D1LJA4/221-333 OS Pseudomonas putida #=GS A0A0D1LJA4/221-333 DE DNA mismatch repair protein MutL #=GS A0A0D1LJA4/221-333 DR GENE3D; 5a6aceedda74b369dd5bd6e6524058fc/221-333; #=GS A0A0D1LJA4/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; #=GS A1VLE5/229-349 AC A1VLE5 #=GS A1VLE5/229-349 OS Polaromonas naphthalenivorans CJ2 #=GS A1VLE5/229-349 DE DNA mismatch repair protein MutL #=GS A1VLE5/229-349 DR GENE3D; 5a75dd3ff5a7c448075cae099297df30/229-349; #=GS A1VLE5/229-349 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Polaromonas; Polaromonas naphthalenivorans; #=GS Q2LUR5/215-327 AC Q2LUR5 #=GS Q2LUR5/215-327 OS Syntrophus aciditrophicus SB #=GS Q2LUR5/215-327 DE DNA mismatch repair protein MutL #=GS Q2LUR5/215-327 DR GENE3D; 5a7950b93d6b38192e0180d3add40d41/215-327; #=GS Q2LUR5/215-327 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Syntrophobacterales; Syntrophaceae; Syntrophus; Syntrophus aciditrophicus; #=GS E1VKY8/218-330 AC E1VKY8 #=GS E1VKY8/218-330 OS gamma proteobacterium HdN1 #=GS E1VKY8/218-330 DE DNA mismatch repair protein MutL #=GS E1VKY8/218-330 DR GENE3D; 5a910db64b7d696b90386a3cf44b637f/218-330; #=GS E1VKY8/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; gamma proteobacterium HdN1; #=GS A0A0Q7HSX1/215-327 AC A0A0Q7HSX1 #=GS A0A0Q7HSX1/215-327 OS Devosia sp. Root436 #=GS A0A0Q7HSX1/215-327 DE DNA mismatch repair protein MutL #=GS A0A0Q7HSX1/215-327 DR GENE3D; 5ac0e1306a9da02287ae1a9d38bedfc8/215-327; #=GS A0A0Q7HSX1/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. Root436; #=GS F3LCP0/218-330 AC F3LCP0 #=GS F3LCP0/218-330 OS gamma proteobacterium IMCC1989 #=GS F3LCP0/218-330 DE DNA mismatch repair protein MutL #=GS F3LCP0/218-330 DR GENE3D; 5ade36a6f3842f91d73fdb504946c8c0/218-330; #=GS F3LCP0/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; gamma proteobacterium IMCC1989; #=GS L0ETR2/239-351 AC L0ETR2 #=GS L0ETR2/239-351 OS Liberibacter crescens BT-1 #=GS L0ETR2/239-351 DE DNA mismatch repair protein MutL #=GS L0ETR2/239-351 DR GENE3D; 5b2430b46a672a1285b73db6483ada7c/239-351; #=GS L0ETR2/239-351 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Liberibacter; Liberibacter crescens; #=GS M5R3L0/221-333 AC M5R3L0 #=GS M5R3L0/221-333 OS Pseudomonas sp. Lz4W #=GS M5R3L0/221-333 DE DNA mismatch repair protein MutL #=GS M5R3L0/221-333 DR GENE3D; 5b55ab02aae694d415b09395200c8ade/221-333; #=GS M5R3L0/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas sp. Lz4W; #=GS A0A094JYM8/217-327 AC A0A094JYM8 #=GS A0A094JYM8/217-327 OS Shewanella mangrovi #=GS A0A094JYM8/217-327 DE DNA mismatch repair protein MutL #=GS A0A094JYM8/217-327 DR GENE3D; 5b58e7781d28e8c27c3f642affb9046b/217-327; #=GS A0A094JYM8/217-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella mangrovi; #=GS A0A178KQ27/217-329 AC A0A178KQ27 #=GS A0A178KQ27/217-329 OS Photobacterium jeanii #=GS A0A178KQ27/217-329 DE DNA mismatch repair protein MutL #=GS A0A178KQ27/217-329 DR GENE3D; 5b5df33e805efacfa8bdf98e8cb99d77/217-329; #=GS A0A178KQ27/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium jeanii; #=GS A0A0Q0E310/1-111 AC A0A0Q0E310 #=GS A0A0Q0E310/1-111 OS Pseudomonas syringae pv. spinaceae #=GS A0A0Q0E310/1-111 DE DNA mismatch repair protein MutL #=GS A0A0Q0E310/1-111 DR GENE3D; 5b6dc23e175c63044ddbb8c3b65d1f99/1-111; #=GS A0A0Q0E310/1-111 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; #=GS A0A117UUD3/224-335 AC A0A117UUD3 #=GS A0A117UUD3/224-335 OS Novosphingobium fuchskuhlense #=GS A0A117UUD3/224-335 DE DNA mismatch repair protein MutL #=GS A0A117UUD3/224-335 DR GENE3D; 5b8f435471fb1d5e9a702ef3f817aea6/224-335; #=GS A0A117UUD3/224-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium fuchskuhlense; #=GS A0A1F4F1X5/213-325 AC A0A1F4F1X5 #=GS A0A1F4F1X5/213-325 OS Betaproteobacteria bacterium RIFCSPLOWO2_12_FULL_68_20 #=GS A0A1F4F1X5/213-325 DE DNA mismatch repair protein MutL #=GS A0A1F4F1X5/213-325 DR GENE3D; 5b9e945bea8d6d5bbbab7cd940d064f8/213-325; #=GS A0A1F4F1X5/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium RIFCSPLOWO2_12_FULL_68_20; #=GS A0A0M9EFC1/233-345 AC A0A0M9EFC1 #=GS A0A0M9EFC1/233-345 OS Shimia sp. SK013 #=GS A0A0M9EFC1/233-345 DE DNA mismatch repair protein MutL #=GS A0A0M9EFC1/233-345 DR GENE3D; 5bb21867320dbeaa3b391a99eedcae52/233-345; #=GS A0A0M9EFC1/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Shimia; Shimia sp. SK013; #=GS A0A0H4VGZ4/214-329 AC A0A0H4VGZ4 #=GS A0A0H4VGZ4/214-329 OS Erythrobacter atlanticus #=GS A0A0H4VGZ4/214-329 DE DNA mismatch repair protein MutL #=GS A0A0H4VGZ4/214-329 DR GENE3D; 5be8629af818a2423402643596d77605/214-329; #=GS A0A0H4VGZ4/214-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter atlanticus; #=GS A0A1L3SV12/215-327 AC A0A1L3SV12 #=GS A0A1L3SV12/215-327 OS Mesorhizobium sp. B7 #=GS A0A1L3SV12/215-327 DE DNA mismatch repair protein MutL #=GS A0A1L3SV12/215-327 DR GENE3D; 5be8898e8277a6f125c18d3a6c160061/215-327; #=GS A0A1L3SV12/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. B7; #=GS A0A085ICM6/217-330 AC A0A085ICM6 #=GS A0A085ICM6/217-330 OS Kluyvera ascorbata ATCC 33433 #=GS A0A085ICM6/217-330 DE DNA mismatch repair protein MutL #=GS A0A085ICM6/217-330 DR GENE3D; 5c4a7d0e2a185879100aef9a7c24e67c/217-330; #=GS A0A085ICM6/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Kluyvera; Kluyvera ascorbata; #=GS A0A1E7TWM1/223-335 AC A0A1E7TWM1 #=GS A0A1E7TWM1/223-335 OS Variovorax boronicumulans #=GS A0A1E7TWM1/223-335 DE DNA mismatch repair protein MutL #=GS A0A1E7TWM1/223-335 DR GENE3D; 5c4fc22ba008e30300cb742428b2a61c/223-335; #=GS A0A1E7TWM1/223-335 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Variovorax; Variovorax boronicumulans; #=GS A0A0B4XS19/218-330 AC A0A0B4XS19 #=GS A0A0B4XS19/218-330 OS Alcanivorax pacificus W11-5 #=GS A0A0B4XS19/218-330 DE DNA mismatch repair protein MutL #=GS A0A0B4XS19/218-330 DR GENE3D; 5ce685217c11320918fe9d45b559a749/218-330; #=GS A0A0B4XS19/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Alcanivoracaceae; Alcanivorax; Alcanivorax pacificus; #=GS M9WZ62/213-324 AC M9WZ62 #=GS M9WZ62/213-324 OS Wolbachia endosymbiont of Drosophila simulans wHa #=GS M9WZ62/213-324 DE DNA mismatch repair protein MutL #=GS M9WZ62/213-324 DR GENE3D; 5d1f89a753129a210f371148da473d00/213-324; #=GS M9WZ62/213-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Anaplasmataceae; Wolbachieae; Wolbachia; Wolbachia endosymbiont of Drosophila simulans; #=GS F9S883/217-329 AC F9S883 #=GS F9S883/217-329 OS Vibrio ichthyoenteri ATCC 700023 #=GS F9S883/217-329 DE DNA mismatch repair protein MutL #=GS F9S883/217-329 DR GENE3D; 5d3fe81923b8f87cb2a31e4257973a25/217-329; #=GS F9S883/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio ichthyoenteri; #=GS B8H173/223-335 AC B8H173 #=GS B8H173/223-335 OS Caulobacter crescentus NA1000 #=GS B8H173/223-335 DE DNA mismatch repair protein MutL #=GS B8H173/223-335 DR GENE3D; 5d4daba075ecd383c47a5cdc037b4df0/223-335; #=GS B8H173/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter vibrioides; #=GS D9Y5R0/219-330 AC D9Y5R0 #=GS D9Y5R0/219-330 OS Burkholderiales bacterium 1_1_47 #=GS D9Y5R0/219-330 DE DNA mismatch repair protein MutL #=GS D9Y5R0/219-330 DR GENE3D; 5d52a5b9f0f8f279dd820a0c48c1fca7/219-330; #=GS D9Y5R0/219-330 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium 1_1_47; #=GS E1SPR4/217-328 AC E1SPR4 #=GS E1SPR4/217-328 OS Ferrimonas balearica DSM 9799 #=GS E1SPR4/217-328 DE DNA mismatch repair protein MutL #=GS E1SPR4/217-328 DR GENE3D; 5d53af83e71ee06881c47f5342b31d2b/217-328; #=GS E1SPR4/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Ferrimonadaceae; Ferrimonas; Ferrimonas balearica; #=GS Q607R3/229-341 AC Q607R3 #=GS Q607R3/229-341 OS Methylococcus capsulatus str. Bath #=GS Q607R3/229-341 DE DNA mismatch repair protein MutL #=GS Q607R3/229-341 DR GENE3D; 5d672ba6f6890d2614741c2eddf46d32/229-341; #=GS Q607R3/229-341 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Methylococcales; Methylococcaceae; Methylococcus; Methylococcus capsulatus; #=GS D0Z0H2/217-329 AC D0Z0H2 #=GS D0Z0H2/217-329 OS Photobacterium damselae subsp. damselae CIP 102761 #=GS D0Z0H2/217-329 DE DNA mismatch repair protein MutL #=GS D0Z0H2/217-329 DR GENE3D; 5dced6c927742867c4edb814a0285cc6/217-329; #=GS D0Z0H2/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium damselae; Photobacterium damselae subsp. damselae; #=GS D0ID31/217-329 AC D0ID31 #=GS D0ID31/217-329 OS Vibrio sp. RC586 #=GS D0ID31/217-329 DE DNA mismatch repair protein MutL #=GS D0ID31/217-329 DR GENE3D; 5dd02e730b65bd542795f6b5815eb03b/217-329; #=GS D0ID31/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. RC586; #=GS Q0I463/217-329 AC Q0I463 #=GS Q0I463/217-329 OS Haemophilus somnus 129PT #=GS Q0I463/217-329 DE DNA mismatch repair protein MutL #=GS Q0I463/217-329 DR GENE3D; 5df02e04a626a6f145e17e3508f88dfc/217-329; #=GS Q0I463/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Histophilus; Histophilus somni; #=GS B9JSD6/212-324 AC B9JSD6 #=GS B9JSD6/212-324 OS Agrobacterium vitis S4 #=GS B9JSD6/212-324 DE DNA mismatch repair protein MutL #=GS B9JSD6/212-324 DR GENE3D; 5df3d7e0af1db67e1c077deec0ffe259/212-324; #=GS B9JSD6/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium vitis; #=GS A0A066TL21/213-325 AC A0A066TL21 #=GS A0A066TL21/213-325 OS Snodgrassella alvi #=GS A0A066TL21/213-325 DE DNA mismatch repair protein MutL #=GS A0A066TL21/213-325 DR GENE3D; 5e4386aa6add90b6da6e4063791e5267/213-325; #=GS A0A066TL21/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Snodgrassella; Snodgrassella alvi; #=GS A0A136GYH4/218-330 AC A0A136GYH4 #=GS A0A136GYH4/218-330 OS Alcanivorax sp. Nap_24 #=GS A0A136GYH4/218-330 DE DNA mismatch repair protein MutL #=GS A0A136GYH4/218-330 DR GENE3D; 5e62966e742cba408e23ca088280c8c4/218-330; #=GS A0A136GYH4/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Alcanivoracaceae; Alcanivorax; Alcanivorax sp. Nap_24; #=GS A0A0Q7TZ50/214-326 AC A0A0Q7TZ50 #=GS A0A0Q7TZ50/214-326 OS Pseudolabrys sp. Root1462 #=GS A0A0Q7TZ50/214-326 DE DNA mismatch repair protein MutL #=GS A0A0Q7TZ50/214-326 DR GENE3D; 5e84d829b8a8910f2bf457e4be324c40/214-326; #=GS A0A0Q7TZ50/214-326 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Xanthobacteraceae; Pseudolabrys; Pseudolabrys sp. Root1462; #=GS A0A1G2WEQ6/215-328 AC A0A1G2WEQ6 #=GS A0A1G2WEQ6/215-328 OS Desulfuromonadaceae bacterium GWC2_58_13 #=GS A0A1G2WEQ6/215-328 DE DNA mismatch repair protein MutL #=GS A0A1G2WEQ6/215-328 DR GENE3D; 5ea90d971ce16b5b413e11681dd7220f/215-328; #=GS A0A1G2WEQ6/215-328 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Desulfuromonadaceae; Desulfuromonadaceae bacterium GWC2_58_13; #=GS A0A1M3I2V8/220-329 AC A0A1M3I2V8 #=GS A0A1M3I2V8/220-329 OS Sphingomonadales bacterium 63-6 #=GS A0A1M3I2V8/220-329 DE DNA mismatch repair protein MutL #=GS A0A1M3I2V8/220-329 DR GENE3D; 5eb49e2bce39818752afd1d2289da888/220-329; #=GS A0A1M3I2V8/220-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadales bacterium 63-6; #=GS G4MAH9/234-345 AC G4MAH9 #=GS G4MAH9/234-345 OS Candidatus Paraburkholderia kirkii UZHbot1 #=GS G4MAH9/234-345 DE DNA mismatch repair protein MutL #=GS G4MAH9/234-345 DR GENE3D; 5ee3056e55b84c29e7613d4607660786/234-345; #=GS G4MAH9/234-345 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Paraburkholderia; Candidatus Paraburkholderia kirkii; #=GS J2KPV6/220-340 AC J2KPV6 #=GS J2KPV6/220-340 OS Polaromonas sp. CF318 #=GS J2KPV6/220-340 DE DNA mismatch repair protein MutL #=GS J2KPV6/220-340 DR GENE3D; 5f008547bba09e493ee79345b336d841/220-340; #=GS J2KPV6/220-340 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Polaromonas; Polaromonas sp. CF318; #=GS A0A178MWW2/218-330 AC A0A178MWW2 #=GS A0A178MWW2/218-330 OS Magnetospirillum moscoviense #=GS A0A178MWW2/218-330 DE DNA mismatch repair protein MutL #=GS A0A178MWW2/218-330 DR GENE3D; 5f1cb34590a73dff268ae899c00717b9/218-330; #=GS A0A178MWW2/218-330 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetospirillum; Magnetospirillum moscoviense; #=GS A0A1M5EI90/219-331 AC A0A1M5EI90 #=GS A0A1M5EI90/219-331 OS Microbulbifer donghaiensis #=GS A0A1M5EI90/219-331 DE DNA mismatch repair protein MutL #=GS A0A1M5EI90/219-331 DR GENE3D; 5f26f475c4a39756d10bd98eacdb58b2/219-331; #=GS A0A1M5EI90/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Microbulbiferaceae; Microbulbifer; Microbulbifer donghaiensis; #=GS M1F9C1/218-330 AC M1F9C1 #=GS M1F9C1/218-330 OS Marinobacter sp. BSs20148 #=GS M1F9C1/218-330 DE DNA mismatch repair protein MutL #=GS M1F9C1/218-330 DR GENE3D; 5f2a1df2beb258ccb2c58cf2bd3b869b/218-330; #=GS M1F9C1/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter sp. BSs20148; #=GS A0A1B3N224/212-323 AC A0A1B3N224 #=GS A0A1B3N224/212-323 OS Blastomonas sp. RAC04 #=GS A0A1B3N224/212-323 DE DNA mismatch repair protein MutL #=GS A0A1B3N224/212-323 DR GENE3D; 5f476b2f9c3678f85c1b74be4eb09a92/212-323; #=GS A0A1B3N224/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Blastomonas; Blastomonas sp. RAC04; #=GS W0SGN1/210-322 AC W0SGN1 #=GS W0SGN1/210-322 OS Sulfuritalea hydrogenivorans sk43H #=GS W0SGN1/210-322 DE DNA mismatch repair protein MutL #=GS W0SGN1/210-322 DR GENE3D; 600da71102c0585b604ec7bcc8d97d38/210-322; #=GS W0SGN1/210-322 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Sulfuritalea; Sulfuritalea hydrogenivorans; #=GS A0A0C1YSG9/234-346 AC A0A0C1YSG9 #=GS A0A0C1YSG9/234-346 OS Herbaspirillum sp. TSA66 #=GS A0A0C1YSG9/234-346 DE DNA mismatch repair protein MutL #=GS A0A0C1YSG9/234-346 DR GENE3D; 60165920c8d584606b07b38e429fe887/234-346; #=GS A0A0C1YSG9/234-346 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Herbaspirillum; Herbaspirillum sp. TSA66; #=GS A0A1F2YNV0/217-329 AC A0A1F2YNV0 #=GS A0A1F2YNV0/217-329 OS Alphaproteobacteria bacterium GWF2_58_20 #=GS A0A1F2YNV0/217-329 DE DNA mismatch repair protein MutL #=GS A0A1F2YNV0/217-329 DR GENE3D; 603b976084c43eed6c0fa01eddb3a977/217-329; #=GS A0A1F2YNV0/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Alphaproteobacteria bacterium GWF2_58_20; #=GS A0A0N8T5E8/237-349 AC A0A0N8T5E8 #=GS A0A0N8T5E8/237-349 OS Pseudomonas syringae pv. tomato #=GS A0A0N8T5E8/237-349 DE DNA mismatch repair protein MutL #=GS A0A0N8T5E8/237-349 DR GENE3D; 603db5c66cb4796b5420d4c0a6fe73ed/237-349; #=GS A0A0N8T5E8/237-349 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 3; #=GS A0A1F9II41/217-329 AC A0A1F9II41 #=GS A0A1F9II41/217-329 OS Deltaproteobacteria bacterium RIFCSPLOWO2_02_FULL_50_16 #=GS A0A1F9II41/217-329 DE DNA mismatch repair protein MutL #=GS A0A1F9II41/217-329 DR GENE3D; 6059e82fd99bbb7dab2d2b9e24db6472/217-329; #=GS A0A1F9II41/217-329 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium RIFCSPLOWO2_02_FULL_50_16; #=GS A0A084UD93/220-332 AC A0A084UD93 #=GS A0A084UD93/220-332 OS Nitratireductor basaltis #=GS A0A084UD93/220-332 DE DNA mismatch repair protein MutL #=GS A0A084UD93/220-332 DR GENE3D; 609f2885d24d1bf582b358ce1e98d445/220-332; #=GS A0A084UD93/220-332 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Nitratireductor; Nitratireductor basaltis; #=GS A0A1C2EAV7/215-327 AC A0A1C2EAV7 #=GS A0A1C2EAV7/215-327 OS Mesorhizobium sp. UASWS1009 #=GS A0A1C2EAV7/215-327 DE DNA mismatch repair protein MutL #=GS A0A1C2EAV7/215-327 DR GENE3D; 60a47626e2b33a833b59ae932f044419/215-327; #=GS A0A1C2EAV7/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. UASWS1009; #=GS A0A172YE68/233-345 AC A0A172YE68 #=GS A0A172YE68/233-345 OS Halotalea alkalilenta #=GS A0A172YE68/233-345 DE DNA mismatch repair protein MutL #=GS A0A172YE68/233-345 DR GENE3D; 60ab0fe3b2a3a32f8f543a01703f379d/233-345; #=GS A0A172YE68/233-345 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halotalea; Halotalea alkalilenta; #=GS A0A095D3I2/212-322 AC A0A095D3I2 #=GS A0A095D3I2/212-322 OS Sphingopyxis sp. LC363 #=GS A0A095D3I2/212-322 DE DNA mismatch repair protein MutL #=GS A0A095D3I2/212-322 DR GENE3D; 60ba56512a8b933feb90cf982423921f/212-322; #=GS A0A095D3I2/212-322 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. LC363; #=GS A0A085TTJ8/233-345 AC A0A085TTJ8 #=GS A0A085TTJ8/233-345 OS Thioclava atlantica #=GS A0A085TTJ8/233-345 DE DNA mismatch repair protein MutL #=GS A0A085TTJ8/233-345 DR GENE3D; 60d41e877948c293c12e75f108fe76db/233-345; #=GS A0A085TTJ8/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Thioclava; Thioclava atlantica; #=GS A0A1C3JTB7/218-330 AC A0A1C3JTB7 #=GS A0A1C3JTB7/218-330 OS Marinomonas gallaica #=GS A0A1C3JTB7/218-330 DE DNA mismatch repair protein MutL #=GS A0A1C3JTB7/218-330 DR GENE3D; 60ee4ce15ed5b6d9a26f31a0330901d2/218-330; #=GS A0A1C3JTB7/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Marinomonas; Marinomonas gallaica; #=GS A6X3F3/215-327 AC A6X3F3 #=GS A6X3F3/215-327 OS Ochrobactrum anthropi ATCC 49188 #=GS A6X3F3/215-327 DE DNA mismatch repair protein MutL #=GS A6X3F3/215-327 DR GENE3D; 60f816ca5f1ff27059e4ef4bf75257f0/215-327; #=GS A6X3F3/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Ochrobactrum; Ochrobactrum anthropi; #=GS A0A1B5EQJ5/226-338 AC A0A1B5EQJ5 #=GS A0A1B5EQJ5/226-338 OS Pseudomonas sp. 22 E 5 #=GS A0A1B5EQJ5/226-338 DE DNA mismatch repair protein MutL #=GS A0A1B5EQJ5/226-338 DR GENE3D; 60f856f7ea6423d61fa59e6f9397d81f/226-338; #=GS A0A1B5EQJ5/226-338 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 22 E 5; #=GS A0A0S8A187/224-336 AC A0A0S8A187 #=GS A0A0S8A187/224-336 OS Gammaproteobacteria bacterium SG8_15 #=GS A0A0S8A187/224-336 DE DNA mismatch repair protein MutL #=GS A0A0S8A187/224-336 DR GENE3D; 6139e82375e1269a7e01d01394bcc145/224-336; #=GS A0A0S8A187/224-336 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium SG8_15; #=GS A0A086P5J3/212-323 AC A0A086P5J3 #=GS A0A086P5J3/212-323 OS Sphingobium herbicidovorans NBRC 16415 #=GS A0A086P5J3/212-323 DE DNA mismatch repair protein MutL #=GS A0A086P5J3/212-323 DR GENE3D; 6180ec0ec060d59e1f9945437f51ca9c/212-323; #=GS A0A086P5J3/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium herbicidovorans; #=GS D5ALH5/232-344 AC D5ALH5 #=GS D5ALH5/232-344 OS Rhodobacter capsulatus SB 1003 #=GS D5ALH5/232-344 DE DNA mismatch repair protein MutL #=GS D5ALH5/232-344 DR GENE3D; 61a41fd4b2235fffb418b3b6167edd4d/232-344; #=GS D5ALH5/232-344 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter capsulatus; #=GS L0M9W3/217-329 AC L0M9W3 #=GS L0M9W3/217-329 OS Serratia marcescens FGI94 #=GS L0M9W3/217-329 DE DNA mismatch repair protein MutL #=GS L0M9W3/217-329 DR GENE3D; 61bf23c45df536b2b529997da064bf00/217-329; #=GS L0M9W3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia marcescens; #=GS F1Z910/223-335 AC F1Z910 #=GS F1Z910/223-335 OS Novosphingobium nitrogenifigens DSM 19370 #=GS F1Z910/223-335 DE DNA mismatch repair protein MutL #=GS F1Z910/223-335 DR GENE3D; 61d77acaabd327e435bfd467518d332f/223-335; #=GS F1Z910/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium nitrogenifigens; #=GS A0A1D2S1H8/232-344 AC A0A1D2S1H8 #=GS A0A1D2S1H8/232-344 OS Acidovorax sp. SCN 68-22 #=GS A0A1D2S1H8/232-344 DE DNA mismatch repair protein MutL #=GS A0A1D2S1H8/232-344 DR GENE3D; 61daecd8db84e8e11e4062c01beb054b/232-344; #=GS A0A1D2S1H8/232-344 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax sp. SCN 68-22; #=GS A0A120GD00/213-325 AC A0A120GD00 #=GS A0A120GD00/213-325 OS Erythrobacter sp. AP23 #=GS A0A120GD00/213-325 DE DNA mismatch repair protein MutL #=GS A0A120GD00/213-325 DR GENE3D; 620f4d10ba1c33144d703f28d5a21d9b/213-325; #=GS A0A120GD00/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. AP23; #=GS A0A071MCC5/217-330 AC A0A071MCC5 #=GS A0A071MCC5/217-330 OS Mangrovibacter sp. MFB070 #=GS A0A071MCC5/217-330 DE DNA mismatch repair protein MutL #=GS A0A071MCC5/217-330 DR GENE3D; 62161a2286b3ead775ba8887c17bf10c/217-330; #=GS A0A071MCC5/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Mangrovibacter; Mangrovibacter sp. MFB070; #=GS A0A0A6PFP3/223-335 AC A0A0A6PFP3 #=GS A0A0A6PFP3/223-335 OS Candidatus Thiomargarita nelsonii #=GS A0A0A6PFP3/223-335 DE DNA mismatch repair protein MutL #=GS A0A0A6PFP3/223-335 DR GENE3D; 622105d7f2a9a6da06c118236d08275a/223-335; #=GS A0A0A6PFP3/223-335 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Thiotrichaceae; Thiomargarita; Candidatus Thiomargarita nelsonii; #=GS A0KSR5/217-327 AC A0KSR5 #=GS A0KSR5/217-327 OS Shewanella sp. ANA-3 #=GS A0KSR5/217-327 DE DNA mismatch repair protein MutL #=GS A0KSR5/217-327 DR GENE3D; 623e245fdb825ea8cf6e2209cac25508/217-327; #=GS A0KSR5/217-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella sp. ANA-3; #=GS A0A0S2F9H2/219-331 AC A0A0S2F9H2 #=GS A0A0S2F9H2/219-331 OS Lysobacter antibioticus #=GS A0A0S2F9H2/219-331 DE DNA mismatch repair protein MutL #=GS A0A0S2F9H2/219-331 DR GENE3D; 625b58fac3f2158535950e118deb88e8/219-331; #=GS A0A0S2F9H2/219-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter antibioticus; #=GS A0A0G3I8B2/214-326 AC A0A0G3I8B2 #=GS A0A0G3I8B2/214-326 OS Candidatus Liberibacter africanus PTSAPSY #=GS A0A0G3I8B2/214-326 DE DNA mismatch repair protein MutL #=GS A0A0G3I8B2/214-326 DR GENE3D; 62764d19f6b1b168799c936f68de1565/214-326; #=GS A0A0G3I8B2/214-326 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Liberibacter; Candidatus Liberibacter africanus; #=GS A0A084A338/217-329 AC A0A084A338 #=GS A0A084A338/217-329 OS Serratia sp. DD3 #=GS A0A084A338/217-329 DE DNA mismatch repair protein MutL #=GS A0A084A338/217-329 DR GENE3D; 6282673c8187bcc56a5d52d9b5a8bb2b/217-329; #=GS A0A084A338/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia sp. DD3; #=GS A0A1E5C4Y4/217-329 AC A0A1E5C4Y4 #=GS A0A1E5C4Y4/217-329 OS Enterovibrio norvegicus FF-454 #=GS A0A1E5C4Y4/217-329 DE DNA mismatch repair protein MutL #=GS A0A1E5C4Y4/217-329 DR GENE3D; 628816f197f0763cee8b47741ad8bdd5/217-329; #=GS A0A1E5C4Y4/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Enterovibrio; Enterovibrio norvegicus; #=GS U2WS32/232-348 AC U2WS32 #=GS U2WS32/232-348 OS alpha proteobacterium RS24 #=GS U2WS32/232-348 DE DNA mismatch repair protein MutL #=GS U2WS32/232-348 DR GENE3D; 62afbbd0d4d7bbd5fe00cf5c5780fd25/232-348; #=GS U2WS32/232-348 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; alpha proteobacterium RS24; #=GS D3HP70/217-329 AC D3HP70 #=GS D3HP70/217-329 OS Legionella longbeachae NSW150 #=GS D3HP70/217-329 DE DNA mismatch repair protein MutL #=GS D3HP70/217-329 DR GENE3D; 62c3e132add86fdcd96858ed86addbd6/217-329; #=GS D3HP70/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella longbeachae; #=GS A0A1H5VSP3/210-322 AC A0A1H5VSP3 #=GS A0A1H5VSP3/210-322 OS Thauera chlorobenzoica #=GS A0A1H5VSP3/210-322 DE DNA mismatch repair protein MutL #=GS A0A1H5VSP3/210-322 DR GENE3D; 62d53dccff7ea0da8b00176d81c7b38b/210-322; #=GS A0A1H5VSP3/210-322 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Thauera; Thauera chlorobenzoica; #=GS A0A161XUS0/216-325 AC A0A161XUS0 #=GS A0A161XUS0/216-325 OS Pseudoalteromonas luteoviolacea DSM 6061 #=GS A0A161XUS0/216-325 DE DNA mismatch repair protein MutL #=GS A0A161XUS0/216-325 DR GENE3D; 62dc57ab12512b2e86b1ae929efa3166/216-325; #=GS A0A161XUS0/216-325 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas luteoviolacea; #=GS D8PIF6/221-332 AC D8PIF6 #=GS D8PIF6/221-332 OS Nitrospira defluvii #=GS D8PIF6/221-332 DE DNA mismatch repair protein MutL #=GS D8PIF6/221-332 DR GENE3D; 62eb14ef663691472e9ed75648065a15/221-332; #=GS D8PIF6/221-332 DR ORG; Bacteria; Nitrospirae; Nitrospira; Nitrospirales; Nitrospiraceae; Nitrospira; Nitrospira defluvii; #=GS A0A1H1Z8Y2/221-333 AC A0A1H1Z8Y2 #=GS A0A1H1Z8Y2/221-333 OS Pseudomonas oryzae #=GS A0A1H1Z8Y2/221-333 DE DNA mismatch repair protein MutL #=GS A0A1H1Z8Y2/221-333 DR GENE3D; 63107cfd2962e7c293f601c1b58aacde/221-333; #=GS A0A1H1Z8Y2/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas oryzae; #=GS A0A0Q4IAC2/212-323 AC A0A0Q4IAC2 #=GS A0A0Q4IAC2/212-323 OS Sphingobium sp. Leaf26 #=GS A0A0Q4IAC2/212-323 DE DNA mismatch repair protein MutL #=GS A0A0Q4IAC2/212-323 DR GENE3D; 6333bd2ba9ea68016cfee456fc3ab3f7/212-323; #=GS A0A0Q4IAC2/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. Leaf26; #=GS A0A0M7B5P0/226-338 AC A0A0M7B5P0 #=GS A0A0M7B5P0/226-338 OS Jannaschia seosinensis #=GS A0A0M7B5P0/226-338 DE DNA mismatch repair protein MutL #=GS A0A0M7B5P0/226-338 DR GENE3D; 63484155beea3a716806f4f8513c8e10/226-338; #=GS A0A0M7B5P0/226-338 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Jannaschia; Jannaschia seosinensis; #=GS A0A1K2HD79/214-325 AC A0A1K2HD79 #=GS A0A1K2HD79/214-325 OS Chitinimonas taiwanensis DSM 18899 #=GS A0A1K2HD79/214-325 DE DNA mismatch repair protein MutL #=GS A0A1K2HD79/214-325 DR GENE3D; 63532259ea5dde700a22b7ecbf86177b/214-325; #=GS A0A1K2HD79/214-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Chitinimonas; Chitinimonas taiwanensis; #=GS U3AUE3/223-335 AC U3AUE3 #=GS U3AUE3/223-335 OS Brevundimonas abyssalis TAR-001 #=GS U3AUE3/223-335 DE DNA mismatch repair protein MutL #=GS U3AUE3/223-335 DR GENE3D; 6367f332ba9483e776f1bac18eef9b87/223-335; #=GS U3AUE3/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas abyssalis; #=GS A0A1G3BKJ3/214-326 AC A0A1G3BKJ3 #=GS A0A1G3BKJ3/214-326 OS Planctomycetes bacterium RIFCSPLOWO2_02_FULL_50_16 #=GS A0A1G3BKJ3/214-326 DE DNA mismatch repair protein MutL #=GS A0A1G3BKJ3/214-326 DR GENE3D; 63950e1df835753746c03779144bccb5/214-326; #=GS A0A1G3BKJ3/214-326 DR ORG; Bacteria; Planctomycetes; Planctomycetes bacterium RIFCSPLOWO2_02_FULL_50_16; #=GS K1ZU95/215-327 AC K1ZU95 #=GS K1ZU95/215-327 OS groundwater metagenome #=GS K1ZU95/215-327 DE Uncharacterized protein #=GS K1ZU95/215-327 DR GENE3D; 63984bfb58be64ae184d5d61688acda1/215-327; #=GS K1ZU95/215-327 DR ORG; groundwater metagenome; #=GS U3U2A9/218-330 AC U3U2A9 #=GS U3U2A9/218-330 OS Candidatus Pantoea carbekii #=GS U3U2A9/218-330 DE DNA mismatch repair protein MutL #=GS U3U2A9/218-330 DR GENE3D; 63d0a9fcf2c78f2a966ef0c5273e4e4c/218-330; #=GS U3U2A9/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Candidatus Pantoea carbekii; #=GS A0A1B9SND2/212-324 AC A0A1B9SND2 #=GS A0A1B9SND2/212-324 OS Rhizobium sp. AC44/96 #=GS A0A1B9SND2/212-324 DE DNA mismatch repair protein MutL #=GS A0A1B9SND2/212-324 DR GENE3D; 63decf49541354ef03d2ccfc37ad336e/212-324; #=GS A0A1B9SND2/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. AC44/96; #=GS D5RHC1/212-324 AC D5RHC1 #=GS D5RHC1/212-324 OS Roseomonas cervicalis ATCC 49957 #=GS D5RHC1/212-324 DE DNA mismatch repair domain protein #=GS D5RHC1/212-324 DR GENE3D; 6481b3bb4b9d871b3dc3a865281a63f5/212-324; #=GS D5RHC1/212-324 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Roseomonas; Roseomonas cervicalis; #=GS A0A1J0RXF2/216-328 AC A0A1J0RXF2 #=GS A0A1J0RXF2/216-328 OS Alteromonas sp. Mex14 #=GS A0A1J0RXF2/216-328 DE DNA mismatch repair protein MutL #=GS A0A1J0RXF2/216-328 DR GENE3D; 648b40af118de101fe8fa12c2fec6075/216-328; #=GS A0A1J0RXF2/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas sp. Mex14; #=GS C5TB34/230-342 AC C5TB34 #=GS C5TB34/230-342 OS Acidovorax delafieldii 2AN #=GS C5TB34/230-342 DE DNA mismatch repair protein MutL #=GS C5TB34/230-342 DR GENE3D; 648d52401460d50ac5d549cdae5990eb/230-342; #=GS C5TB34/230-342 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax delafieldii; #=GS A0A0P9F8M3/224-336 AC A0A0P9F8M3 #=GS A0A0P9F8M3/224-336 OS Variovorax paradoxus #=GS A0A0P9F8M3/224-336 DE DNA mismatch repair protein MutL #=GS A0A0P9F8M3/224-336 DR GENE3D; 64dda977c44fc431d509d3026fc131ee/224-336; #=GS A0A0P9F8M3/224-336 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Variovorax; Variovorax paradoxus; #=GS Q2NW65/217-328 AC Q2NW65 #=GS Q2NW65/217-328 OS Sodalis glossinidius str. 'morsitans' #=GS Q2NW65/217-328 DE DNA mismatch repair protein MutL #=GS Q2NW65/217-328 DR GENE3D; 65096afe60f0ec09812b817073721fdf/217-328; #=GS Q2NW65/217-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Sodalis; Sodalis glossinidius; #=GS X7E332/218-330 AC X7E332 #=GS X7E332/218-330 OS Marinomonas ushuaiensis DSM 15871 #=GS X7E332/218-330 DE DNA mismatch repair protein MutL #=GS X7E332/218-330 DR GENE3D; 651bc7ecb3fed89363812d7974bd3d62/218-330; #=GS X7E332/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Marinomonas; Marinomonas ushuaiensis; #=GS F5T158/216-328 AC F5T158 #=GS F5T158/216-328 OS Methylophaga aminisulfidivorans MP #=GS F5T158/216-328 DE DNA mismatch repair protein MutL #=GS F5T158/216-328 DR GENE3D; 652dd400357564a2dd761bee9dc5f72d/216-328; #=GS F5T158/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Methylophaga; Methylophaga aminisulfidivorans; #=GS A0A1D2X683/218-330 AC A0A1D2X683 #=GS A0A1D2X683/218-330 OS Endozoicomonas sp. (ex Bugula neritina AB1) #=GS A0A1D2X683/218-330 DE DNA mismatch repair protein MutL #=GS A0A1D2X683/218-330 DR GENE3D; 658f407760ba107206e97f3c619cb182/218-330; #=GS A0A1D2X683/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Hahellaceae; Endozoicomonas; Endozoicomonas sp. (ex Bugula neritina AB1); #=GS A0A0F5V857/217-329 AC A0A0F5V857 #=GS A0A0F5V857/217-329 OS Photobacterium halotolerans #=GS A0A0F5V857/217-329 DE DNA mismatch repair protein MutL #=GS A0A0F5V857/217-329 DR GENE3D; 65b36cbad7a184dfcf3e64ca874cc349/217-329; #=GS A0A0F5V857/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium halotolerans; #=GS A0A0D3LIT7/214-326 AC A0A0D3LIT7 #=GS A0A0D3LIT7/214-326 OS Flammeovirgaceae bacterium 311 #=GS A0A0D3LIT7/214-326 DE DNA mismatch repair protein MutL #=GS A0A0D3LIT7/214-326 DR GENE3D; 65b7d770334d656f61bb66178fc77c16/214-326; #=GS A0A0D3LIT7/214-326 DR ORG; Bacteria; Bacteroidetes; Cytophagia; Cytophagales; Flammeovirgaceae; Flammeovirgaceae bacterium 311; #=GS A0A1M4W2F2/213-325 AC A0A1M4W2F2 #=GS A0A1M4W2F2/213-325 OS Kaistia soli DSM 19436 #=GS A0A1M4W2F2/213-325 DE DNA mismatch repair protein MutL #=GS A0A1M4W2F2/213-325 DR GENE3D; 65bf6a66a5abad4e734e98d5b698086c/213-325; #=GS A0A1M4W2F2/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Kaistia; Kaistia soli; #=GS A0A1G0J196/217-329 AC A0A1G0J196 #=GS A0A1G0J196/217-329 OS Gammaproteobacteria bacterium RIFCSPLOWO2_02_FULL_38_11 #=GS A0A1G0J196/217-329 DE DNA mismatch repair protein MutL #=GS A0A1G0J196/217-329 DR GENE3D; 660e2ac12b720d6872d378c5fd0687b9/217-329; #=GS A0A1G0J196/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPLOWO2_02_FULL_38_11; #=GS A0A1G0FFZ9/217-329 AC A0A1G0FFZ9 #=GS A0A1G0FFZ9/217-329 OS Gammaproteobacteria bacterium RIFCSPHIGHO2_12_38_15 #=GS A0A1G0FFZ9/217-329 DE DNA mismatch repair protein MutL #=GS A0A1G0FFZ9/217-329 DR GENE3D; 660e2ac12b720d6872d378c5fd0687b9/217-329; #=GS A0A1G0FFZ9/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPHIGHO2_12_38_15; #=GS A0A099PDM5/225-339 AC A0A099PDM5 #=GS A0A099PDM5/225-339 OS Nitrincola sp. A-D6 #=GS A0A099PDM5/225-339 DE DNA mismatch repair protein MutL #=GS A0A099PDM5/225-339 DR GENE3D; 66157b3ef4d622ffcf36150b670854a6/225-339; #=GS A0A099PDM5/225-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Nitrincola; Nitrincola sp. A-D6; #=GS K2JHU7/217-329 AC K2JHU7 #=GS K2JHU7/217-329 OS Oceanibaculum indicum P24 #=GS K2JHU7/217-329 DE DNA mismatch repair protein MutL #=GS K2JHU7/217-329 DR GENE3D; 66171a74ab2c1dceb85389142ab29b22/217-329; #=GS K2JHU7/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Oceanibaculum; Oceanibaculum indicum; #=GS A0A1M5YS85/213-325 AC A0A1M5YS85 #=GS A0A1M5YS85/213-325 OS Candidimonas bauzanensis #=GS A0A1M5YS85/213-325 DE DNA mismatch repair protein MutL #=GS A0A1M5YS85/213-325 DR GENE3D; 664b0430e82bfa2a2abe8dbfdf26fc25/213-325; #=GS A0A1M5YS85/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Candidimonas; Candidimonas bauzanensis; #=GS A0A147GWZ8/222-334 AC A0A147GWZ8 #=GS A0A147GWZ8/222-334 OS Pseudacidovorax intermedius #=GS A0A147GWZ8/222-334 DE DNA mismatch repair protein MutL #=GS A0A147GWZ8/222-334 DR GENE3D; 66578fffb9c136ed128944d34c8d372a/222-334; #=GS A0A147GWZ8/222-334 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Pseudacidovorax; Pseudacidovorax intermedius; #=GS Q0K777/225-337 AC Q0K777 #=GS Q0K777/225-337 OS Ralstonia eutropha H16 #=GS Q0K777/225-337 DE DNA mismatch repair protein MutL #=GS Q0K777/225-337 DR GENE3D; 669f0ac89b5339025ac857ebfdebcfc0/225-337; #=GS Q0K777/225-337 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Cupriavidus; Cupriavidus necator; #=GS A0A0S8FL57/216-328 AC A0A0S8FL57 #=GS A0A0S8FL57/216-328 OS Gammaproteobacteria bacterium SG8_31 #=GS A0A0S8FL57/216-328 DE DNA mismatch repair protein MutL #=GS A0A0S8FL57/216-328 DR GENE3D; 671d15f26448dae2db53d7f4512b5ae1/216-328; #=GS A0A0S8FL57/216-328 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium SG8_31; #=GS A9BN65/228-340 AC A9BN65 #=GS A9BN65/228-340 OS Delftia acidovorans SPH-1 #=GS A9BN65/228-340 DE DNA mismatch repair protein MutL #=GS A9BN65/228-340 DR GENE3D; 6752d0718e37c86435d77effc1651d94/228-340; #=GS A9BN65/228-340 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Delftia; Delftia acidovorans; #=GS A0A1B6YR93/233-345 AC A0A1B6YR93 #=GS A0A1B6YR93/233-345 OS Rhodobacteraceae bacterium EhC02 #=GS A0A1B6YR93/233-345 DE DNA mismatch repair protein MutL #=GS A0A1B6YR93/233-345 DR GENE3D; 675d2ae95b54fddefe1a2614ed2d9e57/233-345; #=GS A0A1B6YR93/233-345 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacteraceae bacterium EhC02; #=GS A0A0F9K7E4/145-256 AC A0A0F9K7E4 #=GS A0A0F9K7E4/145-256 OS marine sediment metagenome #=GS A0A0F9K7E4/145-256 DE Uncharacterized protein #=GS A0A0F9K7E4/145-256 DR GENE3D; 676e9bec26e7a4b2ccb4ca7ccb93bd0c/145-256; #=GS A0A0F9K7E4/145-256 DR ORG; marine sediment metagenome; #=GS A0A1F4J4M2/251-359 AC A0A1F4J4M2 #=GS A0A1F4J4M2/251-359 OS Burkholderiales bacterium RIFCSPLOWO2_02_FULL_67_64 #=GS A0A1F4J4M2/251-359 DE DNA mismatch repair protein MutL #=GS A0A1F4J4M2/251-359 DR GENE3D; 6775c4bd33d5e55569508f53f335df07/251-359; #=GS A0A1F4J4M2/251-359 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium RIFCSPLOWO2_02_FULL_67_64; #=GS A0A0W0ZHH7/217-329 AC A0A0W0ZHH7 #=GS A0A0W0ZHH7/217-329 OS Legionella steelei #=GS A0A0W0ZHH7/217-329 DE DNA mismatch repair protein MutL #=GS A0A0W0ZHH7/217-329 DR GENE3D; 67940299ad39896b7da42037878f0c3f/217-329; #=GS A0A0W0ZHH7/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella steelei; #=GS A0A1E4DUQ9/215-327 AC A0A1E4DUQ9 #=GS A0A1E4DUQ9/215-327 OS Pelagibacterium sp. SCN 63-126 #=GS A0A1E4DUQ9/215-327 DE DNA mismatch repair protein MutL #=GS A0A1E4DUQ9/215-327 DR GENE3D; 67c9cb814c875b06bfbecba219f455cd/215-327; #=GS A0A1E4DUQ9/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Pelagibacterium; Pelagibacterium sp. SCN 63-126; #=GS A0A1M3K5U4/215-327 AC A0A1M3K5U4 #=GS A0A1M3K5U4/215-327 OS Devosia sp. 63-57 #=GS A0A1M3K5U4/215-327 DE DNA mismatch repair protein MutL #=GS A0A1M3K5U4/215-327 DR GENE3D; 67c9cb814c875b06bfbecba219f455cd/215-327; #=GS A0A1M3K5U4/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. 63-57; #=GS A0A1L3ZSH9/211-322 AC A0A1L3ZSH9 #=GS A0A1L3ZSH9/211-322 OS Sphingomonas sp. JJ-A5 #=GS A0A1L3ZSH9/211-322 DE DNA mismatch repair protein MutL #=GS A0A1L3ZSH9/211-322 DR GENE3D; 67ec5a5a2116c9f4adb51dd23f8561ac/211-322; #=GS A0A1L3ZSH9/211-322 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. JJ-A5; #=GS A0A1M6E8A2/217-329 AC A0A1M6E8A2 #=GS A0A1M6E8A2/217-329 OS Vibrio aerogenes CECT 7868 #=GS A0A1M6E8A2/217-329 DE DNA mismatch repair protein MutL #=GS A0A1M6E8A2/217-329 DR GENE3D; 68074ce13bab9eb7fab45e76e4ba7a8e/217-329; #=GS A0A1M6E8A2/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio aerogenes; #=GS A0A0X3TGD3/224-336 AC A0A0X3TGD3 #=GS A0A0X3TGD3/224-336 OS Thiomicrospira sp. WB1 #=GS A0A0X3TGD3/224-336 DE DNA mismatch repair protein MutL #=GS A0A0X3TGD3/224-336 DR GENE3D; 68493134ca55e26e53e7a66040e66385/224-336; #=GS A0A0X3TGD3/224-336 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Thiomicrospira; Thiomicrospira sp. WB1; #=GS A0A0Q6KJ99/212-323 AC A0A0Q6KJ99 #=GS A0A0Q6KJ99/212-323 OS Sphingomonas sp. Leaf339 #=GS A0A0Q6KJ99/212-323 DE DNA mismatch repair protein MutL #=GS A0A0Q6KJ99/212-323 DR GENE3D; 68b6bc5c4d1ee9961d330276374e8dbb/212-323; #=GS A0A0Q6KJ99/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf339; #=GS A3K2D9/229-341 AC A3K2D9 #=GS A3K2D9/229-341 OS Sagittula stellata E-37 #=GS A3K2D9/229-341 DE DNA mismatch repair protein MutL #=GS A3K2D9/229-341 DR GENE3D; 68c2aa2603f859c800ef9140233eb97c/229-341; #=GS A3K2D9/229-341 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Sagittula; Sagittula stellata; #=GS A0A0D6TBU5/229-341 AC A0A0D6TBU5 #=GS A0A0D6TBU5/229-341 OS Paracoccus sp. 228 #=GS A0A0D6TBU5/229-341 DE DNA mismatch repair protein MutL #=GS A0A0D6TBU5/229-341 DR GENE3D; 68d48403aa86c036cfef8c1483574ba1/229-341; #=GS A0A0D6TBU5/229-341 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus sp. 228; #=GS A0A0B4Y4D9/218-330 AC A0A0B4Y4D9 #=GS A0A0B4Y4D9/218-330 OS Thalassospira xiamenensis M-5 = DSM 17429 #=GS A0A0B4Y4D9/218-330 DE DNA mismatch repair protein MutL #=GS A0A0B4Y4D9/218-330 DR GENE3D; 68dce6c5012c09c3d18fecda00c53232/218-330; #=GS A0A0B4Y4D9/218-330 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira xiamenensis; #=GS A0A1J5IG69/228-340 AC A0A1J5IG69 #=GS A0A1J5IG69/228-340 OS Thiomicrospira sp. CG2_30_44_34 #=GS A0A1J5IG69/228-340 DE DNA mismatch repair protein MutL #=GS A0A1J5IG69/228-340 DR GENE3D; 68de1770984706c62f29d77d4abdc2b9/228-340; #=GS A0A1J5IG69/228-340 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Thiomicrospira; Thiomicrospira sp. CG2_30_44_34; #=GS A0A0W0Y0R0/211-323 AC A0A0W0Y0R0 #=GS A0A0W0Y0R0/211-323 OS Legionella quinlivanii #=GS A0A0W0Y0R0/211-323 DE DNA mismatch repair protein MutL #=GS A0A0W0Y0R0/211-323 DR GENE3D; 6902607702a85565ba0baa390620f10b/211-323; #=GS A0A0W0Y0R0/211-323 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella quinlivanii; #=GS A0A1H5RTI7/211-323 AC A0A1H5RTI7 #=GS A0A1H5RTI7/211-323 OS Legionella quinlivanii DSM 21216 #=GS A0A1H5RTI7/211-323 DE DNA mismatch repair protein MutL #=GS A0A1H5RTI7/211-323 DR GENE3D; 6902607702a85565ba0baa390620f10b/211-323; #=GS A0A1H5RTI7/211-323 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella quinlivanii; #=GS Q82TX7/213-325 AC Q82TX7 #=GS Q82TX7/213-325 OS Nitrosomonas europaea ATCC 19718 #=GS Q82TX7/213-325 DE DNA mismatch repair protein MutL #=GS Q82TX7/213-325 DR GENE3D; 6925bb0731a400e71f10748c5a88afe6/213-325; #=GS Q82TX7/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosomonas; Nitrosomonas europaea; #=GS A0A0J5GDT8/213-325 AC A0A0J5GDT8 #=GS A0A0J5GDT8/213-325 OS Vogesella sp. EB #=GS A0A0J5GDT8/213-325 DE DNA mismatch repair protein MutL #=GS A0A0J5GDT8/213-325 DR GENE3D; 695276a7c22dc1ce7719a500866b71c3/213-325; #=GS A0A0J5GDT8/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Chromobacteriaceae; Vogesella; Vogesella sp. EB; #=GS A0A1N7PQC8/223-335 AC A0A1N7PQC8 #=GS A0A1N7PQC8/223-335 OS Gemmobacter megaterium #=GS A0A1N7PQC8/223-335 DE DNA mismatch repair protein MutL #=GS A0A1N7PQC8/223-335 DR GENE3D; 695354553788d3eb40abad3d4c33e24b/223-335; #=GS A0A1N7PQC8/223-335 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Gemmobacter; Gemmobacter megaterium; #=GS A0A0F9HDT4/214-326 AC A0A0F9HDT4 #=GS A0A0F9HDT4/214-326 OS marine sediment metagenome #=GS A0A0F9HDT4/214-326 DE Uncharacterized protein #=GS A0A0F9HDT4/214-326 DR GENE3D; 6959c9108e7699621ad0a660103af389/214-326; #=GS A0A0F9HDT4/214-326 DR ORG; marine sediment metagenome; #=GS A0A0A8NT07/217-329 AC A0A0A8NT07 #=GS A0A0A8NT07/217-329 OS Xenorhabdus nematophila str. Websteri #=GS A0A0A8NT07/217-329 DE DNA mismatch repair protein MutL #=GS A0A0A8NT07/217-329 DR GENE3D; 697719b9ab065e3d7d4ce2a499112281/217-329; #=GS A0A0A8NT07/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus nematophila; #=GS D3VIH7/217-329 AC D3VIH7 #=GS D3VIH7/217-329 OS Xenorhabdus nematophila ATCC 19061 #=GS D3VIH7/217-329 DE DNA mismatch repair protein MutL #=GS D3VIH7/217-329 DR GENE3D; 697719b9ab065e3d7d4ce2a499112281/217-329; #=GS D3VIH7/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus nematophila; #=GS A0A0R4FJD7/217-329 AC A0A0R4FJD7 #=GS A0A0R4FJD7/217-329 OS Xenorhabdus nematophila AN6/1 #=GS A0A0R4FJD7/217-329 DE DNA mismatch repair protein MutL #=GS A0A0R4FJD7/217-329 DR GENE3D; 697719b9ab065e3d7d4ce2a499112281/217-329; #=GS A0A0R4FJD7/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus nematophila; #=GS A7IJU1/240-352 AC A7IJU1 #=GS A7IJU1/240-352 OS Xanthobacter autotrophicus Py2 #=GS A7IJU1/240-352 DE DNA mismatch repair protein MutL #=GS A7IJU1/240-352 DR GENE3D; 697c85736321bdb59581dcea62d164c3/240-352; #=GS A7IJU1/240-352 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Xanthobacteraceae; Xanthobacter; Xanthobacter autotrophicus; #=GS G8LII6/217-330 AC G8LII6 #=GS G8LII6/217-330 OS Enterobacter cloacae EcWSU1 #=GS G8LII6/217-330 DE DNA mismatch repair protein MutL #=GS G8LII6/217-330 DR GENE3D; 6984a21229474d051a2d8f58fcb66dfb/217-330; #=GS G8LII6/217-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; #=GS A0A1G7ER40/212-323 AC A0A1G7ER40 #=GS A0A1G7ER40/212-323 OS Sphingomonas sp. S7-754 #=GS A0A1G7ER40/212-323 DE DNA mismatch repair protein MutL #=GS A0A1G7ER40/212-323 DR GENE3D; 698d07fb91c376a3a052863807956c37/212-323; #=GS A0A1G7ER40/212-323 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. S7-754; #=GS A0A1C6LFR7/213-325 AC A0A1C6LFR7 #=GS A0A1C6LFR7/213-325 OS Vogesella sp. LIG4 #=GS A0A1C6LFR7/213-325 DE DNA mismatch repair protein MutL #=GS A0A1C6LFR7/213-325 DR GENE3D; 69a0cb0d4ac4b224852e40ee45c82247/213-325; #=GS A0A1C6LFR7/213-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Chromobacteriaceae; Vogesella; Vogesella sp. LIG4; #=GS A0A0X8BZ45/221-333 AC A0A0X8BZ45 #=GS A0A0X8BZ45/221-333 OS Pseudomonas monteilii #=GS A0A0X8BZ45/221-333 DE DNA mismatch repair protein MutL #=GS A0A0X8BZ45/221-333 DR GENE3D; 69ee913d923ebd8d15bab8a31b069b78/221-333; #=GS A0A0X8BZ45/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas monteilii; #=GS Q2G6F7/213-325 AC Q2G6F7 #=GS Q2G6F7/213-325 OS Novosphingobium aromaticivorans DSM 12444 #=GS Q2G6F7/213-325 DE DNA mismatch repair protein MutL #=GS Q2G6F7/213-325 DR GENE3D; 69f0bbd872a20de90c9d671f61d8e4d0/213-325; #=GS Q2G6F7/213-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium aromaticivorans; #=GS H2IS56/217-329 AC H2IS56 #=GS H2IS56/217-329 OS Rahnella aquatilis CIP 78.65 = ATCC 33071 #=GS H2IS56/217-329 DE DNA mismatch repair protein MutL #=GS H2IS56/217-329 DR GENE3D; 69f9ba53b3c3b9e60fa150cb665182cb/217-329; #=GS H2IS56/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Rahnella; Rahnella aquatilis; #=GS A0A1J1BAW3/217-329 AC A0A1J1BAW3 #=GS A0A1J1BAW3/217-329 OS Legionella pneumophila subsp. fraseri #=GS A0A1J1BAW3/217-329 DE DNA mismatch repair protein MutL #=GS A0A1J1BAW3/217-329 DR GENE3D; 69fe8c3858c65f73521f207f17ef21f3/217-329; #=GS A0A1J1BAW3/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella pneumophila; Legionella pneumophila subsp. fraseri; #=GS A0A133XAZ8/217-329 AC A0A133XAZ8 #=GS A0A133XAZ8/217-329 OS Legionella pneumophila #=GS A0A133XAZ8/217-329 DE DNA mismatch repair protein MutL #=GS A0A133XAZ8/217-329 DR GENE3D; 69fe8c3858c65f73521f207f17ef21f3/217-329; #=GS A0A133XAZ8/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella pneumophila; #=GS A0A0D1AQ50/214-325 AC A0A0D1AQ50 #=GS A0A0D1AQ50/214-325 OS Novosphingobium sp. P6W #=GS A0A0D1AQ50/214-325 DE DNA mismatch repair protein MutL #=GS A0A0D1AQ50/214-325 DR GENE3D; 6a25757905a75078e90afafd05675c0f/214-325; #=GS A0A0D1AQ50/214-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. P6W; #=GS G6EJ81/214-325 AC G6EJ81 #=GS G6EJ81/214-325 OS Novosphingobium pentaromativorans US6-1 #=GS G6EJ81/214-325 DE DNA mismatch repair protein MutL #=GS G6EJ81/214-325 DR GENE3D; 6a4d53bbca24b94e87abc92820140896/214-325; #=GS G6EJ81/214-325 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium pentaromativorans; #=GS A0A1E4QX39/221-333 AC A0A1E4QX39 #=GS A0A1E4QX39/221-333 OS Cupriavidus sp. UYMMa02A #=GS A0A1E4QX39/221-333 DE DNA mismatch repair protein MutL #=GS A0A1E4QX39/221-333 DR GENE3D; 6a71badeedb1ec681247e01ab35433ea/221-333; #=GS A0A1E4QX39/221-333 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Cupriavidus; Cupriavidus sp. UYMMa02A; #=GS F6AJX1/221-333 AC F6AJX1 #=GS F6AJX1/221-333 OS Pseudomonas fulva 12-X #=GS F6AJX1/221-333 DE DNA mismatch repair protein MutL #=GS F6AJX1/221-333 DR GENE3D; 6a818a40c3b3f03b878ca738f6d814ab/221-333; #=GS F6AJX1/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas fulva; #=GS A0A178MHT4/217-329 AC A0A178MHT4 #=GS A0A178MHT4/217-329 OS Magnetospirillum marisnigri #=GS A0A178MHT4/217-329 DE DNA mismatch repair protein MutL #=GS A0A178MHT4/217-329 DR GENE3D; 6a8a55034b9d57f00868393bf736eada/217-329; #=GS A0A178MHT4/217-329 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetospirillum; Magnetospirillum marisnigri; #=GS A0A0A0M8Q6/215-327 AC A0A0A0M8Q6 #=GS A0A0A0M8Q6/215-327 OS Lysobacter defluvii IMMIB APB-9 = DSM 18482 #=GS A0A0A0M8Q6/215-327 DE DNA mismatch repair protein MutL #=GS A0A0A0M8Q6/215-327 DR GENE3D; 6a96d11882d7a5167b62de6f96a7761c/215-327; #=GS A0A0A0M8Q6/215-327 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter defluvii; #=GS A4XPY5/218-330 AC A4XPY5 #=GS A4XPY5/218-330 OS Pseudomonas mendocina ymp #=GS A4XPY5/218-330 DE DNA mismatch repair protein MutL #=GS A4XPY5/218-330 DR GENE3D; 6b04d25131226b23c202b93520cd3d2d/218-330; #=GS A4XPY5/218-330 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas mendocina; #=GS A0A0R2UB64/98-210 AC A0A0R2UB64 #=GS A0A0R2UB64/98-210 OS SAR92 bacterium BACL26 MAG-121220-bin70 #=GS A0A0R2UB64/98-210 DE DNA mismatch repair protein MutL #=GS A0A0R2UB64/98-210 DR GENE3D; 6b29c72c707f79d673fc0f5a5183bd1e/98-210; #=GS A0A0R2UB64/98-210 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Porticoccaceae; SAR92 bacterium BACL26 MAG-121220-bin70; #=GS M9Y8Y7/221-333 AC M9Y8Y7 #=GS M9Y8Y7/221-333 OS Azotobacter vinelandii CA6 #=GS M9Y8Y7/221-333 DE DNA mismatch repair protein MutL #=GS M9Y8Y7/221-333 DR GENE3D; 6b4728b27e7be5074fe13139b6959c76/221-333; #=GS M9Y8Y7/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Azotobacter group; Azotobacter; Azotobacter vinelandii; #=GS A0A1K1WRH0/221-333 AC A0A1K1WRH0 #=GS A0A1K1WRH0/221-333 OS Azotobacter vinelandii #=GS A0A1K1WRH0/221-333 DE DNA mismatch repair protein MutL #=GS A0A1K1WRH0/221-333 DR GENE3D; 6b4728b27e7be5074fe13139b6959c76/221-333; #=GS A0A1K1WRH0/221-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Azotobacter group; Azotobacter; Azotobacter vinelandii; #=GS A0A0Q5VBJ3/222-334 AC A0A0Q5VBJ3 #=GS A0A0Q5VBJ3/222-334 OS Brevundimonas sp. Leaf363 #=GS A0A0Q5VBJ3/222-334 DE DNA mismatch repair protein MutL #=GS A0A0Q5VBJ3/222-334 DR GENE3D; 6b4e726fd854830f2a0a212d58f0422a/222-334; #=GS A0A0Q5VBJ3/222-334 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. Leaf363; #=GS A4BLP2/229-341 AC A4BLP2 #=GS A4BLP2/229-341 OS Nitrococcus mobilis Nb-231 #=GS A4BLP2/229-341 DE DNA mismatch repair protein MutL #=GS A4BLP2/229-341 DR GENE3D; 6b7a230fda12046732015e289cd2a21b/229-341; #=GS A4BLP2/229-341 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Nitrococcus; Nitrococcus mobilis; #=GS A0A0J6SZ20/225-337 AC A0A0J6SZ20 #=GS A0A0J6SZ20/225-337 OS Methylobacterium tarhaniae #=GS A0A0J6SZ20/225-337 DE DNA mismatch repair protein MutL #=GS A0A0J6SZ20/225-337 DR GENE3D; 6bc9262c70bdadc14cefb41f9b21a09d/225-337; #=GS A0A0J6SZ20/225-337 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium tarhaniae; #=GS M1NRX4/215-327 AC M1NRX4 #=GS M1NRX4/215-327 OS Bartonella australis Aust/NH1 #=GS M1NRX4/215-327 DE DNA mismatch repair protein MutL #=GS M1NRX4/215-327 DR GENE3D; 6bcdcef8d3503657e984031e0a095045/215-327; #=GS M1NRX4/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella australis; #=GS M4NFI7/217-329 AC M4NFI7 #=GS M4NFI7/217-329 OS Rhodanobacter denitrificans #=GS M4NFI7/217-329 DE DNA mismatch repair protein MutL #=GS M4NFI7/217-329 DR GENE3D; 6bd4408e3935387ffdb74052c40e20dd/217-329; #=GS M4NFI7/217-329 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Rhodanobacter; Rhodanobacter denitrificans; #=GS A0A074M1B0/218-333 AC A0A074M1B0 #=GS A0A074M1B0/218-333 OS Erythrobacter sp. JL475 #=GS A0A074M1B0/218-333 DE DNA mismatch repair protein MutL #=GS A0A074M1B0/218-333 DR GENE3D; 6bfd67de029b790bfce405179f556bb8/218-333; #=GS A0A074M1B0/218-333 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. JL475; #=GS A0A0P0MF75/220-332 AC A0A0P0MF75 #=GS A0A0P0MF75/220-332 OS Limnohabitans sp. 103DPR2 #=GS A0A0P0MF75/220-332 DE DNA mismatch repair protein MutL #=GS A0A0P0MF75/220-332 DR GENE3D; 6c1102222a37d1dd8e35f88650846718/220-332; #=GS A0A0P0MF75/220-332 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Limnohabitans; Limnohabitans sp. 103DPR2; #=GS Q3YSP0/215-327 AC Q3YSP0 #=GS Q3YSP0/215-327 OS Ehrlichia canis str. Jake #=GS Q3YSP0/215-327 DE DNA mismatch repair protein MutL #=GS Q3YSP0/215-327 DR GENE3D; 6c2114091711585b35efc0526208c11b/215-327; #=GS Q3YSP0/215-327 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Anaplasmataceae; Ehrlichia; canis group; Ehrlichia canis; #=GF TC 121.5 9.8E-37 #=GF SQ 1000 1b62A02/223-337 ----GTAFLEQALAI----EW----------QHG-D----LTLRGWVADPNHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVLQ 1b63A02/219-332 ----GTAFLEQALAI----EW----------QHG-D----LTLRGWVADPNHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- 1bknA02/220-329 ----GTAFLEQALAI----EW----------QHG-D----LTLRGWVADPNHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGV----- 1bknB02/220-329 ----GTAFLEQALAI----EW----------QHG-D----LTLRGWVADPNHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGV----- 1nhhA02/219-331 ----GTAFLEQALAI----EW----------QHG-D----LTLRGWVADPNHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSV-- 1nhiA02/219-332 ----GTAFLEQALAI----EW----------QHG-D----LTLRGWVADPNHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- 1nhjA02/219-332 ----GTAFLEQALAI----EW----------QHG-D----LTLRGWVADPNHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- P23367/217-330 ----GTAFLEQALAI----EW----------QHG-D----LTLRGWVADPNHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- Q83CM9/216-328 ----GDVFMQSALAI----EF----------SQS-G----LTLKGYIAEAAY-------TRSQPDLQYIYVNGRFVRDKLVAQALRQAY-----HDVLFHGRHPAYVLYLEIDPAFVDINVHPTKHEVRFRDPQWVRDFLIHAVKTAL- Q8EJ70/217-327 ----GRPFADEALRV----EC----------QHD-D----LRLSGYLQSPWS-------TV-LTDTHYFYVNGRLVRDRLVNHAVRQAF------AQKAEVEQPGYVLMLDIDPHQVDVNVHPAKHEVRFHQSRYVHDYILQALQSAL- A0KGR9/217-329 ----GSPFMHYALAV----ES----------EHS-D----VRLWGWLATPEG-------ARPQNDLQYTYVNGRMMRDKLINHAIRQAY-----DELLPADRFAAYVLYIELDPRQVDVNVHPAKHEVRFHQARLIHDFIFQALFTAL- A0A0H3CEU6/217-330 ----GTPFLEQALAI----EW----------QHG-D----LALRGWVADPNAS------SAAFAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- Q579M7/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- B2FN36/220-332 ----GEDFANQAVRV----DH----------SGA-G----LRLHGWIAQPHY-------SRASADQQYLYVNGRSVRDRSVAHAVKMAY-----GDVLYHGRQPAYVLFLELDPTRVDVNVHPAKHEVRFRDSRLVHDFVYRTLKDAL- C9R3G3/217-329 ----GQDFIQNALQI----DW----------KHD-D----LHLSGWVALPQF-------NRPQNDLNYCYVNGRMVRDKTITHAIRQAY-----ADYLTTEQYPAFVLFIDLNPNEVDVNVHPTKHEVRFQQSRLVHDFITQGISNAL- Q5E2C6/217-329 ----GANFLQHALEV----EL----------EHG-E----LKFHGWISSPEG-------ARAQGDIQYCYVNGRMMKDKLINHAIRQGY-----ESSLPANQYAAYILFIEINPHDVDVNVHPAKHEVRFHQARLVHDFIYQAIFGAL- Q89DE6/216-328 ----GAEFRSHAIEV----HA----------ERE-G----IVVSGYAAAPAL-------TKANALGQYLFVNGRPVRDKLILGAVRAAY-----SDYLPRDRHPVLALFVTLDPREVDANVHPAKTEVRFRNAGLVRALIVHGLKEAL- Q2RQ52/217-329 ----GREFSDNAIAI----EA----------ERE-G----IRLTGHAALPTY-------NKATSAGQYLFVNGRPVRDKLLHGAVRGAY-----QDVLAHDRNAVLALYLDLPPEMVDVNVHPAKAEVRFRDPGLVRGLIIGALRHAL- A3N3P6/222-335 ----GDDFIQNAIHI----DW----------QHG-D----LHLHGWIGLPNI-------SRPQNDLCYSYVNGRMMRDKTINHAIRQAY----EATDMPEGNYPAFVVFLDIDPSQVDVNVHPAKHEVRFHQGRLVHDFILQGVQTAL- P44494/217-329 ----GDDFVKNALRI----EW----------KHD-D----LHLSGWVATPNF-------SRTQNDLSYCYINGRMVRDKVISHAIRQAY-----AQYLPTDAYPAFVLFIDLNPHDVDVNVHPTKHEVRFHQQRLIHDFIYEGISHAL- Q9JTS2/213-325 ----GDDFQTASLEI----DS----------GSG-A----LRLYGAIAKPTF-------AKGKTDKQYCFVNHRFVRDKVMLHAVKQAY-----RDVLHNALTPAFVLFLDLPPEAVDVNVHPTKTEIRFRDSRQVHQLVFHTLNKAL- Q8UHI3/212-324 ----GAEFKDNAIEI----DA----------GRE-D----VTLTGFAGVPTF-------NRGNSSHQYVFVNGRPVQDKLLLSAIRGAY-----AETVPHGRYPVAVLSITLDPAFVDVNVHPAKSDVRFRDPGLIRGLIVGAIRQAL- A6TH85/217-330 ----GAAFLEHALAI----EW----------QHG-D----LTLRGWVADPLHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- P0CAV5/223-335 ----GREFQENALEI----DQ----------TRD-G----VRLSGFAGLPTY-------NRGNAAHQYLFVNGRPVRDRLLQGALRAAY-----ADFLARDRHPTAALYVTLETTEVDVNVHPAKAEVRFRDPALVRGLIVGALRHAL- P57886/217-329 ----GDEFVQNALEI----DW----------KHD-D----LHLSGWVAQPTF-------SRTQNDLSYCYINGRMVRDKIITHAIRQAY-----ADFLSPEQYPAFVLFIDLNPNDVDVNVHPTKHEVRFHQQRLVHDFICQGISNAL- Q73FM2/212-324 ----EEEFQGNSLEI----NE----------EED-G----IKLTGHICKPTV-------NRGKSTQIYTFVNGRPIKDNLLIGAVRYAY-----HDFIPSDRYPFAALHLEIPYDQVDVNVHPNKSEVRFQNKKLIYEIMTRGLIKAL- C1DLQ0/221-333 ----GPAFLEQALPI----EV----------ERA-G----LRLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEVDPAVVDVNVHPTKHEVRFRDSRMIHDFLYGTLHRVL- Q9KV13/217-329 ----GNPFVQHMLRI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRVDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSSAL- Q8XWB1/218-329 -----TEFARARLPF----EE----------AAG-E----LRLFGFAGLPTA-------SRGRADHQFFYVNGRFVRDRLLTHAVRSAY-----EDVLHGDRFPAYVLCLELPPEAVDVNVHPSKIEVRFRDSRAVHQFVYHAVQRAL- Q7W0A6/213-325 ----GAEFVGHVLPV----LA----------AAG-A----IALMGMVTRPTA-------ARARADRQYLYVNGRFVRDRTVSHALRSAY-----ADVLHGDRQPAYVLYLDIDPGAVDVNVHPAKHEVRFRDSGAVHRFVSQVVGQTL- Q3JP24/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- Q9ZC88/217-329 ----GDVFIKNAAYI----DF----------KTP-D----FSICGYTSIPTY-------NKASSEDQFLFINNRPIKDKLLQVALRVAY-----QDYLARDRYALCVIFLQIDPQLVDVNVHPAKAEVRFHDPNYVRNILIEAIKNAL- Q8P8E4/214-326 ----GEDFARQALRV----DH----------SGA-G----LRLHGWVAQPHY-------SRASTDQQYLYVNGRSVRDRSVAHAVKMAY-----GDVLFHGRQPAYVLFLELDPARVDVNVHPAKHEVRFREARLIHDFVYRTLQDAL- P14161/217-330 ----GTPFLEQALAI----EW----------QHG-D----LTLRGWVADPNHT------TTALTEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- Q6G4R4/215-327 ----GKEFAPNSIVL----NA----------ERE-S----VRLTGFACLPSF-------NRSNSLHQFAYVNGRPVRDKFLWGAIRGAY-----ADVMTRDRYPVSILFIDLPPADVDVNVHPTKADVRFRDPGFIRGLIVGAIREAL- Q1ILN0/248-354 -------------------DEEEQT-----VEPG-E----VRLHGFISKPEI-------QKLNRNSIFVFVNGRLIRDRLVQHALTEAY-----RNILPPTLFPVVLLFLEMPYTEVDVNVHPSKTEVRFRQQSLVHDFVRDSVRAAL- Q73HN9/213-324 -----EEFQSNSLEV----KE----------EEE-G----IKLKGHICKPNV-------NRGNSTQIYTFVNGRPIKDNLLVGAIRYAY-----HDFIPNNRYPFAVLHLEVPYDQVDVNVHPNKSEVRFQNKRLIYEIVRRGIIKTL- Q2GJE2/215-327 ----GEVFCEQSLEI----NH----------SID-H----VRVYGHIGLPTF-------NKSKPGMVHTFVNGRPIYSTLLLGAVKSAY-----HGLIPKDRHPVVVLALDVMPAYVDVNVHPSKMEVRFQDKRLVYKAVLDALGEAL- Q92RP4/212-324 ----GRDFRDNAIEI----DA----------ERE-G----ARLTGFAGVPTF-------NRGNSLQQYAFVNGRPVQDKLIMSALRAAY-----AETIPQGRYPIAVLSITLDPALVDVNVHPAKSDVRFRDPGLIRGLIIGAIREAL- B0V7B0/226-338 ----GQQFVQNAYWI----DA----------ESI-N----MRLSGWLGHPSD-------ARAQADLQYVYVNGRIVKDKTISHALRMAY-----DGILHGHQHSSYLLFLEVDPENIDVNVHPTKHEIRFLNQREVHEFVRHYAKETL- Q5NHG8/221-333 ----SREFIENAIYV----DK----------QVG-D----AHLWGWVASPRF-------NRARADMQSFYINGRIIKDKIVSHAIKNAY-----KDVMYGNRYPAFLLYLDIDYCEVDVNVHPAKSEVRFRNQKFIYDFLFGNINKAI- Q328E9/217-330 ----GTAFLEQALAI----EW----------QHC-D----LTLRGWVADPNHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A1B5K3/227-339 ----GRDFIDNALAV----DA----------TRD-G----ITLTGFAALPTY-------SRGAAVAQHLYVNGRPVRDKLLTGALRAGY-----MDVLASGRHPAAVLFLTCDPHQVDVNVHPAKAEVRFREPDIARGLVVSALRHAL- Q1MKU7/212-324 ----GKEFRDNAIAL----DA----------VRE-E----IALTGFAGVPTF-------NRGNSAHQYAFVNGRPVQDKLILSAIRGAY-----AETIPSGRYPVAVLSITLDPALVDVNVHPAKSDVRFRDPGLVRGLIVGAIREAL- Q3IYV3/232-344 ----GAEFAENALRI----DV----------ARE-G----LRLQGYAALPTY-------SRGSGVAQFLFVNGRPVLDRMLLGALRAGY-----MDVLSRDRYPAAVLNLICDPQRVDVNVHPAKAEVRFREAGEVRGLIVTALRQAL- B4F203/217-329 ----GNHFVDQAMQL----TW----------EHG-D----LAIKGWVEHPLA-------PVQGSEIQYCYVNGRMMRDRLINHAIRQAY-----EGYLQGEQQPSYVLYLTVDPHQVDVNVHPAKHEVRFHESRLVHDFIYQAVLSVL- T1I3E9/78-190 ----EEEFQSNSLEV----KE----------EEE-G----IKLTGHICKPTI-------SRGNSTQIYTFVNGRPIKDNLLIGAIRYAY-----QDFIPVGRYPFAVLHLEIPYDQVDVNVHPNKLEVRFQNKRLIYEIVRRGIIKAL- T1I626/1229-1341 ----KEEFQNNSLEI----NE----------EED-G----VKLTGHICKPTV-------NRGKSDMIYTFVNGRPIKDNLLVGAIRYAY-----HDFIPSDRYPFATLHLEVPYDQVDVNVHPNKSEVRFQNKRLIYEIVRRGIIKAL- R7U5G4/218-323 ----GPKFIENAVII----DV----------DVS-G----LKLYGWVGLPTF-------SRASADLQYFFVNGRVIRDKLVGHAVRQAY-----RDVLYGGRHPTFVLYLELDPALVDVNVHPTKHEVRFRDGRTVHNFLF-------- A0A182KUV1/261-373 ----GKDFITEAIAV----ET----------SAG-S----MTLSGFVGSPTY-------SKASRDAQYFYVNGRFVRDKTAQHALRQAY-----RDVLHHDRHPVYALFLSMDPAGVDVNVHPTKIEVRFRESQAIHQFLFHSINKAL- A0A1A9VJJ8/349-461 ----EEEFQGNSLEV----NE----------EED-G----IKLTGHICKPTV-------NRGKSTQIYTFVNGRPIKDNLLIGAVRYAY-----HDFIPSDRYPFAALHLEIPYDQVDVNVHPNKSEVRFQNKKLIYEIVTRGLIKAL- Q87VJ2/237-349 ----GPGFLEQALPI----EI----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPAAVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- V6F2L0/217-329 ----GRDFQDNAVPL----DA----------ERD-G----VRLTGWAGLPTF-------NKGTSAYQYLFVNGRPVKDRLVIGAVRGAY-----QDVLSHDRHPVVALFVEVPADAVDVNVHPAKSEVRFREAGLVRGLIVSAIRHAL- A0A0M4LSN2/215-327 ----GKEFASNSVEI----YA----------ERE-T----ARLTGFTCLPSF-------NRSNSMHQFVYVNGRPVRDKLLWGAIRGAY-----ADAIARDRHAVSVLFIDLPPIDVDVNVHPAKADVRFRDPGLIRGLIIGAIHEAL- A0A0G3QIN3/217-330 ----GTAFLEQALEI----EW----------QHG-D----LALRGWVAEPTAT------TSAFAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- J2G8Q6/213-325 ----ARELADDGVLI----EA----------ERG-A----SRLTGIAGLPTY-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----SDMLARDRHAVLALFLDIPPEEVDVNVHPAKTEVRFRDPAFVRGFLVGALRHAL- A0A0W1GC00/212-322 -----RELAANSIGV----DV----------ERG-E----ARLGGVISLPTY-------NRGIADHQYLFVNGRPVKDRLLVGALRGAY-----ADLLARDRHPVVALFLDIPTSEVDVNVHPAKTEVRFRDPQLVRGMIVGGLRRA-- A0A1F4CAE7/15-127 ----GEEFGHAAVGV----ER----------QAA-N----LTLRGLAALPAY-------SRGSRDAQYFFVNGRFVRDKVASHALRQAY-----QDILHHQRHPAFVLFLDLPPEQVDVNVHPAKSEVRFRESQGIHQFIFHTLQQAL- Q48A24/217-329 ----GPKFIEHAVEV----DC----------PHD-N----MTLSGWLAKPSF-------SRSQNDLCYSYVNGRMMRDKLINHAIRQAY-----ADLLPPDTYPAFVLFLQLDHREVDVNVHPSKHEVRFHQSRYVHDFIYSVCHKAL- K0HWJ8/241-353 ----GEDFVTQSVAV----QH----------RVG-P----VTVTGRAGLPDA-------ARSRPDHQYCYVNGRFVRDKVLTHAARSAY-----EDVLHGNKQPIYALYVEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAVENAL- C4L9N1/217-328 ----GAEFMQAALRI----DS----------EHL-G----LHLYGWLA-PQP-------LTAINEVQYCYVNGRMIRDKLLNHAIRQAY-----SECTGTSFQPAYILYLELDPHQVDVNVHPSKHEVRFHESRQVHDFIVQVIRQAL- A0A0F9H7C6/131-243 ----GKNFINNSLYI----EQ----------DYA-D----IKLNGWLGKADA-------HRPQTDVQYFFINGRVIRDRVITHAIRQAY-----NDKIPAGRQPAYVLYLTIPLDRVDINVHPTKHEVRFRDARLIHGLLTSALQEAL- A0A1B7JQ66/217-330 ----GVPFLEQALAI----EW----------QHG-D----LAMHGWVADPKHT------TAALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A1A8XGJ0/222-334 ----GNDFLAESRSL----DV----------QAG-P----LRVFGYCALPAY-------SRARGDSQYCYVNGRFVRDKLLGHALREAY-----QDLLHGSRYPAYCLFLEIDPATVDVNVHPQKTEVRFRDARAVHQFVFHAVQRLL- A0A1F9B180/214-326 ----GKTVTDKMLEI----RL----------KNG-D----LSVRGWILSPDE-------ARSTTRGIYIYVNDRFVRDRVVLHALLEGY-----KGALVKGVFPLAILMIHLPPDQVDVNVHPTKNEVRFLKQRDVHDAISAEVSRVL- A1TLQ3/237-349 ----GEDFLAESIAV----RH----------RSG-P----VTVTGRAGLPDA-------ARSRADQQFCYVNGRFVRDKVLTHAARSAY-----EDVLHGQKQPVYALYVAIDPMRVDVNVHPTKIEVRFRDSREVHQAVRHAVENAL- K0D7V5/216-328 ----GQKFVQNAVHI----ST----------EYE-G----LHINAWLGNEAM-------LRSSNDCQFSFVNGRGMRDKLIMHAIRQAY-----ESIWGVVEQPSFVVYLTVNPKDVDVNVHPAKHEVRFQQGRLVHDFICKTVSDAL- M4X1J2/221-333 ----SSGFLEQAMPI----EV----------ERN-G----LHLWGWVGLPTF-------SRSQPDLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLYNGRHPTFVLFFEVDPAVVDVNVHPTKHEVRFRDSRMVHDFLYGTLHRAL- A8T8N4/217-329 ----GNVFVRNMLRI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----AASLKSDQFAAYVVFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALADAL- A0A0S4PT04/220-332 ----GREMVRGMVSV----DW----------THE-G----VRVRGLIAPPHH-------TRPTRQHQYFYVNLRPVRNKTLTAALDEAY-----KSLTPEKRYPACVLLVDINPRLVDVNVHPAKIEVRFQKEHVVFEAVYEAIRRSL- C3MGW0/212-324 ----GKDFRDNAIGI----DA----------ERE-E----ARLSGFAGVPTF-------NRGNSLQQYAFVNGRPVQDKLILSAIRAAY-----AETIPQGRYPVAVLSIALDPALVDVNVHPAKSDVRFRDPGLIRGLIIGAIREAL- A0A0W0SVS8/216-328 ----GKTFIDQARYF----NT----------EHA-G----LHLYGWISTADY-------QRSQNDKQWIYVNKRMVKDKLLNHAIKKAY-----EDLLHPGRYPACLLYLTINPEEVDVNVHPTKHEVRFQQPRLVHDFISSQIQQAL- A0A1E3MNM7/217-329 ----GQKFVDHALRV----EL----------THH-D----MTLRGWICTPEG-------ARQQNDMQHCFVNQRMMKDKLINHAIRQGY-----EQSLAPDQYAAFVLYIDVEPHQVDVNVHPAKHEVRFHQARLVHDFIFQAIFDAL- A0A0G4QBP3/217-329 ----GNNFVNQSMHL----SW----------EHG-D----LAIKGWVEHPLS-------PVQCSDIQYCYVNGRMMRDRLINHAIRQAY-----DGYLKGEQQPSYILYLSVDPHQVDVNVHPAKHEVRFHESRLVHDFIYQGVLSVL- A0A1F4MPX7/222-333 -----DTFIATSREV----DL----------QIG-P----MRVHGRAGLPDA-------ARSRADWQYCYVNGRYVRDKLISHGVRSAY-----EDVLHGSRQPTYVLFIEIDPERVDVNVHPTKIEVRFRDSREVHQAVRKAVESAL- G4QBK6/213-325 ----GADFLTSVFKV----D----E------STS-L----CTLRGLIIKPSE-------AKSRTDKQYLFVNGRFVRDRSLAHAVKSAY-----SDVLHGDRQPSYILFLDIDPGMVDVNVHPAKNEVRFRDQSAIYSFVQNTLKNTL- W8X5B0/211-323 ----GDEFTAQSLPV----SA----------EQG-L----VSLEGCITRPTF-------ARSRADRQYLYVNGRYVRDRTVSHAVRQAY-----ADVLHGDRQPAFVLFLTLDPAGVDVNVHPAKHEVRFRDSGAVHRHVAQALGETL- A0A1G0H709/217-329 ----GSEFMRYALCI----EY----------AHQ-T----MRLKGWIAEPRY-------SRSQADLQMIYVNNRFVRDKTIMHAVREAY-----RDVLFHGRHPAFLLFLEIDPSTVDVNVHPAKQEVRFRESQVVFSFVKRGVHEAL- V8QPT1/213-325 ----GNEFTQAGLPI----EA----------RLP-A----ASLHGLTTLPNA-------ARARADRQYLYVNGRFVRDRTVTHAVRAAY-----SDVLHGDRQPAYVLFLEIDPAAVDVNVHPAKHEVRFRDSGAIHRFVGQVLTEAL- A0A0W0ZBN7/215-327 ----GSAFVQDAIYL----DV----------DHG-S----MKLCGWISGIKF-------QRSQSDRLWVYINERMVKDKLIHQALKQAY-----DGLLHPGRFPACVLYLTINHAEVDVNVHPTKHEVRFQQPRLIFDFFTSQLAAAL- J2VFA8/226-338 ----GDDFANARLPL----EE----------SAG-P----LRLHGFVGLPTA-------SKARGDAQYFYVNGRFVRDKLLVHAVRAAY-----QDVLHGDRYPSYALALELDPALVDVNVHPSKIEVRFRDSRSVHQFVFHAVSRAL- A9I7Y0/222-334 ----GAEFTEHGLPV----EA----------SAG-A----IGLSGMITRPTA-------ARARADRQYLYVNGRYVRDRTVSHALRAAY-----ADVLHGDRQPAYVLYLDIDPGAVDVNVHPAKHEVRFRDSGAVHRFVSQVVGQAL- A0A1B2AFG0/213-325 ----ARELKDNGVAI----DQ----------QRD-G----MRLGGIAGLPTY-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----SDMLARDRHAVLALFLDIPPEDVDVNVHPAKTEVRFRDAGGVRGFIVSALRQSL- A0A0K0Y9B9/232-344 ----GKDFADNALPI----DV----------IRE-D----VHLTGYAALPTY-------SRGSAVQQFLYVNGRPVRDKVLIGALRGAY-----MDTLSRDRHPAACLFIDLDPTRVDVNVHPAKSEVRFRDPGVVRSLIVSGLRAAL- H1FZX6/217-329 ----GQAFIGQSVFI----EQ----------AAA-G----LRLEGWMGLPTF-------SRSQADLQYFYVNGRMVRDKVVSHAVRQAY-----QDVLYHGRHAAFVLYLTLDPVLVDVNAHPAKHEVRFRESRMVHDFLFSSLHRAL- A0A0J5M332/217-330 ----GAAFVEHALAI----EW----------QHG-D----LALQGWVVDPQQS------TPQLAEVQYCYVNGRMMRDRLINHAIRQAC-----EEKLGGGEQPPFVLYLTIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSAL- A0A109LSI3/223-337 ------ELKDNSVLI----DL----------ERE-APGGTMRLTGIAGLPTY-------NRGVADHQYLFVNGRPVKDKLLTGAVRGAY-----SDMLARDRHAVLALFLEIPPQDVDVNVHPAKTEVRFRDASGVRGFIVSGLRRAL- M9WPJ0/213-324 -----EEFHENSLQI----SE----------EED-G----IRLTGYICKPTV-------NRSNSTQIYTFVNGRPIKDNLLIGAIRYAY-----HDLIPSNRYPFAALHLEIPYDQVDVNVHPNKSEVRFQNKRLIYEIVRRGLIKVL- A0A0F5XYV0/217-329 ----GVTFMQHALRI----DW----------QHD-D----LSLRGWVADPTG-------SRQVSDLQYCYVNGRMMRDKLINHAIRQAF-----QTQLQEDQQPAYVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVMSVL- A0A0F5MPR3/215-327 ----GEDFISNSVEV----DY----------QRD-D----IEIQGYVSIPTF-------NRATSNEQYLFVNNRPVRDKLLLTAVKVAY-----LDYLARDRHPSVAIFIYLPTEEVDVNVHPTKSEVRFRDSNKIKSMIISAIRSSI- K0EK87/216-328 ----GQKFVQNAVHI----ST----------EYE-G----LHIDAWLGNEAM-------LRSSNDCQFSFVNGRGMRDKLIMHAIRQAY-----ESVWGVLEQPSFVVYLTVNPKDVDVNVHPAKHEVRFQQGRLVHDFICKTVSDAL- A0A0R2TZR3/238-350 ----GVDFADNALRI----DF----------EHK-G----LRLSGYAALPTY-------SRGSSVAQYMFVNGRPVLDRTLLGALRAAY-----MDVLSRDRHPAAVLNILCDPQSVDVNVHPAKSEVRFREPALVRSLIISGLRQTL- A0A0R2WP09/238-350 ----GVDFADNALRI----DF----------EHK-G----LRLSGYAALPTY-------SRGSSVAQYMFVNGRPVLDRTLLGALRAAY-----MDVLSRDRHPAAVLNILCDPQSVDVNVHPAKSEVRFREPALVRSLIISGLRQTL- A0A0R2TSG0/238-350 ----GVDFADNALRI----DF----------EHK-G----LRLSGYAALPTY-------SRGSSVAQYMFVNGRPVLDRTLLGALRAAY-----MDVLSRDRHPAAVLNILCDPQSVDVNVHPAKSEVRFREPALVRSLIISGLRQTL- A0A0C2HIC6/215-328 ----GRPLVRQLVPV----EVG---------EPG-E----LRLHGFLCPPEI-------TRSSTGAIYTFINGRYVRDRVVQHGVLEGY-----RNLLMKGRYPVVVLFLEIDPAQVDVNVHPTKHEVRFRDQGKVHDFIAEGLRQVL- A0A0N1L9R1/230-344 ------ELKDNSVAI----EL----------VRE-TPHGAMRLTGVAGLPTY-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----ADMLARDRHAVLALFLDLPPPDVDVNVHPAKTEVRFRDAAGVRGFIVSGLRQAL- A0A177Q6W4/224-336 ----GREFGDNAALV----EA----------QRE-G----ISLSGYAGLPTY-------NRANAAMQFLFVNGRPVRDKLLVGAVRGAY-----ADFLARDRHPALALFLECDPHFVDVNVHPAKSEVRFRDAGLVRGLIVGALKHAL- A0A1A7RA79/225-337 ----GRQFTENAYWI----DA----------DSV-N----MRLSGWLGHPSD-------ARAQADMQYVYVNGRIVKDKTVSHALRMAY-----DGILHGHQHAAYLLFMEVDPENIDVNVHPTKHEIRFLNQREVHEFVRHYAKSTL- A0A077FIK4/221-333 ----GPGFLEQALPI----EV----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPTGVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- U7U897/213-325 ----GKEFIEQSLPV----A----Q------EQG-L----ISLRGLVIHPAH-------ARPSADKQFLFVNGRFVRDRTVSHAIRSAY-----ADVLHGDRQPAYALFLDIAPSTLDVNVHPAKHEVRFRDSGAVYRFVLQSVGQTL- A0A0S2KGJ0/220-332 ----GPAFLEHAVYI----DM----------EAS-G----LRLWGWVCLPTF-------SRSQPDLQYFYVNGRVIRDKLVSHAIKQAY-----RDVMYGGRHPAFVLYLELQPSLVDVNVHPTKHEVRFRDQRLVHDFLFRSLHKAL- H8Z841/219-330 ----GGEFLAASLVL----DD----------QAI-G----LRLFGWVAQPAF-------SRSQADRQFFFVNGRMVRDKLVTHAVRQAY-----QDVLHHSRHPAYVLFFELDPRQVDVNVHPAKQEVRFREARQVHDFIFRALHRR-- C3XA07/237-352 -----EQFAQSQLPI----DITVGE------GAN-S----LRLYGFIGQPTA-------SRTRGDMQYFYVNGRFVRDRLLTHAVRAAY-----EDVLHGNRYPAYLLYLTLDPSLVDVNVHPAKIEVRFRDSRSIHHFIHQSVSRTL- A0A086Y656/232-344 ----GRDFTDNAMVI----DA----------ERE-G----IRLTGYAALPTY-------SRGAAVEQFLFVNGRPVRDKMLLGALRAGY-----MDVLPRDRHPAAALFLSCDPERVDVNVHPAKAEVRFREAGIPRGLIVTAIRHAL- A7MX75/217-329 ----GNAFVRNMLRI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLKPDQFAAYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALADAL- A2S551/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- Q63R59/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A0H2WKI6/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A095JYJ2/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- C4AU04/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A0E1FXX0/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A0E1URN2/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A8EHZ6/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A0H3HGV1/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A3NYW3/236-348 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- Q1JVP7/217-329 ----GRSVVEKLIDV----DC----------GDD-R----LHLSGFIGDPTL-------NRSSTQGIYSFINGRFVKDRVLQHAILDGY-----RHLLMKGRYPMCVLFLALEPEKVDVNVHPTKHEVRFHDQRGVHDFVSTSLRQQL- A0A031GZ52/218-330 ----GNDFAEARLAL----DE----------SAG-S----LRIHGFAGLPTA-------SKARADGQFFYVNGRFVRDKLLVHAVRMAY-----QDVLHGDRFPSYVLALDLDPALVDVNVHPSKIEVRFRDSRSVHQFVFHAVQRAL- A0A176H1Z8/218-330 ----GKPFMENAVDI----DV----------EAT-G----LKLWGWVAKPTF-------SRSQADLQYFYVNGRVIRDRLVSHAVKQAY-----RDVLYHGRHPAFVLYLELDPALVDVNVHPTKHEVRFRDGRLVHDFIFRSLHKAL- A0A1E4ZU63/217-329 ----GKEFLDNAMPL----MR----------EAD-N----LSLSGWIAKATF-------SRSQADMQYFYVNSRMVRDKTVAHAIKHAY-----SDLLYHARQPAYVLYLAMEPRDVDVNVHPGKLEVRFRDSRKIHGFISSSVSREL- A0A0X8XBV0/222-334 ----GSEFATHSANV----EL----------EGA-G----MRLSGWLGLPTA-------ARRQGDLQYFFVNGRLVRDRTAAHGIRQAY-----KDVLYRDHYPAYVLYLEIDPTQVDVNVHPMKHEVRFRDGRTVHGFLAQRIGEAL- B6BEX4/238-350 ----GREFAENALKI----DA----------TRE-G----IRLYGYAALPTY-------SRGAAVAQFLFVNTRPVKDKMLTGALRAAY-----FDFLSRDRHPAAALFVDCDPQLVDVNVHPAKSEVRFRDPGLARGLIVSSLRHAL- A6U6K5/212-324 ----GRDFRDNAIEI----DA----------ERE-G----ARLTGFAGVPTF-------NRGNSLQQYAFVNGRPVQDKLIMSAIRAAY-----AETVPQGRYPVAVLSLTIDPALVDVNVHPAKSDVRFRDPGLIRGLIIGAIREAL- G4F8K7/223-335 ----GKNFIEHARYI----ER----------EAG-G----LRLSGWVGLPTH-------SRSQADQQYFFVNGRVVRDRLVAHAVRQAY-----RDVLFNGRHPVFVLYLELDPDVVDVNVHPTKHEVRFRDGRMVHDFLYSSLHHCL- A0A1M5RE28/230-342 ----GKEFAENALPI----DT----------ERD-E----FHLTGYAALPTY-------SRGAAVAQFLFVNGRPVRDKMLLGALRAAY-----MDVLSRDRHPVAALFIDCDPTLVDVNVHPAKSEVRFRDPGTVRGLIVSGLRHAL- A0A077LJT1/237-349 ----GPGFLEQALPI----DI----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPAAVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- A0A0K9JTP7/245-355 ------VFETAHLPL----DE----------RAG-S----LAVYGCAGRPTA-------SRDRANQQYFFVNRRFVRDKLLTHAVRTAY-----EDVLHGNRYPAYVLFLDLPPESVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- A0A1N7F0Q4/237-349 ----GSEFADNSMRI----DA----------ERE-G----FRLTGCAGLPTY-------SRGAAVAQYLFVNGRPVRDRMLLGALRAGY-----MDVLSRDRHPVAALFVECEGALVDVNVHPAKSEVRFRDPGTVRGLIVSGLRHAL- A0A0U3T1W3/225-337 ----GRAFTENAYWM----DA----------DSI-N----MRLTGWLGHPSD-------ARAQADLQYVYVNGRIVKDKTISHALRMAY-----DGILHGHQHAGYLLFLEVDPENIDVNVHPTKHEIRFLNQREVHEFVRHYAKETL- A0A1J5PV59/216-328 ----GDEFAEHAMLL----DD----------SAA-G----LRLWGMAARPAY-------SRLSRDAQYFYVNGRFVRDKLVAHAIRQAY-----QDVLHQQRHPAFVLFLELDPALVDVNVHPTKTEVRFRDGQAVHRFIFHVLHKLL- A0A023NQG4/240-352 ----GEDFPAQSLRV----DH----------AAA-G----LHLSGWVGLPTA-------SRSQADSQYFYVNGRLVRDRVVAHAVRQAY-----ADVLFHGRHPAFVLYLELDPAGVDVNVHPAKHEVRFREQRLVHDFLFRTLHEAL- E0WTQ5/219-334 ----GNVFLQHMLAI----SW----------QHE-D----LAIHGWLADPQMLH----NARSLNEIQYCYVNNRVIRDRLINHAIRQAY-----QGLSKDGQQIAYVLYLTIEPSQVDINVHPAKHEVRFHQARLVHDFIYQAVTMAL- A0A0H1ATH8/215-327 ----GREFADAALRI----EH----------AAA-G----LRLSGWIARPAY-------SRASADQQYLYVNGRSIRDRSVAHAVKQAY-----ADVMYHGRQPAYVLFLELDPTRVDVNVHPAKHEVRFRDARLVHDFLYRTLHEAL- A0A0Q7EM30/228-340 ----GRDFEANALLI----DQ----------ERD-G----VRLSGYAGLPTY-------SRGNAAHQYLFVNGRPVKDRLLQGALRGAY-----ADFLARDRHPAAVLFLDIDPLYVDVNVHPAKAEVRFRDPALVRGLIVGALRHAL- Q5WTA0/217-329 ----GNTFMREAIFL----DV----------EHS-G----MRLYGWISNHRL-------QRSQNDRQWIYVNQRMVKDKLLQHAVKQAY-----DGLLHAGRFPICLLYFTLPASEVDVNVHPTKHEVRFQQPRLVHDFFTSQLTKAL- A0A090P4S4/217-327 ----GNQFVRSMLKI----EL----------EHQ-G----LKLHGWITTPDG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIEIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAWQM--- F4BJN2/221-333 ----SREFIENAIYV----DK----------QVD-D----AHLWGWVASPRF-------NRARPDMQSFYINGRIIKDKIVSHAIKNAY-----KDVMYGNRYPAFLLYLNIDYHEVDVNVHPAKSEVRFRNQKFIYDFLFGTVNKAI- A0A0R0DZQ9/215-327 ----GEDFARQALRI----DH----------VAA-G----LRLHGWVAQPQY-------SRASADQQYLYVNGRPVRDRSVAHAVKLAY-----GDVLYHGRQPAYVLFLELDPARVDVNVHPAKHEVRFRDSRLVHDFVYRTLKDAL- A0A0G0KHT4/215-327 ----GNELAESLIPIEGK-DA--------------G----TILKGFISKPNL-------SRNSRLDQYLFVNGRNIRDKTIYHAVMQGY-----GSAIAKEHYPSVFIFLDIDPSQIDVNIHPAKTEIKFTKPQKIHFLISKAVSEAL- E2CBG4/224-336 ----GKEFVDNAMEI----DA----------ARE-G----VRLSGFAGLPTF-------HRGNAQHQFFFVNGRPVKDKLLLSGLRGAY-----ADVLARDRHSVVVLFIDLDPAFVDVNVHPAKADVRFRDGQLVRGLLVGSIKQAL- A0A154TGC0/213-325 ----GDDFQTASLEI----DS----------GNG-A----LRLYGAIAKPTF-------AKGKTDKQYCFVNHRFVRDKVMLHAVKQAY-----RDVLHNALTPAFVLFLDLPPEAVDVNVHPTKTEIRFRDSQQVHQLVFHTLNKAL- A0A1G0HG47/216-328 ----GKEFMQHALAI----EF----------ISA-G----MKLWGWIAEPIF-------NRSQADMQFFYINNRFVRDKLLNHALRQAY-----HDVMFNNRFPAFILYLEIDPSIVDVNVHPTKHEVRFRDTRLVHDFVFSGVHDAL- A0A154NAY0/212-327 -----RALADNAVTI----DL----------ERP-TDSGPIVLGGVASIPTY-------NRGVADHQYLFVNGRPVRDRLLMGAIRGAY-----AEMLPRDRHAVVALFLDVPPAEVDVNVHPAKTEVRFRDPAMVRGMIVSGLRRAL- A0A1G0DU64/213-325 ----GEEFGHAAVSV----ER----------QTA-N----LLLQGFAALPAY-------SRSTRDAQYFFVNGRFVRDKVAGHALRQAY-----QDILHHQRHPAFVLFLDLPPEQVDVNVHPAKSEVRFRESQGVHQFIFHTLQQAL- I1AWA4/233-345 ----GGEFTDNALSI----DA----------ERD-G----FRLTGLAALPTY-------SRGSSVAQHLFVNGRPVQDKLLVGALRGAY-----ADFLGRDRHPAVALFVDCDPHLVDVNVHPAKSEVRFREPGVVRGLIVSALRHAL- A4SR27/217-329 ----GTPFMHHALAV----ES----------EHS-D----VRLWGWLALPEG-------ARPQNDLQYTYVNGRMMRDKLINHAIRQAY-----DELLPTDRFAAYVLYIELDPHQVDVNVHPAKHEVRFHQARLIHDFIFQALFTAL- A0A023DZZ6/217-329 ----GTPFMHHALAV----ES----------EHS-D----VRLWGWLALPEG-------ARPQNDLQYTYVNGRMMRDKLINHAIRQAY-----DELLPTDRFAAYVLYIELDPHQVDVNVHPAKHEVRFHQARLIHDFIFQALFTAL- W0AAZ0/183-294 -----RALRENSVAV----DL----------ARE-G----VRLGGIAGLPTF-------NRGVADHQYLFVNGRPVKDRLLAGAVRGAY-----ADMLARDRHAVVALFLELPTEEVDVNVHPAKTEVRFRDPQLVRGMIVSGLRRAL- A0A0P6X965/220-329 -----------AVLL----DM----------ERP-VQSGTMRLSGVAGLPTF-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----ADMLARDRHAVLALFLDLPPEDVDVNVHPAKTEVRFRDSAGVRGFIVSGLRQAL- A0A066UQZ3/217-328 ----GNAFVRHMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDG-- N9WCX2/194-304 -----RDLAANSIGV----DV----------ERG-E----VRLGGVISLPTY-------NRGIADHQYLFVNGRPVKDRLLVGALRGAY-----ADLLARDRHPVVALFLDLPTSEVDVNVHPAKTEVRFRDPQLVRGMIVGGLRRA-- A0A0M7F1J9/217-330 ----GTPFLEQALAI----EW----------QHG-D----LALRGWVADPNAS------SAAFAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A0H1R8V6/216-328 ----GSDFNENAMSI----GV----------ERE-G----VRLTGFASLPTY-------HRGTSTSIHFVVNGRPVRDKLLLGAVRGAY-----ADVMASDRHPVLAMMIELDPHAVDVNVHPAKTEVRFRDPAFMRGFVVAAIKEAI- K6ZRH1/222-333 ----NKDFANSAIAL----DS----------HYQ-E----MVLTGWIAPPDL-------ATQQSDVQYFYVNGRMMRDKLINHAIRQAF-----EGVISPDSSPNYVLYLNIAHHEVDVNVHPAKHEVRFHQARLVHDFIFRALADG-- A0A1E4GJ50/215-327 ----GADFVDNAVTL----AM----------HRH-G----VVVAGMAGLPTY-------TRANSLSQFYFVNGRSVRDKVLVGAVRAAY-----ADYTFRDRFPVVALYLAIDPGEVDINVHPAKAELRFRDQGAVRGAVIKAIGTAL- A0A161SEJ4/213-325 ----GKDFAAAALAV----EA----------EAG-P----LALFGLVASPTY-------SKASRDAQYFFVNGRFVRDKTAQHAIRQAF-----RDVLHHERHPCYALFLSLPPEGVDVNVHPTKIEVRFRESQAIHQFVFHALNKTL- H0Q286/210-322 ----GDDFLTQARAI----DA----------DAG-Q----LRLSGFASLPAY-------SRASRDAQYFFVNGRFVRDKLLTHAVRQAY-----ADILHGARHPAYVLFLELDPAGVDVNVHPAKIEVRFREARAIHQFVFHALSRTL- A0A0N1B327/216-328 ----GRDFPENALRL----DA----------ARE-G----FHVTGFAGLPTF-------HRGTSAGVHLAVNGRPVRDKLLLSAVRGAY-----ADVVPSDRHPVLFLDVACDPRLVDVNVHPAKSEVRFRDPALVRGLVVSGLKAAL- A4JBT3/229-341 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- U6B721/210-322 ----GKDFLDNAIEL----NE----------ISH-D----IALRGYAGIPTF-------NRSQPNQIYVFVNGRIIQDKLIFSAIRSSY-----AESIPQKRYPVIVLLIEIDPQQVDVNVHPAKSDVRFRNPSMVRNFIIKSIKETI- A0A0D8DA22/218-330 ----GQRFLEHAVKV----DC----------QHG-D----LHLWGWLAKPSF-------YRSQNDLCYSYVNGRMMRDKLINHAIRQAY-----ADLLPHEGYPAFVLFLTLDCREVDVNVHPAKHEVRFHQGRYVHDFIYSVCQRAL- E1QF59/220-330 ----GREAAAHMVGL----DQ----------RVG-P----IRLWGLAATPAH-------SRSAADQVFVFVNGRFVRDKILLHAVGQAY-----HGLLPAERRPVAVLHLELDPELVDVNVHPAKIEVRFRQQREVHDALVLALRR--- A0A0F5L326/215-327 ----GGDFIDNAVPL----AM----------ARH-G----VVVAGLAGLPTY-------TRANSLSQFYFVNGRSVRDKVLVGAIRAAY-----ADYVFRDRFPVVALYLAVDPGAVDVNVHPAKAELRFQDQGAIRGAVIRAIGTAI- B0UUU5/217-329 ----GNDFMQNALHI----DW----------KHN-D----LHLSGWVIQPQF-------ARHQNDLNYCYINGRMVKDKVITHAIRQAY-----SEYLSNEKYPAFVLFIDLNPNEVDVNVHPTKHEVRFHQARLIHDFIYQGMTNAL- J2RFQ3/212-324 ----GKDFRDNAIEI----DA----------ERE-G----VSLTGFTGVPTF-------NRGNSAHQYAFVNGRPVQDKLILSAIRGAY-----AETIPAGRYPVAVLSIRLDPVLVDVNVHPAKSDVRFRDPQLVRGLIVGAVREAL- B2UBB0/230-341 -----TEFARARLPF----EE----------SAG-E----LRLFGFAGLPTA-------SRGRADHQFFYVNGRFVRDRLLTHAVRSAY-----EDVLHGDRFPAYVLCLELPPEAVDVNVHPSKIEVRFRDSRAVHQFVYHAVQRAL- A0A0X3THL8/223-335 ----GGPFVEQSLAL----EF----------EAQ-D----IQLSGWAAQATF-------NRSQTDMQYVFVNGRIVRDRLLSYAVKQAY-----ADVLYHGRHPAYVLFLDIPHELVDVNVHPAKYEVRFANGRWVYDFLRRSVREAV- I3DBX4/226-338 ----GEQFIQHANYL----DW----------QHG-D----LHLHGWIGSPEL-------AHPQNDLCYSYVNGRMMRDKTINHAIRQAY-----GEHIAQGNYPAFVLFLDLDPTHVDVNVHPAKHEVRFHQGRLVHDFILQGVLQAL- I4C3I5/215-327 ----SREVRDNLVAI----DY----------AFK-D----VRVHGHVAKPPY-------VKSNMRSVFTFVNGRSVRDRLVNSAVMRAF-----SNLMERGRYPLAILFLEMPPEQVDVNVHPQKAEVRFRKPKVVSDAILNGVHEAL- C3M8B2/217-328 ----GAPFLKQALAL----SF----------DHS-G----LSLKGWIAEAN--------GPKMNEIQYFFINRRIIRDRVVNHAVRQAY-----EAISTGPKNPSYVLYLDIDPRQIDVNVHPTKQEVRFHQTRLVHDFIYHAITNAL- A0A0N2ACR6/217-329 ----GPAFLQHALNI----DW----------QHG-D----LSIRGWVADPAG-------ARQLGEMQYCYVNCRMMRDRLINHAIRQAY-----QDQLKDDQQPAYVLYLEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVTTVL- K8CZU7/43-156 ----GPAFLEHALAI----EW----------QHG-D----LALRGWVAEPKGT------TAALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGIDQQPAYVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVVSVL- E1W6U9/217-329 ----GDDFVQHALRI----DW----------KHD-D----LHLSGWVATPEF-------TRSQNDLSYCYINGRMVRDKVITHAIRQAY-----AEHLHTEQYPAFVLFIDLNPHDVDVNVHPTKHEVRFHQARLIHDFICQGVTNAL- A0A0N8KD18/236-348 ----GRDFTANALRI----DA----------RRD-E----LHLTGHAALPTY-------SRGAAVAQFVFVNGRPVRDKLLTGALRAAY-----SDFLSRDRHPAAVLFLECPPALVDVNVHPAKAEVRFRDPGMARGLVVSALRHAL- A0A060UN73/222-334 ----GEGFLANALYI----EQ----------EDQ-G----LSLSGWLGLPTY-------NRARGDEQYFYVNSRPVRDPVITHALRASY-----NDVLFQDRHPLYVLYLKLPPERVDVNVHPAKAEVRFRDSREIHDFLFHTLRRVI- I8U9U3/217-329 ----GRAFAEQAVWI----EN----------QYQ-Q----IRLSGWILPPAA-------CQTQAACQYSYVNGRMMRDKLLNHAIRQAY-----GEQLSAEQQPAFVLYLELAPSEVDVNVHPAKHEVRFHQARLVHDFVVSALADAL- A0A081NIG9/218-330 ----GPKFIENSVIV----DV----------EVS-G----LKLWGWVGLPTF-------SRSSADLQYFFVNGRVIRDRLVAHAVRQAY-----RDVLYGGRHPTFVLYLDLDPALVDVNVHPTKHEVRFRDGRTVHNFLFSTLHRAL- A0A0Q9ILN2/216-327 ----GRDFPENALRL----DA----------ERE-G----FRVTGFAGLPTF-------HRGTSAGVHLAVNGRPVRDKLLLSAVRGAY-----ADVVPSDRHPVLFLDIACDPRLVDVNVHPAKSEVRFRDPGLVRGLVVSGLKGA-- A2WCE7/229-341 ----GDGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- A0A0T9U2D5/217-329 ----GPAFLQHALAI----SW----------QHG-D----LTIRGWVADPAA-------SRTLSEMQYCYVNNRMMRDRLINHAIRQAY-----QDLLKDDQQPAYVLYLDIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVTTVL- A0A1F4DLK4/213-325 ----GDDFSAASLAL----DE----------ASA-G----LRLHGRIGLPSH-------SRTARDAQYVFVNGRFVRDKLLAHAVRQAY-----QDVLHHERHPAFVLFLEIDPALVDVNVHPTKIEVRFRDARGVHQFVFHALNKAL- A0A158F0P7/233-343 ------VFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGNRYPSYVLFLDLPPESVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- A0A1C3CW21/225-336 ----GRQFTENAYWI----DT----------DSV-N----MRLSGWLGHPSD-------ARSQADLQYVYVNGRIVKDKTISHALRMAY-----EGILHGHQYSAYLLFLEVDPENIDVNVHPTKHEIRFLNQREVHEFVRHYAKAT-- A0A0G9HCV4/217-329 ----GPEFPGQALRV----EH----------EAA-G----LRLSGWVGLPTA-------SRSQADQQYFYVNGRLVRDRIVAHAVRQAY-----SDVLFHGRHAVFVLFLQLDPSGVDVNVHPAKNEVRFREQRLIHDFLFRTLHEAL- A0A0M6YQH1/215-327 ----GQDFVDNAMEI----DA----------ERE-G----VRLSGFAGLPTH-------HRGNAQHQFFFVNGRPVKDKLLLSGLRGAY-----ADVLARDRHPVVVLFIDLEPGQVDVNVHPAKADVRFRDSQLVRGLLVGAIKHAL- E6WFZ5/217-329 ----GTTFMQHALRI----DW----------QHD-D----LALRGWVADPAG-------SRQVTDLQYCYVNGRMMRDKLINHAIRQAY-----QTQLGDEQQPAYVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIWQGVMSAL- Q07RR2/216-327 ----GAEFRKSAIEV----RS----------ERD-G----VVVEGFAGAPSL-------TRANALGQYLFVNGRPVRDRLIIGAVRAAY-----ADYLPRDRHPVLALFVTCDPHEVDANVHPAKTEVRFRDAGLVRALIVHALKDG-- A0A1G0ETH2/255-367 ----GEEFGHAAVTV----ER----------QAA-N----LSLQGMAALPAY-------SRSSRDAQYFFVNGRFVRDKVASHALRQAY-----QDILHHQRHPAFVLFLELPPEQVDVNVHPAKSEVRFRESQGIHQFIFHTLQQAL- A0A1G0D974/255-367 ----GEEFGHAAVTV----ER----------QAA-N----LSLQGMAALPAY-------SRSSRDAQYFFVNGRFVRDKVASHALRQAY-----QDILHHQRHPAFVLFLELPPEQVDVNVHPAKSEVRFRESQGIHQFIFHTLQQAL- A0A0P7YCN6/221-333 ----GRDFPDNAIAV----DA----------ARE-G----FALAGMIGLPTY-------HRGNGAQIHFVVNGRPVRDKLLLSAVRGGY-----ADVMASDRHPVLALFITCDPAIVDVNVHPAKTEVRFREPGLIRSLIVSAIRDAL- A0A0B4C661/228-340 ----GADFTDNAIAI----DA----------ERD-G----LHLTGFAALPTY-------SRGSAVAQFLYVNGRPVKDKLLTGALRAAY-----FDFLSRDRHPAAALFVDCDPQLVDVNVHPAKSEVRFRDPGVARGLIVSGLRHAL- D0I8R5/217-329 ----GPQFVKTAVEV----SL----------EHQ-G----LTLQGWICTPEG-------ARAQNDIQHCFVNKRMMKDKLINHAIRQGY-----EASLRPDQFAAYVLYIDIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVADAL- D2TN07/217-330 ----GTPFLEQALAI----EW----------QHG-D----LTLRGWVADPNHT------TTALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDRLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- Q6N1N4/216-327 ----GADFRANAIEV----RA----------ERE-G----VVVEGFAAAPSL-------TKANALGQYLFVNGRPVRDKLILGAVRAAY-----SDYLPRDRHPVVALFVTLDAREVDANVHPAKTEVRFRNSGLVRALIVHALKDG-- C5BDM9/217-329 ----GPVFVQHALAL----TW----------RHD-E----LAIHGWVAAPQA-------IRQIGELQYCYVNGRMMRDRLITHAIRQAY-----QDRLSDEMPPAYVLYLEIDPRQVDVNVHPAKHEVRFHQARLVHDFIYQAVVEVL- A0A0C2K9A1/217-329 ----GNHFVRHMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----EMSLRPEQFATYVLYIEIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALADAL- A0A086MEA9/216-328 ----GSEFHENAMAI----GV----------ERE-G----VRLSGFASLPTY-------HRGTGTAIHFVVNGRPVRDKLLLGAVRGAY-----ADVMASDRHPVLAIMIDLDPRSVDVNVHPAKTEVRFRDPAFVRGFVVAALKEAI- B6CVZ2/174-274 ----GQAFLEQALPI----EV----------ERN-G----LHLWGWVGLPTF-------SRSQPDLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLYNGRHPTFVLFFEVDPAVVDVNVHPTKHEVGFRDSRMV------------- X7F4T6/234-346 ----GRDFVQNALPL----DA----------ERD-G----VRLTGLAALPTY-------SRGSAVAQHLFVNGRPVRDRMLLGALRAAY-----RDVLPRDRHPAAALFLDCAPERVDVNVHPAKSEVRFRDAGTVRGLIVSGLRHAL- A0A1E2UTY6/217-329 ----GAQFLEQALPI----QQ----------QAG-D----FSLSGWVARPGF-------SRAQADMQYFYVNQRMIRDKLVTHAVRQGF-----QDVLYHGRHPAYVLFFSLDPHKVDVNVHPTKHEVRFRDSRSVHDFIFRALHRLL- A0A1L8YNZ9/218-330 ----GKGFIEQAVPV----DV----------ERD-G----LRLHGWMGLPTF-------SRSQADLQYFYVNGRVIRDKVVSHAVRQAY-----SDVLYHGRHPAYVLFLELDPAMVDVNVHPTKHEVRFREQRMVHGFLYSSLHRVI- Q0VME5/218-330 ----GKGFIEQAVPV----DV----------ERD-G----LRLHGWMGLPTF-------SRSQADLQYFYVNGRVIRDKVVSHAVRQAY-----SDVLYHGRHPAYVLFLELDPAMVDVNVHPTKHEVRFREQRMVHGFLYSSLHRVI- V4PJZ5/222-334 ----GADFSDNALLI----DQ----------VRE-G----VRLTGYAGLPTF-------SRGNAAHQYLFVNNRPVRDKLLTGALRAAY-----ADFLARDRHPLAALFVEIDPEDLDVNVHPAKTEVRFRDPNLVRGLIIGALKHAL- Q5NQM6/214-325 -----RTLKDNSVAV----EY----------QRD-Q----MQLEGVASLPTF-------HRGLADHQYLFVNGRPVKDRLLIGSVRAAY-----HDLLAKDRHPVLALFLTLPNSDVDINVHPAKGEVRFRDSQAVRSLIVGALRESL- E6V429/223-335 ----SDDFVAKSVAV----EH----------LGG-V----VRVVGRAGIPDA-------ARSRGDQQFFYVNGRFVRDKVLSHAVRSAY-----EDVLHGQRQPIYALYLEIDPSRVDVNVHPTKIEVRFRDGREVHQAVRHAIEDAL- B4RA70/227-339 ----GREFSDNALAI----DH----------ERE-G----VRLSGFAGLPTF-------NRGNAAHQYLFVNGRPVRDRLLQGALRAAY-----ADFLARDRHPLAALYVELDPSQVDVNVHPAKAEVRFRDPGLVRGLIVGGLRHAL- K1ZAB6/217-329 ----GKEFAQNALSI----DI----------GSD-S----LGLTGWVSQPNY-------TRSQPDLQYLYINSRVVRDKIISHAIRQAY-----QDVIYQQRYPVVILYLNLDPTLVDVNVHPAKAEVRFRDSRLIHDFVAKGLKEVL- A0A1G0E5C7/217-329 ----GKEFAQNALSI----DI----------GSD-S----LGLTGWVSQPNY-------TRSQPDLQYLYINSRVVRDKIISHAIRQAY-----QDVIYQQRYPVVILYLNLDPTLVDVNVHPAKAEVRFRDSRLIHDFVAKGLKEVL- A0A1F3A491/227-339 ----GREFADNALAI----DA----------NRE-G----FRLTGFAGLPTL-------NRPTGQHQYLFVNGRPVRDKLLAGAVRGAY-----QDFLARDRHPMVALFLEAPPEMVDVNVHPAKTEVRFRDASIVRGLIVGALRTAL- A0A0W1L485/217-326 ----GKAFAEQGLYI----ES----------GDT-G----LQLHGWVLP----------VGSTNTIQYTYVNNRMMRDKLILHAIRQAF-----EEVAGQEELPGFVIYIDIDPRQVDVNVHPAKHEVRFHQGRLVHDFILQAVKQVV- I2NQB3/227-339 ----GEQFIQHANYL----DW----------QHG-D----LHLHGWIGSPEL-------DRPQNDLCYSYVNGRMMRDKTINHAIRQAY-----GEHIAQGDYPAFVLFLDLDPTHVDVNVHPAKHEVRFHQGRLVHDFILQGVLQAL- A0A1B1AFB9/226-338 ----GADFAPNCILL----DQ----------TRD-T----VRLSGFAGLPTF-------HRGTREHQHLFVNGRPVKDKLIVGAVRAAY-----QDLLARDRHPVAALFLDLPPDEVDVNVHPAKTEVRFRDAALVRGLIVGALSHAL- A0A0M2QLH2/233-345 ----GEGFATAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- A0A101D5M9/223-335 ----GKNFIEHARYI----ER----------EAG-G----LRLSGWVGLPTH-------SRSQADQQYFFVNGRVVRDRLVAHAVRQAY-----RDVLFNGRHPVFVLYLALDPDVVDVNVHPTKHEVRFRDGRMVHDFLYSSLHHCL- A0A1H7RA53/220-332 ----GTEFAGNALRL----AA----------TRD-G----LTLTGYAALPTY-------SRGAAIAQYLFVNGRPVRDRMLHGALRAAY-----QDVLARDRHPAAALFIDCDPTLVDVNVHPAKSEVRFRDPGVARGLIVSGLRHAL- A0A089YPV1/221-333 ----GPAFLEQAMPI----EV----------DRN-G----LRLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEVDPAVVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- A0A1N6FAS4/211-323 ----SRELAANSVGV----DL----------QRE-D----VRLTGVAGLPTY-------NRGVADHQFLFVNGRPVKDRLLTGAVRGAY-----AEMLARDRHPVVALFVDMPPEQVDVNVHPAKTEVRFREPSMIRGMIVSGLRRAL- A0A0Q4GX54/222-334 ----GRDFLEQSIAV----QYSAN-----------G----VTVQGRAGLPDA-------ARARADQQFCYVNGRYVRDKVLTHAARSAY-----EDVLHGHRQPVYALHIALDPTRVDVNVHPTKIEVRFRDSREVHQAVRHGVENAL- A0A0Q0G6T4/217-327 ----GRSFAEHALHL----AC----------EHD-G----LSLSGYLQAPSD-------TQ-VTDSFYFYVNGRLVRDRLVNHAVKQAF------GRFDIQHQPGYVLMLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFILQALQSVL- A0A074JW87/233-345 ----GRSFSDNSVRI----DA----------ERE-G----VQLTGYAALPTY-------SRGAAVEQFLFVNGRPVRDKQLTGALRAAY-----MDFLSRERHPAACLFLTCDPEWVDVNVHPAKAEVRFREAGTVRGLIVTGLRHAL- A0A0Q6WI59/220-331 -----GEFIEQSRPV----DM----------TLG-P----MRVTGRTGIPAA-------ARARADQQYVYVNGRYVRDKLIAHGIRSAY-----EDVLHGGRQPSYVLYIEIAPDRVDVNVHPTKIEVRFRDSREVHQAMRRAVEGAL- A0Y807/218-330 ----GPAFMQNALHI----DT----------EAA-G----LKLWGWVALPTF-------SRSQSDLQHFFVNGRVIRDKLVTHAVRQAY-----RDVLFHGRHPAFVLYLEVNPSIVDVNVHPTKHEVRFRDGRTVHDFLFRSLHRLL- F3KQ22/237-354 ----GADFITASVAV----DYRGRD------ASGRA----IRVRGRAGVPDT-------ARSRADQQFSYVNGRYVRDKVLTHAARSAY-----EDVLHGQRQPVYALHIEIDPTRVDVNVHPTKIEVRFRDSREVHQAVRHALEDAL- M9X1M3/226-338 ----GDEFIQHSTYI----DR----------QHG-D----LHLHGWVGSPAL-------ARLQNDLCYSYVNGRMMRDKTINHAIRQAY-----GDSIASGYYPAFVIFLDLDPTMVDVNVHPAKHEVRFHQGRLVHDFILQGVLNSL- A0A1A7BLQ5/229-344 -----HELKDNSVAI----EL----------ERD-TPHGVMRLTGVAGLPTW-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----ADMLARDRHAVLALFLDVPPQDVDVNVHPAKTEVRFRDSAGVRGFIVSGLRQAL- A0A163ZE02/216-328 ----GPEFRLSAIEV----RS----------ERE-G----VVVEGFAAAPSL-------TRANALGQYLFVNGRPVRDKLIIGAVRAAY-----SDYLPRDRHPIVALFVTLDPQEVDANVHPAKTEVRFRNAGLVRGLIVHALKEGL- W3RN34/216-327 ----GSDFRANAIAV----RA----------ERE-G----VLVEGFAAAPSL-------TRANALGQYLFVNGRPVRDRLILGAVRAAY-----ADYLPRDRHPLVALFVTLDPREVDANVHPAKAEVRFRNAGLVRALIVHALKDG-- A0A069PFE4/234-345 -----EVFETSHLPL----EE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGNRYPAYVLFLDLPPESVDVNVHPSKIEVRFRDSRSIHQYVFHTVQRAL- A0A0H3H5C4/217-330 ----GLPFLEHALAI----EW----------QHG-D----LTLSGWVADPLHT------NPTLAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLKIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A127K572/210-322 ----GDDFLQHAREV----SA----------EGG-V----LRLTGFASLPAY-------SRASRDAQFFFVNGRFVRDKLLTHAVREAY-----ADILHGSRHPAYVLFLELDPAGVDVNVHPAKIEVRFRESRAVHQFVYHALKRVL- A0A1G0KP11/213-325 ----GEEFVQSALAF----EQ----------AAA-G----LRLYGWLGLPAF-------SRSQPDMQYFYVNGRMVRDKLVTHAVRQAY-----QDVLYQGRHPAYVVFLEIDPAQVDVNVHPTKHEVRFRESRLVHDFLFRSLHQVI- A0A0J1DI10/219-330 -----NDFAEARLQL----DE----------AAG-P----LRLHGYVGLPTA-------SKARADGQFFYVNGRFVRDKLLVHAVKAAY-----EDVLHGDRFPSYVLALELDPAMVDVNVHPSKIEVRFRDSRAVHQFVFHAVQRAL- F0G444/1-79 ----------------------------------------------------------------AQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- K2ID10/216-326 ----GQDFCRHLLAL----DN----------QHQ-A----LRLWGWVSEA---------PRNHPDLQYCYVNGRMMKDKLINHAVREAF-----GGRLAEGQHGAYVLYLELPANQVDVNVHPAKHEVRFHDARLVHDFIARALADAL- A0A1J5L8Y3/217-329 ----GAGFVKNMLKI----EL----------EHQ-G----LNLHGWITTPEG-------ARQQNDLQYCYVNGRMMRDKLINHAIRQSY-----ENTLRPDQFATYILFIEIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDAL- A0A0A0ELL6/220-332 ----GEEFANNVLQL----DH----------EGA-G----LRLHGWIAQPSY-------NRASTDQQYLYCNGRAIRDRSVAHAVKQAY-----ADVLFHGRQPAYVLFLELDPRRVDVNVHPAKHEVRFRDSRLIHDFVYRTLQSVL- Q2BIN8/218-332 ----GSAFIDNAVKA----DVI--A------EAS-G----LRLWGWVGLPTF-------SRSQADLQYFFVNGRMIRDKVVTHAVRQAY-----ADVLYHGRHPAYVLYLELDPALVDVNVHPTKHEVRFRESRLVHDFLFRTLHRLI- A0A142L7L2/214-325 ----GYKSPEQILPA----NE----------ETS-----IINVHGFIGKPEN-------AKKTRGEQYFFVNKRFIKDAYLNHAVTSCY-----ENLMPKDQYPFYVLHIDIDPAQIDVNVHPTKTEIKFEDERSVYQIVRAVAKKA-- A0A0Q0IZS3/217-326 ----GKAFAEQGLHI----QS----------GES-G----LQLHGWVLP----------VGSANTTQYTYVNNRMMRDKLILHAIRQAF-----EEVSGEQELPGFVIYIDIDPRQVDVNVHPAKHEVRFHQGRLVHDFILQAIKQVV- A0A0W0U1U2/217-329 ----GSAFVKESIYL----DV----------EHG-S----MKLCGWISNSNF-------QRSQNDRLWVYINQRMVKDKLIHQALKQAY-----DGLLYPGRFPACVLYLMMNHAEVDVNVHPTKHEVRFQQPRLVFDFFTSQLTAAL- A0A176TZQ3/241-353 ----NDKFVDNSVAV----DH----------WAG-P----VHVTGRAGIPDA-------ARSRPDQQFCYVNGRFVRDKVLTHAARSAY-----EDVLHGNKQPVYALYIEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAIENAL- A0A1M2ZHA8/212-323 -----RALAENSVAV----DL----------ERE-G----VVLGGVAGLPTF-------HRGIADHQYLFVNGRPVKDRLLIGAIRGAY-----AEMMPRDRHAVVALFLDVPPDQVDVNVHPAKTEVRFRDPAMIRGMIVSGIRRAL- A0A0W1AD66/215-327 ----GNAFMKESFFI----ES----------QRG-S----MSLRGWISGPNL-------QRSQSDKQWIYLNQRMVKDKLLQHALKKAY-----DDLLHPGRFPVCLLYFQLPTEEVDVNVHPTKHEVRFQQPRLVHDFLSMEIRNAL- B5WVX5/262-374 ----GDTFATAHLPL----DE----------SAG-P----LAIYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGERFPSYVLFLDLPPEGVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- F4GUF5/213-325 ----GQEFTDQGLYV----EH----------EQG-L----ISLQGVITRPTY-------ARSRADRQYLYVNGRYVKDRTVAHAVRQAY-----ADVLHGDRQPAFVLFLTIDPAMVDVNVHPAKHEVRFRESGAIHRFVNQTLTQVL- J5KR59/83-195 ----GDEFVQNALEI----DW----------KHD-D----LHLSGWVAQPTF-------SRTQNDLSYCYINGRMVRDKIITHAIRQAY-----ADFLSPEQYPAFVLFIDLNPNDVDVNVHPTKHEVRFHQQRLVHDFICQGISNAL- A0A060Q4G1/213-324 -----KEFQNNSLEV----NE----------EES-G----IKLTGHVCKPTI-------NRGKSDMIYTFVNGRPIKDNLLVGAVRYAY-----HDFIPNDRYPFAALHLEVPYDQVDVNVHPNKSEVRFQNKRLIYEIVTRGLIKAL- A0A0K8MD20/211-323 ----GEAFKDNSLMI----EE----------RRG-Y----IRLKGFISLPSF-------TQSTANFQYLFVNGRPINNKLLSSAIRVAY-----EGLLFRNRYPMLALFLDIPGEYVDINIHPKKYEVRFKEAEFVKETIKNILKETL- A0A0P1FAC8/233-345 ----GSEFAENALKI----DA----------ERD-D----FMLTGYAALPTY-------SRGSAVAQFLFVNGRPVKDKLLIGALRGAY-----FDFLSRDRHPAAALFVECDPHRVDVNVHPAKSEVRFRDPGMVRGLIVSALRHAL- A0A1M6DLS8/218-331 ----GRSLLKDMLEV----EQQ---------GGP-D----LRLTGLISQPQL-------NRSAASHIYTFINGRYIRDRVVQHAVMEGY-----RHLLMKGRYPVVALFLELDPALVDVNVHPTKHEVRFRDQGLVHDFIANALQQTL- A0A0A0EFC3/233-345 ----GRDFADNALRI----DA----------ERE-G----LHMIGYAALPTY-------SRGAAVSQFLFVNGRPVRDKLLTGALRAAY-----MDVLSRDRHPAAALFIDCDPMLVDVNVHPAKSEVRFRDPGIARGLIVSGLRHAL- A0A0W1DUI5/212-322 -----RELAANSIGV----DL----------DRG-E----VHLGGVISLPTY-------NRGIADHQYLFVNGRPVKDRLLVGALRGAY-----ADLLARDRHPVVALFLDIPTSEVDVNVHPAKTEVRFRDPQLIRGLIVGGLRRA-- A0A0K1XCS7/219-331 ----GSEFLEQALPI----NQ----------ERN-G----LRLWGWVGLPTF-------SRSQADLQHFYVNHRIVKDRLVSHAVRQAY-----RDVMYGNRHPAFVLFLELDPTTVDVNVHPTKHEVRFRENRSVHDFLYSTLYRSL- U2B1E5/218-330 ----GPAFLEQALPI----EI----------ERG-G----LRLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEIDPSTVDVNVHPTKHEVRFRDSRMVHDFLYGTLHRAL- A0A0B2B998/230-341 -----DSFATAHLPL----DE----------QAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- A0A1G0LF04/216-328 ----GDECVQNLIYI----QY----------ESA-G----MLLKGWIGLPIF-------SRSQPDMQYLYINGRFVRDKLISHAIKQAY-----QDVLYHGRYPVYLLSFDLNPKELDVNVHPAKEEVRFRQTQIVHQFFMHAIQQAL- F6CXC6/218-330 ----GKKFIENTLTL----DV----------EAA-G----LRLWGWIGLPTF-------SRSQADLQYFFVNGRVVKDKLVAHAVRQAY-----RDVLYNGRHPTFVLYLELDPSTVDVNVHPTKHEVRFRDGRLVHDFLFSRIHKAI- A0A0L7Z148/217-329 ----GNAFVRHMLRI----EL----------EHQ-G----LRLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLKADQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSSAL- Q2KBX7/212-324 ----GKDFSDNAIAL----DA----------VRE-E----ISLTGFAGVPTF-------NRGNSAHQYAFVNGRPVQDKLILSAIRGAY-----AETIPSGRYPVAVLSIALDPALVDVNVHPAKSDVRFRDPGLVRGLIVGAIREAL- A0A1N6P4Q4/212-324 ----GAEFRDNAIEI----RA----------ERE-D----VTLSGFAGVPTF-------NRGNSTHQYAFVNGRPVQDKLILSAIRGAY-----AETIPAGRYPVAVLSITLDPALVDVNVHPAKADVRFRDPGLVRGLIVGALREAL- A0A0W1KUF3/217-326 ----GKAFAEHGLHI----QS----------GEG-G----LQLHGWVLP----------VGSANTTQYTYVNNRMMRDKLILHAIRQAF-----EEVSGAQELPGFVIYIDIDPRQVDVNVHPAKHEVRFHQGRLVHDFILQAIKQVV- L8D778/218-327 ----GKAFIEQASFL----ES----------GTD-G----LHLLGWLMP----------IGTSGATQYTYVNGRMMRDKLILHAIRQAY-----EEIIGAQEIPSFVLYLELDPRQVDVNVHPAKHEVRFHQARLIHDFIVQAVRQVV- A0A1G3HD82/210-322 ----GADFFAHSRNV----DV----------GAG-P----LRLTGCAALPAY-------SRAGRDEQYFFVNGRFVRDKLLAHAARAAY-----ADVLHGSRHPAYALFLELDPAAVDVNVHPAKTEVRFRDGRGVHQFVFHALTRAL- A0A037ZM61/233-345 ----GREFTENALPI----DA----------TRE-G----FTLTGFAALPTY-------SRGAAVAQFFFVNGRPVRDKQLIGALRGAY-----ADFLSRDRHPAAALFLTCDPHLVDVNVHPAKSEVRFREPGIVRGLIVSTLRHAL- A0A0L0QXM6/213-325 ----GAEFAEHGLLL----SH----------SVG-A----VSLAGMITRPTA-------ARARADRQYLYVNGRYVRDRTVSHALRAAY-----ADVLHGDRQPAYVLFLDIDPAAVDVNVHPAKHEVRFRDSGAVHRFVSHAVGQTL- A0A0P7EGB5/217-326 ----GKAFSEQGLHI----QS----------GEA-G----LMLRGWVLP----------VGSTNSTQYTYVNNRMMRDKLILHAIRQAF-----EEVAGSEELPGFVIYIDIDPRQVDVNVHPAKHEVRFHQGRLVHDFILQAIKQVV- D0J1V6/241-353 ----NDKFVDNSVAV----DH----------WAG-P----VHVTGRAGIPDA-------ARSRPDQQFCYVNGRFVRDKVLTHAARSAY-----EDVLHGNKQPVYALYIEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAIENAL- C7R8S3/217-329 ----GASFLREAIKL----DS----------TID-A----TRLYGWLSPVDW-------HQSSSLGQYVFVNGRAVRDRTLNHAIRQAY-----HDRLPAGRMPAYVLYLELEASQVDVNVHPTKHEVRFSNGRQVHDFMSHAVEEAL- A0A177MGE5/217-329 ----GSAFVENCVKI----DF----------AAS-G----LHLHGWVGLPTF-------SRSQQDMQFFYVNGRLIKDRLVAHAVKQAY-----QDVLYHGRHPVFVLYLELDPALVDVNAHPTKLEVRFREGRMVHDFLFQALHRSL- A0A126T7W8/217-329 ----GSAFVENCVKI----DF----------AAS-G----LHLHGWVGLPTF-------SRSQQDMQFFYVNGRLIKDRLVAHAVKQAY-----QDVLYHGRHPVFVLYLELDPALVDVNAHPTKLEVRFREGRMVHDFLFQALHRSL- I1DUT1/217-329 ----GRAFAEQAAFI----EN----------QYG-D----VKIWGYIVAPQA-------CPTQPGCQYSYVNGRMMRDKLLNHAIRQAY-----GDSLSAEQQPAFVLYLELDPRQVDVNVHPAKHEVRFHQARLIHDFIVSALSDAL- A0A1G3GT17/230-342 ----GADFIENALKI----DV----------ERD-G----LRLTGYAALPTY-------SRGSSVQQFVFVNGRPVLDRMLLGALRVAY-----FDFLSRDRHPAAVLNLICDPERVDVNVHPAKSEVRFREPEAARSLIITGLRTAL- A0A1E7Z9Q7/216-328 ----GQKFLTNAIHV----KT----------DYH-G----MQLEAWLGNEAM-------LRSSTDGQFSFVNGRGMRDKLILHAIRQAY-----ESVWGVLEQPSFVVYLTVDPRDVDVNVHPAKHEVRFQQSRLVHDFICKTVADAL- A0A0Q8QCK2/218-329 -----SNFEEARLAL----DE----------GSG-V----LRIHGFAGLPTA-------SKGRADSQYFYVNGRFVRDKLLVHAVRAAY-----EDVLHGDRYPSYVLALDLDPALVDVNVHPSKIEVRFRDGRAVHQFVFHAVQRAL- A0A1G3IJ81/193-305 ----GREFEANALAI----NA----------ERD-G----VRLSGHAGLPTL-------NRGNATMQFLFVNGRPVRDRLLYGAVRGAY-----REFLAADRHPLLALFLDIDPEAVDVNVHPAKTEVRFRDAGLVRGLIVGALKHAL- A0A1M3H6D2/213-324 -----DAFGQNAIAV----EA----------AAG-A----LRLNGWVIRPSA-------ATAGRDSQHVFVNGRYVRDKLIVHALKEAY-----RDVLHHQLNPAYCLFIELPPETVDVNVHPAKTEIRFRDSRGVHQFLYHAVERLL- A4Z0Q5/216-327 ----GTDFRSHAIAV----RS----------ERD-H----VAVEGFAAAPAL-------TRANALGQYLFVNGRPVRDKLILGAVRAAY-----ADYLPRDRHPVVALFVTLDPREVDANVHPAKTEVRFRNAGLVRALIIHALKEG-- A0A1M3GAK8/213-324 -----SEFESQAVAV----EA----------AAG-P----VRVSGWVVRPAA-------ATAARDGQHAFVNGRYVRDKLIVHALKEAY-----RDVLHHQLNPAYCLFLELPPDAVDVNVHPAKTEIRFRDSRGVHQFLFHAAERVL- A0A1E4NCK0/213-324 -----SEFESQAVAV----EA----------AAG-P----VRVSGWVVRPAA-------ATAARDGQHAFVNGRYVRDKLIVHALKEAY-----RDVLHHQLNPAYCLFLELPPDAVDVNVHPAKTEIRFRDSRGVHQFLFHAAERVL- A0A0D6T0Z2/221-333 ----GSAFLEQALPI----QV----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVVHAVRQAY-----RDVLYNGRHPTFVLFLELDPAAVDVNVHPTKHEVRFREGRTVHDFLYGTLHRAL- D3SEG4/214-326 ----GEAFMGAATPV----GE----------QRA-G----LKLSGWLGAPTQ-------SRAQPDQQFFFVNGRAIRDRVLAAAVRKAY-----QDVLYHGRHPMFVLELELDPVQVDVNAHPTKQEVRFRESRMVHDFIFHALHKAL- A0A0N0E5J4/226-338 ----GSGFLEQALPI----DV----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFYVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEVDPAAVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- A0A1M7F6M2/226-338 ----GKTFIEHARYI----ER----------QVG-D----LRLSGWVGLPTH-------SRGQADQQYFFVNGRVVRDRLVAHAVRQAY-----RDVLYNGRHPVFVLYLDVDPDVVDVNVHPTKHEVRFRDGRTVHDFLFSSLHRCL- A0A0F5ARX8/217-328 ----GQKFVEHALRI----DL----------HHH-D----MALTGWICTPEG-------ARQQNDMQHCFVNQRMMKDKLINHAIRQGY-----EQSLARDQYAAFVLYIDVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAIYDG-- V5UBP7/217-329 ----GSDFAGAHLAL----DE----------GAA-E----LRLSGFVGLPTA-------SRGRADQQFFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPAYVLYFELPPQLVDVNVHPSKIEVRFRDARSVHQFVFHAVQRAL- W9T239/221-333 ----GPAFLEQALPV----EI----------ERN-G----LRLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLDVDPAVVDVNVHPTKHEVRFRDSRMVHDFLYGTLHRAL- A0A125Y8P8/217-329 ----GSPFMHHALAV----SS----------EHS-D----VRLWGWLATPAG-------ARPQNDLQYTYVNGRMMRDKLINHAIRQAY-----DELLPADRFAAYVLYIELDPRQVDVNVHPAKHEVRFHQARLIHDFIFQALFTAL- A0A0A7RXU8/217-331 ----GTTFMQKAIKL----SW----------QHD-N----LSINGWIVA----------KTTQEPMQYFYVNGRIVKDRLLNHALKQAFQERNKSSIHSTDQTLSYIIYLEVDPHQVDVNVHPAKHEVRFHESRLVHDFVHQAVVMAL- A0A0H4KZ08/233-345 ----GREFSENAVPL----DA----------ERE-G----HHLTGFAALPTY-------SRGSAVAQHMFVNGRPVRDKLFYGALRGAY-----ADFLSRDRHPAVALFVDCDPRLVDVNVHPAKSEVRFRDPGLARGLIVSGLRHAL- R8B5L5/218-330 ----GQQFIDNAVVI----DA----------EAT-G----LRLWGWVALPTF-------SRSQADLQYFFVNGRVIRDRLVAHAVRQAY-----RDVLYNNRHPAFVLYLEVAPATVDVNVHPTKHEVRFRDGRLVHDFIFRTLHKAL- A0A0F7PLP7/212-324 ----GTEFAANTIAV----DA----------VRE-E----VGLSGHVGLPTW-------NKANSLSQYAFVNGRPVQDKQILTAIRAAY-----SDTLPRGRYPVAVLWITLDPALVDVNVHPAKADVRFRDPGLVRGLIIGAIRQAL- A0A1H2H2Y6/228-340 ----GPAFLEQALPI----EV----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVVHAVRQAY-----RDVLYNGRHPVFVLFLEVDPAVVDVNVHPTKHEVRFRESRMVHDFLYGTLHRAL- A0A0A3Z5M8/217-329 ----GTAFLSHALAI----EW----------QHG-D----LSLRGWVADPVG-------SKAITDLQYCYVNGRMMRDRLINHAIRQAY-----QDKLGNDHQPAYVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVVSVL- D9SFP7/233-345 ----GAEFGNAAVPV----SG----------SAA-N----LTLHGLAALPAY-------SRGNRDAQYFFVNGRFVRDKVASHALRQAY-----QDILHHQRHPAFVLFLELPAEQVDVNVHPAKSEVRFREGQGIHQFIFHTLQQAL- D2UCT2/214-326 ----GEDFARQALRV----DH----------SGA-G----LRLHGWIAQPHY-------SRASADQQYLYVNGRSVRDRSVAHAVKMAY-----GDVLFHGRQPAYVLFLELDPSRVDVNVHPAKHEVRFRDARLIHDFVYRTLQDTL- A0A1D7P8T2/217-329 ----GTAFVQQALAL----SW----------QHD-S----LSIKGWVVDPMN-------ATAVSDIQYCYVNGRMMRDRLINHAIRQAY-----QDLIQGEQQPAYVLYLGVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQGVAAVL- W7Q9Q7/216-328 ----GRTFAEGAVYI----ES----------DYQ-D----INVSGWLGLPQV-------ARNQNDMQYCYINGRMMRDKLINHAIRQAY-----ADALPSDMYPAYVLYLTIDPKQVDVNVHPAKHEVRFHQARLVHDFVYQTLHKAL- U7FW84/215-327 ----GQDFVDNAMEI----DA----------ARE-G----VRLTGFAGLPTH-------HRGNAQNQFFFVNGRPVKDKLLLSGLRGAY-----ADVLARDRHPVVVLFIDLDPALVDVNVHPAKADVRFRDSQLVRGLLVGAIKHAL- A0A1M3P6S8/217-329 ----GEDFPAQSLRV----DH----------AAA-G----MRLSGWVGLPTA-------SRSQADQQYFYVNGRLVRDRVVAHAVRQAY-----ADVLFHGRHPAFVLYLELDPAGVDVNVHPAKHEVRFREQRLVHDFLFRTLHEAL- A0A1E4MTK4/217-329 ----GEDFPAQSLRV----DH----------AAA-G----MRLSGWVGLPTA-------SRSQADQQYFYVNGRLVRDRVVAHAVRQAY-----ADVLFHGRHPAFVLYLELDPAGVDVNVHPAKHEVRFREQRLVHDFLFRTLHEAL- W8RZD1/98-210 ----GRDFAENALPI----DA----------ERE-G----LRLTGYAALPTY-------SRGSAVAQYLFVNGRPVRDKLLVGALRAAY-----MDFLSRDRHPAAALFLDCPPERVDVNVHPAKSEVRFREPGIARGLIVSGLRHAL- A0A1C3J4E1/217-328 ----GNPFVRHMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDG-- A0A143HIR6/219-331 ----GPAFMQNALHI----DV----------ERS-G----LRLWGWVAEPAF-------SRSQADLQFFYVNGRAIRDKVVSHAVRRAF-----ADVLYHGRHPAFVLYLELDPAAVDVNVHPTKHEVRFRDSRLVHDFLFGSLHRAL- A0A1N6XYY2/212-324 ----GKDFRDNAIGL----DA----------ERE-E----VRLTGFAGVPTY-------NRGNSLHQFAFVNGRPVQDKLILSAIRGAY-----AETIPHGRYPVAVLSIAIDPALVDVNVHPAKADVRFRDPALVRGLIVGAIREAL- P65489/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- A0A0M1WGZ2/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- D7H524/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- N8N2R6/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- C9V6Q1/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- C4IUL0/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- B2SD15/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- A0A0E1WX44/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- P65490/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- D0P5T9/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- Q2YIH2/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- A5VTW1/215-327 ----GREFGENALAI----DA----------ERD-G----VRLAGFVGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- J1K151/215-327 ----GKDFAPNCIPL----DV----------MRE-N----ISLTGFSGVPSF-------NRGNSLHQFAYVNGRPVRDKLLLGAIRAAY-----FDSIARDRYGVCVLFIDLPHTDVDVNVHPAKADVRFRDPGLVRGLIVGGIREAL- A3WCG0/218-333 -----RELKDNAVEI----EL----------ERD-GPHGPMRLSGLAGLPTY-------NRGVADHQYLFVNGRPVKDKLLTGAVRGAY-----SDMLARDRHAVLALFLDVPPEDVDVNVHPAKTEVRFRDSTGVRGFIVSGLRQAL- A0A0F7HB51/217-329 ----GPAFLQHALAI----SW----------QHG-D----LSIRGWVADPQG-------ARQLGEMQYCYVNSRMMRDRLINHAIRQAY-----QDQLKDDQLPAYVLYLEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVTTVL- A0A060NVK8/287-399 ----GEDFLAHSLPF----DW----------RGG-G----LRVWGRAGLAQV-------ARARADQQYSYVNGRFVRDKVIGHAVRSAY-----EDVLHGQRQPVYVLLLELDPARVDVNVHPSKIEVRFRDGRAVHQAVRQALEQVL- A0A0R0C5S6/215-327 ----GEDFARQALRV----DH----------SAA-G----LRLHGWIAQPQY-------SRASSDQQYLYVNGRSVRDRSVSHAVKMAY-----GDVLYHGRQPAYVLFLELDPTRVDVNVHPAKHEVRFRDSRLIHDFVYRTLKDAL- G2DD62/235-347 ----GGEFLKNALHI----EH----------EVL-S----LRLSGWVARPSF-------SRSQADMQFFYVNNRMVRDKLVTHAIRQAF-----QDVLYHGRHPAYVLFLEIDPSKVDVNVHPTKHEVRFREGRLVHDFLFRGLHHAL- A0A1F8I4N4/223-335 ----GRDFEANALLI----DQ----------ARD-G----VRLSGYAGLPTY-------SRGNAAHQYLFVNGRPVKDRLLQGALRGAY-----ADFLARDRHPAAVLFLELDPLYVDVNVHPAKAEVRFRDPQLVRGLIVGALRHAL- A0A1G0HI33/218-330 ----GHEFMANALSI----EF----------EAA-G----MRLWGWIALPHF-------TRSQSDMQHTYINGRIIRDKLMTHAMQQAY-----QDVLFHGRKPAYCIYLNIDPKIVDVNVHPTKHEVRFRNSQLVHQFLFKAVQDAL- A0A1M2YRK3/215-327 ----GKDFPENSLPI----DA----------ERE-G----VRLSGRISIPSF-------SRANALSQYAYVNGRPVRDKLIAGALRGAF-----ADVLPRDRHAVTVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIRQAM- D2ZWL5/213-325 ----GEDFQAVSLEI----DS----------GNG-A----LRLYGAIAKPTF-------AKGKTDKQYCFVNHRFVRDKVMLHAVKQAY-----RDVLHNALTPAFVLFLDLPPEAVDVNVHPTKTEIRFRDSQQVHQLVFHTLNKAL- A0A1B9KT45/213-319 ----GREFMQKAVKL----DW----------QHD-D----LLIQGWVA-----------SNNVSDLQYFYVNGRVIKDKLLNHALRQAY-------ISQTNEQQSYVVFLQLDPKQVDVNVHPAKHEVRFHEARLVHDFVYQAIMMAL- A0A1F4JRI2/218-330 ----GDEFANARLAL----EQ----------AAG-P----LRLHGFVGLPTA-------SRARADAQYFYVNGRFVRDKLLTHAVRAAY-----QDVLHGDRYPSYVLALELEPALVDVNVHPSKIEVRFRDSRAVHQFVFHAVSRAL- E8WXW8/244-350 -----------ELDY----EAP---------DPG-F----LRISGFVSKPEL-------QKLNRNSVYVFVNQRLIRDRLVLHALTEAY-----RNIIPPSSFPVVLLFLEMPPHEVDVNVHPAKTEVRFRQPAFVHDFIRDTVRTTL- A0A1J0V9I0/222-336 ------ELADNGVFI----EL----------ERP-SGDSAMRLTGVAGLPTY-------NRGIADHQYLFVNGRPVKDRLLTGAVRGAY-----ADMLARDRHAVLALFLDIPFADVDVNVHPAKTEVRFRDAQAVRGFIVSGLRQAL- Q0FEI2/234-346 ----GIDFAKNSFRV----DA----------ERD-G----MTLTGYASLPTY-------SRGSSVSQYIFVNGRPVKDKSLLSALRAAY-----SDFLHNGRYPLAALFVECDFERVDVNVHPAKAEVRFREPGIVRGLVISALRHAL- E0Y071/234-346 ----GIDFAKNSFRV----DA----------ERD-G----MTLTGYASLPTY-------SRGSSVSQYIFVNGRPVKDKSLLSALRAAY-----SDFLHNGRYPLAALFVECDFERVDVNVHPAKAEVRFREPGIVRGLVISALRHAL- A0A142W2S4/212-322 -----RDLAANSIGV----DV----------ERG-E----VRLGGVISLPTY-------NRGIADHQYLFVNGRPVKDRLLVGALRGAY-----ADLLARDRHPVVALFLDLPTSEVDVNVHPAKTEVRFRDPQLVRGMIVGGLRRA-- A0A0Q4YHN1/220-340 ----GDDFCERSVAV----DYTSASQREGG--GP-A----IRVRGRAGIPDA-------ARARGDHQFAYVNGRFVRDKVLGHAARSAY-----EDVLHGQRQPVYALYVEMDPARVDVNVHPTKIEVRFRDSREVHQAVRRAVDHAL- A0A0S8JVH9/213-322 -------AADNLVEVGF--EKY-------------D----VRVRGYVAKPLE-------ARRDRRHQFFFVNGRPIADRTLAYSVEQAY-----EGLITTQRYPVVVLFVELAVDEVDVNVHPTKEEVRFRDEGKVRGLVYRAVAEAL- A0A0A5HUL8/217-329 ----GSAFVRNMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLKPEQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDAL- A0A0N0IJE4/217-329 ----GGGFAEQASTV----DA----------VDG-D----FHLTGWLVPPEH-------CRHQGDIQYFFVNGRMMRDKLLSHAVRQAY-----EKYLPNERVPTFVLYFELPSEQVDVNVHPAKHEVRFHRQRQVHDFILTRIEQAL- A0A0G3CJV1/217-329 ----GTAFLQHALSI----SW----------QHG-D----LKIEGWVADPVG-------ARTLTDMQYCYVNGRMMRDRLLNHAIRQAY-----QTQLAEDQTPAYVLYLEVDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQAVVTVL- B8GNC5/225-337 ----GEAFATQAVRI----DH----------EAA-G----LRLSGWLGLPTY-------SRSQADLQYFYVNGRMVRDRLISHAVRQAY-----QDVLFHGRHPAFVLYLELDPALVDVNAHPAKHEVRFRESRLVHDFLFRSLHRVL- B6Y9C5/39-151 ----EKEFQSNSLEV----KE----------EEE-G----IKLKGHICKPNV-------NRGNSTQIYTFVNGRPMKDNLLVGAIRYAY-----HDFIPNNRYPFAVLHLEVPYDQVDVNVHPNKSEVRFQNKRLIYEIVRRGIIKTL- A0A073J5T7/232-344 ----GREFADNSLAI----DA----------ERE-G----LHLTGYAALPTY-------SRGSAVAQYLFVNGRPVRDKLLVGALRGAY-----FDFLSRDRHPAAALFLDCDPTLVDVNVHPAKSEVRFRDPALARGLIVSALRHAL- A0A1G0GHF8/216-328 ----GPAFVEHAIHI----EG----------EGA-G----MRLSGWIALPTF-------SRSQADFQYFYVNGRMVRDKLVMHALKKAY-----HDVLYRDRHSAYILFLEVLPSQVDVNVHPTKHEVRFREGRVVHDFVLRSVQDAL- D7VKZ8/214-326 ----GNNYNQRLVPV----EE----------ETS-----IITINGFIGKPEF-------AKKTRGEQFFFVNKRFIKDPYLNHAVLNAY-----EEILAADSYPLYVLFIDIDPAKIDINVHPTKTEIKYEDDKAIYAILRSAIKRSL- D4DR65/213-325 ----GSDFQTASLPV----EG----------GGG-S----MRLYGLIAKPTF-------AKGKTGQQYCFVNRRFVRDKVMLHAVKQAY-----RDVLHQALAPAFVLFLELPPEAVDVNVHPTKTEIRFRNSQAVHQLVFHTLDKAL- D5CRN4/263-375 ----GPEFGQHAVNV----ER----------QIG-P----LHLYGIAALPAY-------SRSTRDEQYFFVNGRFVRDKVLMHAVRQAY-----QDILHHQRHPAFVLFLDMPPEQVDVNVHPAKSEVRFRESQGIHQFVFHALQDAL- B8CIX3/217-328 ----GKAFAETCLHI----SC----------SHN-D----LTLSGYLQAPGA-------ASGYCETQYFYVNGRLVKDRLVNHAVRQAF------SEYAAGVSPGYVLMLELDPHQVDVNVHPAKHEVRFHQSRYVHDYILQALQSAM- A0A0M3TA98/214-329 -----RELKDNCVEI----AL----------ERP-GPSGPMRLTGIAGLPTY-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----SDMLARDRHAVLALFLDLEPEDVDVNVHPAKTEVRFRDAAGVRGFIVSGLRQAL- A0A1M3JV94/229-341 ----GEDFVAQSVPI----IH----------TEG-P----VTITGRAGLPDA-------ARSRPDQQYGYVNGRFVRDKVIQHAARSAY-----EDVLHGQRQPVYALYIEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAVERAL- A0A0E3YEE9/217-329 ----GNDFADAHLAL----DE----------GAA-E----LRLSGFVGLPTA-------SRGRADQQFFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPAYVLYFELPPQLVDVNVHPSKIEVRFRDARSVHQFVFHAVQRAL- A0A0Q7Q1Z6/215-327 ----GEEFANHALRI----DH----------SAA-G----LRLHGWIAQPVY-------NRASADQQYLYVNGRAVRDRSVAHAVKQAY-----ADVLFHGRQPAYVLFLELDPRRVDVNVHPAKHEVRFRDARLIHDFVYRTLNDAL- A9DXV6/233-345 ----GREFAENSLPI----DA----------MRE-G----LHLTGFAALPTY-------SRGSAVAQYLFVNGRPVRDKLLTGALRGAY-----SDFLSRDRHPAAALFVECPPTLVDVNVHPAKSEVRFRDPGLARGLIVSALRHAL- A5V3J3/212-323 -----RDLAQNSVAV----DF----------RRE-A----VSLTGVAGLPTF-------NRGVADHQFLFVNGRPVKDRLLIGAVRGAY-----QDMLARDRHPVIALFVELPGDQVDVNVHPAKTEVRFRDPGLVRGMIVGGLRAAL- A0A010R067/216-328 ----GQKFIQNAVNI----ST----------EYE-G----LHIDAWLGNEAM-------LRSSNDCQFSFVNGRGMRDKLIMHAIRQAY-----ESVWGVIEQPSFVVYLDVDPKDVDVNVHPAKHEVRFQQGRLVHDFICKTVSDAL- A0A166T8J7/220-331 -----PTFMDSAVHI----ER----------EAA-G----LNLQGWVGLPTF-------SRSQADMQYFFVNGRVVRDKLVVHAIKQAY-----RDVLYHGRQPAFVLYLWLDPKLVDVNVHPTKHEVRFRDGRLVHDYLFRTLHKAL- A8GY89/217-329 ----GEDFIKNASYI----DF----------KSP-D----FSIYGYTSIPTY-------NRASSEDQFLFINNRPVKDKLLQVALRVAY-----QDYMLRDRYPLCAIFLQIDPQLVDVNVHPAKAEVRFHDPNYVRNLLIDSIKNAL- A0A143WUE6/218-330 ----GQAFVDCALAV----SE----------QQG-D----LAIRGWIADPTGI------ERPE--MQYSYVNLRMIRNNLINHAIRQAY----DQYQLTGAQQPAFVLFLDVDAHQVDVNVHPTKHEVRFHQARLVHDFIYRAILPIL- A0A1E8CN69/220-332 ----GPAFLEHAVYI----DI----------EAS-G----LRLWGWVCLPTF-------SRSQPDLQYFYVNGRVIRDKLVSHAVKQAY-----RDVLFHGRHPAFVLYLELQPALVDVNVHPTKHEVRFRDQRLVHDFLFRSLHKAL- K2HA11/231-343 ----GRDFAQDALPI----EA----------ERD-G----LALAGFAALPTY-------SRGSATQQHVFVNGRPVRDRLLTGALRAAY-----HDTLPRDRHPAAALFVECDPHRVDQNVHPAKTEVRFREPAAVRALIVSALRQVL- A0A0D5V7B9/236-348 ----GETFATAHLPL----DE----------SAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A0Q7Z227/212-322 -----RDLAGNSIGV----DL----------DRG-D----VHLGGVISLPTY-------NRGISDHQYLFVNGRPVKDRLLVGALRGAY-----ADLLARDRHPVVALFLDVPTSEVDVNVHPAKTEVRFRDPQLVRGMIVGGLRRA-- A9NCK3/216-328 ----GDVFMQSALAI----EF----------SQS-G----LTLKGYIAEAAY-------TRSQPDLQYIYVNGRFVRDKLVAQALRQAY-----HDVLFHGRHPAYVLYLEIDPAFVDINVHPTKHEVRFRDPQWVRDFLIHAVKTAL- C8NA89/211-310 ----GDDLLEQALPI----DA----------RAA-D----MHLYGWVGLPTS-------ATNQPERQYFYINGRIIRDKIIAHAIRQAY-----QDMLYHGRHPVYVLYLDIAPEHIDVNAHPAKHEVRFRESRL-------------- V5B267/217-330 ----GMPFLEKALAI----EW----------QHG-D----LALRGWVADPKSN------TAAFTDIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A1E5E085/217-329 ----GSNFMEHAVAI----TL----------DHD-D----LKLKGWITTPDG-------ARSQSDLQYCYVNGRMMRDKLINHAIRQSY-----ESALRPEQFATYVLFIEIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDAL- A0A147J613/212-323 -----RALAENSVAI----DS----------VRD-T----ISLGGVAGLPTF-------NRGIADHQYLFVNGRPVRDRLLMGAIRGAY-----AEMLPRDRHAVVALFLDMPPSEVDVNVHPAKTEVRFRDPALIRGMIVSGLRRAL- A0A0D5RK72/214-326 ----GDDFARQALRV----DH----------SGA-G----LRLHGWVAQPHY-------SRASTDQQYLYVNGRSVRERSVAHAVKMAY-----GDVLFHGRQPAYVLFLELDPARVDVNVHPAKHEVRFREARLIHDFVYRTLQDAL- M4TV13/214-326 ----GDDFARQALRV----DH----------SGA-G----LRLHGWVAQPHY-------SRASTDQQYLYVNGRSVRERSVAHAVKMAY-----GDVLFHGRQPAYVLFLELDPARVDVNVHPAKHEVRFREARLIHDFVYRTLQDAL- A0A0U4YM69/214-326 ----GDDFARQALRV----DH----------SGA-G----LRLHGWVAQPHY-------SRASTDQQYLYVNGRSVRERSVAHAVKMAY-----GDVLFHGRQPAYVLFLELDPARVDVNVHPAKHEVRFREARLIHDFVYRTLQDAL- Q8PJX2/214-326 ----GDDFARQALRV----DH----------SGA-G----LRLHGWVAQPHY-------SRASTDQQYLYVNGRSVRERSVAHAVKMAY-----GDVLFHGRQPAYVLFLELDPARVDVNVHPAKHEVRFREARLIHDFVYRTLQDAL- V7EJU0/691-803 ----GADFTQNALKI----DV----------ERD-G----LRLTGYAALPTY-------SRGSSVQQFVFVNGRPVLDRMLLGALRVAY-----FDFLSRDRHPAAVLSVTCDPERVDVNVHPAKAEVRFREPEAVRSLIITGLRTAL- A0A1M7ZHH4/216-328 ----GAEFIDNALIV----DA----------GRE-G----IRLEGFAGLPSY-------TRAAATQQYLFVNGRPVRDRMLMGALRGAY-----ADVMARDRHPAAVLFLTLDPHEVDVNVHPTKADVRFRDPGLVRGLIVGAIRETI- A0A173KS87/212-323 -----RALAENHVIV----SL----------ERE-G----VRLSGVASLPTY-------NRGVGDHQFLFVNGRPVRDRLLVGAVRGAY-----ADMLARDRHPVVALFLDVPPLEVDVNVHPAKTEVRFRDPALIRGMIVSGLRRAL- A0A0A8UY94/215-327 ----GKTFVEQAYYI----DV----------EHA-G----MRLCGWIGSESY-------QRSQNDKQWIYINMRMVKDKLLNHAIKQAY-----EGVLHPGRYPSCLLYLTISAEQVDVNVHPTKHEVRFQQPRLVHDFISTQIQYVL- Q145C4/238-350 ----GDTFATAHLPL----DE----------SAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGERYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A1G0GU43/216-328 ----GEAFVEHAVHI----ES----------EGA-G----MHLTGWLASPTF-------SRSQADLQYFYVNGRIVRDKLVAHALKTAY-----HDVLYRERHPAYILFLELLPSQVDVNVHPTKHEVRFREGRVVHDFILRSVQDAL- W0DSE6/220-332 ----GEAFVEQSLHI----SQ----------SLP-G----VNLEGWVSLPTY-------HRGLADKQFVFVNGRIVRDRQLLQAVKLAY-----ADVLYHGRHPVFVVFINVPFDQVDVNVHPAKYEVRFQHARQVYDHVRRAIRDAI- A0A1J0KV95/217-329 ----NKDFIENAIFI----NE----------TVA-G----VTLWGWIASPRY-------NRARPDMQSFYINGRIIKDKLVSHAIKSAY-----KDVMYGNRYPAFLLYFNIDYSDVDVNVHPAKSEVRFRNQKFVYDFLFGKINKIL- A0A0A5I5C3/217-329 ----GSAFVRNMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDAL- F0LNP8/217-329 ----GSAFVRNMLKI----EL----------AHQ-G----LKLHGWITTPDG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSSAL- M2U275/216-328 ----GRDFAANAVPV----DL----------ERD-G----LHIGGLAGVPTF-------NRGAADHQYLFVNGRPVKDRLLLGAVRGAY-----RDLLARDRHPVLALFLEVPHEFVDVNVHPAKTEVRFRDPAMVRGMIVSGLRRAL- N8WV66/225-337 ----GRQFTENAYWI----DA----------DSI-N----MRLSGWLGHPSD-------ARAQADLQYVYVNGRIVKDKTISHALRMAY-----DGILHGHQHAAYLLFLEIDPESIDVNVHPTKHEIRFLNQREVHEFVRHYAKETL- K6Y4U6/217-329 ----GKEFSEQCIEL----NS----------QYQ-Q----FELKGWLAQPEQ-------AKPHGDFQYFYVNGRMMRDKLINHAVRQAF-----EGLIGADLYPAYVLYLTLEPNQVDVNVHPAKHEVRFHQARLVHDFIYRALTDSL- U7P3L3/222-334 ----GKAFLEHALHL----DI----------EAS-G----LRLWGWVGLPTH-------SRAQADQQYFFVNGRVVRDRLVAHAVRQAY-----RDVLFHGRHPVFVLYLEVDPAVVDVNVHPTKHEVRFRDGRLVHDFLFSSLHRAL- A0A1J0VDC9/222-334 ----GKGFLENALHL----DL----------EVG-G----LRLWGWVGLPTH-------SRAQADQQYFFVNGRVVRDRLVAHAIRQAY-----RDVLFHGRHPVFVLYLEVDPRVVDVNVHPTKHEVRFRDGRMVHDFLFSSLHRAL- K4KPP5/220-332 ----GNAFLENSLYV----EV----------ERA-G----LKLWGWVALPAF-------SRSQADLQHFYVNGRAIRDKLVTHAVRQAY-----QDVLFHGRHPAYVLYLELDPATVDVNVHPTKHEVRFRDSRLVHDFLFRTLHHAL- A0A1J4S4K7/225-347 ----GSDFVERAVWV----DFSNQSAALTGSLQP-A----IKVWGRAGIPDA-------ARSRADQQFCYVNGRFVRDKVITHAARSAY-----EDVLHGQRQPVYVLYVEIDPTRVDVNVHPTKIEVRFRDSREVHQAVRHAVESAL- A0A1E7GXI8/215-326 -----KDSESRLYEV----DF----------KDG-N----VQVQGFVASPDI-------SRTTPQRLYVYVNGRFVRDKVLHHAVMEAY-----EGHLMKGKFPLVVLFVNLAHDQVDVNVHPTKNSVRFEAPKQVHDTVTRAISESL- A6VN10/217-329 ----GNDFVRQALYI----DW----------KHD-N----LHLSGWVTTPTF-------ARQQNDLSYCYVNGRMVKDKVINHAIRQAY-----AEHLGSERYPAFVLFLDLNPNDVDVNVHPTKHEVRFQQSRLIHDFIFQGVTNAL- A0A1F4F5C7/213-325 ----GREFLQASLPL----EA----------QAG-T----LRLHGLAGSPAA-------ARARADSQYFFVNGRYVRDRVLAHAAREAY-----AQLLHGARQPAYLLYLEIDPRGVDVNVHPAKTEVRFRDSRSVHQFVMGALRRAL- H3NVI3/221-332 ----GEAFAHQSVVV----DR----------VAH-G----LSLRGWVGLPTF-------SRAQADLQYFFVNGRVVKDKVITHAVRQAY-----RDVLYGGRHPAYVLFLDLDANRVDVNVHPTKHEVRFRDSRSVHGFVFSTLGRT-- A0A0M2LL76/212-323 -----RALKENSVAI----DM----------ERE-G----LVLGGVAGLPTF-------HRGVADHQYLFVNGRPVKDRLLTGAIRGAY-----AEMMPRDRHAVVALFLDVPPSEVDVNVHPAKTEVRFRDPAMVRGLIVSGLRRAL- A0A077DE77/209-320 -----KAFIDACVSF----S----Q------THP-K----ISLEGMITLPAA-------AKSRSDKQFLYINGRYVKDRTISHAIKTAY-----ADVLHGDRQPSYVLYLTIDPTQVDVNVHPAKHEVRFRDTGIVHQFVAKALTQVL- K2JJY1/239-351 ----GKEFAENALAI----DA----------ERE-G----LTLTGYAALPTY-------SRGSAVSQFLFVNGRPVRDKLLVGALRGAY-----FDFLSRDRHPAACLFLECDPHLVDVNVHPAKSEVRFRDPGIARGLIVSALRHAL- A0A1B9P7N6/217-329 ----GSNFLQHALEV----EL----------EHG-E----LKFHGWISSPEG-------ARAQGDIQYCYVNGRMMKDKLINHAIRQGY-----ESSLLANQYAAYILFIEINPHDVDVNVHPAKHEVRFHQARLVHDFIYQAIYGAL- A0A136A5A6/217-329 ----GKEFGEQAIEL----NS----------QYQ-D----FSLQGWLAPPNT-------AKPQVDCQYFYVNGRMMRDKLLNHAVRQAL-----EGVIAPEHQLAYVLYFSLDTAQVDVNVHPAKHEVRFHQSRLVHDFVYRALSDAI- A0A1C7BXS7/217-329 ----GQDFIQNALQI----DW----------KHD-D----LHLSGWVALPQF-------NRPQNDLNYCYVNGRMVRDKTITHAIRQAY-----ADYLTTEQYPAFVLFIDLNPNEVDVNVHPTKHEVRFQQSRLVHDFITQGISNAL- A0A0Q6KFQ5/216-328 ----GRDFPENALRF----QA----------ARE-G----FAIEGYAGLPTY-------HRGSAAGVHLAVNGRPVRDKLLLSAVRGAY-----ADVVPSDRHPVLFLDVGCDPRLVDVNVHPAKSEVRFRDPGLVRGLVVSGLKAAL- A0A160RQ89/219-331 ----GEAFSAHALPV----SA----------QIG-P----LAVRGLICKPTA-------ARARADVQHIIVNNRWVRDRTVAHGVRAAY-----ADVLHGALQPQYALLLDLPSELVDVNVHPAKSEVRFRDSSAVHQAVRHAVEQVL- D6CQG3/219-331 ----GEAFSAHALPV----SA----------QIG-P----LAVRGLICKPTA-------ARARADVQHIIVNNRWVRDRTVAHGVRAAY-----ADVLHGALQPQYALLLDLPSELVDVNVHPAKSEVRFRDSSAVHQAVRHAVEQVL- W0QEV2/226-338 ----GEEFIQNANYI----DW----------QHG-D----LHLHGWVGSPML-------ARPQNDLCYSYVNGRMMRDKTINHAIRQAY-----GESIATGNYPAFVIFLDLDPTMVDVNVHPAKHEVRFHQGRLVHDFILQGVSNSL- A0A0W0R0B6/217-329 ----GKSFFEQAGFL----EV----------ERA-G----IHLRGWMSGESY-------QRSQNDKQWVYINQRMVKDKLIQHAIKRAY-----EGVLYPGKHPSCLLFITISPTEVDVNVHPTKHEVRFQDPRLVHDFISSQLIAAL- A0A0U5IL62/219-331 ----GSAFAEQSLTL----DE----------EAV-D----LRLRGWVVRPAF-------SRSQADQQFFYVNGRMVRDKLVSHAVRQAF-----SDLLHQGRQPAYLLFLELPARTVDCNVHPSKHEVRFREGRQVHDFIFRALRRRL- A0A1B3M7P5/212-324 ----GRDFRDNAIEI----DA----------SRE-G----VRLTGFAGVPTF-------NRGNSLNQFAFVNGRPVQDKLVWSALRAAY-----AETIPHGRYPVAVLAIDIDPALVDVNVHPAKSDVRFRDPGLVRGLIIGAIREAL- F8J5E2/216-332 ----GREFMIDALEV----SG----------AAS-GASAPMRVFGFAGLPTL-------HRPDSAQQFLFVNGRSVKDKLLIGAVRAAY-----GDLIPRGRSPLLALFLDVAPSDVDVNVHPAKAEVRFRDSGRVRAMLVRALADAL- A0A1E3GR12/217-329 ----GQAFVKQALVI----DQ----------QFD-F----IDIKGWLGHTET-------HRPQADQQYFFINGRVIRDRLISQVIRQAY-----AELIPPGRHPVYVLYMTIPLDRVDVNVHPTKHEVRFRETRLIHGLIHRAVSDEL- A0A0U1NKV2/229-341 ----GREFADNAVPI----DA----------ERD-G----FHLTGYAALPTY-------SRGAAVAQFLFVNGRPVRDKVLVGALRGAY-----MDFLSRDRHPAACLFLDCDPTMVDVNVHPAKSEVRFREAGVARGLIVSAVRHAL- A3XDN6/234-346 ----GREFAENALKI----DA----------TRE-G----IRLFGYAALPTY-------SRGAAVAQFLFVNSRPVKDKMLTGALRGAY-----FDFLSRDRHPAAALFIDCDPTLVDVNVHPAKSEVRFRDPGLARGLIVSALRHAL- A0A1H2GIK3/218-330 ----GPAFVEQSVTL----DV----------ERG-G----LRLWGWVGLPTF-------SRSQADLQYFFVNGRMIKDKLVAHAVRQAY-----RDVLFHGRHPTFVLFMELDPGVVDVNVHPTKHEVRFRDGRMVHDFLFSSLHRAL- A0A1E3ZAR9/211-323 ----GAEFGQGGLPV----QA----------DAG-A----IRLHGVVSRPTA-------SRARADRQYLYVNGRFVRDRTVSHAMRASY-----ADVLHGDRQPAYVLFLDLDPAAVDVNVHPAKHEVRFRESGAVHRFVTQIIGQTL- A0A0K1K442/217-329 ----GENFAEARLPL----DE----------GSG-L----LRLHGFAGLPTA-------SKARADAQYFYVNGRFVRDKLLVHAVRAAY-----EDVLHGDRFPSYVLALDLDPALVDVNVHPSKIEVRFRDGRAVHQFVFHAVQRAL- A0A073L529/220-330 ----GRPFADQALRI----EC----------QHD-D----LRLSGYLQSPWS-------TV-QTDTHYFYVNGRLVRDRLVNHAVRQAF------AQKAEVEQPGYVLMLDIDPHQVDVNVHPAKHEVRFHQSRYVHDYILQALQSAL- R5Q276/214-326 ----GNEFADNSIQL----TA----------ERE-D----IRLNGYVGLPTL-------NKATSADQYFYVNGRPVRDKQLNGAVKAAY-----QGLLASDRFPSLLLFLDIPPTDVDVNVHPAKSEVRFRSPQTVRALVITAIRQAL- H5UZB4/217-329 ----GTAFLEQALTI----EW----------QHG-D----LALHGWVAEPKA-------SAGLSEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGVDQQPAYVLYLDIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A0D7E8X1/216-328 ----GADFRAKAIEV----RS----------ERE-G----VVVEGFAAAPSL-------TRANALGQYLFVNGRPVRDKLIIGAVRAAY-----SDYLPRDRHPVVALFVTLDSREVDANVHPAKTEVRFRNAGLVRALIVHALKEGL- A0A0S2K5K5/216-325 ----GKTFATDAAYI----ES----------GAE-G----LKLYGWVLP----------CGDSGNSQYTYVNGRMMRDKLILHAIRQAF-----EEQMGQIELPGFVIYLELDPRQVDVNVHPAKHEVRFHQARLVHDFIVQAVKQAV- I4N4Q6/221-333 ----GPGFLEQAMPI----EI----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPTVVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- A0A0E0YIA2/216-328 ----GQKFVQNAVHI----ST----------EYE-G----LHIDAWLGNEAM-------LRSSNDCQFSFVNGRGMRDKLIMHAIRQAY-----ESVWGVVEQPSFVVYLTVNPKDVDVNVHPAKHEVRFQQGRLVHDFICKTVSDAL- A0A0W0VZ25/215-327 ----GKNFIEQSQYL----DI----------EHA-G----LQLKGWISTSAY-------QRSQNDKQWVYVNKRMVKDKLLNHAIKQAY-----EGVLYPGRYPACLLYLTINPEEVDVNVHPTKHEVRFQQPRLVHDFICSHIQKAL- A0A1E4P0J5/213-324 -----EAFEQNSIAV----EA----------AAG-V----LRVSGWVIRPSA-------ATGSRDSQHVFVNGRYVRDKLIVHALKEAY-----RDVLHHQLNPAYCLFIELPPDLVDVNVHPAKTEIRFRDSRGVHQFLFHAVERML- A0A0H3SYK9/217-329 ----GPSFLQHALVV----EL----------AHG-D----LKLSGWICSPQG-------ARSQNDIQYCYVNGRMMKDKLINHAIRQAY-----EASLRSEQYAAYVLYIEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALQSAL- A0A0S8C593/213-324 ----GEDFCASSLPV----DS----------ASG-T----LRLRGAIGLPAQ-------ARGARDTQYFFVNGRHVRDKLAAHAIRQAY-----QDVLHHERHPAYVLFLDIDPSLVDVNVHPTKTEVRFRDARAVHQFVFHALNLA-- A8H8G8/217-328 ----GKAFAETCLRI----EC----------EHN-D----LKLSGYLQSPSA-------ASGYSETQYFYVNGRLVKDRLVNHAVRQAF------SQYAEGISPGYVLMLELDPHQVDVNVHPAKHEVRFHQSRYVHDYILQALQSAM- D0X188/217-329 ----GNAFVRHMLRI----EL----------EHQ-G----LKLHGWITTPEG-------AKQQSDLQYCYVNGRMMRDKLINHAIRQSY-----EMSLKPDQFAAYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALTDAL- A0A1M3LI45/217-329 ----GRDFQDNAVEL----DA----------ERD-G----VRLTGWAGLPTF-------NKGTSAYQYLFVNGRPVKDRLVIGAVKGAY-----QDVLSHDRHPVVALFVDVPADAVDVNVHPAKSEVRFREAGLVRGLIVSAIRHAL- E1T7U2/235-347 ----GETFATAHLPL----DE----------SAG-P----LAIYGCAGLPTA-------SRGRSDQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A0G9H214/217-329 ----GEDFPAQSLRI----DH----------AAA-G----LHLSGWVGLPTA-------SRSQADSQYFYVNGRLVRDRIVAHAVRQAY-----ADVLFHGRHPAFVLYLELDPVGVDVNVHPAKSEVRFREQRLVHDFLFRTLHEAL- A0A074N1Y0/224-339 -----HELKDNSVAI----DL----------TRD-TPHGTMRLTGIAGLPTY-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----SDMLARDRHAVLALFLELPPQDVDVNVHPAKTEVRFRDASGVRGFIVSGLRQAL- A0A0P7KDZ9/237-349 ----GREFTENALAI----DA----------TRE-G----LRLTGYAALPTY-------SRGAAVAQFLFVNGRPVKDKLLTGALRAAY-----FDFLSRDRHPAAALFITCDPQLVDVNVHPAKSEVRFRDPGLARGLIVSGLRHAL- A0A1C2GLD0/214-326 ----GNQYNQRLVPV----EE----------DTT-----IIKLRGFVGKPEF-------ARRTRGEQFFFVNNRFIKDGYLNHAVMTAF-----EELLPDDSYPLYVLFIEIDPSKIDINVHPTKTEIKYQDEKAIYAIIRSAVKRAL- A5L7H5/217-328 ----GNPFVRHMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDG-- X5MG55/234-346 ----GRDFQDNVMPV----EI----------ERE-G----VRIAGFAGLPTF-------NRGNAQAQYLFVNGRPVRDKLLIGAVRGAY-----ADFLARDRHPVLALFVEIDPAEVDVNVHPAKAEVRFRDPGLIRALIVKSLRMAL- A0A1E4FCY4/215-326 ----GADFVDNAVTL----AT----------ARH-G----VVVAGLAGLPTY-------TRANSLSQFYFVNGRSVRDKVLVGAVRAAY-----ADYTFRDRFPVVALYLAVDPAEVDVNVHPAKAELRFRDAGAVRGAVIKAIGLA-- A0A1N6H9M6/232-344 ----GRDFAENAVRL----DA----------ERE-G----VHLTGYAALPTY-------SRGSSVAQFLFVNGRPVQDKVLIGALRGAY-----ADYLSRDRYPAAVLFLDVDPQRVDVNVHPAKSEVRFREPGVARGLIVTGIRHAL- F3L1V5/219-331 ----GPAFIDQVVHI----DS----------ERS-G----LGLSGWVGLPTF-------SRSQADLQYFFVNGRVIRDKLVAHAIKQAY-----RDVLYHGRHPAFVLYLTINPALVDVNVHPTKHEVRFRDSREVHNFLFSTLHRAL- A0A066ZXF8/225-337 ----GAPFVEQCFDM----DF----------EAQ-D----IRLSGWVGYPTF-------NRAQTDMQYLFVNGRIVRDRLLSHAVKQAY-----ADVLYHGRHPAYLLFVEIPFEMVDVNVHPAKYEVRFANGRWVYDFLRRSVREIV- V9HE25/213-325 ----GEDFQAACLPV----DS----------GEN-I----LRVHGFVSKPTF-------AKGKSDMQFCFVNNRFVRDKVILHAVKQAY-----RDVLHNQIVPAFVLFLDIPPELVDVNVHPTKTEVRFRDSQAVHQLIFHNLNKVL- A0A1A7QNU0/223-335 ----GRELKDNGVAI----DL----------ERH-G----MRLTGIAGLPTY-------NRGIADHQYLFVNGRPVKDRLLAGAVRGAY-----SDMLARDRHAVLALFLELAPEDVDVNVHPAKTEVRFRDAQGVRGFIVSGLRQAL- A0A160TBR0/218-330 ----SPQFIDSSVHI----DA----------EAA-G----LALQGWVGLPTF-------SRSQGDMQYFFVNGRVVRDKLVVHAIKQAY-----RDVLYHGRHPAFVLYLSLDPKLVDVNVHPTKHEVRFRDGRLVHDFLFRTLHKAL- W8G6D5/218-330 ----SPQFIDSSVHI----DA----------EAA-G----LALQGWVGLPTF-------SRSQGDMQYFFVNGRVVRDKLVVHAIKQAY-----RDVLYHGRHPAFVLYLSLDPKLVDVNVHPTKHEVRFRDGRLVHDFLFRTLHKAL- M5DVW2/218-330 ----SPQFIDSSVHI----DA----------EAA-G----LALQGWVGLPTF-------SRSQGDMQYFFVNGRVVRDKLVVHAIKQAY-----RDVLYHGRHPAFVLYLSLDPKLVDVNVHPTKHEVRFRDGRLVHDFLFRTLHKAL- A0A085FV24/216-328 ----GRDFPENALRL----DV----------VRE-G----IRVTGFAGLPTF-------HRGTSAGVHLAVNGRPVRDKLLLSAVRGAY-----ADVVPSDRHPMLFLDVICDPRFVDVNVHPAKSEVRFRDPALVRGLVVSGLKAAL- A0A0Q5F2P5/212-324 ----GADFKDNAIEI----DA----------IRE-D----VTLTGFAGVPTF-------NRGNSAHQYMFVNGRPVQDKLLLSAIRGAY-----AETIPHGRYPIAVLSLTLDPALVDVNVHPAKSDVRFRDPGLIRGLIVGAVRQAL- D3NW34/217-329 ----GRDFQENAVPV----TA----------ARE-G----VTLAGWIGLPTL-------HRPTAKHQHLFVNGRPVRDKLMVGAVRAAY-----ADFLPRDRHPMLALFLDIDPQEVDVNVHPAKAEVRFRDQGLVRGLIVGSLKHAL- A0A0Q8EXC7/214-326 ----GDEFARSALRV----DH----------AAA-G----LRLHGWIAQPSY-------SRASADQQYVYVNGRAVRDRSIAHAVKMAY-----QDVLFHGRQPAYVLFLELDPTRVDVNVHPAKHEVRFRDTRLIHDFVYRTLHEAL- K8WNQ0/217-328 ----GTSFMQGALAI----SW----------QHG-D----LGIKGWVVAPS--------HSSVIDIQYCYVNGRMMRDRLINHAIRQAY-----EGHLTDNQQPAYVLYLSIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQGVRTAL- N8ZKC3/226-338 ----GRQFIENAYWT----DS----------DSI-S----MRLSGWLGHPSD-------ARAQADLQYVYVNGRIVKDKTISHALRMAY-----DGILHGHQHPAYLLFLEVDPENIDVNVHPTKHEIRFLNQREVHEFVRHFAKETL- A0A0H5QEB2/213-325 ----GEDFQTASLGI----DS----------GNG-A----LRLYGAIAKPTF-------AKGKTDKQYCFVNHRFVRDKVMLHAVKQAY-----RDVLHNALTPAFVLFLDLPPEAVDVNVHPTKTEIRFRDSQQVHQLVFHTLNKAL- E6MXX8/213-325 ----GEDFQTASLGI----DS----------GNG-A----LRLYGAIAKPTF-------AKGKTDKQYCFVNHRFVRDKVMLHAVKQAY-----RDVLHNALTPAFVLFLDLPPEAVDVNVHPTKTEIRFRDSQQVHQLVFHTLNKAL- A0A0A8F7Y2/213-325 ----GEDFQTASLGI----DS----------GNG-A----LRLYGAIAKPTF-------AKGKTDKQYCFVNHRFVRDKVMLHAVKQAY-----RDVLHNALTPAFVLFLDLPPEAVDVNVHPTKTEIRFRDSQQVHQLVFHTLNKAL- Q9JYT2/213-325 ----GEDFQTASLGI----DS----------GNG-A----LRLYGAIAKPTF-------AKGKTDKQYCFVNHRFVRDKVMLHAVKQAY-----RDVLHNALTPAFVLFLDLPPEAVDVNVHPTKTEIRFRDSQQVHQLVFHTLNKAL- V8G9H0/213-325 ----GQEFANESLTV----E----N------STA-V----CSIQGLIIQPSA-------AKAKTDMQYLYVNHRFVKDKTVSHAIRTAY-----NDVLHGDRQPAYVLFLEIDPMLVDVNVHPAKSEVRFRDSGAVYRFIHHSISQAL- A0A0W1AF72/215-327 ----GSAFMKDAIYL----NV----------DMA-G----MSLQGWVSGPGY-------QRSQNDRQWVYINQRMVKDKLINHALKQSY-----DGHLHPGRFPACLLYFSLAAADVDVNVHPTKHEVRFQQPRLIHDFFVAHLSKAL- A0A143G4L1/225-337 ----GRSFTENAYWI----DA----------DSI-H----MRLSGWLGHPSD-------ARAQGDLQYVYVNGRIVKDKTISHALRMAY-----DGILHGHQHSAYLLFLEVDPENIDVNVHPTKHEIRFLNQREVHEFVRHFAKETL- A0A0C9NEM2/150-261 -----RALAENSVAI----DW----------VRD-M----VSLGGVAGLPTF-------NRGIADHQYLFVNGRPVRDRLLMGAIRGAY-----AEMLPRDRHAVVALFLDMPPSEVDVNVHPAKTEVRFRDPALIRGMIVSGLRRAL- A0A0B4WZ87/212-324 ----GKEFRDNAIEL----DA----------ERE-G----IALTGFAGVPTF-------NRGNSAHQYAFVNGRPVQDKLILSAIRGAY-----AETIPAGRYPVAVLSLSLDPALVDVNVHPAKSDVRFRDPGLVRGLIVGAVREAL- A0A0P0NWG4/223-335 ----GRDFQANAIEI----DQ----------TRD-G----VRLTGFAGLPTY-------NRGNAAHQYLFVNGRPVRDRLLQGALRAAY-----ADFLARDRHPTAALYVSLDTAEVDVNVHPAKAEVRFRDPALVRGLIVGALRHAL- A0A0A2WIF2/215-327 ----GEEFAKHALRV----EH----------AGA-G----LRLHGWIAQPVY-------NRASADQQYLYVNGRSVRDRSVAHAVKQAY-----ADVLFHGRQPAYVLFLELDPRTVDVNVHPAKHEVRFRESRLVHDFVYRTLHAAL- A0A0Q4XCW0/220-332 ----GPDFGASSAPL----HM----------ARE-G----FALSGHIGLPSY-------HRGAGNQIHFTVNGRPVRDRLLLGAVRGAY-----ADTMSSDRHPVLGLAITCDPALVDVNVHPAKTEVRFREPGLVRALIVSAIHETL- G4CRA6/217-329 ----GEEFQAASLPV----DS----------GNG-L----VRLHGLISKPTF-------AKGKTDRQYCFVNRRFVRDKVMLHAVKQAY-----RDVLHNALTPAFVLFLELPPEMVDVNVHPTKTEIRFRDSQAVHQLVFHTLNKTL- R9VTH7/217-330 ----GTAFLEQALAI----EW----------QHG-D----LALRGWVADPKST------SSAFAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A1F3WRK5/217-329 ----GDEFGQAAVSV----SR----------NAA-N----LSLQGLAALPAY-------SRASRDAQYFFVNGRFVRDKVASHALRQAY-----QDILHHQRHPAFVLFLELPPEQVDVNVHPAKSEVRFRESQAIHQFIFHTLQQSL- A0A0W0V301/217-329 ----GHRFMEDAVYV----DV----------EDS-G----MHLYGWLSGLQY-------QRSQNDRQWVYINRRMVKDKLILHAIKQVY-----EEVLHPGRFPSCLLYFHLPASEVDVNVHPAKHEIRFQQPRLVHDFFVSQLSKAL- A0A1G5BIA2/217-329 ----GHRFMEDAVYV----DV----------EDS-G----MHLYGWLSGLQY-------QRSQNDRQWVYINRRMVKDKLILHAIKQVY-----EEVLHPGRFPSCLLYFHLPASEVDVNVHPAKHEIRFQQPRLVHDFFVSQLSKAL- A0A147EDD1/213-325 ----ARELADDGVVI----EA----------ERG-A----ARLTGVAGLPTF-------NRGVADHQYLFVNGRPVKDRLLIGAVRGAY-----ADMLARDRHAVLALFLEIPPEDVDVNVHPAKTEVRFRDPAFVRGFLVGALRHAL- A0A0W0UYU3/215-327 ----GKLFVEQSYYI----DV----------EHA-G----MHLSGWIGSENY-------QRSQNDKQWIYINMRMVKDKLLSHAIKQAY-----EQLLHPGRYPSCLLYLSVPADQVDVNVHPTKHEVRFQQPRLVHDFISAQIQGVL- A0A0Q5GZS5/213-325 ----GETFADNAFTL----DA----------GRE-G----VFLAGHAGLPSF-------HRGTAQHQYVYVNGRPVRDRLILSAIRGAY-----ADVMPRDRHPVCVLFLQVDPRDVDVNVHPAKADVRFRDPGLVRGLVVGAIRAEL- T1D2M7/1-96 ----------------------------------------MSLHGWVGLPAA-------ARAQADRQYFYVNGRLVRDRVVSHALRQAY-----SDVLFHGRHPAYVLFLQLDPASVDVNVHPAKSEVRFREQRLVHDFLFRALHEAL- B0SWX9/223-335 ----GRDFQDNAIEI----DQ----------TRD-G----VRLTGFAGLPTY-------NRGNAAHQYLFVNGRPVRDRLLQGALRAAY-----ADFLARDRHPTAALYISLDTSEVDVNVHPAKAEVRFRDPALVRGLIVGALRHAL- A0A0F4QY98/216-325 ----GKVFSQQASFV----ES----------GHD-G----LKLYGWVLP----------VGCSNQTQYTYVNGRMMRDKLILHAIRQAF-----EETAGAVDTPGFVIYLELDPTQVDVNVHPAKHEVRFHQARLIHDFIVQAVKQVV- A0A1A9F6D1/217-330 ----GAAFVEQALEI----EW----------QHG-D----LGMRGWVADPSAV------NPAFAEIQYCYVNNRMMRDRLINHAIRQAC-----EDKPGADQQPAFVLYLDIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- Q1GSN3/211-322 ----SRDLAANSIGV----DL----------DRG-E----VHLGGVISLPTY-------NRGIADHQYLFVNGRPVKDRLLVGALRGAY-----ADLLARDRHPVVALFLDVPTGEVDVNVHPAKTEVRFRDPQLIRGMIVGGLRRA-- C5ABM7/238-350 ----GEGFATAHLPL----DE----------QAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- L0NBK1/212-324 ----GPEFRDNAIQI----DA----------ERA-D----VSLTGFAGVPTF-------NRGNSAHQYAFVNGRPVQDKLILSAIRGAY-----AETVPSGRYPVAVLSIHLDPAFVDVNVHPAKADVRFRDPGLVRGLIVGAIREAL- A4A186/214-325 ----GDEIATHLIPI----DN----------ADD-T----IRLSGYVADPKF-------NRGNNKMQFLFLNGRHIRDRALQHALSEAY-----RGLLLTGRYPIAFLRLQMPPEMVDVNVHPTKLEVRFQDSGRIYSQLLGTLRTK-- A0A0N1EPR8/217-326 ----GKAFAEQSLYI----ES----------GDT-G----LQLYGWVLP----------VGSNNTTQYTYVNNRMMRDKLILHAIRQAF-----EEVAGQEELPGFVIYIDIDPRQVDVNVHPAKHEVRFHQGRLVHDFILQAIKQVV- A0A1N7PKD3/223-335 ----GRDFADNALAV----DT----------ERE-G----LHLRGHIGLPTY-------NRGNAQQQYLFVNGRPVKDRLLQGAVRGAY-----QDYLAHDRHPVLALYLDVPPREVDVNVHPAKAEVRFRDSALVRGLIVSALRHTL- D0D9M9/233-345 ----GAEFTDNALSI----DA----------ERE-G----FRLTGLAALPTY-------SRGSSVAQHLFVNGRPVQDRLLHGALRGAY-----ADFLSRERHPAVALFVDCDPHKVDVNVHPAKSEVRFRDPGIVRGLIVSALRHAL- U3U0R4/217-329 ----GTPFMQHALRI----DW----------QHD-D----LALRGWVADPAG-------SRQVTDLQYCYVNGRMMRDKLINHAIRQAY-----QTQLGEDQQPAYVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIWQGVMSVL- G2J8D5/225-336 -----ESFAGAHLSL----EE----------RAG-A----LRLRGLVGLPVI-------SRARADQQYFFVNGRVVRDKVLAHAVRAAY-----EDVLHGGRYPAFALFLELPPQAVDVNVHPAKTEVRFRDAHAIHQCVFHALARAL- W0F0J6/221-333 ----GNNYNAKMVAV----TD----------NTA-----YMNIHGFTGKPET-------AKKTRGDQYFFVNNRFIRSAYLNHAVMNAY-----QELIPSDSFPMYVLFIDLDPTQVDVNVHPTKQEIKFEDEKIVYAFVQAAIKHAL- A0A1B9SCS8/212-324 ----GSDFKDNAIAL----DA----------LRE-E----VSLTGFAGVPTF-------NRGNSAHQYAFVNGRPVQDKQILSAIRGAY-----AETIPSGRYPVAVLSLTLDPALVDVNVHPAKSDVRFRDPGLVRGLIVGSVREAL- A0A1L6HZH6/244-356 ----GDAFATAHLPL----DE----------AAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A0F5FT95/215-327 ----GADFAENAVQL----AT----------VRH-G----IVVAGLAGLPTY-------TRANSLSQFYFVNGRSVRDKVLVGAVRAAY-----ADYTFRDRFPVVALYISIDPAEVDVNVHPAKAELRFRDAGAVRGAVIRAIGEAL- A0A1A6DSH4/232-344 ----GGDFVAESLPV----DS----------SAG-P----LRLQGWVGLPDA-------ARARTDRQFAYVNGRFVRDKVITHAVRSAY-----EDVLHGQRQPAYVLFLTLDPRAVDVNVHPTKIEVRFRDSGAVHQAVQRAVEAVL- A0A094ILG0/216-327 ----GSSFSDTAEMV----DN----------EHF-G----LRLWGWVAPPEA-------CRHQGDVQFLYVNGRMMRDRLLNHAIRQAY-----GDTLGDDRSPTYVLYLELPPAEVDVNVHPAKHEVRFHHARQVHDFVLQSLRGV-- A0A0J9B689/217-329 ----GTAFLTHALKI----AW----------QHG-E----LSLHGWVADPVG-------SKALPELQYCYVNGRMMRDRLINHAIRQAY-----QDKLGDRHQPAYVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVVSAL- A0A0S7XZ98/234-339 APCTGS-------------------------SRT-A----PTLYGWIGLPTF-------SRSQTDMQYFYINNRMVRDKLLSHAVRQAY-----HDVIQSGRHSAFILYLQLDPSMVDVNVHPTKNEVRFKDTKLIHDFVFHNIHRAI- A0A099F6E6/231-343 ----GRDFIENALPI----DA----------TRD-G----ITLTGFAALPTY-------SRGAAVAQHLYVNGRPVRDKLLTGALRAGY-----MDVLAPGRHPAAVLFVTCEPHQVDVNVHPAKAEVRFREPAIARGLVVAALRHAL- A0A0J5P6K1/224-336 ----GEAFIQHSTHI----DW----------QHD-D----LHLYGWIGAPSL-------ARPQNEVNYSYVNGRMMRDKTINHAIRQAY-----GEQLAKEHYPAFVLFLDIDPAHVDVNVHPAKHEVRFHQGRLVHDFIYQGVLNAL- Q1KL71/216-328 ----GEAFAEQAVYL----QH----------ETE-G----IAITGWIGLPTF-------NRSQPDLQFWFVNGRSISDKTLSHAARHAY-----RDVLFHGRFPAYVLGLTVDPATIDANAHPAKHEIRFRDGRRIHGVVAQAVEVAL- A0A0R0D907/214-326 ----GEDFAGQCLRV----DH----------TGA-G----LRLHGWIALPQY-------SRASTDQQYFYVNGRAVRDRSVAHAVKLAY-----ADVLFHGRHPAYVLFLELDPTRVDVNVHPAKHEVRFRDARLVHDFVYRTLKDAL- V5AHD0/217-331 ----G--FIDDSLTL----DLRFNT------DDG-E----LRLRGRAGLPDA-------ARARADQQFAYVNGRFVRDKVIAHAARSAY-----ADVLHGHKQPVYVLFIDMPPTRVDVNVHPTKIEVRFRDSRAIHQLVSRAIGQAL- A0A0Q5P2N3/212-323 -----RALAENAVAI----DW----------VRE-E----VVLGGVAGLPTF-------HRGVADHQYLFVNGRPVKDRLLIGAIRGAY-----AEMMPRDRHAVVALFIDLPGEQVDVNVHPAKTEVRFRDPALVRGLIVSGLRRAL- A0A0F7KKF7/213-325 ----GKEFSQSAVLV----SE----------QAN-D----ISLQGMVALPTY-------SRSARDLQYFYVNGRYVRDKLISHALREAY-----RDVLHLDRHPAFVLYLQINPQNVDVNVHPAKAEVRFRDARAIHQFVFHSINKVL- D5WC62/239-351 ----GDTFATAHLPL----DE----------SAG-P----LAIYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGERYPSYVLFLDLPPEGVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A090FS64/215-327 ----GKDFPDNAIAI----DA----------MRD-G----VHLAGHVSIPSY-------TRANALQQYAYVNGRPVRDKLIAGAIRGAF-----ADVLPRDRHAVTVLFLSLDPSTVDVNVHPAKADVRFRDPGLVRGLIVGAIREAL- B6VLM5/217-329 ----GTAFMQQALSL----SW----------QHG-D----LSIKGWIADPMN-------ATASGDIQYCYVNGRMMRDRLINHAIRQAY-----QDLIQGEQQPSYVLYLEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQGVTAVL- E7H3I5/213-324 -----KDFKEACRPV----SA----------ESD-G----WKLTGLVGLPTI-------SRTRADGQYLFVNGRFIRDRVMNHAVRAAY-----ADVLHGQAQPLYCLFLTIPPEEVDSNVHPTKTEVRFRDSSRVHSFILHAVEAAL- A0A0T9UKI3/217-329 ----GPAFLQHALAI----SW----------QHG-D----LTIRGWVADPAA-------SRTLTEMQYCYVNNRMMRDRLINHAIRQAY-----QDLLKDDQQPAYVLYLDIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVTTVL- R4YRA5/222-334 ----GPKFIDAALHI----DS----------EAA-G----LGLTGWVGLPTF-------SRSQADMQYFFVNGRIVRDRLVAHAIKQAY-----RDVLYHGRQPAFVLYLTVDPALVDVNVHPTKHEVRFRDGRLVHDYLFRTLHKAL- K2M9G3/215-327 ----GSEFAANTLAI----DA----------ERE-G----VSLTGHVSIPSF-------SRGNAMQQYFYVNGRPVRDKLLAGAVRGAY-----MDVLPRDRHAVVALFIALDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIRHAL- A0A074N0D4/222-337 -----RELKDNAVEI----DL----------ARE-GQHGPMRLTGLAGLPTY-------NRGVADHQYLFVNGRPVKDKLLTGAVRGAY-----SDMLARDRHAVLALFLDIPPQDVDVNVHPAKTEVRFRDAAGVRGFIVSGLRQAL- A0A1H5VHD7/233-345 ----GREFAENALRI----DA----------TRE-G----LRLYGYAALPTY-------SRGAAVAQYLFVNGRPVRDKMLTGALRAAY-----FDFLSRDRHPAAALFIDCDPHLVDVNVHPAKSEVRFRDPGVARGLIVSGLRHAL- J1J794/234-346 ----GKEFAPNSIAL----NA----------ERE-S----VRLTGFACLPSF-------NRSNSLHQFAYVNGRPVRDKFLWGAIRGAY-----ADVIARDRYPVSILFIDLPPADVDVNVHPTKADVRFRDSGLIRGLIVGAIHEAL- A0A0F6TZI3/217-330 ----GTPFLEHALAI----EW----------QHG-D----LTLRGWVADPNHT------TTALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- J6LCQ4/230-342 ----GRDFVANAVPV----RG----------GRD-G----LAVEGFAGLPTF-------NKANSLAQYLFVNGRPVRDKLLVGAVRAAY-----ADTLSRDRHPVVALFVTVDPHEVDVNVHPAKAEVRFRDAGLVRATIVRALLDAL- A0A1F4DI29/213-325 ----AEEFRAASLML----DE----------AST-G----LRLRGCIGLPAH-------SRTARDAQYFFVNGRFVRDKLLSHAVRQAY-----QDVLHHERHPAFVLFFEIDPAQVDVNVHPTKIEVRFRDARGVHQFVFHALNKAL- E8LNH9/217-329 ----GNAFVRNMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDAL- A0A0Q4XS85/226-338 ----GPDFGANAAPL----DM----------ARE-G----FALSGHVGLPSY-------HRGNANQIHFTVNGRPVRDRLLLGAVRGAY-----ADTMSSDRHPVLALSITCDPAFVDVNVHPAKTEVRFRDASLVRGLIVSAIHEAL- A0A0M0HIM1/217-328 ----GNNFVRHMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDG-- C0DUZ5/40-152 ----GADFQAASLPI----DS----------GNG-I----LRLHGLIAKPTF-------AQGRSSQQYCFVNNRFVRDKVMLHAAKQAY-----RDVLHQQITPAFVLFLELPPEMVDVNVHPTKTEIRFRDSQAVHRLVFHTLNKTL- A0A1M6DTN1/231-343 ----GRDFAANSVRV----EA----------ERE-G----IGLIGYAGLPTY-------SRGAGVAQFLFVNGRPVRDKLLLGALSGAY-----ADLLHRGRYPAAALFVDCDPREVDVNVHPAKAEVRFREPGLVRGLVVSGVRHAL- F6IPF6/213-325 ----ARELADDGVVI----EA----------ERG-T----ARLTGVAGLPTF-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----SDMLARDRHAVLALFLEIPPEEVDVNVHPAKTEVRFRDPAFVRGFLVGALRHAL- A0A1G3G4H0/231-342 ----GSDFTDNALRI----DL----------DRE-G----LRLVGYAALPTY-------SRGSSVAQFLFVNGRPVLDKQLFGALRAAY-----MDVLSRDRHPAAVLNLICDPERVDVNVHPAKAEVRFREPALVRGLIVSGLRLA-- A0A066RRI7/217-329 ----GQGFLQHAVSL----EL----------GHG-D----LRLSGWICTPQG-------ARAQNDLQYCYVNGRMMKDKLINHAIRQAF-----EGALAPEQYAAYVLFIEVDPHQVDVNVHPAKHEVRFHHARLVHDFIYQGVQSAL- A0A069IMY8/83-195 ----GRDFEANALLI----DQ----------ARD-G----VRLSGYAGLPTY-------SRGNAAHQYLFVNGRPVKDRLLQGALRGAY-----ADFLARDRHPAAVLFLDIDPLYVDVNVHPAKAEVRFRDPALVRGLIVGALRHAL- A3VCF3/230-342 ----GRDFAENAVPL----DA----------LRE-G----FRLTGYAALPTY-------SRGAAVAQFLFVNGRPVRDKLLIGALRGAY-----ADFLSRDRHPAAALFVTCDPKLVDVNVHPAKSEVRFREPGLVRGLIVTTIRHAL- A0A1N6I666/233-344 -----ETFATAHLPL----DE----------SAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEGVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A0A158M639/213-325 ----GAEFASQALPV----DT----------RYG-A----IGLMGMVTRPTA-------ARARADRQYLYVNGRYVRDRTVSHALRSAY-----ADVLHGDRQPAYVLYLDVDPAAVDVNVHPAKHEVRFRDSGAVHRFVAQVVGQAL- A0A1M7TJE6/233-345 ----GAEFAQNALPI----EA----------ERE-G----LRLTGFAALPTF-------SRGSAAAQHLFVNGRPVRDKLLAGALRAAY-----SDLLGRDRHPAAVLFLDCPPERVDVNVHPAKTEVRFREPGVARGLIVSALRHAL- A0A0P7WBV4/230-342 ----GRDFAENALRI----NA----------ERE-G----LRLAGYAALPTY-------SRGSSVAQYLFVNARPVRDRMLYGALRAAY-----SDFLSRDRHPAAALFIDCDPHLVDVNVHPAKSEVRFREPGVARGLIVSALRHAL- A0A139CBX8/227-339 ----GGKFLDNALHL----DI----------EAS-G----MRLWGWVGLPTH-------SRAQADQQYFFVNGRVVRDRLVAHAIRQAY-----RDVLFHGRHPVFVLYLELDPAVVDVNVHPTKHEVRFRDGRLVHDFLFSSLHRAL- V3TL06/217-329 ----GAAFLQHALAV----SW----------QHG-D----LKIHGWVADPAG-------ARQLPEMQYCYVNQRMMRDRLINHAIRQAY-----QDQLKDEQQPAYVLYLEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVMTVL- A0A0J7BNB7/223-335 ----GAELAKELVQV----NA----------EAG-G----YRLTGFISSPVY-------TRASRSAQYCYINQRFVRDKVILHSTQHGY-----SHLLPKGQHPAIVLFLSMDPTLYDVNVHPAKAEVRFAFQQEVHRFVSEAVKKAL- R7BFD1/214-326 ----GKEISDSLMSV----DY----------FYD-N----MRLSGFVSKPTA-------SRKSRAMQFFYINNRVVKSKTAMAALEQAY-----KNTIMVGRFPACVLNIELNPAQVDVNVHPAKTEVRFANEKPVFDLVYYGVKTAI- E3GDC0/217-330 ----GVPFVEHALAI----EW----------QHG-D----LALRGWVADPQYT------TAQLAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGAGEQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- L8J3S3/217-329 ----GSNFLNHALAV----EL----------AHG-D----LKLSGWICSPQG-------ARAQNDIQYCYVNGRMMKDKLINHAIRQAY-----ETSLNPDQYAAYVLFIEVDPHQVDVNVHPAKHEVRFHQARLVHDFILQGLQSAL- A0A099T6I0/230-342 ----GKDFAENALPI----DA----------ERD-G----IGLTGYAALPTY-------SRGAAVAQFLFVNGRPVRDKLLLGALRGAY-----HDFLSRDRHPVAALFIDCPPELVDVNVHPAKSEVRFREPGMVRGLIVSALRHAL- B0VM63/226-338 ----GQQFVQNAYWI----DA----------ESI-N----MRLSGWLGHPSD-------ARAQADLQYVYVNGRIVKDKTISHALRMAY-----DGILHGHQHSSYLLFLEVDPENIDVNVHPTKHEIRFLNQREVHEFVRHYAKETL- A0A0J1C3B6/213-325 ----GADFQTASLEI----DS----------GSG-P----LRLTGFIAKPTF-------TKGKTDKQFCFVNRRFVRDKVMLHAVKQAY-----RDVLHNALTPAFVLFLELPPEAVDVNVHPTKTEIRFRDSQAVHQLVFHTLNKAL- A0A1F9ZZG6/213-325 ----ARELKDNAVGI----DL----------ERG-D----MRLTGIAGLPTY-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----SDMLARDRHAVLALFLTLPPEEVDVNVHPAKTEVRFRDAAGVRGFIVSSLRQAL- A0A1B9K3W9/213-319 ----GRAFMQKAVTL----DW----------QHD-D----LLIQGWVA-----------SSETSDLQYFYVNGRVIKDKLLNHALRQAY-------ISRTNEQQSYVVFLQLDPKQVDVNVHPSKHEVRFHEARLVHDFVYQAIVMAL- Q1QY28/222-334 ----GRKFLENALHV----DI----------EAT-G----LRLWGWVGLPTH-------SRAQADQQYFFVNGRVVRDRLVAHAVRQAY-----RDVMFHGRHPVFVLYLELDPHVVDVNVHPTKHEVRFRDGRLVHDFLFSSLHRAL- A0A1K1NIX0/213-325 ----GDEFAQASISI----DE----------EAA-D----LRLWGASALPHY-------SRSSRDNQYFFVNGRFVRDGLIIHALREAY-----RDVLHTERHPAFVLFLEMNPGGVDVNVHPTKTEVKFRDPRALHQFVFHALDKAL- A0A1C9W671/219-331 ----GPAFMQNALHI----DV----------ERS-G----LRLWGWVAEPAF-------SRSQADLQFFYVNGRAIRDKVVSHAVRRAF-----ADVLYHGRHPAFVLYLELDPASVDVNVHPTKHEVRFRDSRLVHDFLFGSLHRAL- A3TYG1/202-314 ----GREFAENALRI----DA----------ERE-G----LHMTGYAALPTY-------SRGAAVAQFLFVNGRPVRDKLLTGALRAAY-----MDVLSRDRHPAAALFIDCDPMLVDVNVHPAKSEVRFRDPGLARGLVVSGLRHAL- A0A063BLS0/229-341 ----GDAFSTAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- Q1YH01/214-324 -----PDFADNAIPV----DA----------MRE-D----VRLRGFAGIPTY-------NRGNGQQQFFYVNGRPVRDKTLHSALRGAY-----ADVLARDRHPVAVLFLELDPALVDVNVHPAKADVRFRDPGLVRGLIVGSLRQA-- A0A0A0EZ71/215-327 ----GEEFARNTLHV----DH----------AAA-G----LRLHGWIAQPVY-------NRASADQQFLYVNGRAVRDRSVAHAVKQAY-----ADVLFHGRQPAYVLFLELDPRRVDVNVHPAKHEVRFRDARLIHDFVYRTLHDAL- A3WJ76/219-331 ----GSGFAQDALYF----QQ----------HAH-D----IHIEGWLAAPEQ-------CRHQGDVQYSFVNGRMMKDKLINHAIRQAY-----DSFLTAERVPTFAIYLTVPADQVDVNVHPAKHEVRFHQQRQVHDFVLNTVKQLL- A0A128XKK5/217-329 ----GNTFMREAIFL----DV----------EHS-G----MSLYGWISNHRL-------QRSQNDRQWIYVNQRMVKDKLLQHAVKQAY-----DGLLHAGRFPICLLYFTLPASEVDVNVHPTKHEVRFQQPRLVHDFFTSQLTKAL- Q12J93/217-327 ----GRAFAEQAITL----AC----------EHD-G----LSLEGYIQSPHD-------NS-VTDTNYFYVNGRLVRDKLVNHAVRQAF------AEHQWHQQPSYVLKLTLDPHQVDVNVHPAKHEVRFHQSRYVHDFILQALQSAL- A0A0B8YAB9/214-326 ----GNNYNERLVPL----DE----------ETS-----IIEVKGFIGKPSF-------AKKTRGDQFFFVNKRFIKDPYLNHAVMTAY-----EDLLPDDCFPLYVLFIEIDPSKIDINVHPTKTEIKYQDEKAIYAIIRSAVKRSL- A8AMN1/217-330 ----GAPFLEQALVI----EW----------QHG-D----LTLRGWVADPHHT------TAALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGGDRQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A192IKD7/217-329 ----GRDFIDNALAI----EA----------ERE-G----VRLTGLAAVPTY-------NRGNSMQQYMFVNGRPVRDKLFVGAVRGAY-----HDFLSGGRHPVVALFLEIEPHAVDVNVHPAKAEVRFRQPGVVRGLIVGALRSAL- A0A069I9K1/221-333 ----GADFANARLPL----DE----------EAG-N----LHLYGFAGLPTA-------SRGRPDQQFFFVNGRYVRDKLLTHAVRSAY-----QDVLHGDRFPSYVLCMDLPPEMVDVNVHPSKIEVRFRESRAVHQFVYHAVQRCL- A0A0T6UIA8/221-333 ----GQAFLEQALPI----DI----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEIDPGVVDVNVHPTKHEVRFRDSRMVHDFLYGTLHRAL- I3BW01/217-329 ----GSAFAEQSLYL----DY----------EAA-G----LRLWGWVGLPTF-------SRSQADLQHFYVNGRNVRDRLITHAVKQAY-----QDVMYHGRHPAFVLFLELNPQLVDVNAHPTKQEVRFREGRLVHDFLFRTLHQAL- V5C0J0/217-329 ----GSVFLDNSIKI----DV----------ASS-G----LQLTGWVGLPTF-------SRSQQDMQFFYVNGRLVRDKLIAHAVRQAF-----QDVLFNGRHPVFVLYLTLDPGLVDVNAHPAKLEVRFREGRLVHDFLFSALHRSL- A0A149VR86/213-325 ----GEEFIKGALTV----DE----------QAG-G----VRIEGWISRPTY-------SSSNRESQYVYVNGRFVRDKLISHALRQAY-----QDVLHHQRFPVVALFITCPFDLVDVNVHPAKTEVRFREPQTIHQLVFHGLSKTL- A0A0J6NF50/213-325 ----GKDFVAAAIEI----DT----------AAG-P----LTLSGFVASPTY-------SKASRDAQYFYVNGRFVRDKTALHALRQAY-----RDVLHHERHPAYALFLTMEPSGVDVNVHPTKIEVRFRESQAIHQFLFHSVHKAL- A0A0B8TAE1/214-326 ----GNSYNQRLVPV----EE----------ETT-----IISLRGFIGKPEY-------AKKTRGEQFFFVNNRFVKDPYLNHAVMNAY-----EDILPAETFPLYVLFIDIDPSKIDINVHPTKTEIKYEDDKAIYAILRSALKRSI- A0A0A8VF01/217-329 ----GPTFLQHALAI----SW----------QHG-D----LSIRGWVADPGA-------ASTASEMQYCYVNHRMMRDRLINHAIRQAY-----QDLLTGEQQPAYVLYLDIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVTTVL- T0K9Q8/212-323 -----RALAENHVIV----TL----------ERE-G----VRLSGVASIPTY-------HRGVGDHQFLFVNGRPVRDRLLVGAVRGAY-----ADMLARDRHPVVALFLDVPPLEVDVNVHPAKTEVRFRDPALIRGMIVSGLRRAL- N6VT31/218-330 ----GQQFIDNAVVI----DA----------EAS-G----LRLWGWVALPTF-------SRSQADLQYFFVNSRVIRDRLVAHAVRQAY-----RDVLYNNRHPAFVLYLELDPANVDVNVHPTKHEVRFRDGRLVHDFIFRTLHRAL- A0A1G0LF66/214-326 ----GKNSVAALHAV----QS----------SAD-G----VEITGFISSPSG-------VRSTTAAMFTYINGRFVRDRVVQHAIMQAY-----RGVIDRGRYPVCALFISLPPGEVDVNVHPTKHEVRFRRQTLVHDTLQAAILNVL- A0A1M6ZSH8/213-325 ----GNEFSETSVVI----EE----------QAA-D----LRLWGLAASPAY-------SRSSRDAQYFFVNGRFVRDKLIAHALREAY-----RDILHLDRHPAFVLFLEMNAEGVDVNVHPTKIEVRFRDPRALHQFIFHAIDKAL- D9P2Q6/222-335 ----GDDFIQNAIHI----DW----------QHG-D----LHLHGWIGLPNI-------SRPQNDLCYSYVNGRMMRDKTINHAIRQAY----EATDMPEGNYPAFVVFLDIDPSQVDVNVHPAKHEVRFHQGRLVHDFILQGVQTAL- E0FJK8/222-335 ----GDDFIQNAIHI----DW----------QHG-D----LHLHGWIGLPNI-------SRPQNDLCYSYVNGRMMRDKTINHAIRQAY----EATDMPEGNYPAFVVFLDIDPSQVDVNVHPAKHEVRFHQGRLVHDFILQGVQTAL- E0ENA4/222-335 ----GDDFIQNAIHI----DW----------QHG-D----LHLHGWIGLPNI-------SRPQNDLCYSYVNGRMMRDKTINHAIRQAY----EATDMPEGNYPAFVVFLDIDPSQVDVNVHPAKHEVRFHQGRLVHDFILQGVQTAL- A0A0K1J9P1/210-322 ----GDDFLAQARAL----DA----------DAG-P----LRLSGFASLPAY-------SRASRDAQYFFVNGRFVRDKLLTHAVRQAY-----TDILHGNRHPAYVLFLELDPAGVDVNVHPAKIEVRFREARAIHQFVFHALTRTL- G4E690/217-329 ----GETFVQQAMFI----EQ----------RVG-D----VRLWGWLGLPSY-------QRRQADLQYFYVNGRSVRDRTLTHALRQAY-----QDVLHQQRQAACVLYLELDPMEVDVNAHPAKHEVRFRNARQIHEFVRHTVEQSL- A0A0T7A9A2/212-324 ----GKDFRDNAIEI----DA----------TRE-D----VGLTGFAGVPTY-------NRGNSLQQYVFVNGRPVQDKLLLSAIRAAY-----SETIPSSRYPVAVLSIALDPALVDVNVHPAKSDVRFRDPGLIRGLIIGAIREAL- A0A136HNW4/218-332 ----GSAFIDNALNV----DVV--A------EAS-G----LRLWGWVGLPTF-------SRSQADLQYFFVNGRMIKDKVVTHAVRQAY-----ADVLYHGRFPAYVLYLELDPALVDVNVHPTKHEVRFRESRLVHDFLFRTLHRLI- A0A097EDX8/218-333 -----RALADNAVAI----DL----------ERP-TDAGPLVLGGVASIPTY-------NRGVADHQYLFVNGRPVRDRLLMGAIRGAY-----AEMLPRDRHAVVALFLDVPASEVDVNVHPAKTEVRFRDPAMVRGLIVSGLRRAL- A0A1N6FKK8/213-325 ----GEAFGQASLSV----DE----------QST-G----IRLYGLVALPAY-------ARASRDAQYFFVNNRFVRDKLITHALREAY-----RDILHLDRHPAFVLFLDLNSGEVDVNVHPTKAEVRFRDSRALHQFIFHSIHKAL- A0A1M3DTB7/217-329 ----GKDFAANALPI----DE----------TRE-G----IRVSGYISLPTF-------NKSNSQHQYFFVNGRPVKDRLLLGAIRGAY-----MDVLAHDRYAVVVLAIDLPCDEVDVNVHPTKAEVRFKDNALVRHLCVGSIKRAL- W0V2K7/215-326 -----NDFAEARLAL----DE----------TAG-P----LRLHGFAGLPTA-------SKTRADGQFFYVNGRFVRDKLLVHAVRAAY-----EDVLHADRFPSYVLALDLDPALVDVNVHPSKIEVRFRDSRSVHQFVFHAVQRAL- A0A0F3REX1/83-195 ----SKNFIDNAISI----GI----------ERD-E----LSITGFVSVPTY-------NKASAEDQLLFVNNRPVKDKLLMTAIRLAY-----QGVLARERYPVVVIFISVAPHFVDVNVHPTKSEVRFHDSSLVRGIIISAIKQAL- A0A1L5PZK5/232-344 ----GREFADNALPI----DA----------ERD-G----FHLTGYAALPTY-------SRGSAVAQFLFVNGRPVRDKLLVGALRGAY-----MDFLSRDRHPAAALFVDCDPTLVDVNVHPAKSEVRFREPGIVRGLIVSGLRHAL- A0A1B7YYE5/232-344 ----GREFADNALPI----DA----------ERD-G----FHLTGYAALPTY-------SRGSAVAQFLFVNGRPVRDKLLVGALRGAY-----MDFLSRDRHPAAALFVDCDPTLVDVNVHPAKSEVRFREPGIVRGLIVSGLRHAL- A3QAD8/217-328 ----GKAFADNALRV----DC----------NHN-G----LSLSGYIQSPFS-------EMAVGDTQYFYVNGRLVRDRLVNHAVRQAF------AQQLQGEQVAFVLMLNLDPHQVDVNVHPAKHEVRFHESRYVHDFILQALESAL- A0A014PTZ8/217-329 ----GTAFLNHALAI----EW----------QHG-D----LALHGWVADPAG-------SRSITDLQYCYVNGRMMRDRLINHAIRQAY-----QDKLGDEHQPAYVLYLQIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVSSVL- Q11L80/215-327 ----GKDFAENALPI----DA----------ERE-G----VFLTGYASIPSF-------TRGNALAQFAYVNGRPVRDKLIAGAIRGAY-----MDALPRDRHAVTALFISLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIRQAL- U1JUQ9/216-325 ----GKEFEQLASFI----ES----------GTD-G----LKLYGWVLP----------VGNTNSTQYSYVNGRMMRDKLVLHAIRQAF-----EEAAGEQALPGFVVYVEIDPRQVDVNVHPAKHEVRFHQARLVHDFIVHAIKQVV- Q7NYD2/213-325 ----GKDFVAAAIPL----DS----------QAG-P----LALSGFVASPTY-------SKASRDAQYFYVNGRFVRDKTAQHALRQAY-----RDVLHHDRHPAYALFFTLEPSGVDVNVHPTKIEVRFRESQAVHQFLFHSVHKAL- U3AB45/217-329 ----GNGFVRHMLRI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----SMSLKPEQFAAYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALADAL- J8VD63/213-325 ----ARELAEDGVII----EA----------ERG-T----ARLTGVAGLPTY-------NRGVADHQYLFVNGRPVRDKLLVGAVRGAY-----SDMLARDRHAVLALFLEIPPEEVDVNVHPAKTEVRFRDPAFVRGFLVGALRHAL- A0A177PFB2/217-329 ----GATFVDNSVKI----DF----------AAS-G----LRLYGWVGLPTF-------SRSQQDMQFFYVNGRLIKDRLVAHAVKQAY-----QDVLYHGRHPVFVLYLELDPALVDVNAHPTKLEVRFREGRMVHDFLFQALHRSL- A0A095UAL4/212-324 ----GAEFRNNAIEI----DA----------VRE-D----VALSGFAGVPTF-------HRGNSAHQYAFVNGRPVQDKLILSAIRGAY-----AESVPSGRYPVAVLSITLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIREAL- A0A0Q8B705/212-324 ----GAEFKDNAIEI----DA----------VRE-D----VELTGFAGVPTF-------NRGNSAHQYMFVNGRPVQDKLLLSAIRGAY-----AETVPHGRYPVAVLSLRLDPALVDVNVHPAKSDVRFRDPGLVRGLIVGAIRQAL- E0TDQ8/242-354 ----GKEFEDNALAI----DI----------DRE-G----ARLHGFAGVPTL-------NRGQPDRQYLFVNGRPVKDRLMVGAVRGAY-----ADFLARDRHPLLALYIDLPFQQVDVNVHPAKTEVRFRDAAAIRGMIVSGLRHML- A0A0Q7YQJ6/212-324 ----GADFKDNAIEI----DA----------LRE-D----VGLTGFIGLPTF-------NRGNSGHQYAFVNGRPVQDKLILSAIRGAY-----AETIPAGRYPVAVLSLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIREAL- A0A0N0JNT2/236-348 ----GADFIAASRPL----QA----------ERG-P----LALQGLAGQPEA-------ARARADLQYLFVNGRYVRDRLLAHAVRSAY-----EDQLHGSRQPAYLLFLQIAPELVDVNVHPTKIEVRFRDGRAVHQAVRGAVEDAL- A0A1N6TU18/218-332 ----GKAFVEQSVAL----DVV--A------EAS-G----LRLWGWMGLPTF-------SRSLPDQQYFFVNGRVIRDKVVTHAVRQAY-----QDVLFHGRHPAYVLYLELDPALVDVNVHPTKHEVRFRESRLVHDFIFRTLFRVI- A0A1D2STU1/215-327 ----GSDFPDNSIAI----DA----------ARE-S----VRLEGHVSIPSY-------TRANALQQYAYVNGRPVRDKLIASAIRGAY-----ADVLPRDRHAVTVLFLTLDPAYVDVNVHPAKADVRFRDPGLVRGLIVGAIRQAL- F4G4D1/244-356 ----GEDFIRESVPV----HL----------RSG-A----ITVTGRAGLPDA-------ARSRADQQFCYVNGRFVRDKVLTHAARSAY-----EDVLHGQKQPVYALYVQMDPQRVDVNVHPTKIEVRFRDSREVHQAVRHAVENAL- A0A1M4SBR1/222-334 ----GGKFLDNALHL----DI----------EAS-G----LRLWGWVGLPTH-------SRAQADQQYFFVNGRVVRDRLVAHAIRQAY-----RDVLFHGRHPVFVLYLELDPAVVDVNVHPTKHEVRFRDGRLVHDFLFSSLHRAL- A0A0E9MN88/217-328 -----RDLPDNSVGV----DL----------VRE-G----LRLGGVAGLPTF-------SRGVADHQYLFVNNRPVKDRLLAGAVRGAY-----ADLLARDRHPVVALFLDVPADQVDVNVHPAKTEVRFRDPALVRGLIVSGLRRAL- A0A0Q2Y913/232-344 ----GRDFADNALRL----DA----------ERD-G----FHLTGYAALPTF-------SKGAAVAQYLCVNGRPVRDKMLLGALRAAY-----MDVMSRDRHPVACLFIDCDPTLVDVNVHPAKSEVRFRDPAVVRGLIVSGIRHAL- A0A1C3IVS3/217-328 ----GNPFVRHMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDG-- D0CTX7/233-345 ----GREFAENALRI----DA----------TRE-G----IRLYGYAALPTY-------SRGAAVAQFLFVNGRPVRDKMLTGALRAAY-----FDFLSRDRHPAAALFIDCEPTLVDVNVHPAKSEVRFRDPGVARGLIVSSLRHAL- Q47B87/219-331 ----GDEFLGAARAV----DA----------GTG-A----LSIGGFAIDPTR-------ATDAKDGQYVFVNGRFVRDKIISHALREAY-----RDVLHGSRQPAVCLFVNIDPALVDVNVHPAKTEVRFRDSRAMHQFVFHAIQRTL- F1VX50/217-329 ----GSDFSAARLSL----DE----------AAG-P----LRLHGYAGLPTA-------SRGRADAQYFYVNGRFVRDKLLTHAVRSAY-----QDVLHGDRYPSYVLALDLDPALVDVNVHPSKIEVRFRDSRAVHQFVFHAVTRAL- A0A1F4BCR2/213-325 ----GDEFRAAALDV----DE----------SSA-G----LRITGAIGLPAH-------ARATRDAQYFYVNGRYVRDKLAAHAIRQAY-----QDVLHHERHPAYVLFLEIEPGQVDVNVHPAKTEVRFRDARGIHQFIFHALNKAL- A0A0W0SPD2/215-327 ----GKAFIEQAYFI----DI----------EQS-G----MRLVGWVGKENY-------QRSQNDKQWIYINMRMVRDKLLNHAIKQAY-----ENFLHPGRYPSCLLYLTIPPQEVDVNVHPTKHEVRFQQPRLVHDFISTQIHHAL- A0A0D0SC95/220-332 ----GEEFANNAIAV----DH----------SGA-G----LRLHGWIAEPSY-------NRASTDQQYLYCNGRAIRDRSVAHAVKQAY-----SDVLFHGRQPAYVLFLELDPRRVDVNVHPAKHEVRFRDSRLIHDFVFRTLQSVL- A0A0A3AV01/217-329 ----GQDFVSHSLEI----NW----------QHN-E----LHLYGWVADSRF-------LRTQNDLNYSYVNGRMMRDKTINHAVRQAY-----GDNIQADTFPAFVLFIDLDPTQVDVNVHPAKHEVRFHQNRLVHDFIYQGVLNAL- H8K3N8/217-329 ----GDDFIKNAAYI----NF----------KTP-D----FSICGYTSSPTY-------NRASSEDQFLFINNRPVKDKLLQVALRVAY-----QDYLARDRYPLCAIFLQIDPQLVDVNVHPAKAEVRFHDPNYVRNLLIEAIKNAL- Q46XK3/221-333 ----GSDFARARLPL----DE----------EAG-D----LHLYGFAGLPTA-------SRGRPDQQYFFVNGRFVRDKLLNHAVRSAY-----QDVLHGDRFPSYVLCLDLPPEMVDVNVHPSKIEVRFRESRSVHQFVYHAVQRCL- A0A1C1YU94/212-324 ----GGEFAANTIAV----DA----------VRE-D----VGLMGHVGLPTW-------NKANSLAQYAFVNGRPVQDKQILSAIRAAY-----SDTLPRGRYPVAVLWITLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIRQAL- E4PHX7/213-325 ----GQQFIDNAVVI----DA----------EAT-G----LRLWGWVALPTF-------SRSQADLQYFFVNGRVIRDRLVAHAVRQAY-----RDVLYNNRHPAFVLYLEVDPATVDVNVHPTKHEVRFRDGRLVHDFIFRTLHKAL- A0A1F4D9Z7/213-325 ----GAEFAIAARPV----GE----------QVE-G----LALSGFLASPSF-------TRSSRDAQYLFVNGRFVRDKVLLHALREAY-----RDVLHGDRHPAFALFLEIDPTAVDVNVHPAKIEIRFRDARAVHQFVYHAASKAL- T1AF61/216-328 ----GDEFAAQCLAV----RH----------AAA-G----LGLHGWVGLPAA-------ARAQADRQYFYVNGRLVRDRVVTHALRQAY-----SDVLFHGRHPAYVLFLQLDPAGVDVNVHPAKSEVRFREQRLVHDFLFRALHEAL- G0ADD3/217-329 ----GNEFANARLAL----DE----------GAG-P----LRLHGFVGLPTA-------SKARADAQYFYVNGRFVRDKLLVHAVRAAY-----QDVLHGDRYPSYVLGLDLDPALVDVNVHPSKIEVRFRDSRSVHQFVFHAVSRAL- A0A0B0ENS5/215-326 -----KEISENLLEI----NS----------KEP-D----ISIYGYILPPTH-------NRPNTKMQFIFLNGRYIRDNIIFHAINAAY-----RNLLMSRRSPIVFLLLQIDSSEVDVNVHPTKIEVRFKNTGLIHDQLYATIRSTL- A0A1G7M1P9/248-350 -------------------VPP---------APG-F----LRVSGFVSKPEL-------QKLNRGSIYVFVNGRQVRDRLILHALTEAY-----KNILPPTSFPVVLLFLEMPASEVDVNVHPAKTEVRFRQSSFVHDFVRDAVRNSV- A0A0S3ANM3/213-325 ----GEEFKQAAAWI----DE----------QSA-E----MHLHGMVALPAY-------ARSSRDTQYFFVNHRFVNDKLISHALREAY-----RDVLHLGRHPAFVLFLDIHPGSVDVNVHPTKTEVRFREPRALHQFIFHAINKAL- A0A163WU35/215-327 ----GQDFVDNAMDI----DA----------ERE-G----VRLTGFAGLPTH-------HRGNAQHQFFYVNGRPVKDKLLLSGLRGAY-----ADVLARDRHPVVVLFLDLDPVQVDVNVHPAKADVRFRDSQLVRGLLVGSIKHSL- A0A075K402/217-329 ----GEDFPAQSLRI----DH----------AAA-G----LHLSGWVGLPTA-------SRSQADSQYFYVNGRLVRDRVVAHAVRQAY-----ADVLFHGRHPAFVLYLELDPVGVDVNVHPAKHEVRFREQRLVHDFLFRTLHEAL- W0BCE7/215-326 ----GKAFMEQAIFL----DA----------AHA-D----MHLYGWIGSPSY-------QRSQNDKQWVYINRRMVKDKLINHAIKQAY-----DGLLHPGRYPVCLLYLSVVPQEVDVNVHPTKHEVRFRQPRWVHDLVVSTLTQG-- A0A0W0X4R8/215-326 ----GKAFMEQAIFL----DA----------AHA-D----MHLYGWIGSPSY-------QRSQNDKQWVYINRRMVKDKLINHAIKQAY-----DGLLHPGRYPVCLLYLSVVPQEVDVNVHPTKHEVRFRQPRWVHDLVVSTLTQG-- I3TPN5/218-330 ----GRDFAANALEI----EA----------ERD-L----LRLEGHAGLPTL-------NRGTAQHQYLFVNGRPVRDRLMQGVVRAAY-----QDFLARDRHPMVALFLTVPARLVDVNVHPAKAEVRFRDPQLVRGLIIGALRHAL- A0A060NHF2/265-377 ----GEDFLAHSLAF----DWL----------GE-G----LRVWGRAGLAQL-------ARARADQQYSYVNGRFVRDKVIAHAVRSAY-----EDVLHGQRQPVYVLLLELDPARVDVNVHPSKIEVRFRDGRAVHQAVRRALEQVL- Q88DD1/221-333 ----GPGFMEQALPI----DV----------ERN-G----LRLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLELEPNGVDVNVHPTKHEVRFREGRSVHDFLYGTLHRAL- K0CC13/218-330 ----GSAFMEQSMPV----DV----------SHA-G----LRLHGWLGLPTF-------SRSQSDLQYFYVNGRVIRDKVVSHAVRQAY-----SDVLYHGRHPAFVLFLELDPALVDVNVHPTKHEVRFREQRMVHDFLYRTLHRAI- A0A1F4LNR9/233-345 ----GEDFVAQSVPV----RH----------SEG-R----ITVTGRAGLPDA-------ARSRADQQYCYVNGRFVRDKVVTHAARSAY-----EDVLHGQRQPVYALYIEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAVENAL- K2JDS1/217-329 ----GKNFASEACRL----TL----------TSG-D----YQLDGWVAAPQH-------CRHQADVQYFYVNGRMLRDRLILHALRQAY-----GEWLGDERSATFVLYLTLPAADVDVNVHPAKHEVRFQQSRQVHDFIYQAVRQAL- A0A139SVV8/220-332 ----GSQFLEQVLPI----AL----------ERS-G----LKLSGWIGLPTF-------SRSQADLQYFYVNGRAVRDRLVAHAIRQAY-----RDVLYHGRHPVFVLFLELDAALVDVNVHPTKHEVRFRDSRLLHDFLFGGLHQAL- A0A0W0RRT6/211-323 ----GKSFLEQSIHM----NS----------ELN-G----IFLEGYISNADY-------QRSQIDKLWIYLNGRMIKDKLLNNAVRQAY-----EELLYAGRHPSCLLYLKIAANQVDVNVHPTKHEVRFQQPRLIHDFISSQIAAVL- A0A0F2IAY4/217-329 ----GNAFVRHMLAI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ENSLKPEQFAAYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALASAL- A0A127JZ49/219-331 ----GHDFIEQSVTL----AY----------AAG-P----IRITGRAGVPDV-------ARSRADQQFAYVNGRFVRDKVLAHAVRSAY-----EDVLHGQRQPVYVLHIEIDPARVDVNVHPTKIEVRFRDSREVHQAVRRAVENAL- D2TWX9/191-302 ----GSTFIQNALKL----GW----------QHG-D----LAIKGWITNPD--------LGKTVEIQYCYVNGRMMRDRLINHAIRQAY-----ADRQPDEQQAAYVLYLTIDPSQVDVNVHPAKQEVRFHQARLVHDFIYQGVNTLL- F4N2F6/44-156 ----GPAFLQHALAI----SW----------QHG-D----LTIRGWVADPAA-------SRTLSEMQYCYVNNRMMRDRLINHAIRQAY-----QDLLKDDQQPAYVLYLDIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVTTVL- A3STM8/233-345 ----GREFAENALAI----DA----------ERE-G----LHLTGYAALPTY-------SRGSAVTQYLFVNGRPVRDKLLVGALRGAY-----FDLLSRDRHPAAALFVDCDPKLVDVNVHPAKSEVRFRDPGLARGLIVSALRHAL- A0A011P4J3/237-349 ----GDDFLAEARPL----DV----------LAG-P----LRVTGFCALPAY-------SRARNDAQYCYVNGRFVRDKLLVHALREAY-----QDQLHGSRYPAYCVFLAIDPATVDVNVHPQKTEVRFRDARAVHQFIFHAVQRML- A0A1A9RYG8/213-325 ----GQDFQVASLPV----DS----------GSG-S----LRLSGLIAKPTF-------SQGRSSQQYCFVNNRFVRDKVMLHAVKQAY-----RDVLHQQITPAFALFLELPPEMVDVNVHPTKTEIRFRDSQAVHQLIFHTLNKAL- A0A1N7LE02/225-336 ----GRDFIDNAIPI----DA----------ERD-G----LTLTGFAALPTY-------SRGAAVAQHLYVNGRPVRDKLLTGALRAGY-----MDVLASGRHPAAVLYLTCDPQLVDVNVHPAKAEVRFRDPTAARGLVVSALRHG-- A0A1M6K893/233-345 ----GADFADNALTI----DA----------SRD-D----AALTGYAALPTY-------SRGQATHQYLFVNGRPVRDKLLFGALRGAY-----ADFLSRDRHPVAALFVECDPARVDQNVHPAKTEVRFKDPGNIRGLIVSALRHAL- W8IF52/212-324 ----GKDFRDNAIEI----DA----------ERE-D----IQLTGFAGVPTY-------NRGNSLQQYVFVNGRPVQDKQLLSAIRAAY-----SETIPHGRYPVAVLSIALDPALVDVNVHPAKSDVRFRDPGLIRGLIIGAIREAL- A0A0Q7R5P7/212-324 ----GKDFRDNAIEI----DA----------ERE-D----IQLTGFAGVPTY-------NRGNSLQQYVFVNGRPVQDKQLLSAIRAAY-----SETIPHGRYPVAVLSIALDPALVDVNVHPAKSDVRFRDPGLIRGLIIGAIREAL- A0A0E3ULR2/214-326 ----GEDFARSALRI----DH----------SGA-G----LRLHGWIAQPHY-------SRASADQQYLYVNGRSVRDRSVAHAVKLAY-----QDVLFHGRQPAYVLFLELDPVRVDVNVHPAKHEVRFRDARLIHDFVFRTLQEAL- A0A1B7UNR0/217-329 ----GRGFIESALYV----ES----------QYD-D----MRLWGWVQLPHA-------CQTQPACQFSYVNGRMMRDKLLNHAIRQSY-----GDILLPGAQPAFVLYLELDPQQLDVNVHPAKHEVRFHQARLVHDFVVSALAQVC- A0A1G0GRA1/216-328 ----GPAFLEHALAI----EA----------ETA-N----LRLTGWIALPHF-------SRAQADLQYFYVNGRMVRDKLLIHAIKKAY-----HDVLYRDRYPAYVLFLEITPALVDVNVHPTKHEVRFREGRLVHDFLLKSAHDAL- A0A1M3GY59/213-324 -----SEFSQNALPL----EM----------SRG-D----ITLKGFISLPTL-------NRANATQQYLFVNGRPVKDKVLQGAVRAAY-----QDFLASDRYPLLALFLEVPREEVDVNVHPAKTEVRFRDSGLIRGTIVSALKQTL- A0A109BAC1/216-328 ----GRAFMDDAVRV----SG----------VRE-N----VSINGYAGVPTL-------HRPDAAQQFLFVNGRPVRDKLLIGAVRAAY-----GDLIPRGRQPLLALFLELPPDEVDVNVHPAKTEVRFRDAGAVRSLIVNALAAAL- A0A1D2RWX8/216-328 ----GEDFTRQCLQV----DH----------AAA-G----LRLRGWVGLPTA-------ARSSADQQYFYVNGRAVRDRTVAHAVRQAY-----ADVLFHGRHPAFVLFFECDPRMVDVNVHPAKHEVRFREQRLVHEFIYRTLHEAL- A0A098G020/215-327 ----GSSFIKDAIYL----DV----------ERG-A----MRLYGWISGPNY-------QRSQNDRQWVYINQRMIKDKLINHALKQTY-----DGMLYPGRFPACLLYFTINTAEVDVNVHPTKHEVRFQQPRLVHDFFTSQLSAAL- A0A1H6BWC5/247-350 --------------Y----EAP---------PAG-F----LRLSGFISKPEL-------QKLNRNSIYVFVNGRLIRDRLMLHALSEAY-----RNIIPPTSFPVVLLFLEMPPEEVDVNVHPAKTEVRFRQTAFLHDFVRDTVRTGL- Q1QIP3/216-328 ----GADFRCSAIAV----RA----------ERD-G----VTVEGFAAAPSL-------TRANALGQYLFVNGRPVRDKLIIGAVRAAY-----SDYLPRDRHPVVALFVTTAPQEVDANVHPAKTEVRFRNAGLVRALIVHALKEGL- A0A1E4G0A1/215-327 ----GDDFAQNAVRL----GH----------SRH-G----VVVAGLAGLPTY-------TRANSLSQFYFVNGRSVKDKVLVGAVRAAY-----ADYVFRDRFPVVALYIAIDPAEVDVNVHPAKAELRFRDQGAVRAAVIRAIGEAL- A0A1E4HDD8/217-329 ----GAEFPQRSLRV----EH----------AAA-G----LQLSGWVGLPTA-------SRAQADAQYFYVNGRLVRDRIVAHAVRQAY-----ADVLFHGRHAAFVLYLELDPAGVDVNVHPAKHEVRFREQRLVHDFLFRTLHEAL- I0HP78/216-328 ----GREFVAASRPL----EA----------AAG-P----LRLTGRAGQPEA-------ARSRTDLQYLFVNGRYVRDRLVSHAIRAAY-----EDQLHGSKQPAYALFLEIEPELVDVNVHPTKIEVRFRDGRAVHQAVQRAVVDTL- A0A160N0T3/215-327 ----GENFPAQSLHL----DH----------AAA-G----MRLSGWVGLPTA-------SRGQADSQFFYVNGRLVRDRVVAHAVRQAY-----ADVLFHGRHPAFVLYLELDPAGVDVNVHPAKHEVRFREQRLVHDFLFRSLHEAL- A0A1E4AYB2/224-339 -----HELRDNAVEI----VA----------ERE-TPHGVMRLSGVAGLPTY-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----SDMLARDRHAVLALFLDIPPQDVDVNVHPAKTEVRFRDSAGVRGFIVSGLRHAL- A0A0K6H3X9/213-325 ----GRDFADSALAV----ET----------SAG-T----LVLTGFAGHPTA-------SRGNRDTQYFYVNGRFVRDKTAQHALRQAY-----RDVLHHERHPAYALFLTMDPAQVDVNVHPTKIEVRFRESQAIHQFLFHSVHKTL- A0A0M2KBE6/217-329 ----GTTFLNHALAI----EW----------QHG-D----LSLNGWVVDPTA-------SGNVSDLQYCYVNGRMMRDRLINHAIRQSC-----QDKLTDDRQAAYVLYLQIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVSTAL- E8V4Q0/248-350 -------------------EAP---------APG-F----LRVHGFVSKPEL-------QKLNRNSMYFFVNGRQVRDKLILHAMGEAY-----RNVIPPTSFPVVLLFLEMPPQEVDVNVHPAKTEVRFRQSAFVHDFVRDTVRNAV- A0A142LFH7/225-337 ----GRDAAADALVI----DT----------ERA-E----VRLTGLAGLPTA-------ARGDARHQHLFVNGRPVKDPLLKGAARAAY-----QDVLARDRHPVLALFLEMDPKLVDVNVHPAKTEVRFRDPALVRGLVIGALRHAL- C3KDW1/221-333 ----GAGFLEQALPI----EI----------ERN-G----LRLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPSVVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRTL- A0A0K0TRP6/215-327 ----GDDFSENAAPL----GF----------ARH-G----IVVAGLAGLPTY-------SRANSLSQFYFVNGRSVRDKVLLGAVRAAY-----ADFVFRDRFPVIALFVAVDPAEVDVNVHPAKAELRFKDQGAVRGAVIRAIQEAL- A0A1G0JPM7/220-332 ----GQAFIDNAIEL----DC----------RND-S----LRLWGWIGDETM-------HRSQVDRQYLYHNNRIIRDRKLNHAIRVAY-----SEKIPPGRYPVYVLYLEMDPSLADVNVHPAKYEIRFRETREIHDFIHGCIQNAL- A0A0U4GPY8/217-329 ----GRSFAQAACYV----ES----------QYE-H----MQLSGWILPAAA-------CSAQLQCQYSYVNGRMMRDKLLNHAIRQAY-----AEMLAPEALPAFVLYLQIDPEQVDVNVHPAKHEVRFHQARLVHDFVFSALSQML- C6CIZ3/217-329 ----GAAFLQHALAV----SW----------QHG-D----LNIHGWVADPVG-------SRQLPEMQYCYVNQRMMRDRLINHAIRQAY-----QDQLRDEQQPAYVLYLEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVMTVL- A0A0B1Q5Q6/211-323 ----GQDFADNALEL----DA----------LRE-G----VGLTGFAGLPNF-------NRGNALYQFFYVNGRPVRDKMLLSAMRGAY-----LDAMAKDRHAVAALFLTIDPRDVDVNVHPAKADVRFRDPGLVRGLVVGAIRARL- A0A0Q9JHV4/216-328 ----GRDFPENALPV----ET----------ERE-G----VRLSGFAGLPTF-------HRGTSAGIHMAVNGRPVRDKLLLSAVRGAY-----ADVVPSDRHPVLYLDVLCDPAVVDVNVHPAKSEVRFRDPALVRGLVVSSLKAAL- A0A1A6L1P7/218-330 ----GKNFAENMLKV----EL----------QHQ-D----LKLYGWITTPDG-------ARSQGDLQYCYVNGRMMRDKLINHAIRQSY-----ELTLRSDQYAAYVLFIEIDAHQVDVNVHPAKHEVRFHQARLVHDFIYQALVDAL- A0A1E4CN39/216-328 ----GREFMADALAL----DG----------TRE-G----VRLHGFVGLPTL-------NRPDAGLQFLFVNGRPVRDRLLLGALRGAY-----GDLVPKGRHPLVALFVELDARHVDVNVHPAKAEVRFRDAGAVRSLLVGGIREVL- A0A0J7Y1S6/212-323 -----RALAENHVIV----SL----------ERE-G----IRLSGVASIPTY-------NRGVGDHQYLFVNGRPVKDRLLIGALRGAY-----ADMLARDRHPVVALFLDVPPLDVDVNVHPAKTEVRFRDPALIRGMIVSGLRRAL- V9VNQ2/234-346 ----GREFAENALKI----DA----------TRE-G----IRLFGYAALPTY-------SRGAAVAQFLFVNTRPVKDKTLTGALRAAY-----FDFLSRDRHPAAALFIDCDPQLVDVNVHPAKSEVRFRDPGLARGLIVSALRHAL- A5EXM6/211-323 ----GDEFLAQSIEI----QA----------EHE-G----MHLHGWVGLPTY-------THQQTDKQYFFVNQRLVSDKLVAHAIKQAY-----EDMIHRQRHPIFVLFLTLDPALVDVNAHPSKREVRFRQAQLTHDFMFSSLHRAL- A0A091B9S8/216-328 ----GEEFTSQCLQV----EH----------AGA-G----LRLWGWVGLPTA-------ARSSADQQYFYVNGRAVRDRTVAHAVRQAY-----ADVLFHGRYPAFVLFLECDPRQVDVNVHPAKHEVRFREQRLVHEFIYRTLHEAL- A0A128FE62/217-329 ----GSQFVKSSVEV----SL----------EHQ-G----LTLHGWICAPEG-------ARAQNDIQHCFVNLRMMKDKLINHAIRQGY-----ETSLRPDQFAAYVLYIDIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVADAL- A0A0W0ZQS3/217-329 ----GNVFVKESIYL----DV----------EHG-A----MKLYGWISNSNF-------QRSQNDRLWVYINQRMVKDRLIQQALKQAY-----EGLLYPGRFPACVLYLTINPAEVDVNVHPTKHEVRFQQPRLVFDFFTSQLTAAL- A0A0G3EUI8/223-335 ----GEAFADAHLPI----DE----------QAA-E----LGLRGFAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGERFPAYVLYLELPPQLVDVNVHPSKIEVRFRDARGIHQFVFHAVQRTL- R6JRY4/217-329 ----GREFSENSLLI----NA----------HRE-N----LTITGYVSLPTL-------NKSNSLYQYLFVNNRPVRDKLLLGAIKGAY-----QDVLAHNRYPMAALYFDIDPAYVDVNVHPAKAEVRFYDNALVRGLLVSAVRQAL- A0A1J4YU95/213-325 ----GDDFAAAARRV----DQ----------SAG-E----LRLHGLAGLPAY-------SRSGRDAQYLFVNGRYVRDKLLGHALREAY-----RDILHHDRHPAYALYLELPPEQVDVNVHPAKTEVRFRQSQSVHQFVFHVLERAL- A0A1B8HL48/217-329 ----GTVFMQQALTV----AW----------SHD-G----LDIRGWVASPAD-------YSGPADLQYCYVNGRMMRDRLINHAIRQAY-----EDKLGSDRQPAYVLYLEIDPRQVDVNVHPAKHEVRFHQARLVHDFIYQAVLSVL- A0A1A6IUE2/217-328 ----GNPFVRHMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDG-- A0A1M5XAE8/217-328 ----GSAFAERAFAL----RC----------SND-D----LALTGFMALDDD-------RARVSDVQYFYVNGRVVRDKLVNHAVRQAL------EECGLSQAAGYVLYLTLDPHEVDVNVHPAKHEVRFHQARYVHDFILTALQQGL- A0A1G0BWP0/227-339 ----GDEFGHAAVPV----SR----------NAA-N----LSLHGLAALSAY-------SRATRDAQYFFVNGRFVRDKVASHALRQAY-----QDVLHHQRHPAFVLFLELPPEQVDVNVHPAKSEVRFRESQGIHQFIFHTLQQAL- B7VI53/217-328 ----GNPFVRHMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDG-- A0A0Q8QJ81/212-323 -----RDLAENSVAV----DF----------ARE-A----VSLTGVAGLPTF-------NRGVADHQFLFVNGRPVKDRLLIGAVRAAY-----QDMLARDRHPVVALFVDLPGDLVDVNVHPAKTEVRFRDPGLVRGMIVGGLRAAL- K9E134/227-338 -----SDFAEARLEL----DE----------SAG-P----LHLHGYVGLPTA-------SKARADGQFFYVNGRFVRDKVLVHAVRAAY-----QDVLHGDRFPSYVLSLDLDPALVDVNVHPSKIEVRFRDSRAVHQFVFHAVQRTL- A0A1J5RZP4/212-324 ----GAEFAAEAILL----DE----------SAA-G----LRIWGMTAKPTF-------NRNSRDTQYVYVNGRFVRDKLISHAIRQAY-----QDVLHHDRHPAFVLFLELDPTLVDVNVHPAKTEVRFRDGQALHRFIFHSLHKAL- A0A0S8FDA8/206-301 ----GKEFAAQTVYV----EQ----------AAA-G----LSLHGWIGLPTF-------SRSQTDLQYFFVNGRAVRDKLVGHAVRQAY-----QDVLYHGRHAAFVLYLEMDPVAVDVNVHPAKHEVRFR------------------ K0PKZ4/212-324 ----GKDFRDNAIEI----NA----------ERE-G----ISLTGFTGVPTF-------NRGNSAHQYAFVNGRPVQDKLILSAIRGAY-----AETIPAGRYPVAVLSITLDPVLVDVNVHPAKSDVRFRDPQLVRGLIVGAVREAL- F3GJ75/78-190 ----GPGFLEQALPI----EI----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPAAVDVNVHPTKHEVRFRDGRMVHDFLYGTLYRAL- A0A085GKS0/217-330 ----GTAFLEQALAI----EW----------QHG-D----LALRGWVAEPTAT------TSALSEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A157S8Q6/213-325 ----GPDFAGHALPV----DT----------QYG-A----IGLSGMVTRPTA-------ARARADRQYLYVNGRYVRDRTVSHALRSAY-----ADVLHGDRQPAYVLYLEIDPGAVDVNVHPAKHEVRFRDSGAVHRFVSQVVGQAL- A0A0F2RMY4/232-343 ----GRDFRDNAVAI----DA----------ERE-G----VRLTGFAGLPTL-------NRGNAQMQFMFVNGRPVKDRMLNGVIRAAY-----QDFLARDRHPMAALFVDLDPEYVDANVHPAKTEVRFRDAGNVRGLMIGALRHS-- C4GK64/213-325 ----GAAFQAAALPI----DS----------QAG-E----MALRGFVSKPTF-------AQGKSDKQFFFVNNRFVRDKVMLHAVKQAY-----RDVLHNQITPAFVLFLDLPPEQVDVNVHPTKTEIRFRDSQAVHQMIFHALNKAL- A0A172YPH6/225-337 ----GRQFTENAYWI----DA----------DSI-S----MRLSGWLGHPSD-------ARSQADLQYVYVNGRIVKDKTISHALRMAY-----DGILHGHQHPAYLLFLEVDPENVDVNVHPTKHEIRFLNQREVHEFVRHFAKETL- E8RUC5/224-336 ----GDDFGHNALLI----DQ----------QRE-G----VRLTGYAGLPTF-------SRGNAQHQYLFVNGRPVRDKLLTGALRGAY-----ADFLARDRHPMAVLYVETDPQNIDVNVHPAKAEVRFRDPNLVRGLIVGALKHAL- A0A1C9BH52/233-345 ----GRNFLEHALHL----DI----------EAS-G----LRLSGWVGLPTH-------SRAQADQQYFFVNGRVVRDRLVAHAVRQAY-----RDVLFHGRHPVFVLYLELDPTVVDVNVHPTKHEVRFRDGRLVHDFLFSSLHKAL- A0A1E4KAF4/217-329 ----GEEFLQQSLRL----EH----------EGA-G----LRLSGWVGLPTA-------SRAQADQQYFYVNGRLVRDKVVAHAVRQAY-----ADVLFQGRHPAFVLFLDLDPLGVDVNVHPAKHEVRFREARLVHDFLYRTLNEAL- A0A1N7P8E6/218-332 ----GPAFVEQSLRV----DMN--A------EAS-G----LTLKGWIGLPTF-------SRSQADLQYFFVNGRMIRDKLVTHAVRQAY-----ADVLFHGRHPAYVLYLELDPALVDVNVHPTKHEVRFREGRLVHDFIFRSIHRVI- Q6LM28/217-329 ----GQSFLQHALAV----EL----------EHG-D----LNLSGWICTPQG-------SRSQNDVQYCYVNGRMMKDKLINHAIRQAY-----EANLASDQYSAYVLFIEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQGIQSAL- A0A0B1ZPV1/214-325 -----RELAEDGVVI----EA----------ERG-S----ARLTGVAGLPTF-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----ADMLARDRHAVLALFLDIPPEEVDVNVHPAKTEVRFRDPAFVRGFLVGALRHAL- A0A066TA07/213-319 ----GRVFMQKAVKL----DW----------QHD-D----LFIQGWVT-----------SSEVSNLQYFYVNGRVIKDKLLNHALRQAY-------IRRENEQQSYVVFLQIDPKQVDVNVHPAKHEVRFHEARLVHDFVYQAIVMAL- E8TIH3/215-327 ----GTDFPDNSIAL----DA----------MRD-G----VHLTGHASIPSF-------TRANALQQYAYVNGRPVRDKLIAGAIRGAY-----ADVLPRDRHAVTVLFLTLDPAIVDVNVHPAKADVRFRDPGLVRGLIVGAIRQAL- N9FLN0/225-336 ----GRQFTENAYWI----DA----------DSI-N----MRLSGWLGHPSD-------ARAQADLQYVYVNGRIVKDKTISHALRMAY-----DGILHGHQHAAYLLFLEVDPENVDVNVHPTKHEIRFLSQREVHEFVRHYAKDT-- Q5GSP0/212-324 ----EEEFQDNSLEI----NE----------EED-G----VRLTGHICKPTV-------NRGKSDMIYTFVNGRPIKDNLLVSAIRYAY-----HDFIPSNRYPFATLHLEIPYDQIDVNVHPNKSEVRFQNKRLIYEIVRRGLIKAL- A8TSG5/228-340 ----GRDFAADALPI----DA----------ERQ-G----YRLTGYAGLPTL-------HRRTSAHQYLFVNGRPVRDRLLLGAVRGAY-----MDFVASDRHPMLALFLELPAEEVDVNVHPAKTEVRFRDAGLVRGLIVGALKHAL- A0A127CL41/212-324 ----GKDFRPNAIEI----DA----------VRE-D----VALSGFVGVPTF-------NRGNSGHLYAFVNGRPVQDKLLMGAIRAAY-----AETVPKGRYPMAVLWFSLDPALVDVNVHPAKADVRFRDPGLVRGLVVGAIREAL- A0A1G2W0T0/223-335 ----GREFSENALLI----DH----------ERE-G----VRLSGYAGLPTY-------NRGNAAHQYLFVNGRPVRDRLLQGALRGAY-----ADFLARDRHPACALYIELDPGLVDVNVHPAKAEVRFRDPALVRGLIVSGLRHSL- A0A0Q6BCD5/213-324 -----NEFASQSVWL----DE----------GNG-G----LRLWGMTASPTY-------QRHSRNTQYVFVNGRFVRDKLIAHAIKQAY-----QDVLHGDKHPAFVLFLELDPSLVDVNVHPAKTEVRFRESQAVHRFIFHSLHKAL- A0A0Q8BIJ9/215-327 ----GADFPQNSIAI----DA----------ERE-G----VRLQGHVSIPSF-------TRANALQQYAYVNGRPVRDKLIAGAIRGAF-----VDVLPRDRHAVAVLFLTLDPATVDVNVHPAKADVRFRDPGLVRGLIVGAIREGL- Q7PA98/217-329 ----GDDFIKNAAYI----DF----------KTP-D----FSICGYTSSPTY-------NRASSEDQFLFINNRPVKDKLLQVALRVAY-----QDYLARDRYPICAIFLQIDPQLVDVNVHPAKAEVRFHDPNYVRNLLIEAIKNAL- A0A0L7MDR9/241-353 ----NDKFVDNSVAV----DH----------WAG-P----VHVTGRAGIPDA-------ARSRPDQQFCYVNGRFVRDKVLTHAARSAY-----EDVLHGNKQPVYALYIEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAIENAL- A0A0S2EM62/210-322 ----GPEFLDNAVAL----DA----------VRE-G----VRLTGWAGLPTY-------HRGNAQHQYAYVNGRPVRDKMILSAIRGAY-----VDFVPRDRYPVCVLFFDVDPRDVDVNVHPAKADVRFRDPALVRGLIVGAIRQAL- A0A176F5D2/233-345 ----GRDFTDNAIPL----DA----------TRD-A----LHMTGFAALPTY-------SRGSSVTQYLFVNGRPVRDKMLYGALRAAY-----HDFLSRDRHPAAALFIDCDPVLVDVNVHPAKSEVRFRDPGLARGLIVSGLRHAL- I4AGJ1/214-326 ----GKSYQSNLLTC----QE----------DVE-----TIKLLGYVGKPQA-------AKKTKGSQYFFVNNRFIKSGYLHHAVMTAY-----EGLLPKDAHPFYVLFIEIDPKKIDINVHPTKTEIKFDDERTVYVVVQSAVKQAL- D8KAV8/218-330 ----GRTFTEHSMYF----KR----------ETE-G----LCLWGWLGHPEF-------ARSQTDLQYCYVNHRMVRDKLLRHAARQAY-----GDRLPQGRHPSYLLYLELPTHQIDVNAHPTKHEVRFRESRRVHGFIVRTLAEIL- A0A1B2QZX2/213-325 ----GAEFADQGVLV----DR----------AIG-P----VALTGMITRPTA-------ARARADRQYLYVNGRYVRDRTVSHALRSAY-----ADVLHGDRQPAYVLFLEIDPAAVDVNVHPAKHEVRFRDSGAVHRFVSQAVSDAL- A0A1G3HDX2/210-322 ----GEEFFPHARAL----DA----------VAG-P----LRLSGLAALPAY-------SRSGRDEQYFFVNGRYVRDKLLTHAARQAW-----ADILHGARQPAYVLFLELDPTGVDVNVHPAKTEVRFRDARGIHQFVFHALQRTL- A0A1F8VC00/235-353 ------EFLAQSVRV----DWHSSQANEYG--QP-A----LRVWGRAGVPDA-------ARSRADQQFCYVNGRFVRDKVLTHAARSAY-----EDVLHGNRQPVYALYVAMDPTRVDVNVHPTKIEVRFRDSREVHQAVRHAVEDTL- A1WUT8/219-331 ----GRAFADHALAV----EL----------EGA-G----LQLRGWLGLPTA-------ARRQGDLQYLFVNGRLVRDRGAAHGIRQAY-----SDCLYRDHYPAYVLFLEMDPARVDVNVHPMKHEVRFRDGRTVHDFLARRIADAL- G7LW24/217-329 ----GSAFLQHALTV----SW----------RHD-D----LTIHGWVADPSG-------AKQLPEMQYCYVNQRMMRDRLINHAIRQAY-----QDRLKDEQQPAYVLYLEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVMTVL- A0A1D2S8Y3/234-346 ----GEEFIAASLPV----HH----------QAG-P----LVITGRAGLPSA-------SRSRADQQYSYVNGRFVRDKVLQHAARAAY-----EDVLHGQRQPVYVLYLQIAPERVDVNVHPTKIEVRFRDSREVHQAALHALQGVL- A0A0H0ZWH3/215-327 ----GREFTENSLEI----DA----------WRG-G----VRLAGHVSIPSY-------TRANSLHQFAYVNGRPVRDKMLAGAIRGAY-----ADVLPRDRHAVTVLFIELDPALVDVNVHPAKADVRFRDPGLVRGLIVGSIREAL- Q5QW89/217-329 ----GGGFAEQASAI----DA----------VDG-D----FHLSGWLVPPEH-------CRHQGDIQHFFVNGRMMRDKLLSHAVRQAY-----EKYLPNERVPTFVLYFELPAEEVDVNVHPAKHEVRFHRQRQVHDFILTRIEQAL- Q0G3V1/213-325 ----GKDFADNAVAI----EA----------VRE-D----VYLSGFAGLPSF-------DRGNSLAQYFYVNGRPVRDWMLVSALQGAY-----SDMMAKGRYPVAALFVELDPALVDVNVHPAKADVRFRDPQLVRGLIVGAIREAM- A1UU01/215-327 ----GKEFAPNSIAL----NA----------ERE-S----VRLTGFTCLPSF-------NRSNSLHQFAYVNGRPVRDKLLWGAIRGAY-----ADAIARDRHAVSIIFIDLPPADVDVNVHPTKADVRFRDPGLIRGLIIGAIHEAL- A0A1E4UX51/221-333 ----GAAFLEQALPI----EI----------ERS-G----LRLWGWVGLPTF-------SRSQADLQYFYVNGRTVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEIDPAVVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- Q2SBC0/218-330 ----GANFIESAIPI----NV----------SAS-G----LSLTGWVAKPTF-------SRSQADLQYFFVNGRVIRDKLVAHAVRQAY-----QDVLYHGRHPAFVLYLELDPATVDVNVHPTKHEVRFREGRMVHDFLFRSLHRAL- A0A1I4TU94/215-326 ----GADFAENSIEI----DA----------LRE-G----VRLTGLAGLGTL-------QKANAQSQHLFVNGRPVRDKLLLGAIRAGY-----ADVMARDRFPAAVLFVDLDPHEVDVNVHPTKADVRFRDPGLVRGLLVGALRRA-- A0A165YCN8/215-326 ----GSEFTKNAMEI----EA----------LRE-G----VHLYGYAGLPTF-------HRANSQHQFFFVNGRPVRDKLLLGSLKAAY-----SDVLSRDRHPIVVLYIDLDPHQVDVNVHPAKADVRFRDGQLVRGLLIGALKSA-- A0A1M7EPB8/226-338 ----GKNFLDNALTL----DI----------EVG-S----LRLWGWVGLPTH-------SRAQADQQYFFVNGRVVRDRLVAHAIRQAY-----RDVLFHGRHPVFVLYLDVDPAVVDVNVHPTKHEVRFRDGRMVHDFLFSSLHRAL- A0A1E4JDS2/212-323 -----RALAENSVAV----DL----------ARE-G----IMLGGVAGLPTF-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----ADVLARDRHPVVALFLDVPPDMVDVNVHPAKTEVRFRDPALVRGMIVSGLRRAL- Q0AS28/231-343 ----GADFGENALEV----DQ----------TRE-G----VRIFGFASLPTY-------SRGNAMHQYLFVNGRPVRDKLLGGAVRGAY-----QDFLARDRHPVVALNVELPTDEVDVNVHPAKAEVRFRDAALVRGLIVGSLRHAL- A0A1B7HWP6/217-330 ----GTQFLEQALSI----EW----------QHG-D----LALRGWVAEPSAT------TSALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- L0DZK2/216-328 ----GEEFLRHAFEV----EE----------ESS-G----LRLCGWLGAPTH-------SRSQADQQHFFVNGRPVRDRVLSAAVRRSY-----RDVLYQARHPVFVLFLDLDPATVDVNAHPAKHEVRFRDGRLVHDFVFRALHRAL- A0A127MEE5/212-323 -----RDLRGNSVGV----DL----------QRE-E----IRLTGVAGLPTY-------NRGVADHQFLFVNGRPVKDRLLVGAVRGAY-----AEMLARDRHPVVALFIDMPPELVDVNVHPAKTEVRFREPAMIRGMIVSGLRKAL- A0A1E7JDT8/215-326 -----KDSESRLYEV----DF----------KDG-N----VQVQGFVASPDI-------SRTTPQRLYVYVNGRFVRDKVLHHAVMEAY-----EGHLMKGKFPLVVLFVNLAHDQVDVNVHPTKNSVRFEAPKQVHDTVTRAISESL- K1JSL0/221-332 -----RAFKGQHREV----AA----------EED-G----MTIRGLAGIPAI-------ARSRADGQYFFVNGRYVRDKTLMHAVKAAY-----QDVLHGQSQPVFCLYLTLDPTAVDVNVHPAKLEVRFRESSRVHQFVMHAVKAAL- A0A103E731/238-350 ----GEGFASAHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- W6M2H0/219-331 ----SRDFVAATLWI----DN----------EAA-G----LRVTGWLGLPAV-------ARAQPDWQSFFVNGRPVRDRTIAHAVRQAY-----QDVLYQGRHPAVVLYVELDPTLVDVNAHPTKHEIRFRESALIHETVRRIVQTAL- A0A1A9FN39/215-327 ----GKEFSENALHI----DA----------ERD-G----IRLAGFAGIPSF-------NRGNALHQFAYVNGRPVRDKQIFGALRGAY-----SDVIARDRHPVAVLFLTLDPALVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- A0A0N8K6I3/233-345 ----GRDFADNALPL----DT----------ERE-G----HHLTGYAALPTY-------SRGSAVQQFLFVNGRPVRDKLLIGALRGAY-----ADFLSRDRHPAACLFVDCDPHLVDVNVHPAKSEVRFRHPGTVRGLIVSGLRHAL- A0A0P9C5V6/215-328 ----GDQFAENAVHL----VQD---------SGD-G----LRLSGWVILPTA-------ARGQRDQQYFFVNRRPVRDRLLGHAVAEAY-----RDVLYQDRHPAYALFLEVDPAEVDVNVHPTKHEVRFSDGRRIHAFIRHAVEEAL- A0A1H0E2T8/230-342 ----GAEFAENALRI----DA----------ERE-G----FHLSGFAALPTY-------SRGAAVAQFLFVNGRPVRDKLLIGALRAAY-----FDFLSRDRHPVAALFVDCAPTLVDVNVHPAKSEVRFRDPGTVRGLIVSALRHAL- A0A0P7X9T6/221-333 ----TSRFTNEAVKL----DS----------ELG-S----LRLRGWISPPTA-------CRHQQDIQYFFVNGRMMRDRLLNHAVRQAY-----GDSLPEDRHASFVLYLELPAQDVDVNVHPAKHEVRFHQARQVHDFVLSAVRAVL- A0A0F4NER4/217-329 ----GSAFVRNMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDAL- A0A0G3G3X8/214-326 ----GDAFLEHATPV----DE----------QRA-G----LALSGWLGSPTQ-------SRAQPDQQFFFVNGRAIRDRVLAAAVRKAY-----QDVLYHGRHPMFVLDLELDPTQVDVNAHPTKQEVRFRESRMVHDFIFHSLHKAL- A0A0F3KR80/213-325 ----GKDFIAEAITV----ET----------AAG-S----MTLNGFVGSPTY-------SKASRDAQYFYVNGRFVRDKTAQHALRQAY-----RDVLHHERHPVYALFLSMDPAGVDVNVHPTKIEVRFRESQAIHQFLFHSINKAL- A0A0X3YBX6/217-329 ----GRVFAENAAFI----EN----------QYG-D----VRIWGWIVQPQA-------CSNQLQCQYSYVNGRMMRDKLLNHAIRQAY-----GDMLTTEQQPAFVLYLQLDPRQVDVNVHPAKHEVRFHQARLIHDFVVSALGDAL- I1YIS4/221-333 ----GSRFVKDAFVI----EQ----------QRD-L----MQLNGWICPAIA-------HRAHNDIQYFFINGRVIRDRLISHAVRQAF-----AEQIPAGRHPAYVLYLTLPLDRVDVNVHPTKHEVRFREARLIHGLITSAIRDAL- R9PRS8/217-329 ----GAPFANHCLHL----DN----------QHD-Q----LRLHGWLGLPEV-------ARAQNDQQYFYVNGRMMRDKLLQHAIRQAF-----AAYLPDEQYASYVLFLELPLDQVDVNVHPAKHEVRFHQARLVHDYIVQVLASAL- A0A0X9VJH4/224-335 ----GDNFTRNSLTL----YW----------VKD-D----LEIKGWIIRPNLDN--NSK------FQYYYVNGRIIRDRIINHAIRQAY-----ADVLQEEQNLAYVLYLNIDPNNIDVNVHPTKLEIRFHQSRLVHDFIYQGLINTL- F9ZID1/213-325 ----GDEFKQTAAWI----DE----------QSA-E----MHLHGMVALPAY-------ARSSRDTQYFFVNHRFVNDKLISHALREAY-----RDVLHLERHPAFVLFLDIHPGSVDVNVHPTKTEVRFREPRALHQFIFHAINKAL- A0A1M4XGX4/215-327 ----GQEFAHNALAV----DQ----------AGA-G----LRLHGWIARPTY-------HRASADQQYLYVNGRSVRDRNIAHAVRQAY-----SDVLYHGRHPAYVLFLELDPRGVDVNVHPAKHEVRFREARLVHDFVYRSLHAVL- A0A1F4NJ86/230-342 ----GQDFIAQSLAL----DWQGQ-----------G----IRVWGRTGLPDA-------ARARADRQFAYVNGRFVRDKVISHAARSAY-----EDVLHGQRQPSYALFIEIDPTRVDVNVHPTKIEVRFRDGREVHQAVRHAIENAL- A0A1B7IED7/217-330 ----GIPFLEQALAI----EW----------QHG-D----LALHGWVAEPTAT------TSALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGVDQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQAVLSVL- A0A0Q0TJY7/241-353 ----GEDFVTQSVAV----QH----------RVG-P----VIVTGRAGLPDA-------ARSRPDHQYCYVNGRFVRDKVLTHAARSAY-----EDVLHGHKQPIYALYVEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAVENAL- A0A099L382/217-329 ----GPKFIEHAVEV----DC----------PHD-N----MTLSGWLTKPSF-------SRSQNDLCYSYVNGRMMRDKLINHAIRQAY-----ADLLPPDTYPAFVLFLKLDHKEVDVNVHPAKHEVRFHQSRYVHDFIYSVCHKAL- A0A147I1Y9/212-323 -----RALADNSVAI----DL----------ERD-G----HVLGGVAGLPTF-------HRGVADHQYLFVNGRPVRDRLLIGAIRGAY-----AEMMPRDRHAVVALFLDVPPSEVDVNVHPAKTEVRFRDPALVRGMIVSGLRRAL- A0A0H5LYH9/217-329 ----GPAFLQHALAI----SW----------QHG-D----LTIRGWVADPAA-------SRTLSEMQYCYVNNRMMRDRLINHAIRQAY-----QDLLKDDQQPAYVLYLDIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVTTVL- A0A1M7GLM5/227-339 ----GREFIENAIPI----DA----------SRD-G----LRLTGLAALPTY-------SRGAAVAQHLYVNGRPVRDKLLTGALRAGY-----FDVLPQGRHPAAVLFVDCDPQGVDVNVHPAKAEVRFREPDAARGLVVASLRHAL- W8R2P9/221-333 ----GPAFLEQALPV----EI----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLDVDPAVVDVNVHPTKHEVRFRDNRMVHDFLYGTLHRAL- A0A097QYD1/217-329 ----GTAFIQHALEI----KW----------EHG-D----LAIHGWVADPVG-------SRQLTEMQYSYVNGRMMRDKLITHAIRQAY-----QDQLKDDQQPAYVLYLTVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVISVL- A0A160FHT8/236-348 ----GETFATAHLPL----DE----------SAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGDRYPSYVLFLDLPPEAVDVNVHPSKIEVRFRDSRSIHQFVFHAVQRAL- A6GSL9/215-326 -----TMANGASKPI----DV----------QTA-D----MQLHGAVGLPDA-------ARGKGDMQFFYVNGRFVKDKLIGHAVRSAY-----EDVLHGDKFPAFVLFLNLPATEVDVNVHPAKTEVRFRNARAVHQWVRQSIQACL- A0A0M2WK82/218-330 ----GNDFAEARLAL----DE----------SAG-S----LRIHGFAGLPTA-------SKARADGQFFYVNGRFVRDKLLVHAVRMAY-----QDVLHGDRFPSYVLALDLDPALVDVNVHPSKIEVRFRDSRSVHQFVFHAVQRAL- A0A160JIW7/217-329 ----GRDFQENAVPV----TA----------ARE-G----VTLAGWIGLPTL-------HRPTAKHQHLFVNGRPVRDKLMVGAVRAAY-----ADFLPRDRHPMLALFLDIDPQEVDVNVHPAKAEVRFRDQGLVRGLIVGSLKHAL- A0A1M3JDH4/237-349 ----GEDFVTQSVAV----LH----------RAG-P----VTVTGRAGLPDA-------ARARADHQYCYVNGRFVRDKVLTHAARSAY-----EDVLHGQKQPVYALYVEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAVENAL- A0A1E4LWR6/237-349 ----GEDFVTQSVAV----LH----------RAG-P----VTVTGRAGLPDA-------ARARADHQYCYVNGRFVRDKVLTHAARSAY-----EDVLHGQKQPVYALYVEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAVENAL- Q7MYT9/217-329 ----GTAFMQRALSL----SW----------QHD-D----LSIKGWVVDPMN-------TEASGDIQYCYVNGRMMRDRLINHAIRQAY-----QDLLRGEQQPAYVLYLGVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQGVIAVL- A0A1E4PZ91/213-324 -----ETFEHHSMAV----DA----------AAD-A----LRVSGWVIRPGA-------ATTGRDSQYVFVNGRYVRDKVIVHALKEAY-----RDVLHHQLNPAYCLFISVPPDLVDVNVHPAKTEIRFRDSRGVHQFLFHAIERLL- A0A081K774/218-330 ----GPKFIENAVII----DV----------EVS-G----LKLYGWVGLPTF-------SRSSADLQYFFVNGRVIRDKLVGHAVRQAY-----RDVLYGGRHPTFVLYLELDPALVDVNVHPTKHEVRFRDGRTVHNFLFSTLNRAL- I7JEC9/212-324 ----EEEFYGNALEI----DE----------EKD-G----IRLIGHICKPTV-------NYSKSTMIYTFVNGRPIKDNLLIGAIRYAY-----HDFIPSDRYPFVALHLNVPYDQVDVNVHPNKLEVRFQDKRVIYEIVTRGIIKAL- Q1NE12/212-323 -----RQLADNHVIV----SL----------ERE-G----IRLSGVASLPTC-------NRGVGDHQYLFVNGRPVKDRLLIGALRGAY-----ADMLARDRHPVVALFLDVPAHEVDVNVHPAKTEVRFRDPALIRGMIVSGLRRAL- M7Z5E5/222-334 ----GPDFAANALPV----SL----------VRE-G----FSVTGHVGLPTY-------HRGAAGYIHLVVNGRPVRDRLLLGAVRGAY-----ADTLASDRHPVLGLAIACDPDRVDVNVHPAKTEVRFREPGLVRALIVSAIHDAL- A0A158F425/235-345 ------VFETSHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGNRYPAYVLFLDLPPESVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- A0A0C1Z4B6/235-345 ------VFETSHLPL----DE----------RAG-P----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGNRYPAYVLFLDLPPESVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- A0A073A7W0/217-329 ----SQEFIENAIYI----DE----------NAG-D----AHLWGWVASPRY-------NRAKADMQSFYLNGRIIKDKIVSHAVKAAY-----KDVMYGNRYPAFLLYLDMDYREVDVNVHPAKSEVRFRNQRFIYDFLFGRINQAI- A0A1N7KYW1/231-343 ----GRDFAANAIPL----DA----------TRE-G----LRLTGYAALPTY-------SRGAAVEQFLFVNGRPVRDKLLIGALRAGY-----MDVLARDRHPAAALFLTCAPEMVDVNVHPAKAEVRFRDPGLARGLVVSSLRHAL- D0KVK7/218-330 ----GAEFLNRARRI----DS----------AAS-G----LSLSGWVADPAY-------ARSTTDQQLFFVNGRIVRDRLIGFAIRRAY-----ADVLHHARQPAYVLALDLEPRAVDVNVHPTKAEVRFRDARAVQDFIFREIHRAL- A0A1E7Q990/217-329 ----SKAFAEYAAEI----EN----------SYQ-G----IKLWGWILHPDA-------CQPQLNCQYSYVNGRMMRDKLLNHAIRQAY-----GERLTDDKVPAFVLYLEIDPRQVDVNVHPAKHEVRFHQSRLIHDFVVSALADAL- T0B236/210-322 ----GDDFLQQAREV----SA----------VGG-I----LSLSGFASLPAY-------SRASRDAQFFFVNGRYVRDKLLTHAVRQAY-----TDILHGNRHPAYVLFLELDPAGVDVNVHPAKIEVRFRESRAVHQFVFHAIRRVL- D4ZFK5/217-328 ----GKKFALQALAV----EC----------EHE-G----LKLSGYIQSPYF-------EGSASDTQYFYVNGRLVRDRLVNHAVRQAF------AEHVTGAQASYVLMLELDPHQVDVNVHPAKHEVRFHQSRYVHDYIFQALQSAL- A0A1L6JBH1/212-323 -----RELAANSVGV----DF----------ERE-S----HVLGGVASLPTF-------NRGIADHQYLFVNGRPVKDRLLNGAVRGAY-----AEMLARDRHPVVALFLDVPADQVDVNVHPAKTEVRFRDPQLARGLIVSGLRRAL- I3I5Q0/218-330 ----GPAFMENAVHL----DI----------ERN-G----FRLWGWVALPTF-------SRSQADLQHFYVNGRAIRDKLVSHAVRQAY-----QDVLYHGRHPAFVLYLELDPSTVDVNVHPTKHEVRFRDNRNVHDFIYSSLHHAL- A0A059E8S4/195-307 ----GRDFRENALEI----DA----------ERE-G----VRLAGFAGLPTL-------NRGNAQMQFLFVNDRPVKDRMLNGVIRAAY-----QDFLARDRHPLAALFVDLDPEYVDVNVHPAKTEVRFRDAGNVRGLMIGALRHAL- F7YIT3/219-331 ----GNAFVRHMLNI----EL----------EHQ-G----LRLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRGDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSSAL- A0A1N6MSJ3/217-329 ----GVAFMQQALAL----SW----------QHD-M----LSIKGWVVDPNS-------SSVAGDIQYCYVNGRMMRDRLINHAIRQAY-----QDLLQGEQQPAYVLYLEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQGVAAVL- D9QKA6/222-334 ----GRDFEANALLI----DQ----------SRE-G----IRLSGYAGLPTY-------SRGNGGHQYLFVNGRPVRDRLLQGALRGAY-----ADFLARDRHPAAVLFLEIDPLFVDVNVHPAKAEVRFRDPALVRGLIVGALRHAL- H0TK36/216-328 ----GADFRSHAIEV----RS----------ERD-G----VVVEGFAAAPAL-------TRANALGQYLFVNGRPVRDKLILGAVRAAY-----ADYLPRDRHPVVALFVTLDSREVDANVHPAKTEVRFRNAGLVRALIVHALKEGL- A0A010RRX8/225-337 ----GAGFLEQALPI----EI----------ERN-G----LHLWGWVGLPTF-------NRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPAGVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- V4HSY2/216-325 ----GKVFQREASFI----ES----------GYE-G----LELYGWVLP----------IGSNTQPQYTYVNGRMMRDKLILHAIRQAF-----EEATGSQETPGFVIYLELDPRQVDVNVHPAKHEVRFHQARLVHDFIVQAIKQVV- Q92FW6/217-329 ----GDDFIKNAAYI----DF----------KTP-D----FSICGYTSSPTY-------NRASSEDQFLFINNRPVKDKLLQVALRVAY-----QDYLARDRYPICAIFLQIDPQLVDVNVHPAKAEVRFHDPNYVRNLLIEAIKNAL- A0A1E4FHF5/215-327 ----GADFIENAAPL----AM----------ARH-G----VVVAGMAGLPTY-------TRANSLSQFYFVNGRSVKDKVLVGAVRAAF-----ADYTFRDRFPVVALYLAIDPAEVDVNVHPAKAELRFRDQGAVRSAVIRAIGMAL- D7DII2/213-325 ----GADFAAETIAV----EE----------SAA-G----LRIWGVVAKPTF-------NRNKSDTQYVYVNGRFVRDKLISHAIRQAY-----QDVLHHDRHPAFVLFLELDPNLVDVNVHPAKTEVRFRDGQAIHRFIFHSLHKAL- A0A0M9GPV8/215-327 ----GQEFTDNCIEL----NV----------ERD-G----ISITGLISLPSY-------HRGNAAHQYAYVNGRPIKDRQILGALRGAY-----SDMLVRDRFPVVVLFIDIDPALVDVNVHPAKADVRFRDPGLVRGLIVSGIRHAL- A0A1N7BHH6/217-329 ----GTSFMHHALAI----ES----------EHS-D----VRLRGWIATAPG-------ARTQNDLQYTYVNGRMMRDKLINHAIRQAY-----DDLLPAEHYAAYVLYIELDPRQVDVNVHPAKHEVRFHQARLVHDFIFQALYSAL- A0A1M7APJ2/215-327 ----GQDFVDNAMEI----DA----------ERE-G----VRLTGFAGLPTH-------HRGTAQFQFFFVNGRPVKDKLLLSGLRGAY-----ADVLARDRHPVVVLFLDLEPQLVDVNVHPAKADVRFRDGQLVRGLLVGSIKQAL- N6Y8X4/210-322 ----GDDFLQHAREV----SA----------EGG-L----LRLTGFASLPAY-------SRASRDAQFFFVNGRFVRDKLLTHAVREAY-----TDILHGSRHPAYVLFLELDPAGVDVNVHPAKIEVRFRESRAVHQFVYHALKRVL- U2Y8N9/214-325 -----RELGDNGVAI----DL----------ERG-D----MRLTGVAGLPTY-------NRGVADHQYLFVNGRPVKDRLLTGAVRGAY-----ADMLARDRHAVLALFLDIAPEEVDVNVHPAKTEVRFRDAAAVRGFIVSGLREAL- H8KY78/217-329 ----GPEFPARSLRI----DH----------AAA-G----MQLSGWVGLPTA-------SRSMADSQYFYVNGRLVRDKIIAHAVRQAY-----ADVLFHGRHPAFVLYLELDPAGVDVNVHPAKHEVRFREQRLVHDFLFRSLHEAL- Q983L2/215-327 ----GAEFPDNSIAI----DA----------MRE-G----VHLTGHVSIPSF-------SRANALQQYAYVNGRPVRDKLIAGAIRGAF-----ADVLPRDRHAVTVLFLTLDPAIVDVNVHPAKADVRFRDPGLVRGLIVGAIRQAL- A0A061QDH4/224-336 ----GRVFSDNAMAV----DA----------ERE-G----IRLYGLAGLPTY-------SRGNAQQQYLFVNGRPVKDRLLVGAVRGAY-----ADFLARDRHPVLALFVDLDPRFVDVNVHPAKAEVRFRDQALVRGLIVSGLRHAL- N9AFZ0/226-338 ----GHQFTQNAYWL----DT----------QSI-S----MRLSGWLGHPSD-------ARPQADLQYVYVNGRIVKDKTISHALRMAY-----DGILHGHQYSAYLLFLEVDPEQIDVNVHPTKHEIRFLNQREVHEFVRHYAKETL- A0A0T5PEW8/233-345 ----GREFTDNALPI----DA----------SRE-G----LHMTGFAALPTY-------SRGSAVTQYLFVNGRPVRDKMLYGALRAAY-----HDFLSRDRHPAAALFIECEPVLVDVNVHPAKSEVRFRDPGLARGLIVSGLRHAL- A0A0W0NME5/225-337 ----GPGFLEQALPI----EV----------ERN-G----LRLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLELDPTGVDVNVHPTKHEVRFREGRMVHDFLYGTLHRAL- A0A1B2ED77/216-328 ----GAEFHENAMSI----GV----------ERE-G----VRLTGFASLPTY-------HRGTGTSIHFVVNGRPVRDKLLLGAVRGAY-----ADVMASDRHPVLAIMIDLDPRAVDVNVHPAKTEVRFRDPAFVRGFVVGALKEAI- A0A1C2IEU6/224-336 ----GEGFLANALYL----EQ----------SDQ-G----MSLRGWLGLPTY-------NRARGDEQYFFVNGRPVRDPVLTHALRAAY-----QDVLFQDRHPLFVLYLDMPAEQVDVNVHPAKAEVRFRDSRAVHDFLFHTLRRII- N9B4A9/226-338 ----GRNFVENAYWI----DA----------DSV-T----MHLSGWLGHPSD-------ARSQADLQYVYVNGRIVKDKTISHALRMAY-----EGILHGHQHAAYLLFLEVEPENIDVNVHPTKHEIRFLNQREVHEFVRHYAKETL- A0A1M3P554/212-323 -----RELADNHVVV----DL----------ERE-G----VSLSGIASLPTF-------HRGSADHQYLLVNGRPVKDRLLVGAVRGAY-----ADFIARDRHPVLALFLTVPLEDVDVNVHPAKTEVRFRDPAFIRGMIVSGLRRAL- A0A0F2RQH0/212-324 ----GREFADNAVPV----DA----------ERE-G----IRLTGHIGLPTY-------NRGNAQHQYLFVNGRPCKDRLLHGAVRGAY-----QDFLAHDRHPVLALYLELPPRDVDVNVHPAKAEVRFREPGLVRGLIVGALRHAL- N9R3E0/224-336 ----GQAFIQNAYWI----DA----------ESI-N----MRLSGWLGHPSD-------ARAQADLQYVYVNGRIVKDKTISHALRMAY-----EGILHGHQHSSYLLFLEVDPENIDVNVHPTKHEIRFLNQREVHEFVRHYAKSTL- C9QNB2/217-329 ----GSAFVRHMLKI----EL----------EHQ-G----LKLHGWITAPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRPDQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSDAL- A0A149VY84/213-323 ----GEDFLNQSLPI----E----D------SAG-P----LHLSGWILHPTA-------A--SRAEQYLFVNGRFVRDRLLTQAVRQAY-----QDVLHGQRQPGGVLFLSLDPARVDVNVHPAKTEVRFEEGQAVFRFVWQALHKTL- A0A0U4WVK2/222-333 -----PAFLEQALPL----EH----------ERN-G----LRLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLYNGRHPAFVLFLEVDPATVDVNVHPTKHEVRFRDSRQVHDFLYGTLHRAL- F2JWL8/218-330 ----GKKFIENALTI----DV----------EAA-G----LRLWGWIGLPTF-------SRSQADLQYFFVNGRVVRDKLVAHAVRQAY-----RDVLYNGRHPTFVLYLELDPATVDVNVHPTKHEVRFRDGRLVHDFLFSRIHKVI- A6FTG3/226-338 ----GSDFADNALRI----DA----------TRD-G----LRMTGYAALPTY-------SRGSAVAQYLFVNGRPVRDRMMIGALRAAY-----MDVLSRDRHPAAALFVECDPMLVDVNVHPAKSEVRFRDPGLARGLIVSGLRHAL- D2BXA0/217-329 ----GAAFLQHALAV----SW----------QHG-D----LNIHGWVADPAG-------SRQLPEMQYCYVNQRMMRDRLINHAIRQAY-----QDQLRDEQQPAYVLYLEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVMTVL- A0A0C5L314/213-324 -----RDLRENSVAI----DF----------ERE-G----LVLGGVAGLPTF-------NRGVADHQYLFVNGRPVKDRLLAGAVRGAY-----AEMLARDRHPVVALFLDVPADAVDVNVHPAKTEVRFRDPALARGLIVSGLRRAL- F7S0K7/217-333 ----GKRFADEALYIEFVPEA----------DAH-P----LAIRGWIAPPDA-------CRHQTDVQYMYVNGRMMKDKLLNHAVRQAY-----GDSLGNDRQATYILYITLPANDVDVNVHPAKHEVRFQQARQVHDFVLMQLRQAL- A0A1B2LZY6/226-337 ----GKKFTENAYWI----DA----------DSI-S----MRISGWLGHPSD-------ARSQADLQYVYVNGRIVKDKTIAHALRMAY-----DGILHGHQYAAYLLFLEIDPENIDVNVHPTKHEIRFINQREVHEFVRHFAKDT-- F7QG51/216-327 ----GADFRASAIEV----RA----------ERD-G----VIVEGFAAAPSL-------TRANALGQYLFVNGRPVRDKLILGAVRAAY-----ADYLPRDRHPVVALFVTLDTQEVDANVHPAKTEVRFRNAGLVRALIVHALKDG-- A0A0B8QXE9/199-311 ----GAQFARHMLRV----QL----------EHQ-G----LKLSGWITTPEG-------ARLQSDLQYCYVNGRMMKDKLINHAIRQSY-----ELTLRPEQYAAYVLFIEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALVDAL- A0A0N1LML6/218-330 ----GREFQENAIPV----NA----------ERA-G----VRLVGHIGLPTY-------NKPTAAGQYLFVNGRPVKDRLMVGAVRGAY-----ADFLARDRHPVLALFLSLNPHDVDVNVHPAKTEVRFRDQALIRGLIVGALKHAL- A0A1M3PGV3/214-326 ----GPDAAAALLEV----DG----------GRG-D----MRLTGFIGAPTV-------SRATAAAQALVVNGRPVTDPLLRTAVRVAY-----RDVIAYGRHPVVALFLDLPPEELDVNVHPAKAEVRFRDAAGVRGLVIATLARTL- R5PLU3/213-324 -----KDFKEACRPV----SA----------ESD-G----WKLTGLVGLPTI-------SRTRADGQYLFVNGRFIRDRVMNHAVRAAY-----ADVLHGQAQPLYCLFLTIPPEEVDSNVHPTKTEVRFRDSSRVHSFILHAVEAAL- A0A1N6VQG0/219-331 ----GEEFTRNALAV----GH----------EAA-G----LALRGWIAQPAY-------NRPSADQQYLYVNGRSVRDRSIAHAVKMAY-----ADVLFHGRQPAYVLFLELDPRRVDVNVHPAKHEVRFRDARLVHDFVYRTLKDAL- K2BHV6/217-329 ----GSAFLENALHI----SA----------ETA-G----LKLSGWIALPTF-------SRSQADLQYFYVNSRIVRDKLVNHAVRQAY-----HDVLYGDRHPAFVLFLEISPEQVDVNVHPTKHEVRFRESRLVHDFIYRSLQDAL- A0A0Q7DPX8/223-335 ----GREFSDNALEI----NH----------ERE-G----VRLSGFAGLPTF-------NRGNSAHQYLFVNGRPVRDRLLQGALRGAY-----ADFLARDRHPLVALYLDLDPSLVDVNVHPAKAEVRFRDPALVRGLIVGGLRHAL- A0A0Q8UFA7/223-335 ----GREFSDNALEI----NH----------ERE-G----VRLSGFAGLPTF-------NRGNSAHQYLFVNGRPVRDRLLQGALRGAY-----ADFLARDRHPLVALYLDLDPSLVDVNVHPAKAEVRFRDPALVRGLIVGGLRHAL- A0A0Q7F7R2/223-335 ----GREFSDNALEI----NH----------ERE-G----VRLSGFAGLPTF-------NRGNSAHQYLFVNGRPVRDRLLQGALRGAY-----ADFLARDRHPLVALYLDLDPSLVDVNVHPAKAEVRFRDPALVRGLIVGGLRHAL- I1XLL7/217-329 ----GQAFVKQAIAI----DQ----------QFD-I----ITIKGWLGHVEA-------HRPQADQQYFFINGRIIRDRLISQIVRQAY-----ADLIPAGRHPAYVLYMTIPLDRVDVNVHPTKHEVRFRETRLIHGLIHRAVKDQL- A0A177NBX4/217-329 ----GSAFIELSVKI----DY----------AAS-G----LQLHGWVGLPTF-------SRGQQDQQFFYVNGRLIKDRLVAHAVKQAY-----QDVLYHGRHPVFVLYLTLDPALVDVNAHPTKLEVRFREGRTVHDFLFQALHRSL- G2ISN1/229-340 -----RELADNHVIV----AL----------ERE-G----VSLAGVASLPTF-------HRGSADHQYLFVNGRPVRDRLLVGAVRGAY-----ADFIARDRHPVLALFLALPVEEVDVNVHPAKTEVRFRDPAFVRGMIVSGLRRAL- A0A1M3KP21/211-323 ----GADFAENAVPL----AT----------TRH-G----VVVTGLAGLPTY-------SRANSLSQFYFVNGRSVRDKVLLGAVRAAY-----ADFVFRDRFPAIALFVSIDPAAVDVNVHPAKTELRFRDAGGVRSAVIRAVLDAL- A0A1H1M533/218-330 ----GPAFVEQSLTI----DA----------ERS-G----LRLWGWVGLPTF-------SRSQADLQYFFVNGRMIKDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEVDPAVVDVNVHPTKHEVRFRDGRMVHDFLFSTLYRAL- A0A0G3LLE5/214-326 ----GEDFARQALRV----DH----------SGA-G----LRLHGWIAHPHY-------SRASADQQYLYVNGRSVRDRSVAHAVKMAY-----GDVLFHGRQPAYVLFLELEPARVDVNVHPAKHEVRFRDARLIHDFVYRTLQDAL- L7G3M8/214-326 ----GEDFARQALRV----DH----------SGA-G----LRLHGWIAHPHY-------SRASADQQYLYVNGRSVRDRSVAHAVKMAY-----GDVLFHGRQPAYVLFLELEPARVDVNVHPAKHEVRFRDARLIHDFVYRTLQDAL- D4Z1Z4/212-323 -----RALADNHVIV----AL----------ERE-G----VRLSGVASLPTY-------HRGVGDHQFLFVNGRPVRDRLLVGAVRGAY-----ADMLARDRHPVVALFLDVPPLEVDVNVHPAKTEVRFRDPALIRGMIVSGLRRAL- A0A136N2I1/214-326 ----GKNFNEKLVPV----NE----------ETE-----VASFAGFIGKPDA-------ARKTPGDQYIFVNRRFIKSNYLNHAIRSAY-----EDLITKEMYPTYILFLEIDPANIDINVHPTKTEIKFEDERLIYNYLRVSVKHSL- A0A1F9DG75/215-327 ----GKEITSQVRRF----DR----------PHA-G----GTIRGWASIPTY-------CRGSSKGIYIYVNGRYIRDKLISHAVSEAY-----RRFIPSKMYPVVILYLSIPLAEVDVNVHPTKMEIRFRRGEEIHHLVSDTLKGIL- A1KA87/210-322 ----GDDFLAQARAV----VA----------EGG-P----LRLTGYASLPAY-------SRASRDAQYFFVNGRFVRDKLLTHALRQAY-----ADILHGARHPAYVLFLELDPAGVDVNVHPAKIEVRFRDSRAVHQFVFHAVSRAL- F7T289/213-325 ----GAEFAEHGLLL----SH----------SVG-T----VSLAGMITRPTA-------ARARADRQYLYVNGRYVRDRTVSHALRAAY-----ADVLHGDRQPAYVLFLDIDPAAVDVNVHPAKHEVRFRDSGAVHRFVNHAVSQTL- A0A0J9BDY2/217-329 ----GANFVSQAVHI----DW----------QHD-G----LGIEGWVVSPDY-------AQQASETQYCYVNGRMMRDKLINHAIRQAY-----QEHIGQQQTPAYVLFLTVDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGIASAL- A0A0A1AV93/217-329 ----GATFMDHALKI----EW----------QHG-D----LALRGWVADPAG-------ARQVSELQYCYVNGRMMRDKLINHAIRQAY-----QEKLGGDHQPAYVLYLHIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVISVL- F5JCH6/212-324 ----GAEFKDNAIEI----DA----------GRE-D----VTLTGFAGVPTF-------NRGNSSHQYVFVNGRPVQDKLLLSAIRGAY-----AETVPHGRYPVAVLSITLDPAFVDVNVHPAKSDVRFRDPGLIRGLIVGAIRQAL- A0A059IKC0/239-351 ----GADFAENALKI----DA----------ERE-G----LRLTGYAALPTY-------SRGSSVAQYLFVNGRPVQDRVLIGALRAAY-----MDVLSRDRFPAAALYLTCDPELVDVNVHPAKSEVRFRDPGLARGLIVSALRHAL- A0A1L5FS86/217-330 ----GAAFLEHALAI----EW----------QHG-D----LTLRGWVADPLHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A1M7P4J0/220-331 -----EEFVEQSCEV----LL----------ELG-P----MRITGRAGTPAA-------ARARADQQYVYVNGRYVRDKLIAHGVRSAY-----EDVLHGGRQPAYVLFIEIAPDRVDVNVHPTKIEVRFRDSREVHQAVRRAVEAAL- A0A1D2SJG1/227-339 ----GDEYAGAHRVV----QV----------QAG-P----LRLWGVLGLPTV-------NRARADRQFLYVNGRFVRDRMLGHALKQAY-----ADMMHGDRHAAWVLFVEIDPSLVDVNVHPAKIEVRFRDPAALRSFVFHSVADAL- A0A078KE38/227-338 -----CNFINNSLYV----NF----------KES-N----LKLWGWLGLPTY-------TRYNSDQQYFFVNGRIVRNIIIQNAIRNVY-----HDVLFRGREPMFLLYLELDPNQVDINVHPNKSKIRFHDSNRIYNFLFFNLNKVL- K2DRN3/217-329 ----GKEFIQNALAI----DA----------GLS-G----LHLAGWISKPTY-------TRSQADLQYFYINRRVVRDKTLSHAIRQAY-----QDVIYQQRYPAVVLYLSVDPELVDVNVHPTKAEVRFREGRLVHDFIAKSLQEAL- Q7MH01/217-329 ----GQAFVRCMLKI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLKPEQFAAYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALASAL- A0A0F4R1S3/222-334 ----GKNFLDNALTL----DI----------ATG-S----LRLWGWVGLPTH-------SRAQADQQYFFVNGRVVRDRLVAHAIRQAY-----RDVLFNGRHPVFVLYLDVDPTVVDVNVHPTKHEVRFRDGRMVHDFLFSSLHRAL- W8U830/217-329 ----GPTFLQHALAI----SW----------QHG-D----LTIRGWVADPAA-------SRTLGEMQYCYVNNRMMRDRLINHAIRQAY-----QDLLKDDQQPAYVLYLDIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVTTVL- A0A0W0TLT3/223-334 -----KAFADANIAI----DA----------ESA-P----MRLSGWVSGTGF-------QRSQNDRQWFFVNQRMVRDKLLLHALRQAF-----EQRLHPGTHAACLLYLELPPELVDVNVHPTKHELRFSEPRLVHDFLVSTIRNAL- W1N512/226-338 ----GKAFLENALTL----DI----------EVG-A----LRLWGWVGLPTH-------SRAQADQQYFFVNGRVVRDRLVAHAIRQAY-----RDVLFNGRHPVFVLYLDVDPAVVDVNVHPTKHEVRFRDGRMVHDFLFSSLHRAL- A0A0C4Y624/221-333 ----GTDFANARLPL----DE----------EAG-S----LHLYGFAGLPTA-------SRGRPDQQFFFVNGRYVRDKLLTHAVRSAY-----QDVLHGDRFPSYVLCMDLPPEMVDVNVHPSKIEVRFRESRSVHQFVYHAVQRCL- A0A193LGZ9/216-328 ----GDSFASQAVFL----SR----------EAD-G----IAIRGWLGLPTF-------NRSQPDLQHWFINGRSIGDKTLSHAARHAY-----RDVLFHGRYPAYVLYLSMDPASIDANAHPAKHEVRFRDGRRVHGIVSQSLEQVL- E6PSJ2/236-348 ----GKAFAEHALPV----QA----------RIG-P----LAVHGLVCRPTA-------ARGRAEVQQLFVNHRWVRDRVLAHGVRAAY-----ADVLHGALQPQYALLIGLPPERVDVNVHPAKSEVRFRESQAVHQAVLHAVQQAL- A0NV47/215-327 ----GQDFVDNAMEI----DA----------ARE-G----VRLTGFAGLPTH-------HRGNAQNQFFFVNGRPVKDKLLLSGLRGAY-----ADVLARDRHPVVVLFIDLDPTLVDVNVHPAKADVRFRDSQLVRGLLVGAIKHAL- A0A178HSR1/215-327 ----GADFVENAVTL----AT----------HRH-G----IVVAGMAGLPTY-------TRANSLSQFYFVNGRSVRDKVLVGAVRAAY-----ADYTFRDRFPVVALYLAIDPAEVDVNVHPAKAELRFRDQGAVRGAVIRAIGMAL- A0A0D1LJA4/221-333 ----GPGFLEQALPI----EV----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEVDPTGVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- A1VLE5/229-349 ----GAEFVEQSIAV----HYESSARRADG--RP-A----VRVWGRAGIPDA-------ARTRADQQFAYVNGRYVRDKVLSHAARSAY-----EDVLHGQRQPVYALYVEIDPARIDVNVHPTKIEVRFRDSREVHQAVRHATEDAL- Q2LUR5/215-327 ----GNADADRLQPI----EG----------ETD-----RVRVTGFASRPDF-------TCATTRQIYTFVNRRHVRDHLLNHAVMTAY-----RRVIEPRRYPAVVLYVDLDPADVDVNVHPAKLEVRFRQPRTVYEAVVEALSGML- E1VKY8/218-330 ----GSVFVENAVRV----EV----------AIG-D----LRLWGWMGLPTF-------SRAQADCQYFFVNGRVIRDKVVNHAVRQAY-----RDVLYHDRHPAYVLFFELDPRMVDVNVHPTKHEVRFRESRQVHDFLYRSLHRAI- A0A0Q7HSX1/215-327 ----GDDFARNAVTL----AT----------SRH-G----VVVAGLAGLPTY-------TRANSLSQFYFVNGRSVKDKVLVGAVRAAY-----ADYVFRDRFPVVALYIAIDPGEVDVNVHPAKAELRFRDAGAVRGAVIRAIGEAL- F3LCP0/218-330 ----GPAFMENALTV----DI----------ERS-G----LRLWGWVALPTF-------SRSQADLQHFYVNGRAIKDRLVSHAVKQAY-----SDVLYHGRHPAFVLYLEIDPATVDVNVHPTKHEVRFRDGRNVHSFIYSSLHHAL- L0ETR2/239-351 ----GETFYENSIEL----NK----------VSK-D----ISLKGYVGIPTF-------NRANTNQQYLFVNGRPVQDKLLFSAVRASY-----TETIPKGRYPVVVLLLNIDQTMVDVNVHPAKSDVRFRNPAIVRNFIIDTIRQAL- M5R3L0/221-333 ----GAAFLEQALPI----EI----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFYVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPSVVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- A0A094JYM8/217-327 ----GRAFAEKAVRV----NC----------EHE-G----LKLSGYLQSPMQ-------QE-LVDAHYFYVNGRHVRDRLVTHAVKQAF------AGLTEVEQPGYILMLEVDPHQVDVNVHPAKHEVRFHEARFVHDFVLQGLSSAL- A0A178KQ27/217-329 ----GNPFLKHALAV----EL----------EHG-D----LKLSGWICNPQG-------ARAQNDIQYCYVNGRMMKDKLINHAIRQAY-----EASLPSDQYAAYVLFIEVDPHQVDVNVHPAKHEVRFHQGRWVHDFIYQAIQSAL- A0A0Q0E310/1-111 ------GFLEQALPI----EI----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPAAVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- A0A117UUD3/224-335 -----RELHDNAVAV----DL----------VRG-P----FHLMGVAGLPTY-------NRGVADHQYLFVNGRPVKDKLLIGAVRGAY-----ADMLARDRHAVLALFLEVPPEEVDVNVHPAKTEVRFRDPALVRGMIVSGLRQAL- A0A1F4F1X5/213-325 ----GREFLDAGLAV----QA----------DAG-S----LRLHGVAGGPQA-------AKARADAQYFFVNGRFVRDRLLAHAAREAY-----AELLHGERQPAYALFLEIDPRGVDVNVHPAKTEVRFRDARAVHQFVLHALRRAL- A0A0M9EFC1/233-345 ----GKEFAENALRI----DA----------ERE-G----LRLIGYAALPTY-------SRGSSVAQYLFVNGRPVKDKLLVGALRGAY-----FDYLSRDRHPAAALFIDCDPHLVDVNVHPAKSEVRFRDPGMARGLIVSSLRHAL- A0A0H4VGZ4/214-329 -----RELANNAVQI----DV----------ERP-SGEGVMRLTGIAGLPTY-------NRGVADHQYLFVNGRPVKDRLLSGAVRGAY-----ADMLARDRHAVLALFLEIPFADVDVNVHPAKTEVRFRDAAGVRGFIVSGLRQAL- A0A1L3SV12/215-327 ----GDEFPKNALAI----DA----------MRE-G----VRLTGQVSIPSF-------TRANALQQYAYVNGRPVRDRQIAAAIRAAY-----ADVLPRDRHALAALFFSLDPALVDVNVHPAKADVRFRDPGLVRGLVIGSIRQAL- A0A085ICM6/217-330 ----GVPFLEHALAI----EW----------QHG-D----LALHGWVADPKHT------TPALAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A1E7TWM1/223-335 ----SDDFVSQSVSV----LR----------EGG-P----VRVVGRAGIPDA-------ARSRNDQQFFYVNGRFVRDKVLSHAVRSAY-----EDVLHGQRQPVYVLYLEIDPARVDVNVHPTKIEVRFRDGREVHQAVRHAIEDAL- A0A0B4XS19/218-330 ----GVAFMEQSVSV----DI----------EAA-G----LRLHGWVGLPTF-------SRAQADLQYFYVNGRVIRDKVVNHAVRQAY-----SDVMYHGRHAAYVLFLELDPALVDVNVHPTKHEVRFREQRMVHDFLFRSLHRAV- M9WZ62/213-324 -----EEFQSNSLEV----KE----------EEE-G----IKLKGHICKPNV-------NRGNSTQIYTFVNGRPIKDNLLVGAIRYAY-----HDFIPNNRYPFAVLHLEVPYDQVDVNVHPNKSEVRFQNKRLIYEIVRRGIIKTL- F9S883/217-329 ----GNQFVRHMLKI----EL----------EHQ-G----LKLHGWITSPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----EMSLRPDQFATYVLFIEIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALADAL- B8H173/223-335 ----GREFQENALEI----DQ----------TRD-G----VRLSGFAGLPTY-------NRGNAAHQYLFVNGRPVRDRLLQGALRAAY-----ADFLARDRHPTAALYVTLETTEVDVNVHPAKAEVRFRDPALVRGLIVGALRHAL- D9Y5R0/219-330 -----RDFRDAHRAL----DI----------KAP-A----LRLYGWVCLPTA-------ARSRADCQYFYVNGRFVRDKVLSHGVRMAY-----QDVLHGSSQPSYCLFLQMDPHKVDVNVHPTKSEVRMRDSQAVHQFIFHAVEDAL- E1SPR4/217-328 ----GSAFTERAFGL----TS----------ATD-D----LALRGYLALDDE-------RARVSDIQYFYVNGRVVRDRLVSHAVRQAM------EEAGLPGQAGFVLYLSLDPHEVDVNVHPAKHEVRFHQARYVHDFILQALQQGL- Q607R3/229-341 ----GPDFLEQALRV----EF----------EAS-G----LRLHGWVGLPTF-------SRSQADLQFFYVNHRPIRDKLVGHAIRQAY-----QDVLYHQRQPVYVLYLEIDPALVDVNAHPAKLEVRFREGRMVHDFLFSALHRAI- D0Z0H2/217-329 ----GQGFLQHALVV----EL----------THG-D----LKLSGWICSSSG-------ARSQNDIQYCYVNGRMMKDKLINHAIRQAY-----ESSLAPEQYAAYVLFIDLNPHDVDVNVHPAKHEVRFHQARLVHDFIYQGIQSAL- D0ID31/217-329 ----GNSFVQHMLRI----EL----------EHQ-G----LKLHGWITTPEG-------ARQQSDLQYCYVNGRMMRDKLINHAIRQSY-----ETSLRADQFATYVLFIELDPHQVDVNVHPAKHEVRFHQARLVHDFIYQALSSAL- Q0I463/217-329 ----GNDFMQNALHI----DW----------KHN-D----LHLSGWVIQPQF-------ARHQNDLNYCYINGRMVRDKVITHAIRQAY-----SEYLNNEQYPAFVLFIDLNPNEVDVNVHPTKHEVRFHQARLIHDFIYQGMTNAL- B9JSD6/212-324 ----GPDFRDNAIAL----DA----------ERE-D----VHLGGFAGVPTF-------NRGNSAHQYAFVNGRPVQDKLILSAIRGAY-----AETVPHGRYPVAVLALTVDPALVDVNVHPAKSDVRFRDPGLVRGLIVGAIRQSL- A0A066TL21/213-325 ----GVDFTAASLNV----DE----------TIN-G----MRLNGLIGKPTF-------AQGKTSQQYIFVNQRFVRDKIILHAVKQAY-----NDVLHQALTPAFVLFLTLSPTDVDANVHPTKTEVRFRQSQAVHQLVFHALNKCL- A0A136GYH4/218-330 ----GRAFMDQALTV----DI----------EHA-G----LRLHGWMGLPTF-------SRSQADLQYFYVNGRVIRDKVVSHAVRQAY-----ADVLYHGRHPAYVLFFEVDPALVDVNVHPTKHEVRFREQRMVHDFLFRSLHRAI- A0A0Q7TZ50/214-326 ----GADFRANAIAI----DA----------ERD-G----VRVAGFAGLPTL-------SRANSLGQYLFVNGRPVRDKLMVGAVRGAY-----ADYLPRDRHPVLALFVTLPTSEVDVNVHPAKTEVRFRDSGLVRGLIVSALKHAL- A0A1G2WEQ6/215-328 ----GRPLLAELLPV----DVD---------GGS-D----LKLRGFVSQPSI-------HRSTTGAMYTFINGRYIRDRVVQHALLEGF-----RNVLVRGRYPVAVLFLEIDPALVDVNVHPTKHEVRFRDQRLVHDFITNTVRDVL- A0A1M3I2V8/220-329 -----------AVLL----DI----------ERP-VENGAMRLSGVAGLPTY-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----ADMLARDRHAVLALFLDLPPEDVDVNVHPAKTEVRFRDSSGVRGFIVSGLRQAL- G4MAH9/234-345 -----EVFETSHLPL----DE----------RAG-A----LAVYGCAGLPTA-------SRGRADQQYFFVNGRFVRDKLLTHAVRAAY-----EDVLHGNRYPAYVLFLDLPPESVDVNVHPSKIEVRFRDSRSIHQYVFHAVQRAL- J2KPV6/220-340 ----GTEFVEQSVAV----NYESSALRHDG--RP-A----VRVWGVAGIPDA-------ARSRADQQFAYVNGRYVRDKVLTHAARSAY-----EDVLHGHRQPVYALYVEIDPSRVDVNVHPTKIEVRFRDSREVHQAVRHATENAL- A0A178MWW2/218-330 ----GRDFHDNAVPI----DI----------ERD-G----VRLTGWAGLPTY-------SRGSSGHQYLFVNGRPVRDRLVVGAVRGAY-----QDVMSHDRHPVVALFLELSPDAVDVNVHPAKAEVRFREAGAVRGLIVSGLRHAL- A0A1M5EI90/219-331 ----GPAFMQNALHI----DV----------ERS-G----LRLWGWVAEPAF-------SRSQADLQFFYVNGRAIRDKVVSHAVRRAF-----ADVLYHGRHPAFVLYLELDPASVDVNVHPTKHEVRFRDSRLVHDFLFGSLHRAL- M1F9C1/218-330 ----GQQFIDNAVAI----SA----------EAT-G----LKLWGWVALPTF-------SRSQTDLQYFFVNGRVIRDRLVAHAVRQAY-----RDVLYNNRHAAFVLYLEVAPGSVDVNVHPTKDEVRFRDGRLVHDFLFRTLHKAL- A0A1B3N224/212-323 -----RGLADNAVLL----DF----------ERE-G----LKLTGVAGLPTY-------NRGVADHQFLFVNARPVRDRLLVGAVRAAY-----AEMLARDRHPVVALFLDVAPQDVDVNVHPAKTEVRFRDSAMVRGMIVSGLRRAL- W0SGN1/210-322 ----GEDFFPHARPL----DA----------TAG-P----LRLSGLAALPAY-------SRSGRDEQYFFVNGRFVRDKLLTHAARQAW-----ADILHGARHPAYVLFLELDPAGVDVNVHPAKTEVRFRDARGIHQFVFHALQRTL- A0A0C1YSG9/234-346 ----GGEFAGARLPL----DE----------TAG-P----LRLHGFIGLPTA-------AKARADGQYFYVNGRFVRDKLLTHAVRAAY-----QDVLHGDRYPSYVLGLDLDPALVDVNVHPSKIEVRFRDSRAVHQFVFHAVSRAL- A0A1F2YNV0/217-329 ----GQDFQAAALPV----SV----------ERE-D----ARMGGYIGLPTL-------NRPTGQHQFLFVNGRPVRDRLLMGALRAGY-----ADVLAHDRYPMVALFIDLPAEDVDVNVHPAKTEVRFRDSAGIRSLLVSGIRKTL- A0A0N8T5E8/237-349 ----GPGFLEQALPI----EI----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPAAVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRAL- A0A1F9II41/217-329 ----GALIVDQCLSV----TG----------ENQ-G----FKMSGLVGRPSL-------HHGSARNLFFFVNGRAVKDRTLHHAVLTAY-----ETLLMRGRYPEVFLFLELPTDQVDVNVHPAKLEVRFAQSTHVHRFVVETLKRHL- A0A084UD93/220-332 ----GKEFPENAIPI----DA----------ERE-G----IALSGYASIPSF-------SRGNALNQFAYVNGRPVRDKLIAGAIRGAY-----MDALPRDRHAVTALFLTLDPELVDVNVHPAKADVRFRDPGLVRGLIVGAIRHAL- A0A1C2EAV7/215-327 ----GADFPENSIAI----DA----------GRE-G----VRLTGHVSIPSF-------TRANALQQYAYVNGRPVRDKLIAGAIRGAY-----MDVLPRDRHAVVALFLTLDPATVDVNVHPAKADVRFRDPGLVRGLIVGAIRQAL- A0A172YE68/233-345 ----GQEFVANALDV----EV----------EAT-G----LRLWGWVGLPTH-------TRAQADQQYFFVNGRVIRDRLVAHAVRQAY-----RDVLFHGRQPVFVLYLELDPKVVDVNVHPTKHEVRFRDSRLVHDFLFSSLHRAL- A0A095D3I2/212-322 -----RELAANSIGI----DL----------DRG-E----VHLGGVISLPTY-------NRGIADHQYLFVNGRPVKDRLLVGALRGAY-----ADLLARDRHPVVALFLDVPTSEVDVNVHPAKTEVRFRDPQLIRGMIVGGLRRA-- A0A085TTJ8/233-345 ----GRAFADNSVRI----EA----------ERE-E----IRLTGYAALPTY-------SRGAAVEQFLFVNGRPVRDKQLIGALRAAY-----MDFLSRERHPAACLFITCEPERVDVNVHPAKAEVRFREAGTVRGLIVTGLRHAL- A0A1C3JTB7/218-330 ----GKKFIENALTI----DV----------EAA-G----LRLWGWIGLPTF-------SRSQADLQYFFVNGRVVRDKLVAHAVRQAY-----RDVLYNGRHPTFVLYLELDPGTVDVNVHPTKHEVRFRDGRLVHDFLFSRIHKVL- A6X3F3/215-327 ----GKEFGENALAI----DA----------ERD-G----VRLAGFVGIPSH-------NRGNALHQFAYVNGRPVRDKQLFGALRGAY-----ADVMARDRHPVAVLFLTLDPAFVDVNVHPAKADVRFRDPGLVRGLIVGAIKQAL- A0A1B5EQJ5/226-338 ----GPGFLEQALPI----EI----------ERN-G----LRLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFFEVDPSVVDVNVHPTKHEVRFRDGRMVHDFLYGTLHRTL- A0A0S8A187/224-336 ----GQGFVEHALQI----DF----------SAG-G----LRLWGWIGLPTF-------SRSQADMQYFYVNGRAVKDKVVSHAIRQAY-----QDVLFHGRHPVFVLYLEIDPILVDVNVHPTKHEVRFRDSRSVHEFIYRIVHDTI- A0A086P5J3/212-323 -----RALAENHVIV----SL----------ERE-G----IRLSGVASLPTY-------NRGVGDHQFLFVNGRPVRDRLLVGAVRGAY-----ADMLARDRHPVVALFIDVPPLEVDVNVHPAKTEVRFRDPALIRGMIVSGLRRAL- D5ALH5/232-344 ----GRAFADNAVPL----DA----------DRE-G----IRLTGYAALPTY-------SRGAAVEQFLFVNGRPVRDKMLLGALRAAY-----IDVLSRDRHPAAVLFLTCDPESVDVNVHPAKAEVRFREAGVPRGLIVTGIRHAL- L0M9W3/217-329 ----GPAFLQHALAV----SW----------QHG-D----LTIRGWVADPAG-------ARALGDMQYCYVNSRMMRDRLINHAIRQAY-----QDQLQDEQQPAYVLYLEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVTTVL- F1Z910/223-335 ----SRDLISNSVAV----DL----------VRG-D----YHLIGVAGLPTY-------NRGVADHQYLFVNGRPVRDRLLLGAVRGAY-----ADMLARDRHAVLALFLTLPAEEVDVNVHPAKTEVRFRDSALVRGMIVSGLRQAL- A0A1D2S1H8/232-344 ----GEEFLAQSLPL----AH----------TEG-R----ITLTGRAGLPDA-------ARARADQQYCYVNGRFVRDKVVAHAVRSAY-----EDVLHGQRQPVYALYLDIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAVENAL- A0A120GD00/213-325 ----ARELKENGVAI----DM----------ERG-A----MRLTGIAGLPTY-------NRGVADHQYLFVNGRPVKDRLLTGAVRGAY-----ADMLARDRHAVLALFLELPCEDVDVNVHPAKTEVRFRDAQGVRGFIVSGLRQAL- A0A071MCC5/217-330 ----GTAFMEHALAI----EW----------QHG-D----LGLKGWVVAPDSH------NPANADIQYSYVNGRMMRDKLINHAIRQAC-----EDRLGQDQLPAYVLYLTVDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVF- A0A0A6PFP3/223-335 ----GPDFVEHVLNV----NE----------GTG-E----MHLSGWITQPTF-------SRSQPDMQYFYVNGRLIRDKFINHAIRQAY-----EDVLYSGRHPSYVLYFTIDPSEVDVNVHPTKSEVRFSQSGQVHSFLVNTLQNRI- A0KSR5/217-327 ----GRQFADEALRV----EC----------QHD-D----LRLSGYLQSPWS-------TV-LTDTHYFYVNGRLVRDRLVNHAVRQAF------AQKAEVEQPGYVLMLDIDPHQVDVNVHPAKHEVRFHQSRYVHDYILQALQSAL- A0A0S2F9H2/219-331 ----GEEFAKNALRV----EH----------SGA-D----LRLHGWIAQPSY-------NRASADQQYLYVNGRAVRDRSIAHAVKQAY-----ADVLFHGRQPAYVLFLELDPRRVDVNVHPAKHEVRFRDARLIHDFVYRTLNDAL- A0A0G3I8B2/214-326 ----GEDFINNAVEI----NE----------KSN-E----IKLKGYTGIPTF-------NRGNTSQLYFFVNGRIIHDKFILSTIRMAY-----AETIPLGRYPVAVLLLEIEPRQIDVNVHPAKYDIRFRNPKIVRNLIIQSIQKAI- A0A084A338/217-329 ----GPAFLQHALAV----SW----------QHG-E----LSIRGWVADPQG-------SAQLGEMQYCYVNSRMMRDRLINHAIRQAY-----QDQLKDEQQPAYVLYLEVDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVTTVL- A0A1E5C4Y4/217-329 ----GSQFVKTAVEV----SL----------EHQ-G----LTLRGWICTPQG-------ARAQNDIQHCFVNQRMMKDKLINHAIRQGY-----EASLRSDQFAAYVLYIDIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVADAL- U2WS32/232-348 ----GQEFGSNAVSV----FA----------ERE-TEKGHMRLTGFAGLPTF-------NRATAQMQYLFVNGRPVKDRLLNGAVRGAY-----QDFLARNRHPAVALFIELDPSEVDVNVHPAKTEVRFRDPGLIRSMIVGALRAAL- D3HP70/217-329 ----GSAFVQDAIYL----DV----------DHG-S----MKLRGWISGIKF-------QRSQSDRLWVYINERMVKDKLIHHALKQAY-----EGLLHPGRFPACVLYFTINHAEVDVNVHPTKHEVRFQQPRLIFDFFTSQLAAAL- A0A1H5VSP3/210-322 ----GDDFLQHAREV----AA----------DAG-P----LRLTGFVSLPAY-------SRASRDAQYFFVNGRYVRDKLLTHAVREAY-----ADIVHGSRHPAYVLFLAIDPAGVDVNVHPAKIEVRFREARAVHQFIYHALKRTL- A0A161XUS0/216-325 ----GRVFQREASFI----ES----------GYE-G----LELYGWVLP----------LGSNTQPQYTYVNGRMMRDKLILHAIRQAF-----EEATGSQDTPGFVIYLNLDPRQVDVNVHPAKHEVRFHQARLVHDFIVQAIKQVV- D8PIF6/221-332 -----AAFGDRALAV----DV----------QQN-G----LSLKGFIIDPVR-------ARAGRTPQELFVNRRPIKNSTVQHAVVDGY-----SSFLAKGHAPLFVLFLDVEPQRVDVNVHPTKREVRFADNEQIHQLVRSAVRHTL- A0A1H1Z8Y2/221-333 ----GPAFLEQALPI----DI----------ERN-G----LRLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLYNGRHPAFVLFFEIDPAVVDVNVHPTKHEVRFRDSRMVHDFLYGTLHRAL- A0A0Q4IAC2/212-323 -----RALADNHVIV----SL----------ERE-G----VQLSGVASLPTY-------NRGVGDHQYLFVNGRPVRDRLLIGALRGAY-----ADMLARDRHPVVALFLDVPPLEVDVNVHPAKTEVRFRDPAMIRGMIVSGLRRAL- A0A0M7B5P0/226-338 ----GRDFGANSLTL----EA----------ERD-G----VRLSGQAALPTY-------SRGNAVHQYLFVNGRPVRDRMLTGALRGAY-----MDVLAKDRHAVAALYLDCDPVLVDCNVHPAKTEVRFRDAGVVRGLIVAGVRHAL- A0A1K2HD79/214-325 -----NEFADSMLQI----EQ----------AAG-G----LRLAGFAGSPTL-------SRAGRDAQFVFVNGRFVRDKVVLHAVRQAY-----QDVLHLDRQPLYVLFIELDPEAVDVNVHPTKTEVRFRESQAVHRFLFHSLNRAL- U3AUE3/223-335 ----GRDFEDNALLI----DQ----------SRD-G----IRLSGYAGLPTY-------SRGNAAHQFLFVNGRPVKDRLLQGALRGAY-----ADFLARDRHPAAALFLDIDPLSVDVNVHPAKAEVRFRDPAMVRGLIVGALRHAL- A0A1G3BKJ3/214-326 ----GEELARDLIPI----SS----------REQ-E----LEVTGFATSPAH-------HHANARMQFIFLNGRPIRDSGLTHAVNTAY-----RTLLPQGRFPVVFLLLSIDPSAVDVNVHPTKMEIRFRDASRVYGQVLQAVKKAL- K1ZU95/215-327 ----DKDLASNCFTV----SK----------VQG-D----LMVSGLVANPEV-------NRSQSRDIHLFVNGRPVKDKMLIHAAVEAY-----RDLLMRGRYPFVVLFINLPGTMVDVNVHPAKTEVRFLNSQIIHRLVIETIREKL- U3U2A9/218-330 ----GINFVRHALRI----DR----------GYN-S----LSLNGWLANWNTLYKFMN-------LKYCYVNGRMINDHVINHAIKQAY-----QTCFGDNRQASYVLYLNLEPNQIDVNVHPAKREIRFYQTRFVHDFIYQAIVKTL- A0A1B9SND2/212-324 ----GKEFRDNAIEI----DA----------ERE-D----VTLTGFAGVPTF-------NRGNSAHQYAFVNGRPVQDKLILSAIRGAY-----AETIPSGRYPVAVLSITIDPALVDVNVHPAKSDVRFRDPQLVRGLIVGAIREAL- D5RHC1/212-324 ----GPEFARAAVTV----SG----------GRE-E----LALQGFAGLPTL-------TRATASEQHLVVNRRPVRDPLLRAALRVAY-----RDLIAPGRHPVAALFLELPPELVDVNVHPMKTELRFRDAAAVRGALISALRRAL- A0A1J0RXF2/216-328 ----GQKFIQNAVHI----DT----------EYE-G----LHINAWLGNEAM-------LRSSNDCQFSFVNGRGMRDKLIMHAIRQAY-----ETVWGVIEQPSFVVYLTVDPKDVDVNVHPAKHEVRFQQGRLVHDFISKAVSDAL- C5TB34/230-342 ----GEDFVAQSVAV----QH----------RVG-P----VTVTGRAGLPDA-------ARSRADHQYCYVNGRFVRDKVLTHAARSAY-----EDVLHGHKQPAYALYVEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAVENAL- A0A0P9F8M3/224-336 ----SEDFVAQSVVV----EH----------VGG-P----VRVVGRAGIPDA-------ARSRADHQFFYVNGRFVRDKVLSHAVRSAY-----EDVLHGQRQPVYVLYLEIDPARVDVNVHPTKIEVRFRDGREVHQAVRHAVENAL- Q2NW65/217-328 ----GPAFVERALSV----SW----------QHG-D----LAIHGWVADQSG--------GELPEMQYSYVNRRTMRDKLINHAIRQAY-----QEQLAGTQQPAFVLFLDVEPHQVDVNVHPAKHEVRFHQARLVHDFIYQAVMIVL- X7E332/218-330 ----GKKFIENSLTL----DV----------EAA-G----LRLWGWIGLPTF-------SRSQADLQYFFVNGRVVKDKLVAHAVRQAY-----RDVLYNGRHPTFVLYLELDPSTVDVNVHPTKHEVRFRDGRLVHDFLFSRIHKAI- F5T158/216-328 ----GQAFVRDANYL----EQ----------SFE-D----IHLSGWVSKASA-------HRAQTDVQYFFINGRVIKDRVINHAIRQAY-----GELLPSGRQAAYVLYLTMPLDRVDVNVHPTKHEVRFRDARLIHGLINKAIQEAL- A0A1D2X683/218-330 ----GPKFIENAVII----DI----------EAS-G----LKLSGWVGLPTF-------SRASADLQYFFVNGRVIRDKLVAHAVRQAY-----RDVLYHGRHPTFVLYLELDPSLVDVNVHPTKHEVRFRDGRTVHNFLFSTLNRAL- A0A0F5V857/217-329 ----GQGFLQHALSL----EL----------GHG-D----LRLSGWICTPQG-------ARAQNDIQYCYVNGRMMKDKLINHAIRQAF-----EGALAAEQYAAYVLFIEVDPHQVDVNVHPAKHEVRFHHARLVHDFIYQGVQSAL- A0A0D3LIT7/214-326 ----TKNHQEQMAPC----RE----------ETP-----HLKIWGYIGKPEF-------SKKTRGEQYFFVNERYIKSNYLHHAMMSAY-----EGLLQADTYPFYVLFLEIDPRQIDINVHPTKTEIKFADERTVYAIVQSAVRQAI- A0A1M4W2F2/213-325 ----GRDFADNAMVI----DA----------ARE-G----VNLSGHAGLPTF-------HRANGLQQYLFVNGRPVRDKVLIGALRAGY-----ADVMARDRHPVAALTLTLDPHEVDVNVHPAKADVRFRDPGLVRGLIVGALRQAI- A0A1G0J196/217-329 ----GQDFVDNAISL----DV----------SAS-G----LSLQGYVGLPVI-------ARACRDLQYFYVNQRPIKDRLVHAAIRRAY-----QDVLYSERFPAFILFLCLNPESVDVNAHPAKQEVRFRDSRLIYDFISSQIKKAL- A0A1G0FFZ9/217-329 ----GQDFVDNAISL----DV----------SAS-G----LSLQGYVGLPVI-------ARACRDLQYFYVNQRPIKDRLVHAAIRRAY-----QDVLYSERFPAFILFLCLNPESVDVNAHPAKQEVRFRDSRLIYDFISSQIKKAL- A0A099PDM5/225-339 ----GQPFIEHALVV----DMQ--A------EAS-G----LRLYGWITQPTH-------SRSQADQQYFFVNGRIIKDKVVSHAVRQAY-----QDVLYNGRHPAFVLYLELDPALVDVNVHPTKHEVRFRESRLVHDFIYRSLHRVI- K2JHU7/217-329 ----GDSFSENALRI----DA----------MRE-G----LHLTGYAGLPTL-------NRGNAQMQFLFVNGRPVKDRLLLGAVRGAY-----QDFLSHDRHPLLALFLVIPPEAVDVNVHPAKAEVRFRESGLVRGLIVSALKHAL- A0A1M5YS85/213-325 ----GAEFVGQGLQV----EQ----------EHG-L----VALRGIVTRPTY-------ARSRADRQYLYVNGRYVKDRTVAHAIRQAY-----ADVLHGDRQPAYVLFLEVDPAGVDVNVHPAKHEVRFRDSGAIHRFVSQALTQTL- A0A147GWZ8/222-334 ----GADFIGQSVDV----DHG----------EG-Q----LRVHGHAGVPDA-------ARSRGDQQFFYVNGRFVRDKVLLHAARAAY-----EDVLHGQRQPVFVLHLQIDPARVDVNVHPTKIEVRFRDGREVHSAVRHAIENAL- Q0K777/225-337 ----GNDFARARLPL----DE----------EAD-T----LHLYGFAGLPTA-------SRGRPDQQYFFVNGRFVRDKLLNHAVRSAY-----QDVLHGDRFPSYVLCLDLPPEMVDVNVHPSKIEVRFRESRAVHQFVYHAVQRCL- A0A0S8FL57/216-328 ----GRAFVDESLFL----DH----------QAS-G----MRLWGWLGLPTF-------SRSQADMQYFYLNGRMVRDKVVSHAIRAAY-----ADVLYHGRQPAYVLYLEMDPAGVDVNAHPTKHEVRFRDSRTIHGFLSSTVERAM- A9BN65/228-340 ----GDAFVQNSVTV----EH----------WSG-A----VHVTGRAGIPDA-------ARSRPDHQFCYVNGRFVRDKVLTHASRSAY-----EDVLHGHKQPVYALYVEIDPARVDVNVHPTKIEVRFRDSREVHQAVRHAIENAL- A0A1B6YR93/233-345 ----GGDFADNALRI----DA----------ERE-G----FHLTGYAALPTY-------SRGSSVAQFLFVNGRPVQDRLLIGALRGAY-----ADFLSRDRHPAAALFLDCDPQMVDVNVHPAKSEVRFRDPGMARGLIVTALRHAL- A0A0F9K7E4/145-256 ----GGDFAENALRI----EA----------ERD-G----LGLTGYAALPTF-------SRGSSVMQYLFVNGRPVRDKLLYGALRGAY-----ADFLSRDRHPAAALFLDCDPQLVDVNVHPAKSEVRFRDPGIARGLIVSALRHG-- A0A1F4J4M2/251-359 --VPGEVALADGVQ---------------------R----LRVWGFAGVPDA-------ARSRSDWQYAYVNGRFVRDKVIGHAARSAY-----EDVLHGHRQPVYALCVSLDPTRVDVNVHPTKIEVRFRDSREVHQAVRHAVEAAL- A0A0W0ZHH7/217-329 ----GGPFVKEAIYL----DV----------EHG-A----MKLCGWISGPNF-------QRSQNDRLWVYINQRMVKDKLINQALKQAY-----DGLLHPGRFPACVLYFTMNHAEVDVNVHPTKHEVRFQQPRLVFDFFTSQLLAAL- A0A1E4DUQ9/215-327 ----GADFVDNAVPL----AN----------ARH-G----VVVAGMAGLPTY-------TRANSLSQFYFVNGRSVRDKVLVGAVRAAF-----ADYTFRDRFPVVALYIAIDPAEVDVNVHPAKAELRFRDQGAVRSAVIRAIGMAL- A0A1M3K5U4/215-327 ----GADFVDNAVPL----AN----------ARH-G----VVVAGMAGLPTY-------TRANSLSQFYFVNGRSVRDKVLVGAVRAAF-----ADYTFRDRFPVVALYIAIDPAEVDVNVHPAKAELRFRDQGAVRSAVIRAIGMAL- A0A1L3ZSH9/211-322 ----GGELADNSIAI----DF----------ARG-D----LTLAGVAGLPTY-------NRGVADHQFLFVNGRPVKDRLLVGALRAAY-----QDMLARDRHPVAALFLDVPADFVDVNVHPAKTEVRFRDPGLVRGMIVGGLRAA-- A0A1M6E8A2/217-329 ----GQTFVRHMLKV----GL----------EHQ-G----FSLFGWITTPEG-------ARQQSDLQYCYVNGRMMKDKLINHAIRQSY-----EATLAPEQFAAYVLYICLDPHQVDVNVHPAKHEVRFHQSRLIHDFIYQALTSAL- A0A0X3TGD3/224-336 ----GAPFVDNALKL----AF----------DAQ-S----MQLSGWVAQPSF-------NRAQADMQYLFVNGRIVRDRLLSYAVKQAY-----ADVMYHGRHPAYVLFLQIPADSVDVNVHPAKYEVRFAEGRRVYDFLRRTVRDAV- A0A0Q6KJ99/212-323 -----RALADNAVTI----DW----------VRE-D----MVLGGVAGLPTF-------HRGVADHQYLFVNGRPVKDRLLIGAIRGAY-----AEMMPRDRHAVVALFLDLPADQVDVNVHPAKTEVRFRDPSLVRGLIVSGLRRAL- A3K2D9/229-341 ----GAEFTDNALAV----EA----------ERE-G----FRLTGYAALPTY-------SRGTAVAQYLFVNGRPVRDKMLIGALRGAY-----HDFLSRERHPAVALFVDCDPHKVDVNVHPAKSEVRFRDPGVVRGLIVSTLRHAL- A0A0D6TBU5/229-341 ----GADFIDNALPM----DA----------ERD-G----ITLTGYAALPTY-------SRGAAVAQHLYVNGRPVRDKLLTGALRAGY-----MDVLAAGRHPAAVLFLECDPQMVDVNVHPAKAEVRFRDPQSARGLVVGSLRHAM- A0A0B4Y4D9/218-330 ----GREFQDNALQI----EA----------ERE-G----IRLTGYAGVPTL-------NRGNAQMQFMFVNGRPVKDRLLQGAVRGAY-----QDFLARDRHPLLALFFELSPRDVDVNVHPGKTEVRFRDPGMVRGLIVGALKHAL- A0A1J5IG69/228-340 ----GEAFVDQSLAV----NF----------TAQ-D----IQLTGWVAQATF-------NRSQTDMQYLFVNGRIVRDRQLSYAVKQAY-----ADVLYHGRHPAYCLFLDIPHSFVDVNVHPAKYEVRFANGRWVYDFLRRSVREAV- A0A0W0Y0R0/211-323 ----GKSFLDQSIHL----DS----------ELK-G----MSLEGFISNVNY-------QRSQVDKVWIYLNGRIIKDKLLNNAIRQAY-----EEYLYAGRHPSCLLYLNIAANQVDVNVHPTKHEVRFQQPRLVHDFISSQIAAVL- A0A1H5RTI7/211-323 ----GKSFLDQSIHL----DS----------ELK-G----MSLEGFISNVNY-------QRSQVDKVWIYLNGRIIKDKLLNNAIRQAY-----EEYLYAGRHPSCLLYLNIAANQVDVNVHPTKHEVRFQQPRLVHDFISSQIAAVL- Q82TX7/213-325 ----GEEFTRSAAWI----DE----------RSA-G----IGLQGMLALPAY-------SRAARDMQYFFVNGRFVRDKLITHALREAY-----RDVLHLDRHAAFVLYLDIDPEQVDVNVHPTKTEIRFREARAIHQFIYHGVSKAL- A0A0J5GDT8/213-325 ----GKDFVEASLPI----DT----------GTA-G----LTLSGFVASPTY-------SKASRDAQYFYVNGRFVRDKIAQHALRQAY-----RDVLHHDRHPAYALFFTLDPANVDVNVHPTKIEVRFRESQGIHQFLFHSIHKAL- A0A1N7PQC8/223-335 ----GPDFSENALPI----QA----------ERD-G----IRLTGYAALPTW-------SRGAAVAQFLFVNGRPVLDRLLFSALRAAY-----VDVLSRDRHPGAALFLDCDPQLVDVNVHPAKSEVRFRDPTVARGLIVTALRHAL- A0A0F9HDT4/214-326 ----GKTIKNDLHRI----RL----------NID-D----LSITGWVSSPKI-------TRSTSRGIYVYVNGRNVRDRIIQHALFEGY-----AGRLQKGRFPLAVLLLKVPADQVDVNVHPAKHEIRFAQQNRIHDAVADAVSKML- A0A0A8NT07/217-329 ----GTAFVQQALAL----SW----------QHD-A----LLIKGWIADPMS-------TTTGSDIQYCYVNGRMMRDRLINHAIRQAY-----QDLIQGEQQPAYVLYLEIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQGVAAVL- D3VIH7/217-329 ----GTAFVQQALAL----SW----------QHD-A----LLIKGWIADPMS-------TTTGSDIQYCYVNGRMMRDRLINHAIRQAY-----QDLIQGEQQPAYVLYLEIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQGVAAVL- A0A0R4FJD7/217-329 ----GTAFVQQALAL----SW----------QHD-A----LLIKGWIADPMS-------TTTGSDIQYCYVNGRMMRDRLINHAIRQAY-----QDLIQGEQQPAYVLYLEIDPHQVDVNVHPAKHEVRFHQARLVHDFIYQGVAAVL- A7IJU1/240-352 ----GAEAGRNVVAV----NG----------IRD-D----VVLEGLAGLPTF-------SKANSLSQYLFVNGRPVRDKLLMGAVRAAY-----ADLLPSDRYPVLALFISLDPRDVDVNVHPAKTEVRFRDGGNVRALIVRTLSDAL- G8LII6/217-330 ----GVPFLEHALAI----EW----------QHG-D----LAMRGWVADPNAS------SAAFAEIQYCYVNGRMMRDRLINHAIRQAC-----EDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVL- A0A1G7ER40/212-323 -----KALAENAVPI----DW----------VRE-E----LVLGGVAGIPTF-------NRGIADHQYLFVNGRPVRDRLLMGAIRGAY-----AEMMPRDRHAVVALFLDVPAHQVDVNVHPAKTEVRFRDPAMVRGLIVSGLRRAL- A0A1C6LFR7/213-325 ----GKDFVEAALPL----ET----------VAA-G----LTLTGFIASPTY-------SKASRDAQYFYVNGRFVRDKTAQHALRQAY-----RDVLHHDRHPAYALFFTLDPANVDVNVHPTKIEVRFRESQAVHQFLFHSVQRAL- A0A0X8BZ45/221-333 ----GPGFLEQALPI----EI----------ERN-G----LRLWGWVGLPTF-------SRSQADLQYFFVNGRAVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLELDPTGVDVNVHPTKHEVRFREGRTVHDFLYGTLHRAL- Q2G6F7/213-325 ----ARELAGNSVEV----DL----------VRG-D----FHLTGIAGLPTF-------NRGVADHQYLFVNGRPVKDRLLIGAVRGAY-----ADMLARDRHAVLALFLQVPASEVDVNVHPAKSEVRFRDPALVRGMVVSGLRHAL- H2IS56/217-329 ----SPTFVEHALEV----EW----------SHG-D----LAIRGWVADPAG-------SRSLTEMQYCYVNNRMMKDRLINHAIRQAY-----QDQLKDDQQPAYVLYLDVDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQAVMSVL- A0A1J1BAW3/217-329 ----GNTFMREAIFL----DV----------EHS-G----MRLYGWISNQRL-------QRSQNDRQWIYVNQRMVKDKLLQHAVKQAY-----DGLLHAGRFPVCLLYFTLPGSEVDVNVHPTKHEVRFQQPRLVHDFFTSQLTKAL- A0A133XAZ8/217-329 ----GNTFMREAIFL----DV----------EHS-G----MRLYGWISNQRL-------QRSQNDRQWIYVNQRMVKDKLLQHAVKQAY-----DGLLHAGRFPVCLLYFTLPGSEVDVNVHPTKHEVRFQQPRLVHDFFTSQLTKAL- A0A0D1AQ50/214-325 -----RELSEDGVLI----EA----------ERG-N----ARLTGVAGLPTY-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----SDMLARDRHAVLALFLEIPPEDVDVNVHPAKTEVRFRDPAFVRGFLVGALRHAL- G6EJ81/214-325 -----RELADDGVVI----EA----------ERG-T----ARLTGVAGLPTF-------NRGVADHQYLFVNGRPVKDRLLVGAVRGAY-----SDMLARDRHAVLALFLEIPPEEVDVNVHPAKTEVRFRDPAFVRGFLVGALRHAL- A0A1E4QX39/221-333 ----GSDFARARLPL----DE----------EAG-D----LHLYGFAGLPTA-------SRGRPDQQYFFVNGRFVRDKLLNHAVRSAY-----QDVLHGDRFPSYVLCLDLPPEMVDVNVHPSKIEVRFRESRAVHQFVYHAVQRCL- F6AJX1/221-333 ----SAGFLEQALPI----DI----------ERN-G----LHLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEIDPTAVDVNVHPTKHEVRFREGRMVHDFLYGTLHRAL- A0A178MHT4/217-329 ----GRDFEANALEL----DA----------ERD-G----VRLSGWAGLPTY-------NRATAAAQYLFVNGRPVKDRLVVGAVRGAY-----QDVLARDRHPVVALFLDLDPEQVDVNVHPAKAEVRFRDSGNVRGLIVGAIRHAL- A0A0A0M8Q6/215-327 ----GPEFARHAMRV----DH----------EGA-G----LRLHGWIARPAY-------NRASADQQYLYCNSRAIRDRSVAHAVKLAY-----SDVMYHGRQPAYVLFLELDPRRVDVNVHPAKHEVRFRDSRLVHDFVYRTLQSAL- A4XPY5/218-330 ----GPAFLEQALPI----EI----------ERG-G----LRLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEIDPSTVDVNVHPTKHEVRFRDSRMVHDFLYGTLHRAL- A0A0R2UB64/98-210 ----GPLFMEQALYI----DN----------DRR-G----IRLWGWIGRPTF-------SRSQPDLQYFFVNGRSIRDKIVSHAVRQAY-----QDVLYHGRHPAYVLFLEILPSDVDVNVHPTKHEVRFRESGSIHSFVSSTLQKAL- M9Y8Y7/221-333 ----GPAFLEQALPI----EV----------ERA-G----LRLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEVDPAVVDVNVHPTKHEVRFRDSRMIHDFLYGTLHRVL- A0A1K1WRH0/221-333 ----GPAFLEQALPI----EV----------ERA-G----LRLWGWVGLPTF-------SRSQADLQYFYVNGRMVRDKLVAHAVRQAY-----RDVLFNGRHPTFVLFLEVDPAVVDVNVHPTKHEVRFRDSRMIHDFLYGTLHRVL- A0A0Q5VBJ3/222-334 ----GRDFEANALLI----DQ----------TRD-G----VRLSGYAGLPTY-------SRGNAQHQYLFVNGRPVRDRLLQGALRGAY-----ADFLARDRHPAAALFIDLDPLMVDVNVHPAKAEVRFRDPALIRGLIVGGLRHAL- A4BLP2/229-341 ----GREFVGQSLVL----DA----------EAA-G----LRLHGWIGLPSA-------ARAQTDLQYLYLNGRMIRDRLAGHAIRRAY-----ADLLYKEKHPVYVLYLGMDPAEVDVNVHPSKYEVRFREPRLVYDFLFHQLHRAL- A0A0J6SZ20/225-337 ----GPEFGQNSAPL----SL----------ERE-A----FALDGHVGLPTF-------HRAAATHVHFVVNGRPVRDRLLLSAVRGAY-----ADVMASDRHPVLALALTCDPALVDVNVHPAKTEVRFRDPGLVRGLIVSAIHEAL- M1NRX4/215-327 ----GKEFAPNSLAL----NA----------ERE-A----VRLTGFACLPSF-------NRSNSLHQFAYVNGRPVRDKLLWGAIRGAY-----SDVIAKDRHAVAIIFIDLPPADVDVNVHPTKADVRFRDPGLIRGLIIGSIREAL- M4NFI7/217-329 ----GEEFPAQSLRI----DH----------AAA-G----LHLSGWVGLPTA-------SRAQADAQYFYVNGRLVRDRIVAHAVRQAY-----ADVLFHGRHAAFVLYLELDPAGVDVNVHPAKHEVRFREQRLVHDFLFRTLHEAL- A0A074M1B0/218-333 -----RELKDNAVEI----DL----------ARE-TPHGVMRLTGLAGLPTY-------NRGVADHQYLFVNGRPVRDKLLTGAVRGAY-----SDMLARDRHAVLALFLDIPPQDVDVNVHPAKTEVRFRDSAGVRGFIVSGLRQAL- A0A0P0MF75/220-332 ----GEDFVASSVNI----DF----------RSG-S----VHVRGRAGTPDA-------ARARADQQFAYVNGRFVRDKVITHGARSAY-----EDVLHGQRQPVYVLYLQMDPTRVDVNVHPTKIEVRFRDSREVHQAMRHAIERAL- Q3YSP0/215-327 ----GIEFCKNSLPI----SV----------KEE-Q----IELSGYIGSPTL-------SRSKSSLIYTFVNGRPVYDSLLIGAVRYAY-----SDFIERDKYPVVVLYLNIPCDQVDSNVHPNKSEVRFQDKKLVYRVVVNAIKEVL- #=GC scorecons 00006347344553600005200000000004340400005473845438430000000474345377478979377865535857488000003647335657446866555733898989969488886545476456345533670 #=GC scorecons_70 ____*__*__________________________________*_*____*__________*_____**_*****_****____*_*_**______*_*___*_*___***___*__*********_*****____**__*_______*_ #=GC scorecons_80 _______*____________________________________*____*________________**_*****__**_____*_*_**______________*___*_____*__*******_*_****_____*___________*_ #=GC scorecons_90 ____________________________________________*_________________________**_*___*_____*___**__________________*________*******_*_****___________________ //