# STOCKHOLM 1.0 #=GF ID 3.40.50.1820/FF/115235 #=GF DE Triacylglycerol lipase #=GF AC 3.40.50.1820/FF/115235 #=GF TP FunFam #=GF DR CATH: 4.2 #=GF DR DOPS: 92.978 #=GS 1ex9A00/1-285 AC P26876 #=GS 1ex9A00/1-285 OS Pseudomonas aeruginosa PAO1 #=GS 1ex9A00/1-285 DE Lactonizing lipase #=GS 1ex9A00/1-285 DR CATH; 1ex9; A:1-285; #=GS 1ex9A00/1-285 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS 1ex9A00/1-285 DR GO; GO:0015628; GO:0016298; GO:0043952; #=GS 1ex9A00/1-285 DR EC; 3.1.1.3; #=GS A0A172PCR4/27-311 AC A0A172PCR4 #=GS A0A172PCR4/27-311 OS Pseudomonas aeruginosa #=GS A0A172PCR4/27-311 DE Lipase #=GS A0A172PCR4/27-311 DR GENE3D; 3fe869f054f67a13fbb5438028739590/27-311; #=GS A0A172PCR4/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A172PCR4/27-311 DR EC; 3.1.1.1; 3.1.1.3; #=GS C9YDZ4/42-325 AC C9YDZ4 #=GS C9YDZ4/42-325 OS Curvibacter putative symbiont of Hydra magnipapillata #=GS C9YDZ4/42-325 DE Lipase #=GS C9YDZ4/42-325 DR GENE3D; 9d80ac73bd1dfbb873e6268b084aa6c2/42-325; #=GS C9YDZ4/42-325 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Curvibacter; Curvibacter putative symbiont of Hydra magnipapillata; #=GS C9YDZ4/42-325 DR EC; 3.1.1.3; 4.4.1.8; #=GS I3WE68/30-314 AC I3WE68 #=GS I3WE68/30-314 OS Pseudomonas resinovorans #=GS I3WE68/30-314 DE Lipase #=GS I3WE68/30-314 DR GENE3D; 78b3b1b6a0403b887d9ce57d06b9199d/30-314; #=GS I3WE68/30-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas resinovorans; #=GS I3WE68/30-314 DR EC; 3.1.1.1; #=GS J7JJG8/45-364 AC J7JJG8 #=GS J7JJG8/45-364 OS Burkholderia cepacia GG4 #=GS J7JJG8/45-364 DE Cholesterol esterase #=GS J7JJG8/45-364 DR GENE3D; a71a1b1afe3fb33ae26be89eee38f9b6/45-364; #=GS J7JJG8/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS J7JJG8/45-364 DR EC; 2.8.1.8; #=GS A8T1Z7/24-308 AC A8T1Z7 #=GS A8T1Z7/24-308 OS Vibrio sp. AND4 #=GS A8T1Z7/24-308 DE Cystathionine beta-lyase #=GS A8T1Z7/24-308 DR GENE3D; cb5e19cf988ef44ee9ef7a7f55b51dca/24-308; #=GS A8T1Z7/24-308 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio sp. AND4; #=GS A8T1Z7/24-308 DR EC; 4.4.1.8; #=GS 1cvlA00/1-319 AC Q05489 #=GS 1cvlA00/1-319 OS Burkholderia glumae #=GS 1cvlA00/1-319 DE Lipase #=GS 1cvlA00/1-319 DR CATH; 1cvl; A:1-319; #=GS 1cvlA00/1-319 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS 1cvlA00/1-319 DR GO; GO:0005515; #=GS 1cvlA00/1-319 DR EC; 3.1.1.3; #=GS 1hqdA00/1-320 AC P22088 #=GS 1hqdA00/1-320 OS Burkholderia cepacia #=GS 1hqdA00/1-320 DE Lipase #=GS 1hqdA00/1-320 DR CATH; 1hqd; A:1-320; #=GS 1hqdA00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 1hqdA00/1-320 DR EC; 3.1.1.3; #=GS 1ys1X00/1-320 AC P22088 #=GS 1ys1X00/1-320 OS Burkholderia cepacia #=GS 1ys1X00/1-320 DE Lipase #=GS 1ys1X00/1-320 DR CATH; 1ys1; X:1-320; #=GS 1ys1X00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 1ys1X00/1-320 DR EC; 3.1.1.3; #=GS 1tahA00/1-318 AC Q05489 #=GS 1tahA00/1-318 OS Burkholderia glumae #=GS 1tahA00/1-318 DE Lipase #=GS 1tahA00/1-318 DR CATH; 1tah; A:2-319; #=GS 1tahA00/1-318 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS 1tahA00/1-318 DR GO; GO:0005515; #=GS 1tahA00/1-318 DR EC; 3.1.1.3; #=GS 1tahB00/1-318 AC Q05489 #=GS 1tahB00/1-318 OS Burkholderia glumae #=GS 1tahB00/1-318 DE Lipase #=GS 1tahB00/1-318 DR CATH; 1tah; B:2-319; #=GS 1tahB00/1-318 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS 1tahB00/1-318 DR GO; GO:0005515; #=GS 1tahB00/1-318 DR EC; 3.1.1.3; #=GS 1tahC00/1-318 AC Q05489 #=GS 1tahC00/1-318 OS Burkholderia glumae #=GS 1tahC00/1-318 DE Lipase #=GS 1tahC00/1-318 DR CATH; 1tah; C:2-319; #=GS 1tahC00/1-318 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS 1tahC00/1-318 DR GO; GO:0005515; #=GS 1tahC00/1-318 DR EC; 3.1.1.3; #=GS 1tahD00/1-318 AC Q05489 #=GS 1tahD00/1-318 OS Burkholderia glumae #=GS 1tahD00/1-318 DE Lipase #=GS 1tahD00/1-318 DR CATH; 1tah; D:2-319; #=GS 1tahD00/1-318 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS 1tahD00/1-318 DR GO; GO:0005515; #=GS 1tahD00/1-318 DR EC; 3.1.1.3; #=GS 2es4A00/1-319 AC Q05489 #=GS 2es4A00/1-319 OS Burkholderia glumae #=GS 2es4A00/1-319 DE Lipase #=GS 2es4A00/1-319 DR CATH; 2es4; A:1-319; #=GS 2es4A00/1-319 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS 2es4A00/1-319 DR GO; GO:0005515; #=GS 2es4A00/1-319 DR EC; 3.1.1.3; #=GS 2es4B00/1-319 AC Q05489 #=GS 2es4B00/1-319 OS Burkholderia glumae #=GS 2es4B00/1-319 DE Lipase #=GS 2es4B00/1-319 DR CATH; 2es4; B:1-319; #=GS 2es4B00/1-319 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS 2es4B00/1-319 DR GO; GO:0005515; #=GS 2es4B00/1-319 DR EC; 3.1.1.3; #=GS 1oilA00/1-320 AC P22088 #=GS 1oilA00/1-320 OS Burkholderia cepacia #=GS 1oilA00/1-320 DE Lipase #=GS 1oilA00/1-320 DR CATH; 1oil; A:1-320; #=GS 1oilA00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 1oilA00/1-320 DR EC; 3.1.1.3; #=GS 1oilB00/1-320 AC P22088 #=GS 1oilB00/1-320 OS Burkholderia cepacia #=GS 1oilB00/1-320 DE Lipase #=GS 1oilB00/1-320 DR CATH; 1oil; B:1-320; #=GS 1oilB00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 1oilB00/1-320 DR EC; 3.1.1.3; #=GS 1ys2X00/1-320 AC P22088 #=GS 1ys2X00/1-320 OS Burkholderia cepacia #=GS 1ys2X00/1-320 DE Lipase #=GS 1ys2X00/1-320 DR CATH; 1ys2; X:1-320; #=GS 1ys2X00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 1ys2X00/1-320 DR EC; 3.1.1.3; #=GS 2lipA00/1-320 AC P22088 #=GS 2lipA00/1-320 OS Burkholderia cepacia #=GS 2lipA00/1-320 DE Lipase #=GS 2lipA00/1-320 DR CATH; 2lip; A:1-320; #=GS 2lipA00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 2lipA00/1-320 DR EC; 3.1.1.3; #=GS 2nw6A00/1-320 AC P22088 #=GS 2nw6A00/1-320 OS Burkholderia cepacia #=GS 2nw6A00/1-320 DE Lipase #=GS 2nw6A00/1-320 DR CATH; 2nw6; A:1-320; #=GS 2nw6A00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 2nw6A00/1-320 DR EC; 3.1.1.3; #=GS 3lipA00/1-320 AC P22088 #=GS 3lipA00/1-320 OS Burkholderia cepacia #=GS 3lipA00/1-320 DE Lipase #=GS 3lipA00/1-320 DR CATH; 3lip; A:1-320; #=GS 3lipA00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 3lipA00/1-320 DR EC; 3.1.1.3; #=GS 4lipD00/1-320 AC P22088 #=GS 4lipD00/1-320 OS Burkholderia cepacia #=GS 4lipD00/1-320 DE Lipase #=GS 4lipD00/1-320 DR CATH; 4lip; D:2-320; #=GS 4lipD00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 4lipD00/1-320 DR EC; 3.1.1.3; #=GS 4lipE00/1-320 AC P22088 #=GS 4lipE00/1-320 OS Burkholderia cepacia #=GS 4lipE00/1-320 DE Lipase #=GS 4lipE00/1-320 DR CATH; 4lip; E:2-320; #=GS 4lipE00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 4lipE00/1-320 DR EC; 3.1.1.3; #=GS 5lipA00/1-320 AC P22088 #=GS 5lipA00/1-320 OS Burkholderia cepacia #=GS 5lipA00/1-320 DE Lipase #=GS 5lipA00/1-320 DR CATH; 5lip; A:1-320; #=GS 5lipA00/1-320 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS 5lipA00/1-320 DR EC; 3.1.1.3; #=GS P15493/30-312 AC P15493 #=GS P15493/30-312 OS Vibrio cholerae O1 biovar El Tor str. N16961 #=GS P15493/30-312 DE Lipase #=GS P15493/30-312 DR GENE3D; 3c217ce1e50ffae66d092bdb6da306d8/30-312; #=GS P15493/30-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS P15493/30-312 DR GO; GO:0004806; GO:0016042; #=GS P15493/30-312 DR EC; 3.1.1.3; #=GS Q3JKC4/45-364 AC Q3JKC4 #=GS Q3JKC4/45-364 OS Burkholderia pseudomallei 1710b #=GS Q3JKC4/45-364 DE Lipase #=GS Q3JKC4/45-364 DR GENE3D; 2ec5e7a3955e0e408945eb0383e42030/45-364; #=GS Q3JKC4/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS Q3JKC4/45-364 DR EC; 3.1.1.3; #=GS A0KFL9/50-333 AC A0KFL9 #=GS A0KFL9/50-333 OS Aeromonas hydrophila subsp. hydrophila ATCC 7966 #=GS A0KFL9/50-333 DE Lipase #=GS A0KFL9/50-333 DR GENE3D; f8adec16acc4d9febd533436a4fda48e/50-333; #=GS A0KFL9/50-333 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas hydrophila; Aeromonas hydrophila subsp. hydrophila; #=GS A0KFL9/50-333 DR EC; 3.1.1.3; #=GS B3GVV8/27-311 AC B3GVV8 #=GS B3GVV8/27-311 OS Pseudomonas sp. 42A2 #=GS B3GVV8/27-311 DE Triacylglycerol lipase A #=GS B3GVV8/27-311 DR GENE3D; 3fe869f054f67a13fbb5438028739590/27-311; #=GS B3GVV8/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 42A2; #=GS B3GVV8/27-311 DR EC; 3.1.1.1; 3.1.1.3; #=GS P26876/27-311 AC P26876 #=GS P26876/27-311 OS Pseudomonas aeruginosa PAO1 #=GS P26876/27-311 DE Lactonizing lipase #=GS P26876/27-311 DR GENE3D; 47944d01f8053c6e496f63bc1403ab58/27-311; #=GS P26876/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS P26876/27-311 DR GO; GO:0015628; GO:0016298; GO:0043952; #=GS P26876/27-311 DR EC; 3.1.1.3; #=GS Q05489/40-358 AC Q05489 #=GS Q05489/40-358 OS Burkholderia glumae #=GS Q05489/40-358 DE Lipase #=GS Q05489/40-358 DR GENE3D; 5c8dde98115d1123631718c96d00cb19/40-358; #=GS Q05489/40-358 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS Q05489/40-358 DR GO; GO:0005515; #=GS Q05489/40-358 DR EC; 3.1.1.3; #=GS A0A125MMR3/30-314 AC A0A125MMR3 #=GS A0A125MMR3/30-314 OS Lysobacter capsici AZ78 #=GS A0A125MMR3/30-314 DE Lipase #=GS A0A125MMR3/30-314 DR GENE3D; 04bf42955ec32be9ef7a6fb07dc3907b/30-314; #=GS A0A125MMR3/30-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter capsici; #=GS A0A125MMR3/30-314 DR EC; 3.1.1.3; #=GS B3VLA7/45-364 AC B3VLA7 #=GS B3VLA7/45-364 OS Burkholderia cenocepacia #=GS B3VLA7/45-364 DE Triacylglycerol lipase #=GS B3VLA7/45-364 DR GENE3D; 04f6cf3e7cc020fd6498eb8cc32383e2/45-364; #=GS B3VLA7/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cenocepacia; #=GS B3VLA7/45-364 DR EC; 3.1.1.3; #=GS A0A095RXB9/45-364 AC A0A095RXB9 #=GS A0A095RXB9/45-364 OS Burkholderia pseudomallei #=GS A0A095RXB9/45-364 DE Lipoyl synthase #=GS A0A095RXB9/45-364 DR GENE3D; 0515ad23d374fda87d822e1495e25739/45-364; #=GS A0A095RXB9/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A095RXB9/45-364 DR EC; 3.1.1.3; #=GS B1Z1J5/45-364 AC B1Z1J5 #=GS B1Z1J5/45-364 OS Burkholderia ambifaria MC40-6 #=GS B1Z1J5/45-364 DE Triacylglycerol lipase #=GS B1Z1J5/45-364 DR GENE3D; 0c210849bbd03cb23cdb76564f17724c/45-364; #=GS B1Z1J5/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia ambifaria; #=GS B1Z1J5/45-364 DR EC; 3.1.1.3; #=GS A0A0B2D0E2/46-331 AC A0A0B2D0E2 #=GS A0A0B2D0E2/46-331 OS Pseudomonas flexibilis #=GS A0A0B2D0E2/46-331 DE Lactonizing lipase #=GS A0A0B2D0E2/46-331 DR GENE3D; 137e5b36df19fb8744624cee0113de6c/46-331; #=GS A0A0B2D0E2/46-331 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas flexibilis; #=GS A0A0B2D0E2/46-331 DR EC; 3.1.1.3; #=GS Q9X5I2/27-311 AC Q9X5I2 #=GS Q9X5I2/27-311 OS Pseudomonas sp. KFCC10818 #=GS Q9X5I2/27-311 DE Lipase #=GS Q9X5I2/27-311 DR GENE3D; 145624008b18eea122cc3c7c47435f14/27-311; #=GS Q9X5I2/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. KFCC10818; #=GS Q9X5I2/27-311 DR EC; 3.1.1.3; #=GS F8H9H4/29-311 AC F8H9H4 #=GS F8H9H4/29-311 OS Pseudomonas stutzeri #=GS F8H9H4/29-311 DE Lipase #=GS F8H9H4/29-311 DR GENE3D; 154609ea51974956630d1c7a10900cbe/29-311; #=GS F8H9H4/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS F8H9H4/29-311 DR EC; 3.1.1.3; #=GS A0A0T8L331/29-311 AC A0A0T8L331 #=GS A0A0T8L331/29-311 OS Streptococcus pneumoniae #=GS A0A0T8L331/29-311 DE Lactonizing lipase #=GS A0A0T8L331/29-311 DR GENE3D; 154609ea51974956630d1c7a10900cbe/29-311; #=GS A0A0T8L331/29-311 DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus pneumoniae; #=GS A0A0T8L331/29-311 DR EC; 3.1.1.3; #=GS A4VL36/29-311 AC A4VL36 #=GS A4VL36/29-311 OS Pseudomonas stutzeri A1501 #=GS A4VL36/29-311 DE Lipase LipC #=GS A4VL36/29-311 DR GENE3D; 154609ea51974956630d1c7a10900cbe/29-311; #=GS A4VL36/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS A4VL36/29-311 DR EC; 3.1.1.3; #=GS F2MYZ1/29-311 AC F2MYZ1 #=GS F2MYZ1/29-311 OS Pseudomonas stutzeri DSM 4166 #=GS F2MYZ1/29-311 DE LipC protein #=GS F2MYZ1/29-311 DR GENE3D; 154609ea51974956630d1c7a10900cbe/29-311; #=GS F2MYZ1/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS F2MYZ1/29-311 DR EC; 3.1.1.3; #=GS S6K0N8/29-311 AC S6K0N8 #=GS S6K0N8/29-311 OS Pseudomonas stutzeri B1SMN1 #=GS S6K0N8/29-311 DE Lipase LipC #=GS S6K0N8/29-311 DR GENE3D; 154609ea51974956630d1c7a10900cbe/29-311; #=GS S6K0N8/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS S6K0N8/29-311 DR EC; 3.1.1.3; #=GS A0A1G3DKG4/29-311 AC A0A1G3DKG4 #=GS A0A1G3DKG4/29-311 OS Pseudomonadales bacterium RIFCSPHIGHO2_01_FULL_64_12 #=GS A0A1G3DKG4/29-311 DE Lipase #=GS A0A1G3DKG4/29-311 DR GENE3D; 154609ea51974956630d1c7a10900cbe/29-311; #=GS A0A1G3DKG4/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadales bacterium RIFCSPHIGHO2_01_FULL_64_12; #=GS A0A1G3DKG4/29-311 DR EC; 3.1.1.3; #=GS Q5U9G2/46-364 AC Q5U9G2 #=GS Q5U9G2/46-364 OS Burkholderia sp. MC16-3 #=GS Q5U9G2/46-364 DE Lipase #=GS Q5U9G2/46-364 DR GENE3D; 1716a114042d956ad34cec17e415e5b2/46-364; #=GS Q5U9G2/46-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. MC16-3; #=GS Q5U9G2/46-364 DR EC; 3.1.1.3; #=GS P22088/46-364 AC P22088 #=GS P22088/46-364 OS Burkholderia cepacia #=GS P22088/46-364 DE Lipase #=GS P22088/46-364 DR GENE3D; 17ce7a364fdbc0ac344b3a770d66353c/46-364; #=GS P22088/46-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS P22088/46-364 DR EC; 3.1.1.3; #=GS A0A0F6L4P4/45-364 AC A0A0F6L4P4 #=GS A0A0F6L4P4/45-364 OS Burkholderia pseudomallei MSHR4000 #=GS A0A0F6L4P4/45-364 DE Lipase #=GS A0A0F6L4P4/45-364 DR GENE3D; 192b55b9e59ae69e0ba91d66e256582a/45-364; #=GS A0A0F6L4P4/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A0F6L4P4/45-364 DR EC; 3.1.1.3; #=GS A0A0H5KSC3/45-364 AC A0A0H5KSC3 #=GS A0A0H5KSC3/45-364 OS Burkholderia pseudomallei #=GS A0A0H5KSC3/45-364 DE Lipase #=GS A0A0H5KSC3/45-364 DR GENE3D; 192b55b9e59ae69e0ba91d66e256582a/45-364; #=GS A0A0H5KSC3/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A0H5KSC3/45-364 DR EC; 3.1.1.3; #=GS A0A0I9SJ52/29-311 AC A0A0I9SJ52 #=GS A0A0I9SJ52/29-311 OS Pseudomonas sp. BICA1-14 #=GS A0A0I9SJ52/29-311 DE Lactonizing lipase #=GS A0A0I9SJ52/29-311 DR GENE3D; 1ba8f45357a093b3fa9fd3ceeb7721c2/29-311; #=GS A0A0I9SJ52/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas sp. BICA1-14; #=GS A0A0I9SJ52/29-311 DR EC; 3.1.1.3; #=GS A0A1C2KCA1/29-311 AC A0A1C2KCA1 #=GS A0A1C2KCA1/29-311 OS Pseudomonas sp. K35 #=GS A0A1C2KCA1/29-311 DE Lipase #=GS A0A1C2KCA1/29-311 DR GENE3D; 1ba8f45357a093b3fa9fd3ceeb7721c2/29-311; #=GS A0A1C2KCA1/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. K35; #=GS A0A1C2KCA1/29-311 DR EC; 3.1.1.3; #=GS A0A098FP14/29-311 AC A0A098FP14 #=GS A0A098FP14/29-311 OS Pseudomonas xanthomarina #=GS A0A098FP14/29-311 DE Lipase #=GS A0A098FP14/29-311 DR GENE3D; 1ba8f45357a093b3fa9fd3ceeb7721c2/29-311; #=GS A0A098FP14/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas xanthomarina; #=GS A0A098FP14/29-311 DR EC; 3.1.1.3; #=GS A0A090IJL4/30-313 AC A0A090IJL4 #=GS A0A090IJL4/30-313 OS Moritella viscosa #=GS A0A090IJL4/30-313 DE Lipase #=GS A0A090IJL4/30-313 DR GENE3D; 1dacecd89ba76ab99265cc1576e000c4/30-313; #=GS A0A090IJL4/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Moritellaceae; Moritella; Moritella viscosa; #=GS A0A090IJL4/30-313 DR EC; 3.1.1.3; #=GS A0A1B4K2U7/45-364 AC A0A1B4K2U7 #=GS A0A1B4K2U7/45-364 OS Burkholderia thailandensis #=GS A0A1B4K2U7/45-364 DE Alpha/beta hydrolase #=GS A0A1B4K2U7/45-364 DR GENE3D; 1fb22787bf490d7b16be389e12a16409/45-364; #=GS A0A1B4K2U7/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia thailandensis; #=GS A0A1B4K2U7/45-364 DR EC; 3.1.1.3; #=GS Q2T7L1/45-364 AC Q2T7L1 #=GS Q2T7L1/45-364 OS Burkholderia thailandensis E264 #=GS Q2T7L1/45-364 DE Lipase #=GS Q2T7L1/45-364 DR GENE3D; 1fb22787bf490d7b16be389e12a16409/45-364; #=GS Q2T7L1/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia thailandensis; #=GS Q2T7L1/45-364 DR EC; 3.1.1.3; #=GS B1TA42/45-363 AC B1TA42 #=GS B1TA42/45-363 OS Burkholderia ambifaria MEX-5 #=GS B1TA42/45-363 DE Triacylglycerol lipase #=GS B1TA42/45-363 DR GENE3D; 226b0976dc40c3605b30715e9737e9a8/45-363; #=GS B1TA42/45-363 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia ambifaria; #=GS B1TA42/45-363 DR EC; 3.1.1.3; #=GS A0A0E4CFQ2/30-312 AC A0A0E4CFQ2 #=GS A0A0E4CFQ2/30-312 OS Vibrio cholerae #=GS A0A0E4CFQ2/30-312 DE Lipase #=GS A0A0E4CFQ2/30-312 DR GENE3D; 24552b62f69c073f6b5f056dd55da499/30-312; #=GS A0A0E4CFQ2/30-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS A0A0E4CFQ2/30-312 DR EC; 3.1.1.3; #=GS A0A0X1L285/57-339 AC A0A0X1L285 #=GS A0A0X1L285/57-339 OS Vibrio cholerae MO10 #=GS A0A0X1L285/57-339 DE Lactonizing lipase #=GS A0A0X1L285/57-339 DR GENE3D; 286a8c03ad81e03d68f207437728629d/57-339; #=GS A0A0X1L285/57-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS A0A0X1L285/57-339 DR EC; 3.1.1.3; #=GS A0A0H6FFS9/57-339 AC A0A0H6FFS9 #=GS A0A0H6FFS9/57-339 OS Vibrio cholerae #=GS A0A0H6FFS9/57-339 DE Lipase #=GS A0A0H6FFS9/57-339 DR GENE3D; 286a8c03ad81e03d68f207437728629d/57-339; #=GS A0A0H6FFS9/57-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS A0A0H6FFS9/57-339 DR EC; 3.1.1.3; #=GS A0A0H3AEQ5/57-339 AC A0A0H3AEQ5 #=GS A0A0H3AEQ5/57-339 OS Vibrio cholerae O395 #=GS A0A0H3AEQ5/57-339 DE Lactonizing lipase #=GS A0A0H3AEQ5/57-339 DR GENE3D; 286a8c03ad81e03d68f207437728629d/57-339; #=GS A0A0H3AEQ5/57-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS A0A0H3AEQ5/57-339 DR EC; 3.1.1.3; #=GS A0A0H3Q6Y6/57-339 AC A0A0H3Q6Y6 #=GS A0A0H3Q6Y6/57-339 OS Vibrio cholerae B33 #=GS A0A0H3Q6Y6/57-339 DE Lipase #=GS A0A0H3Q6Y6/57-339 DR GENE3D; 286a8c03ad81e03d68f207437728629d/57-339; #=GS A0A0H3Q6Y6/57-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS A0A0H3Q6Y6/57-339 DR EC; 3.1.1.3; #=GS C3LUP1/57-339 AC C3LUP1 #=GS C3LUP1/57-339 OS Vibrio cholerae M66-2 #=GS C3LUP1/57-339 DE Lactonizing lipase #=GS C3LUP1/57-339 DR GENE3D; 286a8c03ad81e03d68f207437728629d/57-339; #=GS C3LUP1/57-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS C3LUP1/57-339 DR EC; 3.1.1.3; #=GS A0A0H2XWD4/45-364 AC A0A0H2XWD4 #=GS A0A0H2XWD4/45-364 OS Burkholderia cenocepacia AU 1054 #=GS A0A0H2XWD4/45-364 DE Triacylglycerol lipase #=GS A0A0H2XWD4/45-364 DR GENE3D; 291689a802dfd0dff7f62c7d9cba7f02/45-364; #=GS A0A0H2XWD4/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cenocepacia; #=GS A0A0H2XWD4/45-364 DR EC; 3.1.1.3; #=GS K6ZR22/23-307 AC K6ZR22 #=GS K6ZR22/23-307 OS Paraglaciecola polaris LMG 21857 #=GS K6ZR22/23-307 DE Triacylglycerol lipase #=GS K6ZR22/23-307 DR GENE3D; 2a6ef90800f0654573adc683df3b1755/23-307; #=GS K6ZR22/23-307 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Paraglaciecola; Paraglaciecola polaris; #=GS K6ZR22/23-307 DR EC; 3.1.1.3; #=GS A0A128F8Z4/30-312 AC A0A128F8Z4 #=GS A0A128F8Z4/30-312 OS Grimontia celer #=GS A0A128F8Z4/30-312 DE Lactonizing lipase #=GS A0A128F8Z4/30-312 DR GENE3D; 2b88104edad6f97ad9792adc600c0491/30-312; #=GS A0A128F8Z4/30-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Grimontia; Grimontia celer; #=GS A0A128F8Z4/30-312 DR EC; 3.1.1.3; #=GS A0A0H3HWA8/45-364 AC A0A0H3HWA8 #=GS A0A0H3HWA8/45-364 OS Burkholderia pseudomallei 1026b #=GS A0A0H3HWA8/45-364 DE Lipase #=GS A0A0H3HWA8/45-364 DR GENE3D; 2ec5e7a3955e0e408945eb0383e42030/45-364; #=GS A0A0H3HWA8/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A0H3HWA8/45-364 DR EC; 3.1.1.3; #=GS A0A069BB28/45-364 AC A0A069BB28 #=GS A0A069BB28/45-364 OS Burkholderia pseudomallei #=GS A0A069BB28/45-364 DE Alpha/beta hydrolase #=GS A0A069BB28/45-364 DR GENE3D; 2ec5e7a3955e0e408945eb0383e42030/45-364; #=GS A0A069BB28/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A069BB28/45-364 DR EC; 3.1.1.3; #=GS A0A0F6G6X0/45-364 AC A0A0F6G6X0 #=GS A0A0F6G6X0/45-364 OS Burkholderia pseudomallei MSHR2543 #=GS A0A0F6G6X0/45-364 DE Lipase #=GS A0A0F6G6X0/45-364 DR GENE3D; 2ec5e7a3955e0e408945eb0383e42030/45-364; #=GS A0A0F6G6X0/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A0F6G6X0/45-364 DR EC; 3.1.1.3; #=GS Q63JH5/45-364 AC Q63JH5 #=GS Q63JH5/45-364 OS Burkholderia pseudomallei K96243 #=GS Q63JH5/45-364 DE Lipase #=GS Q63JH5/45-364 DR GENE3D; 2ec5e7a3955e0e408945eb0383e42030/45-364; #=GS Q63JH5/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS Q63JH5/45-364 DR EC; 3.1.1.3; #=GS C2HYF2/57-339 AC C2HYF2 #=GS C2HYF2/57-339 OS Vibrio albensis VL426 #=GS C2HYF2/57-339 DE Lipase #=GS C2HYF2/57-339 DR GENE3D; 2eca56685d46202f4f1aaa75ed27b9db/57-339; #=GS C2HYF2/57-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio albensis; #=GS C2HYF2/57-339 DR EC; 3.1.1.3; #=GS A6AS17/25-308 AC A6AS17 #=GS A6AS17/25-308 OS Vibrio campbellii HY01 #=GS A6AS17/25-308 DE Lipase #=GS A6AS17/25-308 DR GENE3D; 30a197479d8ca1bd541c503a79d9bab2/25-308; #=GS A6AS17/25-308 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio campbellii; #=GS A6AS17/25-308 DR EC; 3.1.1.3; #=GS A0A1E7VL78/29-302 AC A0A1E7VL78 #=GS A0A1E7VL78/29-302 OS Janthinobacterium lividum #=GS A0A1E7VL78/29-302 DE Lactonizing lipase #=GS A0A1E7VL78/29-302 DR GENE3D; 3162b31d3b3bfd92abc4ca5bbcdb4b1e/29-302; #=GS A0A1E7VL78/29-302 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium lividum; #=GS A0A1E7VL78/29-302 DR EC; 3.1.1.3; #=GS A0A0S2G3D7/30-314 AC A0A0S2G3D7 #=GS A0A0S2G3D7/30-314 OS Lysobacter gummosus #=GS A0A0S2G3D7/30-314 DE Lactonizing lipase #=GS A0A0S2G3D7/30-314 DR GENE3D; 32b678cf6ef8f7ab03de1cc9d49bec4a/30-314; #=GS A0A0S2G3D7/30-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter gummosus; #=GS A0A0S2G3D7/30-314 DR EC; 3.1.1.3; #=GS A0A0H3KKZ3/45-364 AC A0A0H3KKZ3 #=GS A0A0H3KKZ3/45-364 OS Burkholderia multivorans ATCC 17616 #=GS A0A0H3KKZ3/45-364 DE Triacylglycerol lipase #=GS A0A0H3KKZ3/45-364 DR GENE3D; 33c97fe00299d9d4bbbe5f74ef38ca08/45-364; #=GS A0A0H3KKZ3/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia multivorans; #=GS A0A0H3KKZ3/45-364 DR EC; 3.1.1.3; #=GS A0A0D6SZK4/27-310 AC A0A0D6SZK4 #=GS A0A0D6SZK4/27-310 OS Pseudomonas sp. FeS53a #=GS A0A0D6SZK4/27-310 DE Lipase #=GS A0A0D6SZK4/27-310 DR GENE3D; 35342e60cce910719d4d147a712437f9/27-310; #=GS A0A0D6SZK4/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. FeS53a; #=GS A0A0D6SZK4/27-310 DR EC; 3.1.1.3; #=GS A0A0T7DJ96/30-313 AC A0A0T7DJ96 #=GS A0A0T7DJ96/30-313 OS Vibrio crassostreae #=GS A0A0T7DJ96/30-313 DE Lipase #=GS A0A0T7DJ96/30-313 DR GENE3D; 3b20d3e2a5b504809237f41a20f86224/30-313; #=GS A0A0T7DJ96/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio crassostreae; #=GS A0A0T7DJ96/30-313 DR EC; 3.1.1.3; #=GS A1TUU1/37-318 AC A1TUU1 #=GS A1TUU1/37-318 OS Acidovorax citrulli AAC00-1 #=GS A1TUU1/37-318 DE Triacylglycerol lipase #=GS A1TUU1/37-318 DR GENE3D; 3b3d51965f3b905317c05bc979c95f40/37-318; #=GS A1TUU1/37-318 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax citrulli; #=GS A1TUU1/37-318 DR EC; 3.1.1.3; #=GS A0A0K9UUT9/30-312 AC A0A0K9UUT9 #=GS A0A0K9UUT9/30-312 OS Vibrio cholerae 2740-80 #=GS A0A0K9UUT9/30-312 DE Triacylglycerol lipase #=GS A0A0K9UUT9/30-312 DR GENE3D; 3c217ce1e50ffae66d092bdb6da306d8/30-312; #=GS A0A0K9UUT9/30-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS A0A0K9UUT9/30-312 DR EC; 3.1.1.3; #=GS A0A085SK61/30-312 AC A0A085SK61 #=GS A0A085SK61/30-312 OS Vibrio cholerae #=GS A0A085SK61/30-312 DE Lactonizing lipase #=GS A0A085SK61/30-312 DR GENE3D; 3c217ce1e50ffae66d092bdb6da306d8/30-312; #=GS A0A085SK61/30-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS A0A085SK61/30-312 DR EC; 3.1.1.3; #=GS V9ZWU9/20-303 AC V9ZWU9 #=GS V9ZWU9/20-303 OS Aeromonas hydrophila 4AK4 #=GS V9ZWU9/20-303 DE Lipase #=GS V9ZWU9/20-303 DR GENE3D; 438b84a71dfb09c3b61e6a6bc68ae9bc/20-303; #=GS V9ZWU9/20-303 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas hydrophila; #=GS V9ZWU9/20-303 DR EC; 3.1.1.3; #=GS B9B7G1/109-428 AC B9B7G1 #=GS B9B7G1/109-428 OS Burkholderia multivorans CGD1 #=GS B9B7G1/109-428 DE Lipase (Triacylglycerol lipase) #=GS B9B7G1/109-428 DR GENE3D; 45a8550f2b179eac8c223f60d09bc6cf/109-428; #=GS B9B7G1/109-428 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia multivorans; #=GS B9B7G1/109-428 DR EC; 3.1.1.3; #=GS A0A157WLA0/27-311 AC A0A157WLA0 #=GS A0A157WLA0/27-311 OS Enterobacter cloacae #=GS A0A157WLA0/27-311 DE Lactonizing lipase #=GS A0A157WLA0/27-311 DR GENE3D; 47944d01f8053c6e496f63bc1403ab58/27-311; #=GS A0A157WLA0/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; #=GS A0A157WLA0/27-311 DR EC; 3.1.1.3; #=GS A0A1F0J6X2/27-311 AC A0A1F0J6X2 #=GS A0A1F0J6X2/27-311 OS Pseudomonas sp. HMSC065H01 #=GS A0A1F0J6X2/27-311 DE Lipase #=GS A0A1F0J6X2/27-311 DR GENE3D; 47944d01f8053c6e496f63bc1403ab58/27-311; #=GS A0A1F0J6X2/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. HMSC065H01; #=GS A0A1F0J6X2/27-311 DR EC; 3.1.1.3; #=GS V6ADF1/27-311 AC V6ADF1 #=GS V6ADF1/27-311 OS Pseudomonas aeruginosa MH27 #=GS V6ADF1/27-311 DE Lactonizing lipase #=GS V6ADF1/27-311 DR GENE3D; 47944d01f8053c6e496f63bc1403ab58/27-311; #=GS V6ADF1/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS V6ADF1/27-311 DR EC; 3.1.1.3; #=GS A0A0H2ZCK8/27-311 AC A0A0H2ZCK8 #=GS A0A0H2ZCK8/27-311 OS Pseudomonas aeruginosa UCBPP-PA14 #=GS A0A0H2ZCK8/27-311 DE Lactonizing lipase #=GS A0A0H2ZCK8/27-311 DR GENE3D; 47944d01f8053c6e496f63bc1403ab58/27-311; #=GS A0A0H2ZCK8/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0H2ZCK8/27-311 DR EC; 3.1.1.3; #=GS A0A0P1D9T8/27-311 AC A0A0P1D9T8 #=GS A0A0P1D9T8/27-311 OS Pseudomonas aeruginosa DK1 #=GS A0A0P1D9T8/27-311 DE Lactonizing lipase #=GS A0A0P1D9T8/27-311 DR GENE3D; 47944d01f8053c6e496f63bc1403ab58/27-311; #=GS A0A0P1D9T8/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0P1D9T8/27-311 DR EC; 3.1.1.3; #=GS Q6B4I3/27-311 AC Q6B4I3 #=GS Q6B4I3/27-311 OS Pseudomonas aeruginosa #=GS Q6B4I3/27-311 DE Lipase #=GS Q6B4I3/27-311 DR GENE3D; 47944d01f8053c6e496f63bc1403ab58/27-311; #=GS Q6B4I3/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS Q6B4I3/27-311 DR EC; 3.1.1.3; #=GS A0A128FIL3/30-313 AC A0A128FIL3 #=GS A0A128FIL3/30-313 OS Grimontia marina #=GS A0A128FIL3/30-313 DE Lactonizing lipase #=GS A0A128FIL3/30-313 DR GENE3D; 4800e929d105f8ed5da4e567e7f377a2/30-313; #=GS A0A128FIL3/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Grimontia; Grimontia marina; #=GS A0A128FIL3/30-313 DR EC; 3.1.1.3; #=GS A0A0S2DDK4/30-314 AC A0A0S2DDK4 #=GS A0A0S2DDK4/30-314 OS Lysobacter enzymogenes #=GS A0A0S2DDK4/30-314 DE Lipase (Triacylglycerol lipase) #=GS A0A0S2DDK4/30-314 DR GENE3D; 4a30e57585c55e57b6188e2624de8ca8/30-314; #=GS A0A0S2DDK4/30-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter enzymogenes; #=GS A0A0S2DDK4/30-314 DR EC; 3.1.1.3; #=GS A0A1L9JBC6/18-302 AC A0A1L9JBC6 #=GS A0A1L9JBC6/18-302 OS Vibrio vulnificus #=GS A0A1L9JBC6/18-302 DE Lactonizing lipase #=GS A0A1L9JBC6/18-302 DR GENE3D; 4ac3b3fd5b7e65298b279b6491126729/18-302; #=GS A0A1L9JBC6/18-302 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; #=GS A0A1L9JBC6/18-302 DR EC; 3.1.1.3; #=GS A0A088UBS2/45-363 AC A0A088UBS2 #=GS A0A088UBS2/45-363 OS Burkholderia cepacia ATCC 25416 #=GS A0A088UBS2/45-363 DE Lipase #=GS A0A088UBS2/45-363 DR GENE3D; 4e8f1c191a8f0eb3a31bba7582796c7f/45-363; #=GS A0A088UBS2/45-363 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS A0A088UBS2/45-363 DR EC; 3.1.1.3; #=GS A0A0N9HLH6/45-364 AC A0A0N9HLH6 #=GS A0A0N9HLH6/45-364 OS Burkholderia cepacia #=GS A0A0N9HLH6/45-364 DE Lipase #=GS A0A0N9HLH6/45-364 DR GENE3D; 4f203a2f797e6b8891471d5909c51f6f/45-364; #=GS A0A0N9HLH6/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS A0A0N9HLH6/45-364 DR EC; 3.1.1.3; #=GS L8MIV8/30-314 AC L8MIV8 #=GS L8MIV8/30-314 OS Pseudomonas pseudoalcaligenes KF707 = NBRC 110670 #=GS L8MIV8/30-314 DE Lipase #=GS L8MIV8/30-314 DR GENE3D; 4fdc818758bb1749747256777a0a68cb/30-314; #=GS L8MIV8/30-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas oleovorans/pseudoalcaligenes group; Pseudomonas pseudoalcaligenes; #=GS L8MIV8/30-314 DR EC; 3.1.1.3; #=GS Q393T2/45-364 AC Q393T2 #=GS Q393T2/45-364 OS Burkholderia lata #=GS Q393T2/45-364 DE Triacylglycerol lipase #=GS Q393T2/45-364 DR GENE3D; 50335ddec404df13f18f6c43f862ead1/45-364; #=GS Q393T2/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia lata; #=GS Q393T2/45-364 DR EC; 3.1.1.3; #=GS E7CY80/46-364 AC E7CY80 #=GS E7CY80/46-364 OS Burkholderia cepacia #=GS E7CY80/46-364 DE LipA #=GS E7CY80/46-364 DR GENE3D; 50c5ac48d0235105e548ff4a03b0cbc9/46-364; #=GS E7CY80/46-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS E7CY80/46-364 DR EC; 3.1.1.3; #=GS B1K3P3/45-364 AC B1K3P3 #=GS B1K3P3/45-364 OS Burkholderia cenocepacia MC0-3 #=GS B1K3P3/45-364 DE Triacylglycerol lipase #=GS B1K3P3/45-364 DR GENE3D; 5156fdbd666d5d273ae6219edb548574/45-364; #=GS B1K3P3/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cenocepacia; #=GS B1K3P3/45-364 DR EC; 3.1.1.3; #=GS A4XVF4/30-317 AC A4XVF4 #=GS A4XVF4/30-317 OS Pseudomonas mendocina ymp #=GS A4XVF4/30-317 DE Triacylglycerol lipase #=GS A4XVF4/30-317 DR GENE3D; 52b2c05b1c9af60d2ecc60230d99361d/30-317; #=GS A4XVF4/30-317 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas mendocina; #=GS A4XVF4/30-317 DR EC; 3.1.1.3; #=GS K5VCR3/17-300 AC K5VCR3 #=GS K5VCR3/17-300 OS Vibrio sp. HENC-02 #=GS K5VCR3/17-300 DE Lactonizing lipase #=GS K5VCR3/17-300 DR GENE3D; 53b99116e24f2196d13ff658dcb9dc8a/17-300; #=GS K5VCR3/17-300 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. HENC-02; #=GS K5VCR3/17-300 DR EC; 3.1.1.3; #=GS A0A1L5RIB7/17-300 AC A0A1L5RIB7 #=GS A0A1L5RIB7/17-300 OS Vibrio harveyi #=GS A0A1L5RIB7/17-300 DE Lipase #=GS A0A1L5RIB7/17-300 DR GENE3D; 53b99116e24f2196d13ff658dcb9dc8a/17-300; #=GS A0A1L5RIB7/17-300 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio harveyi; #=GS A0A1L5RIB7/17-300 DR EC; 3.1.1.3; #=GS K5UP63/17-300 AC K5UP63 #=GS K5UP63/17-300 OS Vibrio sp. HENC-01 #=GS K5UP63/17-300 DE Lactonizing lipase #=GS K5UP63/17-300 DR GENE3D; 53b99116e24f2196d13ff658dcb9dc8a/17-300; #=GS K5UP63/17-300 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. HENC-01; #=GS K5UP63/17-300 DR EC; 3.1.1.3; #=GS A0A0P1IYR5/76-360 AC A0A0P1IYR5 #=GS A0A0P1IYR5/76-360 OS Alcanivorax dieselolei #=GS A0A0P1IYR5/76-360 DE Lipase #=GS A0A0P1IYR5/76-360 DR GENE3D; 54647756318221339867ffa00476c3fc/76-360; #=GS A0A0P1IYR5/76-360 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Alcanivoracaceae; Alcanivorax; Alcanivorax dieselolei; #=GS A0A0P1IYR5/76-360 DR EC; 3.1.1.3; #=GS A0A090SSW1/27-310 AC A0A090SSW1 #=GS A0A090SSW1/27-310 OS Vibrio variabilis #=GS A0A090SSW1/27-310 DE Lipase #=GS A0A090SSW1/27-310 DR GENE3D; 557d7e5b6d2e8c7966f0d8b517f678d6/27-310; #=GS A0A090SSW1/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio variabilis; #=GS A0A090SSW1/27-310 DR EC; 3.1.1.3; #=GS U4E360/30-313 AC U4E360 #=GS U4E360/30-313 OS Vibrio nigripulchritudo FTn2 #=GS U4E360/30-313 DE Lipase #=GS U4E360/30-313 DR GENE3D; 566b8ab129e102141f928461087f1d21/30-313; #=GS U4E360/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio nigripulchritudo; #=GS U4E360/30-313 DR EC; 3.1.1.3; #=GS U4KDT9/30-313 AC U4KDT9 #=GS U4KDT9/30-313 OS Vibrio nigripulchritudo #=GS U4KDT9/30-313 DE Lipase #=GS U4KDT9/30-313 DR GENE3D; 566b8ab129e102141f928461087f1d21/30-313; #=GS U4KDT9/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio nigripulchritudo; #=GS U4KDT9/30-313 DR EC; 3.1.1.3; #=GS A0A0P0KKQ1/40-358 AC A0A0P0KKQ1 #=GS A0A0P0KKQ1/40-358 OS Burkholderia plantarii #=GS A0A0P0KKQ1/40-358 DE Lipase #=GS A0A0P0KKQ1/40-358 DR GENE3D; 5c8dde98115d1123631718c96d00cb19/40-358; #=GS A0A0P0KKQ1/40-358 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia plantarii; #=GS A0A0P0KKQ1/40-358 DR EC; 3.1.1.3; #=GS A0A0B6RX62/40-358 AC A0A0B6RX62 #=GS A0A0B6RX62/40-358 OS Burkholderia glumae PG1 #=GS A0A0B6RX62/40-358 DE Lipase LipA #=GS A0A0B6RX62/40-358 DR GENE3D; 5c8dde98115d1123631718c96d00cb19/40-358; #=GS A0A0B6RX62/40-358 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS A0A0B6RX62/40-358 DR EC; 3.1.1.3; #=GS B9BJY8/71-390 AC B9BJY8 #=GS B9BJY8/71-390 OS Burkholderia multivorans CGD2 #=GS B9BJY8/71-390 DE Lipase (Triacylglycerol lipase) #=GS B9BJY8/71-390 DR GENE3D; 610c48ac3c2b45d2e33afb235af3690e/71-390; #=GS B9BJY8/71-390 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia multivorans; #=GS B9BJY8/71-390 DR EC; 3.1.1.3; #=GS A0A0E4AP21/45-364 AC A0A0E4AP21 #=GS A0A0E4AP21/45-364 OS Burkholderia cepacia #=GS A0A0E4AP21/45-364 DE Alpha/beta hydrolase #=GS A0A0E4AP21/45-364 DR GENE3D; 62c2ce4539c69d2a6610790fc3b4c588/45-364; #=GS A0A0E4AP21/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS A0A0E4AP21/45-364 DR EC; 3.1.1.3; #=GS A0A0D5IRU4/45-364 AC A0A0D5IRU4 #=GS A0A0D5IRU4/45-364 OS Burkholderia dolosa AU0158 #=GS A0A0D5IRU4/45-364 DE Lipase #=GS A0A0D5IRU4/45-364 DR GENE3D; 62c2ce4539c69d2a6610790fc3b4c588/45-364; #=GS A0A0D5IRU4/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia dolosa; #=GS A0A0D5IRU4/45-364 DR EC; 3.1.1.3; #=GS A0A1L9JX42/20-301 AC A0A1L9JX42 #=GS A0A1L9JX42/20-301 OS Vibrio vulnificus #=GS A0A1L9JX42/20-301 DE Lactonizing lipase #=GS A0A1L9JX42/20-301 DR GENE3D; 651307898ee324e57a706ba1c24bec44/20-301; #=GS A0A1L9JX42/20-301 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; #=GS A0A1L9JX42/20-301 DR EC; 3.1.1.3; #=GS A0A0T7EWH3/26-309 AC A0A0T7EWH3 #=GS A0A0T7EWH3/26-309 OS Vibrio diabolicus #=GS A0A0T7EWH3/26-309 DE Lipase #=GS A0A0T7EWH3/26-309 DR GENE3D; 6581231fb0b9c80f2c6642b6d6485c87/26-309; #=GS A0A0T7EWH3/26-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio diabolicus; #=GS A0A0T7EWH3/26-309 DR EC; 3.1.1.3; #=GS P26877/27-311 AC P26877 #=GS P26877/27-311 OS Pseudomonas sp. 109 #=GS P26877/27-311 DE Lactonizing lipase #=GS P26877/27-311 DR GENE3D; 661b53868ba9e217fbcd8c8238f6279b/27-311; #=GS P26877/27-311 DR ORG; Bacteria; Proteobacteria; Pseudomonas sp. 109; #=GS P26877/27-311 DR EC; 3.1.1.3; #=GS B8K5B1/27-310 AC B8K5B1 #=GS B8K5B1/27-310 OS Vibrio sp. 16 #=GS B8K5B1/27-310 DE Lipase (Triacylglycerol lipase) #=GS B8K5B1/27-310 DR GENE3D; 67b632741fb951d545f0ebd9a28d25ff/27-310; #=GS B8K5B1/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. 16; #=GS B8K5B1/27-310 DR EC; 3.1.1.3; #=GS A0A090IHB8/30-313 AC A0A090IHB8 #=GS A0A090IHB8/30-313 OS Moritella viscosa #=GS A0A090IHB8/30-313 DE Lipase #=GS A0A090IHB8/30-313 DR GENE3D; 685083a807d3c6bb1448d641da8042a9/30-313; #=GS A0A090IHB8/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Moritellaceae; Moritella; Moritella viscosa; #=GS A0A090IHB8/30-313 DR EC; 3.1.1.3; #=GS A0A060L3K4/45-364 AC A0A060L3K4 #=GS A0A060L3K4/45-364 OS Burkholderia sp. 30(2014) #=GS A0A060L3K4/45-364 DE Lipase #=GS A0A060L3K4/45-364 DR GENE3D; 68a72b530b8a72a49cb064abc9a4e2dd/45-364; #=GS A0A060L3K4/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. 30(2014); #=GS A0A060L3K4/45-364 DR EC; 3.1.1.3; #=GS P95419/27-311 AC P95419 #=GS P95419/27-311 OS Pseudomonas aeruginosa #=GS P95419/27-311 DE Lactonizing lipase #=GS P95419/27-311 DR GENE3D; 6adbc8c5d76ae4dc76ae7d242cae68f1/27-311; #=GS P95419/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS P95419/27-311 DR EC; 3.1.1.3; #=GS A0A1D5C0Q7/27-311 AC A0A1D5C0Q7 #=GS A0A1D5C0Q7/27-311 OS Pseudomonas sp. P179 #=GS A0A1D5C0Q7/27-311 DE Lactonizing lipase #=GS A0A1D5C0Q7/27-311 DR GENE3D; 6adbc8c5d76ae4dc76ae7d242cae68f1/27-311; #=GS A0A1D5C0Q7/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. P179; #=GS A0A1D5C0Q7/27-311 DR EC; 3.1.1.3; #=GS A0A0T7EPD2/29-313 AC A0A0T7EPD2 #=GS A0A0T7EPD2/29-313 OS Vibrio sp. J2-31 #=GS A0A0T7EPD2/29-313 DE Lipase #=GS A0A0T7EPD2/29-313 DR GENE3D; 6c324b00c766f5bb90c9a8e9639f1fc8/29-313; #=GS A0A0T7EPD2/29-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. J2-31; #=GS A0A0T7EPD2/29-313 DR EC; 3.1.1.3; #=GS A8QYB2/27-311 AC A8QYB2 #=GS A8QYB2/27-311 OS Pseudomonas aeruginosa #=GS A8QYB2/27-311 DE LST-03 lipase #=GS A8QYB2/27-311 DR GENE3D; 6e9f8f822c002697b24315286ac56ed9/27-311; #=GS A8QYB2/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A8QYB2/27-311 DR EC; 3.1.1.3; #=GS A0A1E9CKR8/27-311 AC A0A1E9CKR8 #=GS A0A1E9CKR8/27-311 OS Pseudomonas sp. HMSC066B11 #=GS A0A1E9CKR8/27-311 DE Lipase #=GS A0A1E9CKR8/27-311 DR GENE3D; 6e9f8f822c002697b24315286ac56ed9/27-311; #=GS A0A1E9CKR8/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. HMSC066B11; #=GS A0A1E9CKR8/27-311 DR EC; 3.1.1.3; #=GS A0A1G5KPN8/27-311 AC A0A1G5KPN8 #=GS A0A1G5KPN8/27-311 OS Acinetobacter baumannii #=GS A0A1G5KPN8/27-311 DE Lactonizing lipase #=GS A0A1G5KPN8/27-311 DR GENE3D; 6e9f8f822c002697b24315286ac56ed9/27-311; #=GS A0A1G5KPN8/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter calcoaceticus/baumannii complex; Acinetobacter baumannii; #=GS A0A1G5KPN8/27-311 DR EC; 3.1.1.3; #=GS A0A095FBP4/40-358 AC A0A095FBP4 #=GS A0A095FBP4/40-358 OS Burkholderia gladioli #=GS A0A095FBP4/40-358 DE Lipoyl synthase #=GS A0A095FBP4/40-358 DR GENE3D; 6fe74704f119d3b75306076ae45d127e/40-358; #=GS A0A095FBP4/40-358 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia gladioli; #=GS A0A095FBP4/40-358 DR EC; 3.1.1.3; #=GS A0A088UYR6/45-364 AC A0A088UYR6 #=GS A0A088UYR6/45-364 OS Burkholderia cenocepacia #=GS A0A088UYR6/45-364 DE Lipoyl synthase #=GS A0A088UYR6/45-364 DR GENE3D; 7045c16f3fa7888d59f149468cfde7ea/45-364; #=GS A0A088UYR6/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cenocepacia; #=GS A0A088UYR6/45-364 DR EC; 3.1.1.3; #=GS A0A1C3IXN3/30-313 AC A0A1C3IXN3 #=GS A0A1C3IXN3/30-313 OS Vibrio hemicentroti #=GS A0A1C3IXN3/30-313 DE Lactonizing lipase #=GS A0A1C3IXN3/30-313 DR GENE3D; 73e8b39ba82c6967744feb43facc5606/30-313; #=GS A0A1C3IXN3/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio hemicentroti; #=GS A0A1C3IXN3/30-313 DR EC; 3.1.1.3; #=GS A0A0A3FGN8/25-308 AC A0A0A3FGN8 #=GS A0A0A3FGN8/25-308 OS Vibrio campbellii #=GS A0A0A3FGN8/25-308 DE Lipase #=GS A0A0A3FGN8/25-308 DR GENE3D; 7432b1d29d3cc56771569f3dccf06684/25-308; #=GS A0A0A3FGN8/25-308 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio campbellii; #=GS A0A0A3FGN8/25-308 DR EC; 3.1.1.3; #=GS A0A031GJE5/29-302 AC A0A031GJE5 #=GS A0A031GJE5/29-302 OS Janthinobacterium lividum #=GS A0A031GJE5/29-302 DE Lipase LipA #=GS A0A031GJE5/29-302 DR GENE3D; 782e8b5ea1ec4bc3589fc51f605170eb/29-302; #=GS A0A031GJE5/29-302 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium lividum; #=GS A0A031GJE5/29-302 DR EC; 3.1.1.3; #=GS Q4JL88/45-363 AC Q4JL88 #=GS Q4JL88/45-363 OS Burkholderia cepacia #=GS Q4JL88/45-363 DE LipA #=GS Q4JL88/45-363 DR GENE3D; 7b8fc163a153ab62d38795adcc659d43/45-363; #=GS Q4JL88/45-363 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS Q4JL88/45-363 DR EC; 3.1.1.3; #=GS A0A095F5E6/45-364 AC A0A095F5E6 #=GS A0A095F5E6/45-364 OS Burkholderia cepacia #=GS A0A095F5E6/45-364 DE Lipoyl synthase #=GS A0A095F5E6/45-364 DR GENE3D; 7f822d45bf8bf4a161d5afeaf1fa5e13/45-364; #=GS A0A095F5E6/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS A0A095F5E6/45-364 DR EC; 3.1.1.3; #=GS A0A142PDQ3/45-364 AC A0A142PDQ3 #=GS A0A142PDQ3/45-364 OS Burkholderia cenocepacia #=GS A0A142PDQ3/45-364 DE Alpha/beta hydrolase #=GS A0A142PDQ3/45-364 DR GENE3D; 7f822d45bf8bf4a161d5afeaf1fa5e13/45-364; #=GS A0A142PDQ3/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cenocepacia; #=GS A0A142PDQ3/45-364 DR EC; 3.1.1.3; #=GS U1Y1X8/45-364 AC U1Y1X8 #=GS U1Y1X8/45-364 OS Burkholderia cenocepacia BC7 #=GS U1Y1X8/45-364 DE Triacylglycerol lipase #=GS U1Y1X8/45-364 DR GENE3D; 7f822d45bf8bf4a161d5afeaf1fa5e13/45-364; #=GS U1Y1X8/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cenocepacia; #=GS U1Y1X8/45-364 DR EC; 3.1.1.3; #=GS B4EF94/45-364 AC B4EF94 #=GS B4EF94/45-364 OS Burkholderia cenocepacia J2315 #=GS B4EF94/45-364 DE Exported lipase LipA #=GS B4EF94/45-364 DR GENE3D; 7f822d45bf8bf4a161d5afeaf1fa5e13/45-364; #=GS B4EF94/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cenocepacia; #=GS B4EF94/45-364 DR EC; 3.1.1.3; #=GS K5TNY2/17-300 AC K5TNY2 #=GS K5TNY2/17-300 OS Vibrio sp. HENC-03 #=GS K5TNY2/17-300 DE Lactonizing lipase #=GS K5TNY2/17-300 DR GENE3D; 832fc256b429795753c4b005e73553fd/17-300; #=GS K5TNY2/17-300 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. HENC-03; #=GS K5TNY2/17-300 DR EC; 3.1.1.3; #=GS A0A0H6PFS2/57-339 AC A0A0H6PFS2 #=GS A0A0H6PFS2/57-339 OS Vibrio cholerae #=GS A0A0H6PFS2/57-339 DE Lipase #=GS A0A0H6PFS2/57-339 DR GENE3D; 8369ecd3ba6d807ce0478f2f015e3f7e/57-339; #=GS A0A0H6PFS2/57-339 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS A0A0H6PFS2/57-339 DR EC; 3.1.1.3; #=GS Q9L6C7/27-311 AC Q9L6C7 #=GS Q9L6C7/27-311 OS Pseudomonas aeruginosa #=GS Q9L6C7/27-311 DE Triacylglycerol acylhydrolase #=GS Q9L6C7/27-311 DR GENE3D; 839e8e112dd8930af7ad0f3f3e7b3749/27-311; #=GS Q9L6C7/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS Q9L6C7/27-311 DR EC; 3.1.1.3; #=GS Q5U9G1/46-364 AC Q5U9G1 #=GS Q5U9G1/46-364 OS Burkholderia sp. 99-2-1 #=GS Q5U9G1/46-364 DE Lipase #=GS Q5U9G1/46-364 DR GENE3D; 85665533ab4d76f2a7940ffd0b3b0087/46-364; #=GS Q5U9G1/46-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. 99-2-1; #=GS Q5U9G1/46-364 DR EC; 3.1.1.3; #=GS A0A0C4XVX2/23-306 AC A0A0C4XVX2 #=GS A0A0C4XVX2/23-306 OS uncultured bacterium #=GS A0A0C4XVX2/23-306 DE Lipg9 protein #=GS A0A0C4XVX2/23-306 DR GENE3D; 877075299eb1a84a69bcefb944ac8f71/23-306; #=GS A0A0C4XVX2/23-306 DR ORG; Bacteria; uncultured bacterium; #=GS A0A0C4XVX2/23-306 DR EC; 3.1.1.3; #=GS D0IJN7/30-312 AC D0IJN7 #=GS D0IJN7/30-312 OS Vibrio sp. RC586 #=GS D0IJN7/30-312 DE Lipase #=GS D0IJN7/30-312 DR GENE3D; 87fab7b7e3c8818139e7ea86957f9651/30-312; #=GS D0IJN7/30-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. RC586; #=GS D0IJN7/30-312 DR EC; 3.1.1.3; #=GS Q7NUI4/26-310 AC Q7NUI4 #=GS Q7NUI4/26-310 OS Chromobacterium violaceum ATCC 12472 #=GS Q7NUI4/26-310 DE Probable triacylglycerol lipase #=GS Q7NUI4/26-310 DR GENE3D; 8a57fb9f67ff5d2ab981a85278e961f8/26-310; #=GS Q7NUI4/26-310 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Chromobacteriaceae; Chromobacterium; Chromobacterium violaceum; #=GS Q7NUI4/26-310 DR EC; 3.1.1.3; #=GS A0A0J6LS87/26-310 AC A0A0J6LS87 #=GS A0A0J6LS87/26-310 OS Chromobacterium violaceum #=GS A0A0J6LS87/26-310 DE Lactonizing lipase #=GS A0A0J6LS87/26-310 DR GENE3D; 8a57fb9f67ff5d2ab981a85278e961f8/26-310; #=GS A0A0J6LS87/26-310 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Chromobacteriaceae; Chromobacterium; Chromobacterium violaceum; #=GS A0A0J6LS87/26-310 DR EC; 3.1.1.3; #=GS A0A1E7UGJ8/29-302 AC A0A1E7UGJ8 #=GS A0A1E7UGJ8/29-302 OS Janthinobacterium sp. MP5059B #=GS A0A1E7UGJ8/29-302 DE Lactonizing lipase #=GS A0A1E7UGJ8/29-302 DR GENE3D; 8ae4f223ef7278420e5aa93d84b0a46f/29-302; #=GS A0A1E7UGJ8/29-302 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium sp. MP5059B; #=GS A0A1E7UGJ8/29-302 DR EC; 3.1.1.3; #=GS B1FNV3/45-364 AC B1FNV3 #=GS B1FNV3/45-364 OS Burkholderia ambifaria IOP40-10 #=GS B1FNV3/45-364 DE Triacylglycerol lipase #=GS B1FNV3/45-364 DR GENE3D; 8dbecf3edf4f0758b7d9254e4b769c11/45-364; #=GS B1FNV3/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia ambifaria; #=GS B1FNV3/45-364 DR EC; 3.1.1.3; #=GS A0A1L9HT89/20-301 AC A0A1L9HT89 #=GS A0A1L9HT89/20-301 OS Vibrio vulnificus #=GS A0A1L9HT89/20-301 DE Lactonizing lipase #=GS A0A1L9HT89/20-301 DR GENE3D; 95c28c4347b6c82b091853ba60d22bdb/20-301; #=GS A0A1L9HT89/20-301 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; #=GS A0A1L9HT89/20-301 DR EC; 3.1.1.3; #=GS R4RRT6/29-311 AC R4RRT6 #=GS R4RRT6/29-311 OS Pseudomonas stutzeri #=GS R4RRT6/29-311 DE Lipase #=GS R4RRT6/29-311 DR GENE3D; 968081fe86924450f7597d826e5223e3/29-311; #=GS R4RRT6/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS R4RRT6/29-311 DR EC; 3.1.1.3; #=GS C5TAG4/31-312 AC C5TAG4 #=GS C5TAG4/31-312 OS Acidovorax delafieldii 2AN #=GS C5TAG4/31-312 DE Triacylglycerol lipase #=GS C5TAG4/31-312 DR GENE3D; 98d5d49938be2213ab4a182ca3bc70b8/31-312; #=GS C5TAG4/31-312 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax delafieldii; #=GS C5TAG4/31-312 DR EC; 3.1.1.3; #=GS A0A1E7VWF5/29-302 AC A0A1E7VWF5 #=GS A0A1E7VWF5/29-302 OS Janthinobacterium sp. HH106 #=GS A0A1E7VWF5/29-302 DE Lactonizing lipase #=GS A0A1E7VWF5/29-302 DR GENE3D; 9ec5a662d434be2e7bd307962158531f/29-302; #=GS A0A1E7VWF5/29-302 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium sp. HH106; #=GS A0A1E7VWF5/29-302 DR EC; 3.1.1.3; #=GS A0A0F6UBZ4/27-311 AC A0A0F6UBZ4 #=GS A0A0F6UBZ4/27-311 OS Pseudomonas aeruginosa #=GS A0A0F6UBZ4/27-311 DE Lactonizing lipase #=GS A0A0F6UBZ4/27-311 DR GENE3D; a0bbc5e3472fe29917e1d1e4a9d5487c/27-311; #=GS A0A0F6UBZ4/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0F6UBZ4/27-311 DR EC; 3.1.1.3; #=GS P25275/45-364 AC P25275 #=GS P25275/45-364 OS Pseudomonas sp. KWI-56 #=GS P25275/45-364 DE Lipase #=GS P25275/45-364 DR GENE3D; a156bb1e609a0136295c32242b017579/45-364; #=GS P25275/45-364 DR ORG; Bacteria; Proteobacteria; Pseudomonas sp. KWI-56; #=GS P25275/45-364 DR EC; 3.1.1.3; #=GS A0A1L9IDN4/20-301 AC A0A1L9IDN4 #=GS A0A1L9IDN4/20-301 OS Vibrio vulnificus #=GS A0A1L9IDN4/20-301 DE Lactonizing lipase #=GS A0A1L9IDN4/20-301 DR GENE3D; a324c724d0522678e0c9e539f2bd6028/20-301; #=GS A0A1L9IDN4/20-301 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; #=GS A0A1L9IDN4/20-301 DR EC; 3.1.1.3; #=GS A0A1C3IKZ8/29-313 AC A0A1C3IKZ8 #=GS A0A1C3IKZ8/29-313 OS Vibrio atlanticus #=GS A0A1C3IKZ8/29-313 DE Lactonizing lipase #=GS A0A1C3IKZ8/29-313 DR GENE3D; a501b5be523063eb3fc9dbf00643aa00/29-313; #=GS A0A1C3IKZ8/29-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio atlanticus; #=GS A0A1C3IKZ8/29-313 DR EC; 3.1.1.3; #=GS B7VQH1/29-313 AC B7VQH1 #=GS B7VQH1/29-313 OS Vibrio tasmaniensis LGP32 #=GS B7VQH1/29-313 DE Lipase #=GS B7VQH1/29-313 DR GENE3D; a501b5be523063eb3fc9dbf00643aa00/29-313; #=GS B7VQH1/29-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio tasmaniensis; #=GS B7VQH1/29-313 DR EC; 3.1.1.3; #=GS A0A1C3JI99/29-313 AC A0A1C3JI99 #=GS A0A1C3JI99/29-313 OS Vibrio celticus #=GS A0A1C3JI99/29-313 DE Lactonizing lipase #=GS A0A1C3JI99/29-313 DR GENE3D; a89f53a6ddf4e093756be964793e85cd/29-313; #=GS A0A1C3JI99/29-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio celticus; #=GS A0A1C3JI99/29-313 DR EC; 3.1.1.3; #=GS A0A0T7DN00/29-313 AC A0A0T7DN00 #=GS A0A0T7DN00/29-313 OS Vibrio sp. J2-29 #=GS A0A0T7DN00/29-313 DE Lipase #=GS A0A0T7DN00/29-313 DR GENE3D; a8ce85c4b830756e72f7838d8f724a6f/29-313; #=GS A0A0T7DN00/29-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. J2-29; #=GS A0A0T7DN00/29-313 DR EC; 3.1.1.3; #=GS A0A095EJS0/45-364 AC A0A095EJS0 #=GS A0A095EJS0/45-364 OS Burkholderia cepacia #=GS A0A095EJS0/45-364 DE Lipoyl synthase #=GS A0A095EJS0/45-364 DR GENE3D; a9a0e58b8f130f6b841876cef3df367d/45-364; #=GS A0A095EJS0/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS A0A095EJS0/45-364 DR EC; 3.1.1.3; #=GS A4JM55/45-364 AC A4JM55 #=GS A4JM55/45-364 OS Burkholderia vietnamiensis G4 #=GS A4JM55/45-364 DE Triacylglycerol lipase #=GS A4JM55/45-364 DR GENE3D; ab764ca7251e4d964e0e64f69c5451e9/45-364; #=GS A4JM55/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia vietnamiensis; #=GS A4JM55/45-364 DR EC; 3.1.1.3; #=GS A0A132DRP8/45-364 AC A0A132DRP8 #=GS A0A132DRP8/45-364 OS Burkholderia vietnamiensis #=GS A0A132DRP8/45-364 DE Alpha/beta hydrolase #=GS A0A132DRP8/45-364 DR GENE3D; ab764ca7251e4d964e0e64f69c5451e9/45-364; #=GS A0A132DRP8/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia vietnamiensis; #=GS A0A132DRP8/45-364 DR EC; 3.1.1.3; #=GS H6U4T7/27-311 AC H6U4T7 #=GS H6U4T7/27-311 OS Pseudomonas sp. enrichment culture clone TLF-A #=GS H6U4T7/27-311 DE Lipase A #=GS H6U4T7/27-311 DR GENE3D; ad3668487034dc0f7b80bf2e8b6ed2cb/27-311; #=GS H6U4T7/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. enrichment culture clone TLF-A; #=GS H6U4T7/27-311 DR EC; 3.1.1.3; #=GS A0A104Z7H4/45-364 AC A0A104Z7H4 #=GS A0A104Z7H4/45-364 OS Burkholderia ubonensis #=GS A0A104Z7H4/45-364 DE Alpha/beta hydrolase #=GS A0A104Z7H4/45-364 DR GENE3D; ae75dfd74126abe568592818a3b21945/45-364; #=GS A0A104Z7H4/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia ubonensis; #=GS A0A104Z7H4/45-364 DR EC; 3.1.1.3; #=GS A0A0D0HAV1/45-364 AC A0A0D0HAV1 #=GS A0A0D0HAV1/45-364 OS Burkholderia sp. MSHR3999 #=GS A0A0D0HAV1/45-364 DE LipA protein #=GS A0A0D0HAV1/45-364 DR GENE3D; ae75dfd74126abe568592818a3b21945/45-364; #=GS A0A0D0HAV1/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. MSHR3999; #=GS A0A0D0HAV1/45-364 DR EC; 3.1.1.3; #=GS A0A085PJG5/30-312 AC A0A085PJG5 #=GS A0A085PJG5/30-312 OS Vibrio cholerae #=GS A0A085PJG5/30-312 DE Lactonizing lipase #=GS A0A085PJG5/30-312 DR GENE3D; af1f2e90dc40874655128213fd6a7f89/30-312; #=GS A0A085PJG5/30-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS A0A085PJG5/30-312 DR EC; 3.1.1.3; #=GS A0A0D5L6G7/49-368 AC A0A0D5L6G7 #=GS A0A0D5L6G7/49-368 OS Burkholderia sp. 2002721687 #=GS A0A0D5L6G7/49-368 DE Lipase #=GS A0A0D5L6G7/49-368 DR GENE3D; af3c32b72de2354931bdb301948ec991/49-368; #=GS A0A0D5L6G7/49-368 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. 2002721687; #=GS A0A0D5L6G7/49-368 DR EC; 3.1.1.3; #=GS J5CPP1/109-428 AC J5CPP1 #=GS J5CPP1/109-428 OS Burkholderia multivorans CF2 #=GS J5CPP1/109-428 DE Triacylglycerol lipase #=GS J5CPP1/109-428 DR GENE3D; b02f76f60aa25a85c36359e6f64d966a/109-428; #=GS J5CPP1/109-428 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia multivorans; #=GS J5CPP1/109-428 DR EC; 3.1.1.3; #=GS Q21T36/22-305 AC Q21T36 #=GS Q21T36/22-305 OS Rhodoferax ferrireducens T118 #=GS Q21T36/22-305 DE Triacylglycerol lipase #=GS Q21T36/22-305 DR GENE3D; b1d0ec5d9b41efd2a00d124aae299ef2/22-305; #=GS Q21T36/22-305 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Rhodoferax; Rhodoferax ferrireducens; #=GS Q21T36/22-305 DR EC; 3.1.1.3; #=GS G0ADA2/60-338 AC G0ADA2 #=GS G0ADA2/60-338 OS Collimonas fungivorans Ter331 #=GS G0ADA2/60-338 DE Lipase #=GS G0ADA2/60-338 DR GENE3D; b29be68802181a6d743173dc172712cc/60-338; #=GS G0ADA2/60-338 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Collimonas; Collimonas fungivorans; #=GS G0ADA2/60-338 DR EC; 3.1.1.3; #=GS A0A1B4A8F9/45-364 AC A0A1B4A8F9 #=GS A0A1B4A8F9/45-364 OS Burkholderia oklahomensis EO147 #=GS A0A1B4A8F9/45-364 DE Alpha/beta hydrolase #=GS A0A1B4A8F9/45-364 DR GENE3D; b694f96718ef792f5390324255ed55b0/45-364; #=GS A0A1B4A8F9/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia oklahomensis; #=GS A0A1B4A8F9/45-364 DR EC; 3.1.1.3; #=GS A0A088X4H2/45-364 AC A0A088X4H2 #=GS A0A088X4H2/45-364 OS Burkholderia oklahomensis #=GS A0A088X4H2/45-364 DE Lipase #=GS A0A088X4H2/45-364 DR GENE3D; b694f96718ef792f5390324255ed55b0/45-364; #=GS A0A088X4H2/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia oklahomensis; #=GS A0A088X4H2/45-364 DR EC; 3.1.1.3; #=GS B3GVV9/25-309 AC B3GVV9 #=GS B3GVV9/25-309 OS Pseudomonas sp. 42A2 #=GS B3GVV9/25-309 DE Triacylglycerol lipase C #=GS B3GVV9/25-309 DR GENE3D; bd80e9712d0f0262389f9c760b9e5173/25-309; #=GS B3GVV9/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 42A2; #=GS B3GVV9/25-309 DR EC; 3.1.1.3; #=GS A0A0E1W4R4/36-355 AC A0A0E1W4R4 #=GS A0A0E1W4R4/36-355 OS Burkholderia pseudomallei 1710a #=GS A0A0E1W4R4/36-355 DE Triacylglycerol lipase #=GS A0A0E1W4R4/36-355 DR GENE3D; be19eaf0282142b4aae5f6c8b93e2c14/36-355; #=GS A0A0E1W4R4/36-355 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A0E1W4R4/36-355 DR EC; 3.1.1.3; #=GS A8ENY2/36-355 AC A8ENY2 #=GS A8ENY2/36-355 OS Burkholderia pseudomallei 406e #=GS A8ENY2/36-355 DE Lipase #=GS A8ENY2/36-355 DR GENE3D; be19eaf0282142b4aae5f6c8b93e2c14/36-355; #=GS A8ENY2/36-355 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A8ENY2/36-355 DR EC; 3.1.1.3; #=GS A0A0E1SMB7/36-355 AC A0A0E1SMB7 #=GS A0A0E1SMB7/36-355 OS Burkholderia pseudomallei 305 #=GS A0A0E1SMB7/36-355 DE Lipase #=GS A0A0E1SMB7/36-355 DR GENE3D; be19eaf0282142b4aae5f6c8b93e2c14/36-355; #=GS A0A0E1SMB7/36-355 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A0E1SMB7/36-355 DR EC; 3.1.1.3; #=GS A0A0E1UMI4/36-355 AC A0A0E1UMI4 #=GS A0A0E1UMI4/36-355 OS Burkholderia pseudomallei Pakistan 9 #=GS A0A0E1UMI4/36-355 DE Triacylglycerol lipase #=GS A0A0E1UMI4/36-355 DR GENE3D; be19eaf0282142b4aae5f6c8b93e2c14/36-355; #=GS A0A0E1UMI4/36-355 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A0E1UMI4/36-355 DR EC; 3.1.1.3; #=GS Q9EV86/5-292 AC Q9EV86 #=GS Q9EV86/5-292 OS Pseudomonas fragi #=GS Q9EV86/5-292 DE Lipase #=GS Q9EV86/5-292 DR GENE3D; bfa8e31a03da3d91c3fe77b758e6d44b/5-292; #=GS Q9EV86/5-292 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas chlororaphis group; Pseudomonas fragi; #=GS Q9EV86/5-292 DR EC; 3.1.1.3; #=GS A0A137S9A2/30-313 AC A0A137S9A2 #=GS A0A137S9A2/30-313 OS Moritella sp. JT01 #=GS A0A137S9A2/30-313 DE Lipase #=GS A0A137S9A2/30-313 DR GENE3D; c98d65021ca1bdca39d8367b04d8b03c/30-313; #=GS A0A137S9A2/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Moritellaceae; Moritella; Moritella sp. JT01; #=GS A0A137S9A2/30-313 DR EC; 3.1.1.3; #=GS G8I0B5/29-311 AC G8I0B5 #=GS G8I0B5/29-311 OS Pseudomonas stutzeri #=GS G8I0B5/29-311 DE Lactonizing lipase #=GS G8I0B5/29-311 DR GENE3D; ca74f6facd2701cc482f6a6579cc2329/29-311; #=GS G8I0B5/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS G8I0B5/29-311 DR EC; 3.1.1.3; #=GS A0A0D6RYW9/27-310 AC A0A0D6RYW9 #=GS A0A0D6RYW9/27-310 OS Pseudomonas sp. FeS53a #=GS A0A0D6RYW9/27-310 DE Lipase #=GS A0A0D6RYW9/27-310 DR GENE3D; cc104f9cdba362db6992d30f93bcdfd2/27-310; #=GS A0A0D6RYW9/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. FeS53a; #=GS A0A0D6RYW9/27-310 DR EC; 3.1.1.3; #=GS A0A0A8RD86/27-311 AC A0A0A8RD86 #=GS A0A0A8RD86/27-311 OS Pseudomonas aeruginosa #=GS A0A0A8RD86/27-311 DE Lactonizing lipase #=GS A0A0A8RD86/27-311 DR GENE3D; cde279ecaf2b2bcc522ef71e957e3d43/27-311; #=GS A0A0A8RD86/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0A8RD86/27-311 DR EC; 3.1.1.3; #=GS B1SYQ6/45-364 AC B1SYQ6 #=GS B1SYQ6/45-364 OS Burkholderia ambifaria MEX-5 #=GS B1SYQ6/45-364 DE Triacylglycerol lipase #=GS B1SYQ6/45-364 DR GENE3D; cea23afbb256cb32a7eac35952a97170/45-364; #=GS B1SYQ6/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia ambifaria; #=GS B1SYQ6/45-364 DR EC; 3.1.1.3; #=GS A4JM54/45-364 AC A4JM54 #=GS A4JM54/45-364 OS Burkholderia vietnamiensis G4 #=GS A4JM54/45-364 DE Triacylglycerol lipase #=GS A4JM54/45-364 DR GENE3D; d0191fbb2ff5400907290675cd5d3335/45-364; #=GS A4JM54/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia vietnamiensis; #=GS A4JM54/45-364 DR EC; 3.1.1.3; #=GS F0Q4B9/37-318 AC F0Q4B9 #=GS F0Q4B9/37-318 OS Acidovorax avenae subsp. avenae ATCC 19860 #=GS F0Q4B9/37-318 DE Triacylglycerol lipase #=GS F0Q4B9/37-318 DR GENE3D; d2abc09c4398054930966f158728e1cf/37-318; #=GS F0Q4B9/37-318 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax avenae; Acidovorax avenae subsp. avenae; #=GS F0Q4B9/37-318 DR EC; 3.1.1.3; #=GS A0A0D5VJA8/47-364 AC A0A0D5VJA8 #=GS A0A0D5VJA8/47-364 OS Paraburkholderia fungorum #=GS A0A0D5VJA8/47-364 DE Lipase #=GS A0A0D5VJA8/47-364 DR GENE3D; d55dee8849adb67dbc1e295b98bcc116/47-364; #=GS A0A0D5VJA8/47-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Paraburkholderia; Paraburkholderia fungorum; #=GS A0A0D5VJA8/47-364 DR EC; 3.1.1.3; #=GS A0A118PP51/45-364 AC A0A118PP51 #=GS A0A118PP51/45-364 OS Burkholderia sp. MSMB1552 #=GS A0A118PP51/45-364 DE Alpha/beta hydrolase #=GS A0A118PP51/45-364 DR GENE3D; d9e7b6669e09277dffe9e733b60eaa01/45-364; #=GS A0A118PP51/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia sp. MSMB1552; #=GS A0A118PP51/45-364 DR EC; 3.1.1.3; #=GS A0A0D5L5M7/45-364 AC A0A0D5L5M7 #=GS A0A0D5L5M7/45-364 OS Burkholderia sp. 2002721687 #=GS A0A0D5L5M7/45-364 DE Lipase #=GS A0A0D5L5M7/45-364 DR GENE3D; d9e7b6669e09277dffe9e733b60eaa01/45-364; #=GS A0A0D5L5M7/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. 2002721687; #=GS A0A0D5L5M7/45-364 DR EC; 3.1.1.3; #=GS A0A0H2ZI71/25-309 AC A0A0H2ZI71 #=GS A0A0H2ZI71/25-309 OS Pseudomonas aeruginosa UCBPP-PA14 #=GS A0A0H2ZI71/25-309 DE Lipase LipC #=GS A0A0H2ZI71/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS A0A0H2ZI71/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0H2ZI71/25-309 DR EC; 3.1.1.3; #=GS A0A157U255/25-309 AC A0A157U255 #=GS A0A157U255/25-309 OS Enterobacter cloacae #=GS A0A157U255/25-309 DE Lactonizing lipase #=GS A0A157U255/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS A0A157U255/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; #=GS A0A157U255/25-309 DR EC; 3.1.1.3; #=GS A0A0H3QQA9/25-309 AC A0A0H3QQA9 #=GS A0A0H3QQA9/25-309 OS Pseudomonas aeruginosa str. Stone 130 #=GS A0A0H3QQA9/25-309 DE Uncharacterized protein #=GS A0A0H3QQA9/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS A0A0H3QQA9/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0H3QQA9/25-309 DR EC; 3.1.1.3; #=GS W1MSM0/25-309 AC W1MSM0 #=GS W1MSM0/25-309 OS Pseudomonas aeruginosa VRFPA03 #=GS W1MSM0/25-309 DE Lactonizing lipase #=GS W1MSM0/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS W1MSM0/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS W1MSM0/25-309 DR EC; 3.1.1.3; #=GS A0A1F0I900/25-309 AC A0A1F0I900 #=GS A0A1F0I900/25-309 OS Pseudomonas sp. HMSC065H01 #=GS A0A1F0I900/25-309 DE Lipase #=GS A0A1F0I900/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS A0A1F0I900/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. HMSC065H01; #=GS A0A1F0I900/25-309 DR EC; 3.1.1.3; #=GS A0A1G5K328/25-309 AC A0A1G5K328 #=GS A0A1G5K328/25-309 OS Acinetobacter baumannii #=GS A0A1G5K328/25-309 DE Lactonizing lipase #=GS A0A1G5K328/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS A0A1G5K328/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter calcoaceticus/baumannii complex; Acinetobacter baumannii; #=GS A0A1G5K328/25-309 DR EC; 3.1.1.3; #=GS P72172/25-309 AC P72172 #=GS P72172/25-309 OS Pseudomonas aeruginosa #=GS P72172/25-309 DE Lactonizing lipase #=GS P72172/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS P72172/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS P72172/25-309 DR EC; 3.1.1.3; #=GS A0A1D5BTX1/25-309 AC A0A1D5BTX1 #=GS A0A1D5BTX1/25-309 OS Pseudomonas sp. P179 #=GS A0A1D5BTX1/25-309 DE Uncharacterized protein #=GS A0A1D5BTX1/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS A0A1D5BTX1/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. P179; #=GS A0A1D5BTX1/25-309 DR EC; 3.1.1.3; #=GS A0A0P1DHK6/25-309 AC A0A0P1DHK6 #=GS A0A0P1DHK6/25-309 OS Pseudomonas aeruginosa DK1 #=GS A0A0P1DHK6/25-309 DE Lactonizing lipase #=GS A0A0P1DHK6/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS A0A0P1DHK6/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0P1DHK6/25-309 DR EC; 3.1.1.3; #=GS V6AMJ5/25-309 AC V6AMJ5 #=GS V6AMJ5/25-309 OS Pseudomonas aeruginosa MH27 #=GS V6AMJ5/25-309 DE Lactonizing lipase #=GS V6AMJ5/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS V6AMJ5/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS V6AMJ5/25-309 DR EC; 3.1.1.3; #=GS A0A0E1B512/25-309 AC A0A0E1B512 #=GS A0A0E1B512/25-309 OS Pseudomonas aeruginosa MTB-1 #=GS A0A0E1B512/25-309 DE Lactonizing lipase #=GS A0A0E1B512/25-309 DR GENE3D; dcfede94b1d3f1e218f227e2e1f64987/25-309; #=GS A0A0E1B512/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0E1B512/25-309 DR EC; 3.1.1.3; #=GS H2D5P3/31-359 AC H2D5P3 #=GS H2D5P3/31-359 OS uncultured bacterium #=GS H2D5P3/31-359 DE Alkaline lipase #=GS H2D5P3/31-359 DR GENE3D; dd3a61019247074a718567837b2559fc/31-359; #=GS H2D5P3/31-359 DR ORG; Bacteria; uncultured bacterium; #=GS H2D5P3/31-359 DR EC; 3.1.1.1; #=GS A6B1H2/26-309 AC A6B1H2 #=GS A6B1H2/26-309 OS Vibrio parahaemolyticus AQ3810 #=GS A6B1H2/26-309 DE Lipase #=GS A6B1H2/26-309 DR GENE3D; de844c97755ccfc1b9372642d4c94aa8/26-309; #=GS A6B1H2/26-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; #=GS A6B1H2/26-309 DR EC; 3.1.1.3; #=GS A0A0E1TV50/36-355 AC A0A0E1TV50 #=GS A0A0E1TV50/36-355 OS Burkholderia pseudomallei 576 #=GS A0A0E1TV50/36-355 DE Triacylglycerol lipase #=GS A0A0E1TV50/36-355 DR GENE3D; ded5eff7df337cc673b02f5b2b66ea6c/36-355; #=GS A0A0E1TV50/36-355 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A0A0E1TV50/36-355 DR EC; 3.1.1.3; #=GS B1H807/36-355 AC B1H807 #=GS B1H807/36-355 OS Burkholderia pseudomallei S13 #=GS B1H807/36-355 DE Lipase #=GS B1H807/36-355 DR GENE3D; ded5eff7df337cc673b02f5b2b66ea6c/36-355; #=GS B1H807/36-355 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS B1H807/36-355 DR EC; 3.1.1.3; #=GS C4I862/36-355 AC C4I862 #=GS C4I862/36-355 OS Burkholderia pseudomallei MSHR346 #=GS C4I862/36-355 DE Lipase (Triacylglycerol lipase) #=GS C4I862/36-355 DR GENE3D; ded5eff7df337cc673b02f5b2b66ea6c/36-355; #=GS C4I862/36-355 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS C4I862/36-355 DR EC; 3.1.1.3; #=GS Q45VN4/45-359 AC Q45VN4 #=GS Q45VN4/45-359 OS Burkholderia multivorans #=GS Q45VN4/45-359 DE LipA #=GS Q45VN4/45-359 DR GENE3D; df3edc8fed6a37b373fb71f3e9f44f43/45-359; #=GS Q45VN4/45-359 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia multivorans; #=GS Q45VN4/45-359 DR EC; 3.1.1.3; #=GS A0A088TR33/46-364 AC A0A088TR33 #=GS A0A088TR33/46-364 OS Burkholderia cepacia ATCC 25416 #=GS A0A088TR33/46-364 DE Lipoyl synthase #=GS A0A088TR33/46-364 DR GENE3D; dfa7274930a9a754fa63d735ee4646f0/46-364; #=GS A0A088TR33/46-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS A0A088TR33/46-364 DR EC; 3.1.1.3; #=GS Q6B4I1/46-364 AC Q6B4I1 #=GS Q6B4I1/46-364 OS Burkholderia cepacia #=GS Q6B4I1/46-364 DE Triacylglycerol lipase #=GS Q6B4I1/46-364 DR GENE3D; dfa7274930a9a754fa63d735ee4646f0/46-364; #=GS Q6B4I1/46-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS Q6B4I1/46-364 DR EC; 3.1.1.3; #=GS A0A1L9L5U9/20-301 AC A0A1L9L5U9 #=GS A0A1L9L5U9/20-301 OS Vibrio vulnificus #=GS A0A1L9L5U9/20-301 DE Lactonizing lipase #=GS A0A1L9L5U9/20-301 DR GENE3D; dffa9341061b23eb6db8d4c390018023/20-301; #=GS A0A1L9L5U9/20-301 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; #=GS A0A1L9L5U9/20-301 DR EC; 3.1.1.3; #=GS A0A1L9KX00/20-301 AC A0A1L9KX00 #=GS A0A1L9KX00/20-301 OS Vibrio fluvialis #=GS A0A1L9KX00/20-301 DE Lactonizing lipase #=GS A0A1L9KX00/20-301 DR GENE3D; dffa9341061b23eb6db8d4c390018023/20-301; #=GS A0A1L9KX00/20-301 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fluvialis; #=GS A0A1L9KX00/20-301 DR EC; 3.1.1.3; #=GS A0A0S2FLX2/30-314 AC A0A0S2FLX2 #=GS A0A0S2FLX2/30-314 OS Lysobacter capsici #=GS A0A0S2FLX2/30-314 DE Lactonizing lipase #=GS A0A0S2FLX2/30-314 DR GENE3D; dffcc3d4da238f8230f7ac3e625020a6/30-314; #=GS A0A0S2FLX2/30-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter capsici; #=GS A0A0S2FLX2/30-314 DR EC; 3.1.1.3; #=GS A0A090RYP2/26-310 AC A0A090RYP2 #=GS A0A090RYP2/26-310 OS Vibrio maritimus #=GS A0A090RYP2/26-310 DE Lipase #=GS A0A090RYP2/26-310 DR GENE3D; e172903e8b54bc1c6af4c07906037bc7/26-310; #=GS A0A090RYP2/26-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio maritimus; #=GS A0A090RYP2/26-310 DR EC; 3.1.1.3; #=GS A0A1J0ITI5/27-311 AC A0A1J0ITI5 #=GS A0A1J0ITI5/27-311 OS Pseudomonas aeruginosa #=GS A0A1J0ITI5/27-311 DE Lactonizing lipase #=GS A0A1J0ITI5/27-311 DR GENE3D; e1ee9548b6a94cbe3cdd0d72c7ac4403/27-311; #=GS A0A1J0ITI5/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A1J0ITI5/27-311 DR EC; 3.1.1.3; #=GS C9P528/27-311 AC C9P528 #=GS C9P528/27-311 OS Vibrio metschnikovii CIP 69.14 #=GS C9P528/27-311 DE Lipase #=GS C9P528/27-311 DR GENE3D; e643c60b785dca0e914c01744968cb21/27-311; #=GS C9P528/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio metschnikovii; #=GS C9P528/27-311 DR EC; 3.1.1.3; #=GS O68551/41-360 AC O68551 #=GS O68551/41-360 OS Pseudomonas luteola #=GS O68551/41-360 DE Triacylglycerol lipase #=GS O68551/41-360 DR GENE3D; e755bb0efc5c23cae874bc6e08df482a/41-360; #=GS O68551/41-360 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas luteola; #=GS O68551/41-360 DR EC; 3.1.1.3; #=GS A0A0T7D2V3/30-313 AC A0A0T7D2V3 #=GS A0A0T7D2V3/30-313 OS Vibrio sp. J2-4 #=GS A0A0T7D2V3/30-313 DE Lipase #=GS A0A0T7D2V3/30-313 DR GENE3D; ea89f67ed3dce1e52e3cf9145e5621e7/30-313; #=GS A0A0T7D2V3/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. J2-4; #=GS A0A0T7D2V3/30-313 DR EC; 3.1.1.3; #=GS Q0BAH5/45-364 AC Q0BAH5 #=GS Q0BAH5/45-364 OS Burkholderia ambifaria AMMD #=GS Q0BAH5/45-364 DE Triacylglycerol lipase #=GS Q0BAH5/45-364 DR GENE3D; ed19cfa3dfb9aa0bf2babbead3d49a44/45-364; #=GS Q0BAH5/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia ambifaria; #=GS Q0BAH5/45-364 DR EC; 3.1.1.3; #=GS Z2F0N9/26-309 AC Z2F0N9 #=GS Z2F0N9/26-309 OS Vibrio parahaemolyticus V-223/04 #=GS Z2F0N9/26-309 DE Lactonizing lipase #=GS Z2F0N9/26-309 DR GENE3D; eec869e9c579a89e082f594724509af4/26-309; #=GS Z2F0N9/26-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; #=GS Z2F0N9/26-309 DR EC; 3.1.1.3; #=GS A0A1J0JZY1/26-309 AC A0A1J0JZY1 #=GS A0A1J0JZY1/26-309 OS Vibrio parahaemolyticus #=GS A0A1J0JZY1/26-309 DE Lipase #=GS A0A1J0JZY1/26-309 DR GENE3D; eec869e9c579a89e082f594724509af4/26-309; #=GS A0A1J0JZY1/26-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; #=GS A0A1J0JZY1/26-309 DR EC; 3.1.1.3; #=GS A0A0U2QQQ4/45-364 AC A0A0U2QQQ4 #=GS A0A0U2QQQ4/45-364 OS Burkholderia ubonensis #=GS A0A0U2QQQ4/45-364 DE Lipase #=GS A0A0U2QQQ4/45-364 DR GENE3D; ef3f1989f2ebba321ed1ea5032371591/45-364; #=GS A0A0U2QQQ4/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia ubonensis; #=GS A0A0U2QQQ4/45-364 DR EC; 3.1.1.3; #=GS Q8RKT7/29-311 AC Q8RKT7 #=GS Q8RKT7/29-311 OS Pseudomonas mendocina #=GS Q8RKT7/29-311 DE LipA #=GS Q8RKT7/29-311 DR GENE3D; f42db2214244e60891bbcecdf45482df/29-311; #=GS Q8RKT7/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas mendocina; #=GS Q8RKT7/29-311 DR EC; 3.1.1.3; #=GS A0A0M2WUR8/29-302 AC A0A0M2WUR8 #=GS A0A0M2WUR8/29-302 OS Janthinobacterium sp. KBS0711 #=GS A0A0M2WUR8/29-302 DE Lactonizing lipase #=GS A0A0M2WUR8/29-302 DR GENE3D; f7f531aa42dd2898d6c4309fdf197c43/29-302; #=GS A0A0M2WUR8/29-302 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium sp. KBS0711; #=GS A0A0M2WUR8/29-302 DR EC; 3.1.1.3; #=GS A3NMC8/41-360 AC A3NMC8 #=GS A3NMC8/41-360 OS Burkholderia pseudomallei 668 #=GS A3NMC8/41-360 DE Triacylglycerol lipase #=GS A3NMC8/41-360 DR GENE3D; f8f7ff0f7ce23a4fc343675dde1e4181/41-360; #=GS A3NMC8/41-360 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A3NMC8/41-360 DR EC; 3.1.1.3; #=GS A3P7T9/41-360 AC A3P7T9 #=GS A3P7T9/41-360 OS Burkholderia pseudomallei 1106a #=GS A3P7T9/41-360 DE Lipase #=GS A3P7T9/41-360 DR GENE3D; f8f7ff0f7ce23a4fc343675dde1e4181/41-360; #=GS A3P7T9/41-360 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS A3P7T9/41-360 DR EC; 3.1.1.3; #=GS A0A068FJV4/29-311 AC A0A068FJV4 #=GS A0A068FJV4/29-311 OS Pseudomonas stutzeri #=GS A0A068FJV4/29-311 DE Lipase #=GS A0A068FJV4/29-311 DR GENE3D; feee737cf03cb3b61488f05e500eb82e/29-311; #=GS A0A068FJV4/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS A0A068FJV4/29-311 DR EC; 3.1.1.3; #=GS A0A0E3JN96/29-311 AC A0A0E3JN96 #=GS A0A0E3JN96/29-311 OS uncultured Pseudomonas sp. #=GS A0A0E3JN96/29-311 DE Lipase #=GS A0A0E3JN96/29-311 DR GENE3D; feee737cf03cb3b61488f05e500eb82e/29-311; #=GS A0A0E3JN96/29-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; uncultured Pseudomonas sp.; #=GS A0A0E3JN96/29-311 DR EC; 3.1.1.3; #=GS A0A1A7USD8/27-310 AC A0A1A7USD8 #=GS A0A1A7USD8/27-310 OS Vibrio mediterranei #=GS A0A1A7USD8/27-310 DE Lactonizing lipase #=GS A0A1A7USD8/27-310 DR GENE3D; ffd0c108d1ae5c5aa35366b293cecd3c/27-310; #=GS A0A1A7USD8/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio mediterranei; #=GS A0A1A7USD8/27-310 DR EC; 3.1.1.3; #=GS A0A084TCY6/27-310 AC A0A084TCY6 #=GS A0A084TCY6/27-310 OS Vibrio sp. ER1A #=GS A0A084TCY6/27-310 DE Lactonizing lipase #=GS A0A084TCY6/27-310 DR GENE3D; ffd0c108d1ae5c5aa35366b293cecd3c/27-310; #=GS A0A084TCY6/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. ER1A; #=GS A0A084TCY6/27-310 DR EC; 3.1.1.3; #=GS P08658/5-275 AC P08658 #=GS P08658/5-275 OS Pseudomonas fragi #=GS P08658/5-275 DE Lipase #=GS P08658/5-275 DR GENE3D; d82b2159be254bb87562d842a93b3f28/5-275; #=GS P08658/5-275 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas chlororaphis group; Pseudomonas fragi; #=GS P08658/5-275 DR EC; 3.1.1.3; #=GS Q9HUZ7/25-309 AC Q9HUZ7 #=GS Q9HUZ7/25-309 OS Pseudomonas aeruginosa PAO1 #=GS Q9HUZ7/25-309 DE Lipase LipC #=GS Q9HUZ7/25-309 DR GENE3D; d5f0ed18b65dc7117d7e99e91a26cc3c/25-309; #=GS Q9HUZ7/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS Q9HUZ7/25-309 DR GO; GO:0015628; GO:0016298; GO:0043952; #=GS U3H9P2/27-310 AC U3H9P2 #=GS U3H9P2/27-310 OS Pseudomonas alcaligenes OT 69 #=GS U3H9P2/27-310 DE Lactonizing lipase #=GS U3H9P2/27-310 DR GENE3D; 02fa172cb54c77a226b764459ce3a095/27-310; #=GS U3H9P2/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas alcaligenes; #=GS A0A0B3BPM8/33-318 AC A0A0B3BPM8 #=GS A0A0B3BPM8/33-318 OS Pseudomonas flexibilis #=GS A0A0B3BPM8/33-318 DE Lactonizing lipase #=GS A0A0B3BPM8/33-318 DR GENE3D; 05ffcd33a9da013f572397fd10069314/33-318; #=GS A0A0B3BPM8/33-318 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas flexibilis; #=GS A0A0C2BH86/27-310 AC A0A0C2BH86 #=GS A0A0C2BH86/27-310 OS Herbaspirillum sp. TSA66 #=GS A0A0C2BH86/27-310 DE Lactonizing lipase #=GS A0A0C2BH86/27-310 DR GENE3D; 070bccdddfde5bd7bfda69c3b19bbae7/27-310; #=GS A0A0C2BH86/27-310 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Herbaspirillum; Herbaspirillum sp. TSA66; #=GS A0A0T6UNV8/28-314 AC A0A0T6UNV8 #=GS A0A0T6UNV8/28-314 OS Pseudomonas sp. TTU2014-080ASC #=GS A0A0T6UNV8/28-314 DE Lipase #=GS A0A0T6UNV8/28-314 DR GENE3D; 08f1bc5ab4e89625c204251f3300ced6/28-314; #=GS A0A0T6UNV8/28-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. TTU2014-080ASC; #=GS A0A0L7YWL3/30-313 AC A0A0L7YWL3 #=GS A0A0L7YWL3/30-313 OS Vibrio alginolyticus #=GS A0A0L7YWL3/30-313 DE Lactonizing lipase #=GS A0A0L7YWL3/30-313 DR GENE3D; 0a625f3e75c1b2620a8750833aba0004/30-313; #=GS A0A0L7YWL3/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio alginolyticus; #=GS R1HA44/20-303 AC R1HA44 #=GS R1HA44/20-303 OS Aeromonas molluscorum 848 #=GS R1HA44/20-303 DE Lipase #=GS R1HA44/20-303 DR GENE3D; 0b8422ffd930d2e3c8c3fdcf114e65b0/20-303; #=GS R1HA44/20-303 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas molluscorum; #=GS J1ENC2/32-313 AC J1ENC2 #=GS J1ENC2/32-313 OS Acidovorax sp. CF316 #=GS J1ENC2/32-313 DE Putative acetyltransferase/hydrolase with alpha/beta hydrolase #=GS J1ENC2/32-313 DR GENE3D; 0bca531b30bcd2aad3b1a0a28c5ae4b6/32-313; #=GS J1ENC2/32-313 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax sp. CF316; #=GS A0A1M3J7Q7/26-306 AC A0A1M3J7Q7 #=GS A0A1M3J7Q7/26-306 OS Burkholderiales bacterium 68-20 #=GS A0A1M3J7Q7/26-306 DE Lipase #=GS A0A1M3J7Q7/26-306 DR GENE3D; 0bd4ca7368c9aa8093313d767f35583c/26-306; #=GS A0A1M3J7Q7/26-306 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium 68-20; #=GS A0A1E4LZC2/26-306 AC A0A1E4LZC2 #=GS A0A1E4LZC2/26-306 OS Comamonadaceae bacterium SCN 68-20 #=GS A0A1E4LZC2/26-306 DE Lipase #=GS A0A1E4LZC2/26-306 DR GENE3D; 0bd4ca7368c9aa8093313d767f35583c/26-306; #=GS A0A1E4LZC2/26-306 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonadaceae bacterium SCN 68-20; #=GS A0A1A9N6N1/47-364 AC A0A1A9N6N1 #=GS A0A1A9N6N1/47-364 OS Paraburkholderia ginsengiterrae #=GS A0A1A9N6N1/47-364 DE Alpha/beta hydrolase #=GS A0A1A9N6N1/47-364 DR GENE3D; 0d3baa1d5b278fd05b4dd39ffb9a48da/47-364; #=GS A0A1A9N6N1/47-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Paraburkholderia; Paraburkholderia ginsengiterrae; #=GS A0A0A5I163/27-310 AC A0A0A5I163 #=GS A0A0A5I163/27-310 OS Vibrio sinaloensis #=GS A0A0A5I163/27-310 DE Lactonizing lipase #=GS A0A0A5I163/27-310 DR GENE3D; 1469aca98dbe3b2309b8d14c5f143203/27-310; #=GS A0A0A5I163/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio sinaloensis; #=GS F2LNF6/40-358 AC F2LNF6 #=GS F2LNF6/40-358 OS Burkholderia gladioli BSR3 #=GS F2LNF6/40-358 DE Triacylglycerol lipase #=GS F2LNF6/40-358 DR GENE3D; 177a5c7148a0e21892389a0df31c0554/40-358; #=GS F2LNF6/40-358 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia gladioli; #=GS A0A120IHU0/20-302 AC A0A120IHU0 #=GS A0A120IHU0/20-302 OS Janthinobacterium sp. B9-8 #=GS A0A120IHU0/20-302 DE Lipase #=GS A0A120IHU0/20-302 DR GENE3D; 1783c43551de7fe91a76dabe38e85432/20-302; #=GS A0A120IHU0/20-302 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium sp. B9-8; #=GS S6AKE8/30-314 AC S6AKE8 #=GS S6AKE8/30-314 OS Pseudomonas resinovorans NBRC 106553 #=GS S6AKE8/30-314 DE Lipase #=GS S6AKE8/30-314 DR GENE3D; 1aa26ae7932d3d5d45a5bc56ff27cace/30-314; #=GS S6AKE8/30-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas resinovorans; #=GS A0A104NQZ3/45-364 AC A0A104NQZ3 #=GS A0A104NQZ3/45-364 OS Burkholderia pyrrocinia #=GS A0A104NQZ3/45-364 DE Alpha/beta hydrolase #=GS A0A104NQZ3/45-364 DR GENE3D; 1d384b8c40ee915ef92a6e9c8c88a0db/45-364; #=GS A0A104NQZ3/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia pyrrocinia; #=GS Q1N359/30-312 AC Q1N359 #=GS Q1N359/30-312 OS Bermanella marisrubri #=GS Q1N359/30-312 DE Lactonizing lipase #=GS Q1N359/30-312 DR GENE3D; 241d1bc76cd8a27fad8244c8cf0707a5/30-312; #=GS Q1N359/30-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Bermanella; Bermanella marisrubri; #=GS A0A0N1EDM3/23-306 AC A0A0N1EDM3 #=GS A0A0N1EDM3/23-306 OS Pseudoalteromonas porphyrae #=GS A0A0N1EDM3/23-306 DE Lipase #=GS A0A0N1EDM3/23-306 DR GENE3D; 24cd2d84e31f40d43ca4e0ca0e146488/23-306; #=GS A0A0N1EDM3/23-306 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas porphyrae; #=GS F0LXT6/30-312 AC F0LXT6 #=GS F0LXT6/30-312 OS Vibrio furnissii NCTC 11218 #=GS F0LXT6/30-312 DE Lipase #=GS F0LXT6/30-312 DR GENE3D; 27dd02e99187cbe642bc90aa03c5d12f/30-312; #=GS F0LXT6/30-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio furnissii; #=GS I4JIG4/26-308 AC I4JIG4 #=GS I4JIG4/26-308 OS Pseudomonas stutzeri TS44 #=GS I4JIG4/26-308 DE Lipase LipC #=GS I4JIG4/26-308 DR GENE3D; 2e808993455d4f8529cf2c7efb0e02b9/26-308; #=GS I4JIG4/26-308 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS A0A1F4JRI0/27-310 AC A0A1F4JRI0 #=GS A0A1F4JRI0/27-310 OS Burkholderiales bacterium RIFCSPLOWO2_02_FULL_57_36 #=GS A0A1F4JRI0/27-310 DE Lipase #=GS A0A1F4JRI0/27-310 DR GENE3D; 2f2b157a5e0e58763e8546adf61819f3/27-310; #=GS A0A1F4JRI0/27-310 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium RIFCSPLOWO2_02_FULL_57_36; #=GS A0A0J6NL45/26-309 AC A0A0J6NL45 #=GS A0A0J6NL45/26-309 OS Chromobacterium sp. LK11 #=GS A0A0J6NL45/26-309 DE Lactonizing lipase #=GS A0A0J6NL45/26-309 DR GENE3D; 311eceb874ffae7c70b31deb4c004f46/26-309; #=GS A0A0J6NL45/26-309 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Chromobacteriaceae; Chromobacterium; Chromobacterium sp. LK11; #=GS A0A0P9AA70/39-318 AC A0A0P9AA70 #=GS A0A0P9AA70/39-318 OS Variovorax paradoxus #=GS A0A0P9AA70/39-318 DE Lipase #=GS A0A0P9AA70/39-318 DR GENE3D; 3728b3f904ab779bf64f28ddfe20f623/39-318; #=GS A0A0P9AA70/39-318 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Variovorax; Variovorax paradoxus; #=GS A0A0B1YP13/45-364 AC A0A0B1YP13 #=GS A0A0B1YP13/45-364 OS Burkholderia sp. A9 #=GS A0A0B1YP13/45-364 DE Alpha/beta hydrolase #=GS A0A0B1YP13/45-364 DR GENE3D; 3a013fdc7da35625cb8ad2e1267b0827/45-364; #=GS A0A0B1YP13/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. A9; #=GS M1H0U7/23-306 AC M1H0U7 #=GS M1H0U7/23-306 OS uncultured bacterium #=GS M1H0U7/23-306 DE Lipase #=GS M1H0U7/23-306 DR GENE3D; 3b0466505e00e3df62d7af2ae4bc1e9a/23-306; #=GS M1H0U7/23-306 DR ORG; Bacteria; uncultured bacterium; #=GS L8JBA0/30-313 AC L8JBA0 #=GS L8JBA0/30-313 OS Photobacterium marinum #=GS L8JBA0/30-313 DE Lipase #=GS L8JBA0/30-313 DR GENE3D; 3fae8f8eddf112439433c469640dd3b7/30-313; #=GS L8JBA0/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium marinum; #=GS A0A0L8SLI4/26-309 AC A0A0L8SLI4 #=GS A0A0L8SLI4/26-309 OS Vibrio parahaemolyticus #=GS A0A0L8SLI4/26-309 DE Lactonizing lipase #=GS A0A0L8SLI4/26-309 DR GENE3D; 42412063939db7b44e32b5159de5150e/26-309; #=GS A0A0L8SLI4/26-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; #=GS Q87QG8/26-309 AC Q87QG8 #=GS Q87QG8/26-309 OS Vibrio parahaemolyticus RIMD 2210633 #=GS Q87QG8/26-309 DE Lactonizing lipase #=GS Q87QG8/26-309 DR GENE3D; 42412063939db7b44e32b5159de5150e/26-309; #=GS Q87QG8/26-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; #=GS A0A0F6LRJ6/26-309 AC A0A0F6LRJ6 #=GS A0A0F6LRJ6/26-309 OS Vibrio parahaemolyticus 863 #=GS A0A0F6LRJ6/26-309 DE Lactonizing lipase #=GS A0A0F6LRJ6/26-309 DR GENE3D; 42412063939db7b44e32b5159de5150e/26-309; #=GS A0A0F6LRJ6/26-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; #=GS W8QX89/30-313 AC W8QX89 #=GS W8QX89/30-313 OS Pseudomonas stutzeri #=GS W8QX89/30-313 DE Lactonizing lipase #=GS W8QX89/30-313 DR GENE3D; 4694aae0e356f3aba8bae6084e6812f9/30-313; #=GS W8QX89/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS A0A1E5C8D4/30-313 AC A0A1E5C8D4 #=GS A0A1E5C8D4/30-313 OS Enterovibrio norvegicus FF-454 #=GS A0A1E5C8D4/30-313 DE Lipase #=GS A0A1E5C8D4/30-313 DR GENE3D; 46c8a422e52d218bf94a68196db49b1c/30-313; #=GS A0A1E5C8D4/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Enterovibrio; Enterovibrio norvegicus; #=GS A6CWS4/27-310 AC A6CWS4 #=GS A6CWS4/27-310 OS Vibrio shilonii AK1 #=GS A6CWS4/27-310 DE Putative lactonizing lipase #=GS A6CWS4/27-310 DR GENE3D; 4722630695580c01389fd67f87ec8d50/27-310; #=GS A6CWS4/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio shilonii; #=GS A0A1K1TB52/51-370 AC A0A1K1TB52 #=GS A0A1K1TB52/51-370 OS Burkholderia sp. WP40 #=GS A0A1K1TB52/51-370 DE Triacylglycerol lipase #=GS A0A1K1TB52/51-370 DR GENE3D; 4822b203cc25354d758e6520275ce7e0/51-370; #=GS A0A1K1TB52/51-370 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. WP40; #=GS A0A1L6LKZ3/49-332 AC A0A1L6LKZ3 #=GS A0A1L6LKZ3/49-332 OS Minicystis rosea #=GS A0A1L6LKZ3/49-332 DE Lipase #=GS A0A1L6LKZ3/49-332 DR GENE3D; 4bf2e274942df23255421ae28e7033f7/49-332; #=GS A0A1L6LKZ3/49-332 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Sorangiineae; Minicystis; Minicystis rosea; #=GS A0A0M0IQS3/27-311 AC A0A0M0IQS3 #=GS A0A0M0IQS3/27-311 OS Vibrio xuii #=GS A0A0M0IQS3/27-311 DE Lipase #=GS A0A0M0IQS3/27-311 DR GENE3D; 4dd331e8e7f512b03b6912b0bdb92721/27-311; #=GS A0A0M0IQS3/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio xuii; #=GS A0A1E4USH8/31-315 AC A0A1E4USH8 #=GS A0A1E4USH8/31-315 OS Pseudomonas sp. 21C1 #=GS A0A1E4USH8/31-315 DE Lipase #=GS A0A1E4USH8/31-315 DR GENE3D; 4e7f91ba7f23782477b96f2e390c266b/31-315; #=GS A0A1E4USH8/31-315 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 21C1; #=GS A0A1F4LEX8/23-305 AC A0A1F4LEX8 #=GS A0A1F4LEX8/23-305 OS Burkholderiales bacterium RIFCSPLOWO2_12_FULL_65_40 #=GS A0A1F4LEX8/23-305 DE Lipase #=GS A0A1F4LEX8/23-305 DR GENE3D; 526a08ac4bfbe3591cc772a5a2658d5c/23-305; #=GS A0A1F4LEX8/23-305 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium RIFCSPLOWO2_12_FULL_65_40; #=GS F7YQZ3/30-313 AC F7YQZ3 #=GS F7YQZ3/30-313 OS Vibrio anguillarum 775 #=GS F7YQZ3/30-313 DE Lipase #=GS F7YQZ3/30-313 DR GENE3D; 54c8910f59ab34175be349f04de2dbb8/30-313; #=GS F7YQZ3/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio anguillarum; #=GS U2ZZ79/28-311 AC U2ZZ79 #=GS U2ZZ79/28-311 OS Vibrio proteolyticus NBRC 13287 #=GS U2ZZ79/28-311 DE Putative lipase #=GS U2ZZ79/28-311 DR GENE3D; 553138cc6c9b98028dc247d653debe64/28-311; #=GS U2ZZ79/28-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio proteolyticus; #=GS A0A0N0IGM0/47-364 AC A0A0N0IGM0 #=GS A0A0N0IGM0/47-364 OS Burkholderia sp. ST111 #=GS A0A0N0IGM0/47-364 DE Alpha/beta hydrolase #=GS A0A0N0IGM0/47-364 DR GENE3D; 5577a467fdcf2f2df30a7f437862bcc1/47-364; #=GS A0A0N0IGM0/47-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. ST111; #=GS A0A066RH64/30-313 AC A0A066RH64 #=GS A0A066RH64/30-313 OS Photobacterium galatheae #=GS A0A066RH64/30-313 DE Lactonizing lipase #=GS A0A066RH64/30-313 DR GENE3D; 5e21ced89c46678a5ead1d4ee045efb3/30-313; #=GS A0A066RH64/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium galatheae; #=GS Q2C961/15-298 AC Q2C961 #=GS Q2C961/15-298 OS Photobacterium sp. SKA34 #=GS Q2C961/15-298 DE Putative lactonizing lipase #=GS Q2C961/15-298 DR GENE3D; 5f11932f5034a3e2cf39b22b2d21e5a4/15-298; #=GS Q2C961/15-298 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium sp. SKA34; #=GS A0A1K2HNR7/25-308 AC A0A1K2HNR7 #=GS A0A1K2HNR7/25-308 OS Chitinimonas taiwanensis DSM 18899 #=GS A0A1K2HNR7/25-308 DE Triacylglycerol lipase #=GS A0A1K2HNR7/25-308 DR GENE3D; 61d2a2f4e4090223a73942c29228f0af/25-308; #=GS A0A1K2HNR7/25-308 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Chitinimonas; Chitinimonas taiwanensis; #=GS A0A1E5FQI2/30-313 AC A0A1E5FQI2 #=GS A0A1E5FQI2/30-313 OS Vibrio ordalii 12B09 #=GS A0A1E5FQI2/30-313 DE Lipase #=GS A0A1E5FQI2/30-313 DR GENE3D; 6592fbf543c2b14161e80afd6446b345/30-313; #=GS A0A1E5FQI2/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio ordalii; #=GS A0A0Q0Z5U6/29-312 AC A0A0Q0Z5U6 #=GS A0A0Q0Z5U6/29-312 OS Vibrio metoecus #=GS A0A0Q0Z5U6/29-312 DE Lactonizing lipase #=GS A0A0Q0Z5U6/29-312 DR GENE3D; 68da4b3bbd63fd462157ed08696ae5cc/29-312; #=GS A0A0Q0Z5U6/29-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio metoecus; #=GS A0A0C5X0I7/29-312 AC A0A0C5X0I7 #=GS A0A0C5X0I7/29-312 OS Photobacterium gaetbulicola Gung47 #=GS A0A0C5X0I7/29-312 DE Lactonizing lipase #=GS A0A0C5X0I7/29-312 DR GENE3D; 696b374ce2eb8ca9dc87b1f818b5ba8f/29-312; #=GS A0A0C5X0I7/29-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium gaetbulicola; #=GS A0A0K1EU80/54-337 AC A0A0K1EU80 #=GS A0A0K1EU80/54-337 OS Chondromyces crocatus #=GS A0A0K1EU80/54-337 DE Lactonizing lipase #=GS A0A0K1EU80/54-337 DR GENE3D; 6b811d3dd7f5a9d7705f29b3c1c3a0dd/54-337; #=GS A0A0K1EU80/54-337 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Sorangiineae; Polyangiaceae; Chondromyces; Chondromyces crocatus; #=GS A0A031MFP9/30-315 AC A0A031MFP9 #=GS A0A031MFP9/30-315 OS Pseudomonas bauzanensis #=GS A0A031MFP9/30-315 DE Lactonizing lipase #=GS A0A031MFP9/30-315 DR GENE3D; 6be4e00ffd4ac2f2aafe2ab1ff0a45f3/30-315; #=GS A0A031MFP9/30-315 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas bauzanensis; #=GS A3YAD6/31-314 AC A3YAD6 #=GS A3YAD6/31-314 OS Marinomonas sp. MED121 #=GS A3YAD6/31-314 DE Lactonizing lipase #=GS A3YAD6/31-314 DR GENE3D; 6ed1a77a362d6e60c280dd51bed31435/31-314; #=GS A3YAD6/31-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Marinomonas; Marinomonas sp. MED121; #=GS A0A0F4R1G8/31-314 AC A0A0F4R1G8 #=GS A0A0F4R1G8/31-314 OS Marinomonas sp. S3726 #=GS A0A0F4R1G8/31-314 DE Lactonizing lipase #=GS A0A0F4R1G8/31-314 DR GENE3D; 73c4014b922ec97258e2633f8ca8601d/31-314; #=GS A0A0F4R1G8/31-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Marinomonas; Marinomonas sp. S3726; #=GS E3BNL1/27-311 AC E3BNL1 #=GS E3BNL1/27-311 OS Vibrio caribbeanicus ATCC BAA-2122 #=GS E3BNL1/27-311 DE Uncharacterized protein #=GS E3BNL1/27-311 DR GENE3D; 774431e2a9fee7920e3ddd99bc13481d/27-311; #=GS E3BNL1/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio caribbeanicus; #=GS A0A1G3EB40/30-314 AC A0A1G3EB40 #=GS A0A1G3EB40/30-314 OS Pseudomonadales bacterium RIFCSPHIGHO2_02_FULL_60_43 #=GS A0A1G3EB40/30-314 DE Lipase #=GS A0A1G3EB40/30-314 DR GENE3D; 7a24b12f4421a194475b3b2bae8b9006/30-314; #=GS A0A1G3EB40/30-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadales bacterium RIFCSPHIGHO2_02_FULL_60_43; #=GS A0A098U9L6/26-308 AC A0A098U9L6 #=GS A0A098U9L6/26-308 OS Massilia sp. JS1662 #=GS A0A098U9L6/26-308 DE Lactonizing lipase #=GS A0A098U9L6/26-308 DR GENE3D; 7bb9067a1b9bdab75ab4c96cc24ff8cd/26-308; #=GS A0A098U9L6/26-308 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Massilia; Massilia sp. JS1662; #=GS A0A1F4KE96/28-312 AC A0A1F4KE96 #=GS A0A1F4KE96/28-312 OS Burkholderiales bacterium RIFCSPLOWO2_12_FULL_61_40 #=GS A0A1F4KE96/28-312 DE Lipase #=GS A0A1F4KE96/28-312 DR GENE3D; 820b718f1e2f712f193e1c3c2053ce38/28-312; #=GS A0A1F4KE96/28-312 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium RIFCSPLOWO2_12_FULL_61_40; #=GS A0A135I4S9/27-310 AC A0A135I4S9 #=GS A0A135I4S9/27-310 OS Enterovibrio coralii #=GS A0A135I4S9/27-310 DE Lipase #=GS A0A135I4S9/27-310 DR GENE3D; 853105a120088e553242c19da55dce3c/27-310; #=GS A0A135I4S9/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Enterovibrio; Enterovibrio coralii; #=GS A0A135ZHX5/30-313 AC A0A135ZHX5 #=GS A0A135ZHX5/30-313 OS Photobacterium sanguinicancri #=GS A0A135ZHX5/30-313 DE Lipase #=GS A0A135ZHX5/30-313 DR GENE3D; 8667019349338bf727fd2ce044611fdb/30-313; #=GS A0A135ZHX5/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium sanguinicancri; #=GS E8M9R9/26-310 AC E8M9R9 #=GS E8M9R9/26-310 OS Vibrio sinaloensis DSM 21326 #=GS E8M9R9/26-310 DE Uncharacterized protein #=GS E8M9R9/26-310 DR GENE3D; 88cd8397e20f7f699a278b4fd395fa5b/26-310; #=GS E8M9R9/26-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio sinaloensis; #=GS A0A158DWP5/40-359 AC A0A158DWP5 #=GS A0A158DWP5/40-359 OS Burkholderia calidae #=GS A0A158DWP5/40-359 DE Triacylglycerol lipase #=GS A0A158DWP5/40-359 DR GENE3D; 8b9a9e7f4b965c262d9433976ba7f362/40-359; #=GS A0A158DWP5/40-359 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia calidae; #=GS A0A178K9B8/30-313 AC A0A178K9B8 #=GS A0A178K9B8/30-313 OS Photobacterium jeanii #=GS A0A178K9B8/30-313 DE Lipase #=GS A0A178K9B8/30-313 DR GENE3D; 8fc6d8466b4aa49f64776058a3b7a923/30-313; #=GS A0A178K9B8/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium jeanii; #=GS A0A1M3JJE9/20-302 AC A0A1M3JJE9 #=GS A0A1M3JJE9/20-302 OS Burkholderiales bacterium 68-12 #=GS A0A1M3JJE9/20-302 DE Lipase #=GS A0A1M3JJE9/20-302 DR GENE3D; 9106fc8f862266db9027904506c339d5/20-302; #=GS A0A1M3JJE9/20-302 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium 68-12; #=GS A0A117MXT0/26-310 AC A0A117MXT0 #=GS A0A117MXT0/26-310 OS Chromobacterium violaceum #=GS A0A117MXT0/26-310 DE Lipase #=GS A0A117MXT0/26-310 DR GENE3D; 91f1db002ca3475c2f29a2acff50d8b4/26-310; #=GS A0A117MXT0/26-310 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Chromobacteriaceae; Chromobacterium; Chromobacterium violaceum; #=GS K0HWS3/32-313 AC K0HWS3 #=GS K0HWS3/32-313 OS Acidovorax sp. KKS102 #=GS K0HWS3/32-313 DE Triacylglycerol lipase #=GS K0HWS3/32-313 DR GENE3D; 93a0c8a0cf63f86ae00de8d62c844931/32-313; #=GS K0HWS3/32-313 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax sp. KKS102; #=GS A0A1E3G107/45-364 AC A0A1E3G107 #=GS A0A1E3G107/45-364 OS Burkholderia contaminans #=GS A0A1E3G107/45-364 DE Alpha/beta hydrolase #=GS A0A1E3G107/45-364 DR GENE3D; 963443f9d3be2d8ed21d350f24369e7c/45-364; #=GS A0A1E3G107/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia contaminans; #=GS A0A0B2B7J6/45-364 AC A0A0B2B7J6 #=GS A0A0B2B7J6/45-364 OS Mumia flava #=GS A0A0B2B7J6/45-364 DE Alpha/beta hydrolase #=GS A0A0B2B7J6/45-364 DR GENE3D; 963443f9d3be2d8ed21d350f24369e7c/45-364; #=GS A0A0B2B7J6/45-364 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Mumia; Mumia flava; #=GS A0A0F9XP08/25-309 AC A0A0F9XP08 #=GS A0A0F9XP08/25-309 OS marine sediment metagenome #=GS A0A0F9XP08/25-309 DE Uncharacterized protein #=GS A0A0F9XP08/25-309 DR GENE3D; 96f6fd12194aea26319f8e99087926eb/25-309; #=GS A0A0F9XP08/25-309 DR ORG; marine sediment metagenome; #=GS A0A1H1YF16/27-311 AC A0A1H1YF16 #=GS A0A1H1YF16/27-311 OS Pseudomonas xinjiangensis #=GS A0A1H1YF16/27-311 DE Triacylglycerol lipase #=GS A0A1H1YF16/27-311 DR GENE3D; 974f8159517888f90368d0d27639a5f7/27-311; #=GS A0A1H1YF16/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas xinjiangensis; #=GS A0A1F4KED9/23-307 AC A0A1F4KED9 #=GS A0A1F4KED9/23-307 OS Burkholderiales bacterium RIFCSPLOWO2_12_FULL_61_40 #=GS A0A1F4KED9/23-307 DE Lipase #=GS A0A1F4KED9/23-307 DR GENE3D; 9809bfd16612a48dfd5692c95cbdf2be/23-307; #=GS A0A1F4KED9/23-307 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium RIFCSPLOWO2_12_FULL_61_40; #=GS A0A0D7KDM4/32-312 AC A0A0D7KDM4 #=GS A0A0D7KDM4/32-312 OS Acidovorax temperans #=GS A0A0D7KDM4/32-312 DE Lactonizing lipase #=GS A0A0D7KDM4/32-312 DR GENE3D; 9c1b8eaa43802be65ae73ee28237c377/32-312; #=GS A0A0D7KDM4/32-312 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax temperans; #=GS A0A1H6EIA1/49-329 AC A0A1H6EIA1 #=GS A0A1H6EIA1/49-329 OS Variovorax sp. NFACC29 #=GS A0A1H6EIA1/49-329 DE Triacylglycerol lipase #=GS A0A1H6EIA1/49-329 DR GENE3D; 9c7985f079a3e1c03aa850822b9c0dee/49-329; #=GS A0A1H6EIA1/49-329 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Variovorax; Variovorax sp. NFACC29; #=GS A0A0Q6WCC6/27-304 AC A0A0Q6WCC6 #=GS A0A0Q6WCC6/27-304 OS Massilia sp. Root351 #=GS A0A0Q6WCC6/27-304 DE Lipase #=GS A0A0Q6WCC6/27-304 DR GENE3D; 9e05ecafc2a517b6f2965da1c596fc00/27-304; #=GS A0A0Q6WCC6/27-304 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Massilia; Massilia sp. Root351; #=GS A0A066UY09/30-313 AC A0A066UY09 #=GS A0A066UY09/30-313 OS Vibrio fortis #=GS A0A066UY09/30-313 DE Lactonizing lipase #=GS A0A066UY09/30-313 DR GENE3D; a7125a252dca9b30162f9e9b7a19467c/30-313; #=GS A0A066UY09/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fortis; #=GS A0A0T6UW39/48-335 AC A0A0T6UW39 #=GS A0A0T6UW39/48-335 OS Pseudomonas sp. TTU2014-080ASC #=GS A0A0T6UW39/48-335 DE Lipase #=GS A0A0T6UW39/48-335 DR GENE3D; aa18bb8d02a1f3f993f2b3efa1a8929b/48-335; #=GS A0A0T6UW39/48-335 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. TTU2014-080ASC; #=GS K2JZA4/28-312 AC K2JZA4 #=GS K2JZA4/28-312 OS Gallaecimonas xiamenensis 3-C-1 #=GS K2JZA4/28-312 DE Lipase #=GS K2JZA4/28-312 DR GENE3D; ae0e1447b23f8d81d4d51422e0ed8a70/28-312; #=GS K2JZA4/28-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gallaecimonas; Gallaecimonas xiamenensis; #=GS A0A0F5ZYF6/30-313 AC A0A0F5ZYF6 #=GS A0A0F5ZYF6/30-313 OS Grimontia sp. AD028 #=GS A0A0F5ZYF6/30-313 DE Lactonizing lipase #=GS A0A0F5ZYF6/30-313 DR GENE3D; b0672db16832046fc415f11f8e6dd91d/30-313; #=GS A0A0F5ZYF6/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Grimontia; Grimontia sp. AD028; #=GS C5AH11/40-358 AC C5AH11 #=GS C5AH11/40-358 OS Burkholderia glumae BGR1 #=GS C5AH11/40-358 DE Lipase #=GS C5AH11/40-358 DR GENE3D; b0a55bb4344dba12750c97324e53d742/40-358; #=GS C5AH11/40-358 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia glumae; #=GS A0A0T6UNR8/29-313 AC A0A0T6UNR8 #=GS A0A0T6UNR8/29-313 OS Pseudomonas sp. TTU2014-080ASC #=GS A0A0T6UNR8/29-313 DE Lipase #=GS A0A0T6UNR8/29-313 DR GENE3D; b2d86c3afdea114f3096dcf6e34e6603/29-313; #=GS A0A0T6UNR8/29-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. TTU2014-080ASC; #=GS N9U2J2/20-301 AC N9U2J2 #=GS N9U2J2/20-301 OS Aeromonas diversa CDC 2478-85 #=GS N9U2J2/20-301 DE Lipase #=GS N9U2J2/20-301 DR GENE3D; b46a57944e8e96ced30951b95b0c8ec5/20-301; #=GS N9U2J2/20-301 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas diversa; #=GS A0A1B4PZ56/45-364 AC A0A1B4PZ56 #=GS A0A1B4PZ56/45-364 OS Burkholderia cepacia #=GS A0A1B4PZ56/45-364 DE Alpha/beta hydrolase #=GS A0A1B4PZ56/45-364 DR GENE3D; b4b7fa316e9525c359b626c1a253d9d3/45-364; #=GS A0A1B4PZ56/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS A0A0W1L3N5/23-306 AC A0A0W1L3N5 #=GS A0A0W1L3N5/23-306 OS Pseudoalteromonas sp. H105 #=GS A0A0W1L3N5/23-306 DE Lipase #=GS A0A0W1L3N5/23-306 DR GENE3D; b599d4dcb22f43205fec48fede015576/23-306; #=GS A0A0W1L3N5/23-306 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas sp. H105; #=GS A0A1H1STA0/31-315 AC A0A1H1STA0 #=GS A0A1H1STA0/31-315 OS Pseudomonas sabulinigri #=GS A0A1H1STA0/31-315 DE Triacylglycerol lipase #=GS A0A1H1STA0/31-315 DR GENE3D; b5b8e1fb9fe0951666cfe126494d12d1/31-315; #=GS A0A1H1STA0/31-315 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sabulinigri; #=GS U3C9C8/24-308 AC U3C9C8 #=GS U3C9C8/24-308 OS Vibrio azureus NBRC 104587 #=GS U3C9C8/24-308 DE Putative lipase #=GS U3C9C8/24-308 DR GENE3D; b64c40ea48dcc3938e65716225a69da2/24-308; #=GS U3C9C8/24-308 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio azureus; #=GS Q6LFX5/30-313 AC Q6LFX5 #=GS Q6LFX5/30-313 OS Photobacterium profundum SS9 #=GS Q6LFX5/30-313 DE Putative lactonizing lipase #=GS Q6LFX5/30-313 DR GENE3D; b7d3818e5e9f8a0b1bca3cc7c6169eda/30-313; #=GS Q6LFX5/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium profundum; #=GS A0A1F4N7Q8/29-314 AC A0A1F4N7Q8 #=GS A0A1F4N7Q8/29-314 OS Burkholderiales bacterium RIFCSPLOWO2_12_FULL_64_99 #=GS A0A1F4N7Q8/29-314 DE Lipase #=GS A0A1F4N7Q8/29-314 DR GENE3D; bc22f37036700c9ce6ef2227a04f2eee/29-314; #=GS A0A1F4N7Q8/29-314 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiales bacterium RIFCSPLOWO2_12_FULL_64_99; #=GS A0A0A0SY74/27-311 AC A0A0A0SY74 #=GS A0A0A0SY74/27-311 OS Vibrio coralliilyticus #=GS A0A0A0SY74/27-311 DE Lactonizing lipase #=GS A0A0A0SY74/27-311 DR GENE3D; bc8ccb3fb83e1debfa27435ef420dd0a/27-311; #=GS A0A0A0SY74/27-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio coralliilyticus; #=GS A0A0Q6TFJ7/26-308 AC A0A0Q6TFJ7 #=GS A0A0Q6TFJ7/26-308 OS Massilia sp. Root335 #=GS A0A0Q6TFJ7/26-308 DE Lipase #=GS A0A0Q6TFJ7/26-308 DR GENE3D; bdff0769919b88e6ffa9c317086e4850/26-308; #=GS A0A0Q6TFJ7/26-308 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Massilia; Massilia sp. Root335; #=GS A0A1H1VVJ1/30-315 AC A0A1H1VVJ1 #=GS A0A1H1VVJ1/30-315 OS Pseudomonas litoralis #=GS A0A1H1VVJ1/30-315 DE Triacylglycerol lipase #=GS A0A1H1VVJ1/30-315 DR GENE3D; c01a8389fd17eb91f5fd3c793b5d13e7/30-315; #=GS A0A1H1VVJ1/30-315 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas litoralis; #=GS A0A1B3PIL3/32-313 AC A0A1B3PIL3 #=GS A0A1B3PIL3/32-313 OS Acidovorax sp. RAC01 #=GS A0A1B3PIL3/32-313 DE Alpha/beta hydrolase family protein #=GS A0A1B3PIL3/32-313 DR GENE3D; c5e1c6431cdb2d8112fbf0511e301595/32-313; #=GS A0A1B3PIL3/32-313 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax sp. RAC01; #=GS A0A1F8VGY9/26-309 AC A0A1F8VGY9 #=GS A0A1F8VGY9/26-309 OS Curvibacter sp. GWA2_63_95 #=GS A0A1F8VGY9/26-309 DE Lipase #=GS A0A1F8VGY9/26-309 DR GENE3D; c88a58ca34269d49f6e148228d6e92b7/26-309; #=GS A0A1F8VGY9/26-309 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Curvibacter; Curvibacter sp. GWA2_63_95; #=GS A0A0C2S7V4/30-312 AC A0A0C2S7V4 #=GS A0A0C2S7V4/30-312 OS Pseudomonas stutzeri #=GS A0A0C2S7V4/30-312 DE Lactonizing lipase #=GS A0A0C2S7V4/30-312 DR GENE3D; c8943bf504cbd64b22973fba43d5a81e/30-312; #=GS A0A0C2S7V4/30-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS A0A078MFP8/30-315 AC A0A078MFP8 #=GS A0A078MFP8/30-315 OS Pseudomonas saudimassiliensis #=GS A0A078MFP8/30-315 DE Triacylglycerol lipase #=GS A0A078MFP8/30-315 DR GENE3D; c8ed611f32ce53f0e27862360d36846d/30-315; #=GS A0A078MFP8/30-315 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas saudimassiliensis; #=GS A0A1E9C7D3/25-309 AC A0A1E9C7D3 #=GS A0A1E9C7D3/25-309 OS Pseudomonas sp. HMSC066B11 #=GS A0A1E9C7D3/25-309 DE Lipase #=GS A0A1E9C7D3/25-309 DR GENE3D; d5f0ed18b65dc7117d7e99e91a26cc3c/25-309; #=GS A0A1E9C7D3/25-309 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. HMSC066B11; #=GS L0WAM4/33-320 AC L0WAM4 #=GS L0WAM4/33-320 OS Alcanivorax hongdengensis A-11-3 #=GS L0WAM4/33-320 DE Triacylglycerol lipase #=GS L0WAM4/33-320 DR GENE3D; d694f0956f953fb544aece6096cf3b95/33-320; #=GS L0WAM4/33-320 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Alcanivoracaceae; Alcanivorax; Alcanivorax hongdengensis; #=GS A0A1H2HH56/31-315 AC A0A1H2HH56 #=GS A0A1H2HH56/31-315 OS Pseudomonas salegens #=GS A0A1H2HH56/31-315 DE Triacylglycerol lipase #=GS A0A1H2HH56/31-315 DR GENE3D; d79a6fa072136086ceb60ca01c9e2594/31-315; #=GS A0A1H2HH56/31-315 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas salegens; #=GS A0A1B4QZ40/45-366 AC A0A1B4QZ40 #=GS A0A1B4QZ40/45-366 OS Burkholderia sp. Bp7605 #=GS A0A1B4QZ40/45-366 DE Alpha/beta hydrolase #=GS A0A1B4QZ40/45-366 DR GENE3D; dcc633182ca24ce9eb6f476933b24cf7/45-366; #=GS A0A1B4QZ40/45-366 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. Bp7605; #=GS A0A103E627/45-366 AC A0A103E627 #=GS A0A103E627/45-366 OS Burkholderia sp. TSV85 #=GS A0A103E627/45-366 DE Alpha/beta hydrolase #=GS A0A103E627/45-366 DR GENE3D; dcc633182ca24ce9eb6f476933b24cf7/45-366; #=GS A0A103E627/45-366 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia sp. TSV85; #=GS Q1ZM99/27-310 AC Q1ZM99 #=GS Q1ZM99/27-310 OS Photobacterium angustum S14 #=GS Q1ZM99/27-310 DE Putative lactonizing lipase #=GS Q1ZM99/27-310 DR GENE3D; ddaddd1686b87c60ded1496d6123fcb0/27-310; #=GS Q1ZM99/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium angustum; #=GS V5ES30/27-310 AC V5ES30 #=GS V5ES30/27-310 OS Photobacterium leiognathi lrivu.4.1 #=GS V5ES30/27-310 DE Lactonizing lipase #=GS V5ES30/27-310 DR GENE3D; ddaddd1686b87c60ded1496d6123fcb0/27-310; #=GS V5ES30/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium leiognathi; #=GS A0A0J1HCY2/24-307 AC A0A0J1HCY2 #=GS A0A0J1HCY2/24-307 OS Photobacterium ganghwense #=GS A0A0J1HCY2/24-307 DE Lactonizing lipase #=GS A0A0J1HCY2/24-307 DR GENE3D; de673358484c437de2684e937776c984/24-307; #=GS A0A0J1HCY2/24-307 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium ganghwense; #=GS A0A1E4VJJ3/27-310 AC A0A1E4VJJ3 #=GS A0A1E4VJJ3/27-310 OS Pseudomonas sp. 1D4 #=GS A0A1E4VJJ3/27-310 DE Lipase #=GS A0A1E4VJJ3/27-310 DR GENE3D; e0367e9902654a2a2d29cd5a1e6dcb94/27-310; #=GS A0A1E4VJJ3/27-310 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 1D4; #=GS A0A0F2HMT2/30-313 AC A0A0F2HMT2 #=GS A0A0F2HMT2/30-313 OS Vibrio sp. S234-5 #=GS A0A0F2HMT2/30-313 DE Lactonizing lipase #=GS A0A0F2HMT2/30-313 DR GENE3D; e0e751ab202a6effc7b42825b23df270/30-313; #=GS A0A0F2HMT2/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. S234-5; #=GS A0A1J5CA25/26-309 AC A0A1J5CA25 #=GS A0A1J5CA25/26-309 OS Comamonadaceae bacterium CG2_30_57_122 #=GS A0A1J5CA25/26-309 DE Lipase #=GS A0A1J5CA25/26-309 DR GENE3D; e158abf69f7578cb42fcdd5027270d70/26-309; #=GS A0A1J5CA25/26-309 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonadaceae bacterium CG2_30_57_122; #=GS K0CIC5/21-304 AC K0CIC5 #=GS K0CIC5/21-304 OS Alcanivorax dieselolei B5 #=GS K0CIC5/21-304 DE Hydrolase, alpha/beta fold family, putative #=GS K0CIC5/21-304 DR GENE3D; e5f779a69610f9926582de22449ad52b/21-304; #=GS K0CIC5/21-304 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Alcanivoracaceae; Alcanivorax; Alcanivorax dieselolei; #=GS U2AYA9/31-317 AC U2AYA9 #=GS U2AYA9/31-317 OS Pseudomonas sp. EGD-AK9 #=GS U2AYA9/31-317 DE Lactonizing lipase #=GS U2AYA9/31-317 DR GENE3D; e629a81085be38d9106cdf08152fde19/31-317; #=GS U2AYA9/31-317 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. EGD-AK9; #=GS A0A1E5BPH7/29-312 AC A0A1E5BPH7 #=GS A0A1E5BPH7/29-312 OS Enterovibrio calviensis FF-85 #=GS A0A1E5BPH7/29-312 DE Lipase #=GS A0A1E5BPH7/29-312 DR GENE3D; e62e3e54e9fca268fd1999fc7ee46856/29-312; #=GS A0A1E5BPH7/29-312 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Enterovibrio; Enterovibrio calviensis; #=GS U3AVP1/31-313 AC U3AVP1 #=GS U3AVP1/31-313 OS Pseudomonas alcaligenes NBRC 14159 #=GS U3AVP1/31-313 DE Putative lipase #=GS U3AVP1/31-313 DR GENE3D; f011904295a43a9c119d95c529458b10/31-313; #=GS U3AVP1/31-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas alcaligenes; #=GS A0A142IRZ6/31-313 AC A0A142IRZ6 #=GS A0A142IRZ6/31-313 OS Pseudomonas alcaligenes #=GS A0A142IRZ6/31-313 DE Lipase #=GS A0A142IRZ6/31-313 DR GENE3D; f011904295a43a9c119d95c529458b10/31-313; #=GS A0A142IRZ6/31-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas alcaligenes; #=GS A0A1D2S172/31-312 AC A0A1D2S172 #=GS A0A1D2S172/31-312 OS Acidovorax sp. SCN 68-22 #=GS A0A1D2S172/31-312 DE Lipase #=GS A0A1D2S172/31-312 DR GENE3D; f09c42d4bd67ad331a77fa1eec7caf53/31-312; #=GS A0A1D2S172/31-312 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Acidovorax; Acidovorax sp. SCN 68-22; #=GS A0A0A1YGC7/30-314 AC A0A0A1YGC7 #=GS A0A0A1YGC7/30-314 OS Pseudomonas taeanensis MS-3 #=GS A0A0A1YGC7/30-314 DE Lactonizing lipase #=GS A0A0A1YGC7/30-314 DR GENE3D; f1caf9227dc862a3c47f3bc755111942/30-314; #=GS A0A0A1YGC7/30-314 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas taeanensis; #=GS A0A0C1YGY7/27-310 AC A0A0C1YGY7 #=GS A0A0C1YGY7/27-310 OS Herbaspirillum sp. TSA66 #=GS A0A0C1YGY7/27-310 DE Lactonizing lipase #=GS A0A0C1YGY7/27-310 DR GENE3D; f6195dd1a130d064dbfe948c7af874e8/27-310; #=GS A0A0C1YGY7/27-310 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Herbaspirillum; Herbaspirillum sp. TSA66; #=GS Q7MK20/32-313 AC Q7MK20 #=GS Q7MK20/32-313 OS Vibrio vulnificus YJ016 #=GS Q7MK20/32-313 DE Lactonizing lipase #=GS Q7MK20/32-313 DR GENE3D; fa22f5b05ca597cfb144b197e2eecc3c/32-313; #=GS Q7MK20/32-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; #=GS A7XW72/45-364 AC A7XW72 #=GS A7XW72/45-364 OS Burkholderia sp. HY-10 #=GS A7XW72/45-364 DE Lipase #=GS A7XW72/45-364 DR GENE3D; fcfedd5d12183fe68dcf8ee4ebb3b994/45-364; #=GS A7XW72/45-364 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. HY-10; #=GS A0A0F5VD19/30-313 AC A0A0F5VD19 #=GS A0A0F5VD19/30-313 OS Photobacterium halotolerans #=GS A0A0F5VD19/30-313 DE Lactonizing lipase #=GS A0A0F5VD19/30-313 DR GENE3D; fdadc8bf815a45706819f7bc64489a2b/30-313; #=GS A0A0F5VD19/30-313 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium halotolerans; #=GS F9TBV6/28-311 AC F9TBV6 #=GS F9TBV6/28-311 OS Vibrio tubiashii ATCC 19109 #=GS F9TBV6/28-311 DE Lactonizing lipase #=GS F9TBV6/28-311 DR GENE3D; fdf173722f77958bf4a8e69dd1a38730/28-311; #=GS F9TBV6/28-311 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio tubiashii; #=GF TC 345.7 1.6E-105 #=GF SQ 331 1ex9A00/1-285 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A172PCR4/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSAGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL C9YDZ4/42-325 --GYTQTKYPIVLVHGLFGFDNIGP--VEYFYGIPSALRADGAKVYVVQVAAANSTE---VRGEQLLSQVRQILAATGAAKVNLMGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSAVADVLLGVAP--PGS-LQ---NTALVSVTNGLASIINFLSGGSG-LSQNALAAAQSLSTAGTLKFNAKHPQ---GVP-TS-ACGEGAYSV-NGVAY--YSWSGAQ---------------------------------PYSNLLDPVDPALALTSLAF---LGAKNDGLVSSCSSRLGRVIRDDYAFNHLDEVNQTVGLTNLFETNPGHHLPPAGQPLRNAGL I3WE68/30-314 -SGYTQTRYPIVLTHGMLGFDSILG--VDYWYGVPSALRRDGARVYVTEVSQLNTTE---ARGEELLEQVEEIVAISGSPKVNLIGHSHGGPTIRYVAAVRPDLVASATSVGAPHKGSATADFIRN-VP--PGS-AG---EVLLAGIVNGLGALINFLSGSSSDLQQNALGALASLNSQGAAAFNARFPQ---GLP-TT-SCGEGAYQV-NGVRY--YSWSGTS---------------------------------PLTNVLDVSDALLGASSLAF---NGEANDGLVGRCSSHLGKVIRDNYRMNHLDEVNQTLGLTSLFETDPVTVYRQQANRLKNDGL J7JJG8/45-364 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---STVIAAFVNVFGILT---SSSHN-TNQDALASLKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSLFG-VTGA----------QDTSTIPLVDPANALDPSTLALFGTGTVMINRGSGQNDGLVSKCSALYGKVLSTSYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLQLAGV A8T1Z7/24-308 -SDYTETKYPIVLVHGLFGFNTLAG--VDYFYGIPHSLTKDGATVYLTQVSAANSSE---ARGEQLLAQVETLLAATGAEKVNLMGHSQGGPTTRYVASIRPDLVASVTSIGGVNKGSKVADIIRNNIR--EGS-TG---EDIAVKLAEGLVTLINLLSGGAD-LAQDPLASLGSLTTEGALKFNQYYPE---GLP-TS-ACGEGDLLAENGVHY--YSWTGSS---------------------------------TFTNLFDPTSSAMLILGLAF---D-SPNDGLVDACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPLTLYRQHANRLKLQGL 1cvlA00/1-319 ADTYAATRYPVILVHGLAGTDKFAN-VVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTG-LS---STVIAAFVNVFGTLV---SSSHN-TDQDALAALRTLTTAQTATYNRNFPSAGLGAP-GSCQTGAATETV-GGSQHLLYSWGGTAIQPTSTVLG-VTGA----------TDTST-GTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV 1hqdA00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVFG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV 1ys1X00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVGG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV 1tahA00/1-318 -DTYAATRYPVILVHGLAGTDKFAN-VVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTG-LS---STVIAAFVNVFGTLV---SSSHN-TDQDALAALRTLTTAQTATYNRNFPSAGLGAP-GSCQTGAATETV-GGSQHLLYSWGGTAIQPTSTVLG-VTGA----------TDTST-GTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV #=GR 1tahA00/1-318 CSA -_______________0________-_____________________________________________________________00_____________________________________________-__---_______________---_____-________________________________-____________-_______________________-____----------_____-_________0_____________________0_____________________0_0___0___0________________________ 1tahB00/1-318 -DTYAATRYPVILVHGLAGTDKFAN-VVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTG-LS---STVIAAFVNVFGTLV---SSSHN-TDQDALAALRTLTTAQTATYNRNFPSAGLGAP-GSCQTGAATETV-GGSQHLLYSWGGTAIQPTSTVLG-VTGA----------TDTST-GTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV 1tahC00/1-318 -DTYAATRYPVILVHGLAGTDKFAN-VVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTG-LS---STVIAAFVNVFGTLV---SSSHN-TDQDALAALRTLTTAQTATYNRNFPSAGLGAP-GSCQTGAATETV-GGSQHLLYSWGGTAIQPTSTVLG-VTGA----------TDTST-GTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV 1tahD00/1-318 -DTYAATRYPVILVHGLAGTDKFAN-VVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTG-LS---STVIAAFVNVFGTLV---SSSHN-TDQDALAALRTLTTAQTATYNRNFPSAGLGAP-GSCQTGAATETV-GGSQHLLYSWGGTAIQPTSTVLG-VTGA----------TDTST-GTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV 2es4A00/1-319 ADTYAATRYPVILVHGLAGTDKFAN-VVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTG-LS---STVIAAFVNVFGTLV---SSSHN-TDQDALAALRTLTTAQTATYNRNFPSAGLGAP-GSCQTGAATETV-GGSQHLLYSWGGTAIQPTSTVLG-VTGA----------TDTST-GTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV 2es4B00/1-319 ADTYAATRYPVILVHGLAGTDKFAN-VVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTG-LS---STVIAAFVNVFGTLV---SSSHN-TDQDALAALRTLTTAQTATYNRNFPSAGLGAP-GSCQTGAATETV-GGSQHLLYSWGGTAIQPTSTVLG-VTGA----------TDTST-GTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV 1oilA00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVFG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV 1oilB00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVFG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV 1ys2X00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVGG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV 2lipA00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVFG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV 2nw6A00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVFG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV 3lipA00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVFG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV 4lipD00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVFG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV 4lipE00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVFG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV 5lipA00/1-320 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQRGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVFG-VTGA----------TDTSTIPLVDPANALDPSTLALFGTGTVMVNRGSGQNDGVVSKCSALYGQVLSTSYKWNHLDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV P15493/30-312 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL Q3JKC4/45-364 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0KFL9/50-333 --GYTQTRYPIVLVHGLFGFDKLLG--VDYFYGIPQALTRDGARVYVAQVSATQSSE---LRGEQLLKQVQQVLAITGAEKVNLIGHSHGGPTIRYVASVAPELVASATSVGGVNYGSEIADLVRANVA--PGS-VA---EKLAVAAASALSGVISLLSGGSQ-LPQDPLAALDALTSAGAQRFNQRYPE---GLP-NQ-YCGEGPMQAANGVYY--FSWSGRG---------------------------------TMTNILDPVDPALALTGSFF---K-EPNDGLVGVCSSHLGKVIGTDYRMNHLDEVNQSFGIRHLFETDPISLYRQHANRLQRLGL B3GVV8/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSAGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL P26876/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL Q05489/40-358 ADTYAATRYPVILVHGLAGTDKFAN-VVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTG-LS---STVIAAFVNVFGTLV---SSSHN-TDQDALAALRTLTTAQTATYNRNFPSAGLGAP-GSCQTGAATETV-GGSQHLLYSWGGTAIQPTSTVLG-VTGA----------TDTST-GTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV A0A125MMR3/30-314 -DDYTKTRYPVVLVHGLFGFDSIAG-VYGYWFGIPQALSSGGAKVHVAQVTAAQSNE---VRGEELIDQLETLQALHGYSKFNLIGHSQGGPTARYVAAVRPDLVASMTSIGSPHAGSKVADFVGTALP--EGS-PL---RPLVASFVNAFADLIGLVSGSNT--PQDSLAALKALDSAGSARFNARYPQ---GKP-ST-ACGAGAAKV-NGIGY--YSMGGTS---------------------------------RSTNVFDGSDVAMVAGGLLF---GGEANDGLVGRCSSHWGQVLRDDYDWNHLDEVNQIAGLRGVFSSSPTSVYRAHLNRLKNAGL B3VLA7/45-364 ADGYAATHYPIILVHGLSGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLSSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQNVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAVQPTLSVFG-VTGA----------TDTSTLPLVDPANVLDLSTLALFGTGTVMINRGSGQNDGLVSKCSALHGKVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVVRTHVNRLKLAGV A0A095RXB9/45-364 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGIVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV B1Z1J5/45-364 SDDYATTRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---SSVIAAFVNVFGILT---SSNNN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTESV-GGNTHLLYSWAGTAIQPTVSALG-VTGA----------ADTSTIPLVDPANALDLSTLALLGTGTVMINRASGQNDGLVSKCSALYGKVLSTNYKWNHVDEINQLLGVRGAFAEDPVAVIRTHANRLKLAGV A0A0B2D0E2/46-331 -SDYTKTRYPIVLSHGMLGWDSMLG--IDYWYGIPGALRSGGASVYTTEVSQLNTSE---VRGEELIEQVEDIVALSGKPKVNLIGHSHGGPTVRYVAAMRPDLIASATSVGAPHTGSDLADFLKL-FP--DGS-LT---QTIVSELVNQIGKMIHFLSGSPSTNPQDSLGSLESLHSEGAARFNAKFPQ---GMP-LR-KCGEGAYKV-NGVNY--YSWSGTS---------------------------------PLTNPLDPSDGMMGVASLTF--IGGEANDGMVGRCSSHLGKVIRDNYRMNHLDEVNQFFGLTSLFETDPVTVYRQHANRLKNDGL Q9X5I2/27-311 -SGYTETRYPLVLVHGIFGFDSIAK--IDYFYGIPHALSKDGATVFTAQVAAANRSE---VRGEQLLAQVETILALTGKEKVNLIGHSQGSPTARYVASVRPDLVASVTSVGGVNWGSRVADIVRNTVP--EDS-IS---EALAVKITNSFVTLINVLSGGKG-LEQDALAALDTLTTEGSLAFNRHYPE---GVP-TT-YCGQGEALASNGVHY--FSWTGSS---------------------------------AITNLLDPTDIPIGVLSLAF---D-EPNDGLVSVCSSHLGQVIGTHYKMNHLDEVNGLLGIRHLFEVSPVTLYRQHANRLQQLGL F8H9H4/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYVTEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLIGHSHGGPTIRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-VP--EGS-SG---EAIIAGLVNAMGAFINFVSGSSSTAPQNSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYKV-NGVHY--YSWSGTS---------------------------------PLTNPLDVSDAMMGAGSLAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL A0A0T8L331/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYVTEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLIGHSHGGPTIRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-VP--EGS-SG---EAIIAGLVNAMGAFINFVSGSSSTAPQNSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYKV-NGVHY--YSWSGTS---------------------------------PLTNPLDVSDAMMGAGSLAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL A4VL36/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYVTEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLIGHSHGGPTIRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-VP--EGS-SG---EAIIAGLVNAMGAFINFVSGSSSTAPQNSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYKV-NGVHY--YSWSGTS---------------------------------PLTNPLDVSDAMMGAGSLAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL F2MYZ1/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYVTEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLIGHSHGGPTIRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-VP--EGS-SG---EAIIAGLVNAMGAFINFVSGSSSTAPQNSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYKV-NGVHY--YSWSGTS---------------------------------PLTNPLDVSDAMMGAGSLAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL S6K0N8/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYVTEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLIGHSHGGPTIRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-VP--EGS-SG---EAIIAGLVNAMGAFINFVSGSSSTAPQNSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYKV-NGVHY--YSWSGTS---------------------------------PLTNPLDVSDAMMGAGSLAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL A0A1G3DKG4/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYVTEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLIGHSHGGPTIRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-VP--EGS-SG---EAIIAGLVNAMGAFINFVSGSSSTAPQNSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYKV-NGVHY--YSWSGTS---------------------------------PLTNPLDVSDAMMGAGSLAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL Q5U9G2/46-364 A-GYAATRYPIILVHGLSGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLSSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSVFG-VTGA----------TDTSTLPLVDPANVLDLSTLALFGTGTVMINRGSGQNDGLVSKCSALYGKVLSTNYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV P22088/46-364 A-GYAATRYPIILVHGLSGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLSSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSVFG-VTGA----------TDTSTLPLVDPANVLDLSTLALFGTGTVMINRGSGQNDGLVSKCSALYGKVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A0F6L4P4/45-364 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0A0H5KSC3/45-364 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0A0I9SJ52/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYITEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLVGHSHGGPTVRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-IP--EGS-SG---EAIIAGLVNAMGSFINFVSGSSSTAPQDSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYKV-NGVRY--YSWSGTS---------------------------------PLTNPLDISDAMMGAGALAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL A0A1C2KCA1/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYITEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLVGHSHGGPTVRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-IP--EGS-SG---EAIIAGLVNAMGSFINFVSGSSSTAPQDSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYKV-NGVRY--YSWSGTS---------------------------------PLTNPLDISDAMMGAGALAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL A0A098FP14/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYITEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLVGHSHGGPTVRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-IP--EGS-SG---EAIIAGLVNAMGSFINFVSGSSSTAPQDSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYKV-NGVRY--YSWSGTS---------------------------------PLTNPLDISDAMMGAGALAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL A0A090IJL4/30-313 --GYTETKYPIVLVHGLFGFDSMLG--IDYFYGITRALSKSGAEVYVAQVSAANTTE---VRGEQLLAQVEQILAATGADKVNLIGHSHGGPTSRYVASVAPQYVASVTSIGGVNKGSRVADILRGEVP--EGS-VS---EKLIASMADGLSKLITFLSRGGK-LPQDTVAALEALTTKNSLKFNESYPE---GVP-IT-ACGEGDYVAANGVYY--YSWSGSA---------------------------------NFTNALDSMDLALTLTGKAF---N-VPNDGLVSSCSSRLGKVIRDNYKMNHMDEVNQTLGLHHLFETDPKTLYRQHANRLKLQGL A0A1B4K2U7/45-364 VDNYAATKYPIILVHGLTGTDKYAN-VVEYWYGIQEDLQAHGATVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVTAYDPTG-LS---STVIAAFANVFGILT---SSNHN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNKHLLYSWAGTAIQPTLSILG-VTGA----------TDTSTIPVIDPSNVLDPSTLAMLGTGTVMINRGSGANDGLVSRCSSLYGQVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV Q2T7L1/45-364 VDNYAATKYPIILVHGLTGTDKYAN-VVEYWYGIQEDLQAHGATVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVTAYDPTG-LS---STVIAAFANVFGILT---SSNHN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNKHLLYSWAGTAIQPTLSILG-VTGA----------TDTSTIPVIDPSNVLDPSTLAMLGTGTVMINRGSGANDGLVSRCSSLYGQVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV B1TA42/45-363 VDDYAATRYPIILVHGLTGTDKYGG-VVEYWYHIPADLQAHGAKVYVANLSGYQSDDGPNGRGEQLLAYVKQVLAATGAQKVNLIGHSQGGLTSRYVASVAPELVASVTTISTPHWGSQFADFVQQLLKADPTG-LS---SAVFSAFANALGTLT---SSSFN-TNQDAIQALSVLTTAKAAEYNQKFPSAGLGAP-GSCRTGASTETV-NGNTHLLYSWGGTAIQPTTTVAG-VTGA----------VDTSVSGATDPANVLDPATLALLGSGTVMINRGSGPNDGVVSQCSALFGHVLGT-YHWDHTDAINQILGVLGANVEDPVAAIRTHANRLKTQGV A0A0E4CFQ2/30-312 --GYTQTCYPIVLVHGLFGLDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL A0A0X1L285/57-339 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL A0A0H6FFS9/57-339 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL A0A0H3AEQ5/57-339 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL A0A0H3Q6Y6/57-339 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL C3LUP1/57-339 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL A0A0H2XWD4/45-364 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQENLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSHN-TNQDALAALKTLTTGQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTFSVLG-VTGA----------TDTSTIPLVDPANVLDLSTLALLGTGTVMINRASGQNDGLVSKCSALYGKVLSTSYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV K6ZR22/23-307 -SEYTKTKYPIVLVHGLFGFDDVFG--IDYFYRIPNSLSKDGAKVFIAAVSAANSSE---VRGEQLLTQVEDILALTGAAKVNLIGHSHGSPTSRYVASVRPELVASVTSVGGVNWGTPVADLLRDSLP--ENS-IP---ESVLASVGNSLAGLIELLSGNSE-LPQSAIASLDSLSTPGSLAFNNAYPE---GIP-ET-YCGQGDIYANNGVAY--FSWSGAR---------------------------------PFTNVFDPVDGPLSIVSLLF---S-EPNDGLVSSCSSHLGYVIKDNYKMNHLDEVNQTLGIHHIFETDPITLYRKHANRLKKMGM A0A128F8Z4/30-312 --GYTQTKYPIVLVHGLFGFDSIAG--IDYFHAIPQALSRSGAKVFVAQVSATNSSE---QRGEQLLQQVRWVKAVTGANKVNLIGHSHGSPTARYVASVAPQHVASVTSVGGVNKGSEFADAVRG-IP--PGS-VG---EGLAVTAAHALSGLISVLSGGAS-LPQDPLASLHSLTTKGSLAFNAKYPE---GVP-TS-RCGEGSYRASNGVYY--YSWSGTS---------------------------------TVTNVLDISDPAMFTTGLFF---S-EANDGLVGRCATHLGKVIRSNYRMNHLDEVNQLFGLHDLFETDPVTVYRQHANRLKLQGL A0A0H3HWA8/45-364 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0A069BB28/45-364 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0A0F6G6X0/45-364 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV Q63JH5/45-364 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV C2HYF2/57-339 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSVVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGVVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL A6AS17/25-308 --GYTETKYPIVLVHGLFGFDTLAG--VDYFYGIPHSLTKDGATVYVAQVSATNSSE---ARGEQLLAQVETLLAATGAEKVNLIGHSHGGPTTRYVASIRPDLVASVTSIGGVNKGSKVADIVRNTVP--EGS-IS---EGVAVKLAEGLVTLINLLSGGSD-LDQDPLASLAALTTEGSLEFNQYYPE---GIP-TS-ACGDGDLLASNGVYY--YSWTGSS---------------------------------NFTNLFDPTDGAMVVLGLAF---D-GPNDGLVDACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A1E7VL78/29-302 ----TQTKYPIVLVHGLFGFDKLGP--VEYFYGVPAALRSGGAQVYVTTVSAANSTE---VRGEQLLSQVRQILAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSVAGVNKGSKVADILSGAIP--NTS----------GALGNALASLIGILSGNKG-LPQNAGASLASLSTAGSLAFNSRHPQ---GVP-SS-ACGEGAYQV-QGVHY--FSWSGAQ---------------------------------PYTNVLDVGDPLLAAISLAF---GGVKNDGLVSSCSSHLGKVIRDDYAMNHLDEVNQFVGIVNLFETNPVTVFRQQANRLQGL-- A0A0S2G3D7/30-314 -DDYTKTRYPVVLVHGLFGFDAIGG-VYDYWFGIPQALRSGGAEVYVAQVTAANSNE---VRGEELIDQLETLRALHGYAKFNLIGHSQGGPTARYVASVRPDLVASMTSVGSPHAGSKVADFVGTTLP--EGS-PL---RPLVASFVNAFADLIGLLSGSNN--SQDSLAALKALDSAGAARFNARYPQ---GKP-AT-ACGAGAGKV-DGIAY--YSFGGTS---------------------------------NSTNFFDGSDIAMIAGGLLF---GGEANDGLVGRCSSHWGQVIRDDYDWNHLDEVNQIAGLRGVFSSNPTSVYRAQVNRLKNAGL A0A0H3KKZ3/45-364 ADDYAATRYPIVLVHGLTGTDKYAG-VLEYWYGIQEDLQRHGATVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALTTLTTAQAATYNRNFPSAGLGAP-GSCTTGASTETV-GGNTHLLYSWAGTAIQPTNSAFG-VTGA----------SDTSTIPVIDPANALDASTLALLGTGTVMINRGSGQNDGLVSKCSALYGQVLGTHFKWNHLDEINQLLGVRGAYAEDPVAMIRTHANRLKLAGV A0A0D6SZK4/27-310 --GYTQTRYPIVLAHGMLGFDSILG--VDYWYGIPSALRRDGASVYVTEVSQLNTSE---ARGEELLEQVEEIVAISGKPKVNLIGHSHGGPTIRYVAGVRPDLIASATSVGGPHKGSATADFLRQ-IP--PGS-AG---EAVLAGIVNGLGSLINFLSGSRSTQPQNALGSLESLNSQGAARFNAKFPQ---GIP-TT-ACGEGAYQV-NGVRY--YSWSGTS---------------------------------PMTNLLDVSDGLLAATALTF---KGEATDGLVGRCSSHLGKVVRDNYRMNHLDEVNQTFGLVSLFETDPVTVYRQHANRLKNDGL A0A0T7DJ96/30-313 --GYTETKYPIVLVHGLFGFDTLAG--VDYFYGVPESLTKDGASVYVAQVSATNSSE---VRGEQLLAQVETLIAATGASKVNLVGHSHGGPTARYVASVRPDLVASVTSIGGVHKGSKVADLVRGTVP--EGS-AT---EGIAVKLADGLTTLINLLSGGTD-LDQDGLASLEALTTEGSLAFNQFYPE---GVP-TS-ECGDGEWQASNGVYY--YSWTGSS---------------------------------TFTNLLDPTDGAMTILGLAF---T-EPNDGLVGACSAHLGKVIGDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLAGL A1TUU1/37-318 -SGYTQTRYPIVLVHGLFGFDSALG--VDYFYGIPDALRRDGAQVFVAQVSATNSTE---VRGEQLLAQVKQVLAVTGAAKVNLVGHSHGGPTIRYVAGVAPQLVASVTSIGGVNKGSRVADVVRGVAP--PGS-VS---ESVASAAAGALAQVISAASGGSS-LPQKPTAALDSLTTAGAADFNRRFPQ---GL--AS-GCGNGADVV-NGVRY--YSWTGTQ---------------------------------PVTNVLDPSDAGLALLAPVH---G-EANDGLVSACSSRLGRHL-GDYRQNHLDEINQMVGLRHLFSPDPVTLYRQHANRLKQQGL A0A0K9UUT9/30-312 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL A0A085SK61/30-312 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL V9ZWU9/20-303 --GYTQTRYPIVLVHGLFGFDRLLG--VDYFYGIPQALTRDGARVYVAQVSATQSSE---LRGEQLLRQVQQVLAITGADKVNLIGHSHGGPTIRYVASVAPELVASATSVGGVNQGSEIADLVRARVA--PGS-VA---EQLAVAAASALSGVISLLSGGSD-LPQDPLASLDALTSAGAQRFNLRYPE---GLP-GQ-HCGEGPLLADNGVYY--FSWSGRG---------------------------------TMTNILDPVDPALALTGSFF---H-EPNDGLVGVCSSHLGKVIGTGYRMNHLDEVNQSFGIHHLFDTDPVTLYRQHANRLQRLGL B9B7G1/109-428 ADDYAATRYPIVLVHGLTGTDKFAG-VLEYWYGIQEDLQRHGATVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALTTLTTAQAATYNRNFPSAGLGAP-GSCTTGASTETV-GGHTHLLYSWAGTAIQPTNAAFG-VTGA----------NDTSTIPVIDPANALDASTLALLGTGTVMINRSSGQNDGLVSKCSALYGQVLGTNFKWNHLDEINQLLGVRGAYAEDPLAMIRTHANRLKLAGV A0A157WLA0/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A1F0J6X2/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL V6ADF1/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A0H2ZCK8/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A0P1D9T8/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL Q6B4I3/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A128FIL3/30-313 --GYTQTKYPIVLVHGLFGFDRIAG--IDYFHAIPQALSRSGAKVFVAQVSATNSSE---KRGEQLLRQVRWVKAVTGAKKVNLIGHSHGSPTARYVASVAPQHVASVASVGGVNKGSEFADVVRGAFS--PGS-NG---EALAVTAARTLSGFISLLSGGGG-LPQDPLASLYSLTTKGSLAFNEKYPE---GVP-RS-RCGEGSYRASNGVYY--YSWSGTS---------------------------------TVTNIFDMTDPAMFTTGLFF---S-EANDGLVGRCATHLGKVIRSNYRMNHLDVVNQLFGLHSWFETDPVTVYRQHANRLKRQGL A0A0S2DDK4/30-314 -DDYTKTRYPVVLVHGLFGFDAIGG-VYDYWFGIPQALRSGGAQVYVAQVAAANSNE---VRGEQLIDQLETLQALHGYTKFNLVGHSQGGPTARYVAAVRPDLVASMTSIGSPHAGSKVADFIGTTVP--DGS-PL---RPLIASFVNAFSSLIGALSGGQS--SQDSLAALKALDSAGSARFNARYPQ---GMP-TS-ACGSGAATA-GGVRY--YSFGGTS---------------------------------NSTHWFDASDPAMIAGGLLF---AGEANDGLVGRCSSHWGQVIRDDYEWNHLDEVNQIAGLRGLFSANPTSVYRAHLNRLKNAGL A0A1L9JBC6/18-302 --GYTQTRYPIVLVHGLFGFDKLAG--VDYFYGIPETLTKDGAKVYVAQVSATNSSE---VRGEQLLSQVEMLLAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGHVS--EGS-LT---EALAVKLAEGLSGLIGLLSGGSG-LDQDPLASLDALTTQGSLRFNQFYPE---GLP-QT-ECGEGEMLAGNGVYY--YSWTGSS---------------------------------TYTNVLDPADAPMAILGLAF---AGEANDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A088UBS2/45-363 VDDYAATRYPIILVHGLTGTDKYGG-VVEYWYRIPEDLQAHGAAVYVANLSGFQSDDGPNGRGEQLLAFVKQVLAATGAQKVNLIGHSQGGLTSRYVASVAPELVASVTTISTPHWGSQFADFVQQLLQTDPTG-LS---STVLGAFANALGTLT---SSNFN-TNQNAIQALSVLTTAKAAAYNQKFPSAGLGAP-GSCQTGASTETV-GGNTHLLYSWGGTAIQPTATVAG-VTGA----------VDTSVSGAIDPANALDPSTLALLGSGTVMINRSAGQNDGVVSQCSARFGQVLGT-YHWNHTDAINQILGVLGANVEDPVAVIRTHANRLKNQGV A0A0N9HLH6/45-364 ADDYATTRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALASLQTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSVFG-VTGA----------TDTSTVPLVDPANVLDLSTLALFGTGTVMINRGSGQNDGLVSKCSALYGKVLSTSYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV L8MIV8/30-314 -SGYTQTRYPIVLTHGMLGFDSLLG--VDYWYGIPSALRRDGARVYVTEVSQLNTSE---ARGEELLEQVEEIVAISGSPKVNLVGHSHGGPTIRYVAAVRPDLVASVTSVGAPHKGSATADFIRQ-VP--PGS-AG---ETLLAGIVNGLGALINFLSGSSSTEPQNALGTLESLNSEGAAAFNARFPQ---GVP-TT-ACGEGAYQV-NGVRY--YSWSGTS---------------------------------PLTNALDVSDLLLGASSLTF---NGEANDGLVGRCSSHLGKVIRDDYRMNHLDEVNQTLGLTSLFETDPVTVYRQQANRLKNDGL Q393T2/45-364 ADGYTATRYPIILVHGLSGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQNVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSLFG-VTGA----------TDTSTIPVVDPANALDLSTLALYGTGTVMINRSSGQNDGLVSKCSALYGKVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV E7CY80/46-364 A-GYAATRYPIILVHGLSGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLSSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLTYDPTG-LS---SSVIAAFVNVFGILA---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSVFG-VTGA----------TDTSTLPLVDPANVLDLSTLALFGTGTVMVNRGSGQNDGLVSKCSALFGKVLSTNYKWNHLDEINQLLGVRGAYAEDPVAVIRTRANRLKLAGV B1K3P3/45-364 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQENLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSHN-TNQDALAALKTLTTGQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTFSVLG-VTGA----------TDTSTIPLVDPANVLDLSTLALLGTGTVMINRASGQNDGLVSKCSALYGKVLSTSYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A4XVF4/30-317 -SGYTQTKYPIVLGHGMLGFDSILG--VDYWYGIPAALRRDGASVYVTEVSQLDTSE---ARGEQLLQQVEDIVAISGKGKVNLIGHSHGGPTTRYVAAVRPDLVASVTSVGAPHKGSATADFLKG-IS--EGP-AGPVATPVLVGIVNGLGALINFLSGSSSTTPQNALGSLESLNSEGAARFNAKFPQ---GIP-TS-ACGEGAYSV-NGVRY--YSWSGTS---------------------------------PLTNVLDPSDLLLGASSLTF---GSEANDGLVGRCSSRMGQVIRDNYRMNHLDEVNQTLGLTSLFETDPVTVYRQHANRLKNAGL K5VCR3/17-300 --GYTETKYPIVLVHGLFGFDSLAG--VDYFYGIPHALTKDGATVYVAQVSATNSSE---ARGEQLLAQVETLLAATGAEKVNLIGHSHGGPTTRYVASVRPDLVASVTSIGGVNKGSKVADIVRGTVP--EGS-IS---EGVAVKLAEGLVTLINLLSGGTD-LDQDPLASLAALTTEGSLAFNQHYPE---GIP-TS-ECGDGDLLASNGVHY--YSWTGSS---------------------------------NFTNLFDPTDGAMVVLGLAF---D-SPNDGLVGTCSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKQQGL A0A1L5RIB7/17-300 --GYTETKYPIVLVHGLFGFDSLAG--VDYFYGIPHALTKDGATVYVAQVSATNSSE---ARGEQLLAQVETLLAATGAEKVNLIGHSHGGPTTRYVASVRPDLVASVTSIGGVNKGSKVADIVRGTVP--EGS-IS---EGVAVKLAEGLVTLINLLSGGTD-LDQDPLASLAALTTEGSLAFNQHYPE---GIP-TS-ECGDGDLLASNGVHY--YSWTGSS---------------------------------NFTNLFDPTDGAMVVLGLAF---D-SPNDGLVGTCSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKQQGL K5UP63/17-300 --GYTETKYPIVLVHGLFGFDSLAG--VDYFYGIPHALTKDGATVYVAQVSATNSSE---ARGEQLLAQVETLLAATGAEKVNLIGHSHGGPTTRYVASVRPDLVASVTSIGGVNKGSKVADIVRGTVP--EGS-IS---EGVAVKLAEGLVTLINLLSGGTD-LDQDPLASLAALTTEGSLAFNQHYPE---GIP-TS-ECGDGDLLASNGVHY--YSWTGSS---------------------------------NFTNLFDPTDGAMVVLGLAF---D-SPNDGLVGTCSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKQQGL A0A0P1IYR5/76-360 -DDYTETRYPIVLVHGLFGFDTAAG--VDYWYRIPEELRRSGAEVYVAQVAAAQDTE---VRGEQLARQVEDILAISGAEKVNLIGHSHGSPTIRYVASVYPDMVASATGVGGVNWGARLADVLQGVVD--DVP-FS---GDLIGFLGNALAGLIDLFSGGGN--EQDILAALKALTTEETIAFNQRYPE---GMP-SE-YCGEGPRIGSNGVSY--FSWSGAK---------------------------------PLTNFLDPSDALLGATSIVF---LGEKNDGLVSSCSSHLGMVIRDDYRMNHLDEVNQVLGLRDLFSTDPVTLYRQHANRLRNYQF A0A090SSW1/27-310 --GYTQTKYPIVLVHGLFGFDSLAG--FDYFYGIPQTLSKDGATVFVAQISATNSSE---VRGEQLLTQVENVLAVTGAQKVNLIGHSHGAPTARYVASVAPEMVASVTSVGGVNKGSKVADLVRSTVP--EGS-AA---EAVAVKLAGGLTTLIGLLSGGSD-LPQDGLSSLEALTTEGSLAFNARYPE---GVP-TS-TCGDGDWQADNGVYY--YSWTGTS---------------------------------TYTNVLDPADLAMLILGLAF---D-EPNDGLVGQCSTHLGKVIGDDYKMNHLDEINGLLGIHHLFETDPKTLYRQHANRLQLQGL U4E360/30-313 --GYTQTHYPIVLVHGLFGFDKLAG--VDYFFGVPQALTKSGASVYVAQVSATNSSE---ARGEQLLAQVESVLAVTGASKVNLIGHSHGSPTSRYVASVRPDIVASVTSVGGVNKGSTIADIVRGTVP--PGS-VS---EDLAVKMAQGLSTLIGVLSGGSA-LPQDPLASLRSLTTKGSLKFNRHYPE---GVP-TS-KCGNGQKRASNGVYY--YSWSGTS---------------------------------TVTNVLDPSDAVMGVLGLAF---S-EPNDGLVGRCSSHLGQVIRDNYKMNHLDEVNGLLGIHHLFETDPVTIYRQHANRLKNQGL U4KDT9/30-313 --GYTQTHYPIVLVHGLFGFDKLAG--VDYFFGVPQALTKSGASVYVAQVSATNSSE---ARGEQLLAQVESVLAVTGASKVNLIGHSHGSPTSRYVASVRPDIVASVTSVGGVNKGSTIADIVRGTVP--PGS-VS---EDLAVKMAQGLSTLIGVLSGGSA-LPQDPLASLRSLTTKGSLKFNRHYPE---GVP-TS-KCGNGQKRASNGVYY--YSWSGTS---------------------------------TVTNVLDPSDAVMGVLGLAF---S-EPNDGLVGRCSSHLGQVIRDNYKMNHLDEVNGLLGIHHLFETDPVTIYRQHANRLKNQGL A0A0P0KKQ1/40-358 ADTYAATRYPVILVHGLAGTDKFAN-VVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTG-LS---STVIAAFVNVFGTLV---SSSHN-TDQDALAALRTLTTAQTATYNRNFPSAGLGAP-GSCQTGAATETV-GGSQHLLYSWGGTAIQPTSTVLG-VTGA----------TDTST-GTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV A0A0B6RX62/40-358 ADTYAATRYPVILVHGLAGTDKFAN-VVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTG-LS---STVIAAFVNVFGTLV---SSSHN-TDQDALAALRTLTTAQTATYNRNFPSAGLGAP-GSCQTGAATETV-GGSQHLLYSWGGTAIQPTSTVLG-VTGA----------TDTST-GTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV B9BJY8/71-390 ADDYAATRYPIVLVHGLTGTDKYAG-VLEYWYGIQEDLQRHGATVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---SSAIAALVNVFGILT---SSSHN-TNQDALAALTTLTTAQAATYNRNFPSAGLGAP-GSCTTGASTETV-GGNTHLLYSWAGTAIQPTNAAFG-VTGA----------SDTSTIPVVDPANALDASTLALLGTGTVMINRGSGQNDGLVSKCSALYGQVLGTNFKWNHLDEINQLLGVRGAYAEDPVAMIRTHANRLKLAGV A0A0E4AP21/45-364 ADDYAATRYPIVLVHGLTGTDRYAG-VLDYWYGIRQDLEQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLVGHSQGGLTSRYVAAVAPELVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALKTLTTEQAAAYNRNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTVSAFG-VTGA----------TDTSTIPVVDPANALDLSTLALLGTGTAMINRNSGTNDGLVSKCSALYGKVLSTNYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A0D5IRU4/45-364 ADDYAATRYPIVLVHGLTGTDRYAG-VLDYWYGIRQDLEQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLVGHSQGGLTSRYVAAVAPELVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALKTLTTEQAAAYNRNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTVSAFG-VTGA----------TDTSTIPVVDPANALDLSTLALLGTGTAMINRNSGTNDGLVSKCSALYGKVLSTNYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A1L9JX42/20-301 ----TQTRYPIVLVHGLFGFDKLAG--VDYFYGIPESLTKDGAKVYVAQVSATNSSE---VRGEQLLSQVEMLLAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGHVS--EGS-VT---EALAVKLAEGLSGLIGLLSGGSG-LEQDPLASLDALTTQGSLRFNQFYPE---GVP-QT-ECGEGEMLAGNGVYY--YSWTGSS---------------------------------TYTNVLDPADAPMAILGLAF---GGEANDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQG- A0A0T7EWH3/26-309 --GYTQTKYPIVLVHGLFGFDTLAG--VDYFFGIPHSLTKDGAKVYVAQVSATNSSE---VRGEQLLAQVETLLAATGAEKVNLIGHSHGGPTTRYVASVRPDLVASVTSIGGVNKGSKVADLVRGTVS--EGS-GS---EQVAVKLAQGLTTLINLLSGGSD-LDQDPLASLAALTTEGSLAFNQHYPE---GVP-TS-ECGNGDLLASNGVYY--YSWTGSS---------------------------------TFTNVFDPTDAAMMVLGLAF---D-GPNDGLVGACSTHLGKVIRDDYQMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL P26877/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLMPSATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSAGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL B8K5B1/27-310 --GYTETKYPIVLVHGLFGFDSLAG--VDYFYGIPQSLTKDGATVYVAQVSATNSSE---ARGEQLLNQVETLLAATGAQKVNLIGHSHGGPTARYVASIRPDLVASVTSVGGVHKGSKVADIVRGTVP--EGS-IS---ERVAVKLAQGLVTLINLLSGGSD-LEQDPLASLDALTTEGSLTFNRYYPE---GIP-ST-ECGNGDLLASNGVYY--YSWTGAA---------------------------------NFTNVFDPTDGAMMVLGLAF---D-GPNDGLVATCSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKQQGL A0A090IHB8/30-313 --GYTETKYPIVLVHGLFGFDSIVG--VQYFYGIPHALTRSGAVVYVAQVSATNRTE---ERGEQLLTQIEQILAATGADKVNLIGHSHGGPTARYVASVAPQYVASVTSIGGVNKGSIIIDIIREEVP--EGS-IP---EELAVTITAAFSDLINFLSGDND-LPQDPIAALESLTTKRSLEFNQSYPE---GIP-TT-ECGEGEYLADNGIYY--YSWSGSA---------------------------------NFTNLLDPLDAALVLTGSAF---S-EPSDGLVSACSSHLGKVIRDDYKMNHVDEINHTFGIHHLFETDPKTLYRQHANRLQLQGL A0A060L3K4/45-364 ADGYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSAFG-VTGA----------TDTSTIPLVDPANALDLSTLALFGTGTVMINRSSGQNDGLVSKCSALYGKVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV P95419/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAILSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GVP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A1D5C0Q7/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAILSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GVP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A0T7EPD2/29-313 -SGYTETKYPIMLVHGLFGFDTLAG--VDYFYGVPESLTKDGANVYVAQVSATNSSE---VRGEQLLSQVETLLAATGASKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVHKGSKVADLVRGNVS--EGS-VT---EGIAVKLAGGLTTLINLLSGGTD-LDQDGLASLEALTTEGSLAFNQFYPE---GVP-NS-ECGDGEWQASNGVYY--YSWTGSS---------------------------------TFTNLLDPTDGAMTILGLAF---N-EPNDGLVGACSAHLGKVIGDEYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLAGL A8QYB2/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAILSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A1E9CKR8/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAILSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A1G5KPN8/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAILSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A095FBP4/40-358 ADTYAATRYPVILVHGLAGTDKFAN-VLDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQGVLATDPTG-LS---STVIAAFVNVFGTLI---NSSLN-TNQDALAALKTLTTAQTAAYNKNFPSAGLGAP-GTCQTGAATETV-AGNQHLLYSWGGTAIQPGATVLG-VTGA----------SDTST-STFDSANVTDISTLALLGTGAVMINRGSGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKQQGI A0A088UYR6/45-364 ADAYAATRYPIILVHGLTGTDKYAG-VLDYWYGIREDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGAAKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLATDPTG-LS---SSVIAAFVNVFGILT---SSTHN-TNQDALAALQTLTTARAAAYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTVSAFG-VTGA----------ADTSTIPLVDPANALDLSTLALLGTGTVMINRGSGQNDGLVSKCSALYGKVLSTSYKWNHLDEINQLLGVRGAYAEDPLAVIRTHANRLKLAGV A0A1C3IXN3/30-313 --GYTQTKYPIMLVHGLFGFDTLAG--VDYFYGVPESLTKDGASVYVAQVSATNSSE---VRGEQLLAQVETLLAATGASKVNLVGHSHGGPTARYVASVRPDLVASVTSIGGVHKGSKVADLVRGTVS--EGS-AA---EGIAVKLAGGLTTLINLLSGGTD-LDQDGLASLEALTTEGSLAFNQFYPE---GVP-TS-ACGDGEWQANNGVYY--YSWTGSS---------------------------------TFTNLLDPTDGAMTILGLAF---N-EPNDGLVGACSAHLGKVIGDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLAGL A0A0A3FGN8/25-308 --GYTETKYPIVLVHGLFGFDTLAG--VDYFYGIPHSLTKDGATVYIAQVSATNSSE---ARGEQLLAQVETLLAATGAEKVNLIGHSHGGPTTRYVASIRPDLVASVTSIGGVNKGSKVADIVRNTVP--EGS-IS---EGVAVKLAEGLVTLINLLSGGSD-LDQDPLASLAALTTEGSLEFNQYYPE---GIP-TS-ACGDGDLLASNGVYY--YSWTGSS---------------------------------NFTNLFDPTDGAMVVLGLAF---D-GPNDGLVDACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A031GJE5/29-302 ----TQTKYPIVLVHGLFGFDKLGP--VDYFYGVSDALRSGGAQVYVTTVSAANSTE---VRGEQLLSQVRQILAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSVAGVNKGSKVADILSGAIP--NTS----------NALGNALASLIGILSGNKG-LPQNAGASLASLSTAGSLAFNSRHPQ---GVP-TS-ACGEGAYQV-QGVHY--FSWSGAQ---------------------------------PYTNVLDVGDPALAAISLAF---GGAKNDGLVSSCSSHLGKVIRDDYAMNHLDEVNQFVGIVNLFETNPVTVFRQQANRLQGL-- Q4JL88/45-363 ADDYATTRYPIILVHGLTGTDKYAG-VLDYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTE-LS---STVYAAFVNVFGILT---SSSHN-TNQDALASLKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSLFG-VTGA----------TDTSTVPVVDPANVLDPSTLALFGTGTVMINRGSGENDGLVSKCSALYGAV-STRYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A095F5E6/45-364 ADDYATTRYPIILVHGLTGTDKYAG-VLDYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTG-LS---STVIAAFVNVFGILT---SSSHN-TNQDALASLKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSLFG-VTGA----------TDTSTVPVVDPANVLDLSTLALFGTGTVMINRGSGENDGLVSKCSALYGKVLSTRYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A142PDQ3/45-364 ADDYATTRYPIILVHGLTGTDKYAG-VLDYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTG-LS---STVIAAFVNVFGILT---SSSHN-TNQDALASLKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSLFG-VTGA----------TDTSTVPVVDPANVLDLSTLALFGTGTVMINRGSGENDGLVSKCSALYGKVLSTRYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV U1Y1X8/45-364 ADDYATTRYPIILVHGLTGTDKYAG-VLDYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTG-LS---STVIAAFVNVFGILT---SSSHN-TNQDALASLKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSLFG-VTGA----------TDTSTVPVVDPANVLDLSTLALFGTGTVMINRGSGENDGLVSKCSALYGKVLSTRYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV B4EF94/45-364 ADDYATTRYPIILVHGLTGTDKYAG-VLDYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTG-LS---STVIAAFVNVFGILT---SSSHN-TNQDALASLKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSLFG-VTGA----------TDTSTVPVVDPANVLDLSTLALFGTGTVMINRGSGENDGLVSKCSALYGKVLSTRYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV K5TNY2/17-300 --GYTETKYPIVLVHGLFGFDTLAG--VDYFYGIPHSLTKDGATVYVAQVSATNSSE---ARGEQLLAQVETLLAATGAQKVNLIGHSHGGPTTRYVASIRPDLVASVTSIGGVNKGSKVADIVRGTVP--EGS-IS---EGVAVKLAEGLVTLINLLSGGTD-LDQDPLASLEALTTEGSLAFNQYYPE---GIP-TS-ECGDGDLLASNGVYY--YSWTGSS---------------------------------NFTNLFDPTDGAMVVLGLAF---D-GPNDGLVGACSTHLGKVIRDNYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A0H6PFS2/57-339 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGVIP--SGS-VS---EQVAVGLTQGLVALIDLLSGGKA-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL Q9L6C7/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAILSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDQVNQVFGLTSLFETSPVSVYRQHANRLKNASL Q5U9G1/46-364 A-GYAATRYPIILVHGLSGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLSSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQNVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSVFG-VTGA----------TDTSTLPLVDPANVLDLSTLALFGTGTVMINRGSGQNDGLVSKCSALFGKVLSTNYKWNHLDEINQLLGVRGAYAEDPVAVIRTHVNRLKLAGV A0A0C4XVX2/23-306 --GYTQTRYPIVLVHGLFGFDKLLG--VDYFYGIPQALSRDGAKVYVAQVSATASSE---QRGEQLLAQIELLLAATGAEKVNLIGHSHGGPTIRYVASVAPELVASATSVGGVNYGSDIADLVRTNAA--PGS-AA---EKLAAAAAHALSGVISLLSGGSQ-LPQDPVAALDALTSKGANQFNQRYPE---GLP-SQ-YCGEGPMRATNGVYY--FSWSGRG---------------------------------NMTNILDPVDPALALTGTFF---K-EPNDGLVGVCSSHLGKVIGTDYRMNHLDEVNQSFGIHHLFETDPVTLYRDHAHRLKELGL D0IJN7/30-312 --GYTQTRYPIVLVHGLFGFDSLAG--VEYFYGIPQSLTRDGAKVYVAQVSATNSTE---RRGEQLLAQVESLLAATGAKKVNLIGHSHGGPTVRYVASVRPDLVASVTTIGGVHKGSAVADLLRGTIQ--PGS-IS---EQAAVTVTKGFVALIDLLSGGEP-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-KCGEGAYQV-NGVRY--YSWSGSS---------------------------------TVTNLLDPSDAAMGVLGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLLETDPVTLYRQHANRLKQAGL Q7NUI4/26-310 -SGYTQTRYPIVLVHGLFGFGQVLG--VDYFYRVPAALKEDGAQVFVAEVSATGSNE---TRGEQLLQQVRRILAITGAQKVNLIGHSQGAPTARYVAGVRPDLVASVTTVGGVNKGSVVADIVRGVAP--PGS-VS---EAVAAAVTGAFVKVLAFFSGTGD-LPQQPIDALNSLTTAGSLAFSAKFPG---GVP-AS-ACGEGDYEA-NGVRY--YSWTGAA---------------------------------TTTNILDPLTVPMGALGLAF---GSTPSDGLVGVCSAHLGQVIRDDYKMNHVNEINQSFGLVSLFEVSPVSLYRQQANRLKNAGL A0A0J6LS87/26-310 -SGYTQTRYPIVLVHGLFGFGQVLG--VDYFYRVPAALKEDGAQVFVAEVSATGSNE---TRGEQLLQQVRRILAITGAQKVNLIGHSQGAPTARYVAGVRPDLVASVTTVGGVNKGSVVADIVRGVAP--PGS-VS---EAVAAAVTGAFVKVLAFFSGTGD-LPQQPIDALNSLTTAGSLAFSAKFPG---GVP-AS-ACGEGDYEA-NGVRY--YSWTGAA---------------------------------TTTNILDPLTVPMGALGLAF---GSTPSDGLVGVCSAHLGQVIRDDYKMNHVNEINQSFGLVSLFEVSPVSLYRQQANRLKNAGL A0A1E7UGJ8/29-302 ----TQTKYPIVLVHGLFGFDKLGP--VEYFYGVPAALRSGGAQVYVTTVSAANSTE---VRGEQLLSQVRQILAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSVAGVNKGSKVADILSGAIP--NTS----------GALGNALASLIGILSGNKG-LPQNAGASLASLSTAGSLAFNSRHPQ---GVP-TS-ACGEGAYQV-QGVHY--FSWSGAQ---------------------------------PYTNVLDVGDPLLAAISLAF---GGVKNDGLVSSCSSHLGKVIRDDYAMNHLDEVNQFVGIVNLFETNPVTVFRQQANRLQGL-- B1FNV3/45-364 SDNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---SSVIAAFVNVFGVLT---SSSHN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAA-GSCQTGAPTESV-GGNTHLLYSWAGTAIQPTLSALG-VTGA----------ADTSTIPLVDPANALDLSTLALLGTGTVMINRGSGQNDGLVSKCSALYGKVLSTNYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A1L9HT89/20-301 ----TQTRYPIVLVHGLFGFDKLAG--VDYFYGIPESLTKDGAKVYVAQVSATNSSE---VRGEQLLSQVEMLLAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGHVS--EGS-VT---EVLAVKLAEGLSGLIGLLSGGSG-LDQDPLASLDALTTQGSLRFNQFYPE---GVP-QT-ECGEGEMLAGNGVYY--YSWTGSS---------------------------------TYTNVLDPADAPMAILSLAF---GGEANDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQG- R4RRT6/29-311 --GYTATKYPIVLTHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYITEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLIGHSQGGPDIRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-VP--EGS-SG---EAIIAGLVNAMGALINFLSGSNSSAPQNALGALESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYVV-KGVRY--YSWSGTS---------------------------------PLTNPLDVSDAVMVAGSLAF---D-EANDGLVGRCSSHLGMVIRDNYRMNHLDEVNQVLGLTSLFETDPVSVYRQHANRLKNAGL C5TAG4/31-312 -SGYTQTRYPIVLVHGLFGFDSALG--VDYFYGIPDNLRQGGARVFVAQVSAANSTE---VRGEQLLAQVKTILAITGAPKVNLVGHSHGGPTTRYVAGVAPSLVASVTSIGGVNRGSRVADILRGVAP--AGS-VS---EAVASGAASALVSLINLVSGGTS-LPQMPTAALDSLTTAGLADFNRRFPQ---ALP-T--GCGSGAELV-NGVRY--YSWTGTQ---------------------------------TLTNVFDVSDGPLGILGLVF---G-EANDGLVSACSSRLGKHL-GDYRQNHLDEVNQLVGLRDWFSADPVTLYRQHANRLKQVGL A0A1E7VWF5/29-302 ----TQTKYPIVLVHGLFGFDKLGP--VDYFYGVSDALRSGGAQVYVTTVSAANSTE---VRGEQLLSQVRQILAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSVAGVNKGSKVADILSGAIP--NTS----------GALGNALASLIGILSGNKG-LPQNAGASLTSLSTAGSLAFNSRHPQ---GVP-TS-SCGEGAYQV-QGVHY--FSWSGAQ---------------------------------PYTNVLDVGDPALAAISLAF---GGVKNDGLVSSCSSHLGKVIRDDYAMNHLDEVNQFVGIVNLFETNPVTVFRQQANRLQGL-- A0A0F6UBZ4/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDDAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAILSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GVP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL P25275/45-364 ADGYAATRYPIILVHGLSGTDKYAG-VVEYWYGIQEDLQQNGATVYVANLSGFQSDDGANGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQNVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSVFG-ITGA----------TDTSTVPLVDLANVLDPSTLALFGTGTVMINRGSGQNDGLVSKCSALYGKVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A1L9IDN4/20-301 ----TQTRYPIVLVHGLFGFDKLAG--VDYFYGIPESLTKDGAKVYVAQVSATNSSE---VRGEQLLSQVEMLLAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGHVS--EGS-VT---EVLAVKLAEGLSGLIGLLSGGSG-LDQDPLASLDALTTQGSLRFNQFYPE---GVP-QT-ECGEGEMLAGNGVYY--YSWTGSS---------------------------------TYTNVLDPADAPMAILGLAF---GGEANDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQG- A0A1C3IKZ8/29-313 -SGYTATKYPIMLVHGLFGFDTLAG--VDYFYGVPESLTKDGASVYVAQVSATNSSE---VRGEQLLAQVETLLAATGASKVNLVGHSHGGPTARYVASVRPDLVASVTSIGGVHKGSKVADLVRGTVS--EGS-VS---EGIAVKLAGGLTALINLLSGGTD-LDQDGLASLEALTTEGSLAFNQFYPE---GVP-TS-ECGDGEWQANNGVYY--YSWTGSS---------------------------------TFTNLLDPTDGAMTILGLAF---N-EPNDGLVGACSAHLGKVIGDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLAGL B7VQH1/29-313 -SGYTATKYPIMLVHGLFGFDTLAG--VDYFYGVPESLTKDGASVYVAQVSATNSSE---VRGEQLLAQVETLLAATGASKVNLVGHSHGGPTARYVASVRPDLVASVTSIGGVHKGSKVADLVRGTVS--EGS-VS---EGIAVKLAGGLTALINLLSGGTD-LDQDGLASLEALTTEGSLAFNQFYPE---GVP-TS-ECGDGEWQANNGVYY--YSWTGSS---------------------------------TFTNLLDPTDGAMTILGLAF---N-EPNDGLVGACSAHLGKVIGDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLAGL A0A1C3JI99/29-313 -SGYTETKYPIMLVHGLFGFDTLAG--VDYFYGVPESLTKDGASVYVAQVSATNSSE---VRGEQLLSQVETLLAATGASKVNLVGHSHGGPTARYVASVRPDLVASVTSIGGVHKGSKVADLVRGNVS--EGS-VT---EGIAVKLAGGLTTLINLLSGGTD-LDQDGLASLEALTTEGSLAFNQFYPE---GVP-TS-ECGDGEWQASNGVYY--YSWTGSS---------------------------------TFTNLIDPTDGAMTILGLAF---N-EPNDGLVGACSAHLGKVIGDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLAGL A0A0T7DN00/29-313 -SGYTETKYPIMLVHGLFGFDTLAG--VDYFYGVPESLTKDGATVYVAQVSATNSSE---VRGEQLLSQVETLLAATGASKVNLVGHSHGGPTARYVASVRPDLVASVTSIGGVHKGSKVADLVRGNVS--EGS-VT---EGIAVKLAGGLTTLINLLSGGTD-LDQDGLASLEALTTEGSLAFNQFYPE---GVP-TS-ECGDGEWQASNGVYY--YSWTGSS---------------------------------TFTNLLDPTDGAMTILGLAF---N-EPNDGLVGACSAHLGKVIGDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLAGL A0A095EJS0/45-364 VDDYATTRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGILT---SSSHN-TNQDALASLKTLTTAQAATDNQNYPSAGLGAP-GSCQTGASTETV-GGNTHLLYSWAGTAIQPTLSVLG-VTGA----------TDASTVPVVDPANALDLSTLALYGTGTVMINRGSGQNDGLVSKCSALYGKVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A4JM55/45-364 SDTYAATRYPLVFVHGINGNEKIGG-AIDQWYGIRGDLQQHGASVYVANLSAFQSDDGPNGRGEQLLAYVKRVLAASGATRVNLVGHSQGGLTSRYVAAVAPELVASVTTIGTPHRGSEFADFVQRVLAYDPTG-LS---SAVIAKFVNLMAFLT---STNFN-LKQDALAALQTLTTSQAAVYNVNYPSAGLGAP-GSCETGASTETI-GGHTHLLYSWTGTAIRPAFSLSG-VMLA----------KDVSTIPLIDPAYKDDSSTLAMLATGTVMINRGSGRNDGLVSKCSALYGQVLGTHYKWNHVDEINQTLGVHGAFAEDPVAVIRTHANRLKLAGV A0A132DRP8/45-364 SDTYAATRYPLVFVHGINGNEKIGG-AIDQWYGIRGDLQQHGASVYVANLSAFQSDDGPNGRGEQLLAYVKRVLAASGATRVNLVGHSQGGLTSRYVAAVAPELVASVTTIGTPHRGSEFADFVQRVLAYDPTG-LS---SAVIAKFVNLMAFLT---STNFN-LKQDALAALQTLTTSQAAVYNVNYPSAGLGAP-GSCETGASTETI-GGHTHLLYSWTGTAIRPAFSLSG-VMLA----------KDVSTIPLIDPAYKDDSSTLAMLATGTVMINRGSGRNDGLVSKCSALYGQVLGTHYKWNHVDEINQTLGVHGAFAEDPVAVIRTHANRLKLAGV H6U4T7/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--RNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL A0A104Z7H4/45-364 ADDYATTRYPIILVHGLTGTDKYAG-VLDYFYGIQQDLQQHGATVYVANLSGYQSDDGPNGRGEQLLAQVKQVLAQTGAAKVNLIGHSQGGLSSRYVAAVAPELVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGMLT---SSTHN-TNQDALAALQTLTTARAATYNQNFPSAGLGAP-GSCQSGAPTETV-GGNTHLLYSWAGTAIQPTLSALG-VTGA----------KDTSTIPVVDPANALDASTLALLGSGTVMINRGAGENDGVVSKCSALFGQVLSTSYKWNHVDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A0D0HAV1/45-364 ADDYATTRYPIILVHGLTGTDKYAG-VLDYFYGIQQDLQQHGATVYVANLSGYQSDDGPNGRGEQLLAQVKQVLAQTGAAKVNLIGHSQGGLSSRYVAAVAPELVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGMLT---SSTHN-TNQDALAALQTLTTARAATYNQNFPSAGLGAP-GSCQSGAPTETV-GGNTHLLYSWAGTAIQPTLSALG-VTGA----------KDTSTIPVVDPANALDASTLALLGSGTVMINRGAGENDGVVSKCSALFGQVLSTSYKWNHVDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A085PJG5/30-312 --GYTQTRYPIVLVHGLFGFDTLAG--MDYFHGIPQSLTRDGAQVYVAQVSATNSSE---RRGEQLLAQVESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLVRGAIP--SGS-VS---EQVAVGLTQGLAALIDLLSGGKV-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-ACGEGAYQV-NGVRY--YSWSGAA---------------------------------TVTNILDPSDVAMGLIGLVF---N-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLFETDPVTLYRQHANRLKQAGL A0A0D5L6G7/49-368 VDDYAATRYPIILVHGLTGTDDYFG-VVPYWYGMQSDLQRHGATVFVADLSGFQSDLGPNGRGEQLLAYVKQVLAVTGAQKVNLIGHSQGGLTSRYVAAVAPDLVASVTSIATPHRGSPFADFVLGALSLDPTG-LS---TPIFGQLLNIFGILT---SHTHN-TNQDAIAALNALSTPHATQFNAQFPSAGLGAP-GACATGAPSETV-GGNVHLLYSWSGSAYQPITVLGL-TTGA----------LDRSTVPLIDPANVLDPSTLVFLTAGNVMALRQAGLNDGFTSTCSSLYGTVISTDYKWNHFDEINQLLGIRGAYAADPVAVLRTHANRLKLQGV J5CPP1/109-428 ADDYAATRYPIVLVHGLTGTDKYAG-VLEYWYGIQEDLQRHGATVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALTTLTTAQAATYNRNFPSAGLGAP-GSCTTGASTETV-GGNTHLLYSWAGTAIQPTNSAFG-VTGA----------SDTSTIPVIDPANALDASTLALLGTGTVMINRGSGQNDGLVSKCSALYGQVLGTNFKWNHLDEINQLLGVRGAYAEDPVAMIRTHANRLKLAGV Q21T36/22-305 --GYTQTRFPIVLVHGLFGFDNIGP--LDYWYGIPSALRADGAQVYVTQVSAANSTE---VRGEQLLVQVKQILAATGASKVNLIGHSHGGPTIRYVASVRPDLVASVTSVGGVNKGSAVADVLLGVAP--PGS-LS---NSVLISITNGLGSIISFLSGGSG-LSQDSLAAAQSLSTAGSLKFNLAHPE---GLP-TT-ACGEGAYAV-RGVAY--FSWSGAK---------------------------------PYTNVFDVLDPALALTSLAF---NGAKNDGLVASCSSRLGRVIRDDYALNHLDEVNQTVGLVNLFETNPVTLYRQQANRLKNLGL G0ADA2/60-338 ----TQTKYPIILVHGLFGFDKIGP--VEYFYGIPEALHADGAQVYVAEVSAANSTE---VRGEQLLTYVKQVLAATGASKVNLIGHSHGGPTIRYVASVAPQLVASVSSVAGPNKGAAVADIVRGVVA--PGS-FT---QAILGSVVNGFTTLIDALSGGGN--PQNSVAALDSLTTAGMAKFNLAHPE---GLP-AT-ACGEGDYQV-GGVYY--FSWSGGQ---------------------------------PLTNMLDPSDASMGLLSLAY---GGAKSDGLVSSCGSHLGRVIRDNYGMNHLDEVNQVLGLVNIFETSPKTVYRQQANRLKGL-- A0A1B4A8F9/45-364 VDDYVATKYPIILVHGLTGTDKYAN-VLEYWYGITEDLQAHGATVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSNNN-TNQDALAALKTLTTSQTATYNQNYPSAGLGAP-GSCQTGAPTETV-GGSTHLLYSWGGTAIQPTLSILG-VTGA----------VDTSTIPVVDPANALDPSTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0A088X4H2/45-364 VDDYVATKYPIILVHGLTGTDKYAN-VLEYWYGITEDLQAHGATVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSNNN-TNQDALAALKTLTTSQTATYNQNYPSAGLGAP-GSCQTGAPTETV-GGSTHLLYSWGGTAIQPTLSILG-VTGA----------VDTSTIPVVDPANALDPSTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV B3GVV9/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNFRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL A0A0E1W4R4/36-355 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A8ENY2/36-355 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0A0E1SMB7/36-355 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0A0E1UMI4/36-355 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV Q9EV86/5-292 ----VNTRYPILLVHGLFGFDRIGS--HHYFHGIKQALNECGASVFVPIISAANDNE---ARGDQLLKQIHNLRRQVGAQRVNLIGHSQGALTARYVAAIAPELIASVTSVSGPNHGSELADRLRLAFV--PGR-LG---ETVAAALTTSFSAFLSALSGHPR-LPQNALNALNALTTDGVAAFNRQYPQ---GLP-DR-WGGMGPAQV-NAVHY--YSWSGII-----------KGS----------------RLAESLNLLDPLHNALRVFDSFF-TRETRENDGMVGRFSSHLGQVIRSDYPLDHLDTINHM-ARGSRRRINPVELYIEHAKRLKEAG- A0A137S9A2/30-313 --GYTETKYPIVLVHGLFGFDSILG--IDYFYGVTRALSKSGAEVYVAQVSAANTTE---VRGEQLLAQVEQILAATGADKVNLIGHSHGGPTARYVASVAPQYVASVTSIGGVNKGSRVADILRGEVP--EGS-VS---EKVIASMANGLSKLITFLSRGGK-LPQDSVAALEALTTKNSLKFNESYPE---GVP-TT-ACGEGDYVAGNGVYY--YSWSGSA---------------------------------NFTNLLDPMDLALTLTGKAF---N-VPNDGLVSSCSSRLGKVIRDNYRMNHMDEVNQTLGLHHLFETDPKTLYRQHANRLKLQGL G8I0B5/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYVTEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLVGHSHGGPTVRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-IP--EGS-SG---EAIIAGLVNAMGSFINFVSGSSSTAPQDSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYRV-NGVRY--YSWSGTS---------------------------------PLTNPLDISDAMMGAGALAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL A0A0D6RYW9/27-310 --GYTQTRYPIVLAHGMFGFDRILG--IDYWYGIPSELRRHGATVYVAEVSQLNSTE---ARGEELLEQVEDIVAISGKPKVNLIGHSHGGPTARYVAGIRPNLVASVTSVGSPHKGSATADFLRK-IP--RDS-AG---EAFLANIANAIGKVINVISGSSSKLPQDVLAGLESLTPVGSAKFNARFPE---GVP-TT-VCGEGAYAA-RGVRY--YSWSGVR---------------------------------TLTNPLDISDPLLLITSLPF---KGQQNDGLVGRCSSHLGRVVRDDYRMNHLDEVNHLFGLVSLFETPPVSVYRQHANRLKNEGL A0A0A8RD86/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHKGSDTADFLRQ-IP--PGS-AG---EAVLSGLVNSLGALISFLS-SGSAGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTY--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL B1SYQ6/45-364 VDDYATTRYPVILVHGLTGTDKYAG-VLEYWYGIQEDLQQHGATVYVANLSGFQSDDGPDGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---ATVIAAFVNVFGVLT---SSSHN-TNQDALASLKTLTTAQAATYNQNYPSPGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSLLG-VTGA----------TDTSAIPLVDPANVLDLSTLALFGTGTVMINRGSGQNDGLVSKCSALYGKVLSTSYKWNHIDEINQLLGVRGANAEDPVAVIRTHANRLKLAGA A4JM54/45-364 TDDYAATRYPVVLVHGLTGTDKYAG-VLEYWYGIQEDLQRHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---SSVIATFFNVFGILT---SSSNN-TNQDALAALKTLTTSQAAAYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTVSMFG-VTGA----------KDVSTIPVIDPANALDLSTLALLGTGTVMINRGAGQNDGLVSKCSALYGQVLGTRYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV F0Q4B9/37-318 -SGYTQTRYPIVLVHGLFGFDSALG--VDYFYGIPDALRRDGAQVFVAQVSATNSTE---VRGEQLLAQVKQVLAVTGAAKVNLVGHSHGGPTIRYVAGVAPQLVASVTSIGGVNKGSRVADVVRGVAP--PGS-VS---ESVASAAAGALAQVISAASGGSG-LPQKPTAALDSLTTAGAADFNRRFPQ---GL--AS-GCGNGADVV-NGVRY--YSWTGTQ---------------------------------PVTNVLDPSDAGLALLAPVH---G-EANDGLVSACSSRLGRHL-GDYRQNHLDEINQLVGLRDLFSPDPVTLYRQHANRLKQQGL A0A0D5VJA8/47-364 ADDYAATRYPIILVHGLTGTDKYLG-VLDYWYGIQSDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGAQKVNLIGHSQGGLTSRYVAAVAPELVASVTTIGTPHRGSEFADFVQDALKKDPTG-LS---TPIIGAFANIFGILT---SSSHN-TNQNAVAALQTLTTANAAAYNLRYPSAGLGAP-GSCQTGAATETV-NGNTHLLYSWAGSAIQPT-SILG-IPGA----------TDTSV-APLDAANVLDPSTLVLYGTGAIMLSRQSGQNDGLVSVCSALYGKVLSTSYKWNHLDEINQLLGVRGANAADPVAVIRTQANRLKTQGV A0A118PP51/45-364 VDSYAATRYPIILVHGLTGTDRYAN-VLDYWYGIQADLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSNNN-TNQDALAALKTLTTSQTATYNQNYPSVGLGAP-GSCQTGAPTETV-GGNTHLLYSWGGTAIQPTLSALG-VTGA----------TDTSTIPVVDPANTLDPSTLALLGSGTVMINRGSGANDGLVSRCSSLYGQVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0A0D5L5M7/45-364 VDSYAATRYPIILVHGLTGTDRYAN-VLDYWYGIQADLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSNNN-TNQDALAALKTLTTSQTATYNQNYPSVGLGAP-GSCQTGAPTETV-GGNTHLLYSWGGTAIQPTLSALG-VTGA----------TDTSTIPVVDPANTLDPSTLALLGSGTVMINRGSGANDGLVSRCSSLYGQVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0A0H2ZI71/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL A0A157U255/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL A0A0H3QQA9/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL W1MSM0/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL A0A1F0I900/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL A0A1G5K328/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL P72172/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL A0A1D5BTX1/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL A0A0P1DHK6/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL V6AMJ5/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL A0A0E1B512/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL H2D5P3/31-359 A-GYAATRYPIILEHGLSGTDKYAG-VLEYWYGIQQDLQQNGAAVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLSSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSVFG-VTGATDTSTLPLVDTDTSTLPLVDPANVLDLSTLALFGTGTVMINRGSGQNDGLVSKCSALFGKVLSTNYKWNHLDEINQLLGVRGAYAEDPVAVIRTHVNRLKLAGV A6B1H2/26-309 --GYTQTKYPIVLVHGLFGFDSLAG--VDYFFGIPHSLTKDGATVYVAQVSATNSSE---ARGEQLLSQVETLLAATGASKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGTVP--EGS-GT---EQLAVKLAQGLTTLINLLSGGSD-LDQDPLASLAALTTEGSLAFNQHYPE---GIP-TS-ECGDGDLLAPNGVYY--YSWTGSS---------------------------------TFSNVFDPTDAAMMVLGLAF---D-GPNDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQRL A0A0E1TV50/36-355 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV B1H807/36-355 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV C4I862/36-355 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV Q45VN4/45-359 ADDYAATRYPIVLVHGLTGTDKYAG-VLEYWYGIQEDLQRHGATVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---SSAIAALVNVFGILT---SSSHN-TNQDALAALTTLTTAQAATYNRNFPSAGLGAP-GSCTTGALTETV-GGNTHLLYSWAGTAIQPTNAAFG-VTGA----------SDTSTIPVVDPANALDASTLALLGTGTVMINRGSGQNDGLVSKCSALYGQVLGTNFKWNHLDEINQLLGVRGAYAEDPVAMI-PHARE----PV A0A088TR33/46-364 A-GYAATRYPIILVHGLSGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLSSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSVFG-VTGA----------TDTSTLPLVDPANVLDLSTLALFGTGTVMINRGSGQNDGLVSKCSALFGKVLSTNYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV Q6B4I1/46-364 A-GYAATRYPIILVHGLSGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLSSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQDVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSVFG-VTGA----------TDTSTLPLVDPANVLDLSTLALFGTGTVMINRGSGQNDGLVSKCSALFGKVLSTNYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A1L9L5U9/20-301 ----TQTRYPIVLVHGLFGFDKLAG--VDYFYGIPESLTKDGAKVYVAQVSATNSSE---VRGEQLLSQVEMLLAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGHVS--EGS-LT---EALAVKLAEGLSGLIGLLSGGSG-LDQDPLASLDALTTQGSLRFNQFYPE---GLP-QT-ECGEGEMLAGNGVYY--YSWTGSS---------------------------------TYTNVLDPADAPMAILGLAF---AGEANDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQG- A0A1L9KX00/20-301 ----TQTRYPIVLVHGLFGFDKLAG--VDYFYGIPESLTKDGAKVYVAQVSATNSSE---VRGEQLLSQVEMLLAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGHVS--EGS-LT---EALAVKLAEGLSGLIGLLSGGSG-LDQDPLASLDALTTQGSLRFNQFYPE---GLP-QT-ECGEGEMLAGNGVYY--YSWTGSS---------------------------------TYTNVLDPADAPMAILGLAF---AGEANDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQG- A0A0S2FLX2/30-314 -DDYTKTRYPVVLVHGLFGFDSIAG-VYGYWFGIPQALSSGGAKVHVAQVTTAQSNE---VRGEELIDQLETLQALHGYSKFNLIGHSQGGPTARYVAAVRPDLVASMTSIGSPHAGSKVADFVGTALP--EGS-PL---RPLVASFVNAFADLIGLVSGSNT--PQDSLAALKALDSAGSARFNARYPQ---GKP-ST-ACGAGAAKV-NGIGY--YSMGGTS---------------------------------RSTNVFDGSDVAMVAGGLLF---GGEANDGLVGRCSSHWGQVLRDDYDWNHLDEVNQIAGLRGVFSSSPTSVYRAHLNRLKNAGL A0A090RYP2/26-310 -SGYTQTKYPIVLVHGLFGFDSLAG--FDYFYGIPQTLSKDGATVFVAQISATNSSE---VRGEQLLTQVENVLAVTGAQKVNLIGHSHGAPTARYVASVAPEMVASVTSVGGVNKGSKVADLVRSTVP--EDS-AA---EAIAVKLAGGLTTLIGLLSGGSD-LPQDGLSSLAALTTEGSVAFNAHYPE---GVP-TS-TCGDGDSQADNGVYY--YSWTGTS---------------------------------TYTNVLDPADPAMLILGLAF---D-EPNDGLVGQCSTHLGKVIGDDYKMNHLDEINGLLGIHHLFETDPKTLYRQHANRLQLQGS A0A1J0ITI5/27-311 -STYTQTKYPIVLAHGMLGFDNILG--VDYWFGIPSALRRDGAQVYVTEVSQLDTSE---VRGEQLLQQVEEIVALSGQPKVNLIGHSHGGPTIRYVAAVRPDLIASATSVGAPHRGSDTADFLRQ-IP--PGS-AG---EAILSGLVNSLGALISFLS-SGSTGTQNSLGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGSS---------------------------------PLTNFLDPSDAFLGASSLTF--KNGTANDGLVGTCSSHLGMVIRDNYRMNHLDEVNQVFGLTSLFETSPVSVYRQHANRLKNASL C9P528/27-311 -SGYTETRYPLVLVHGIFGFDSIAK--IDYFYGIPHALSKDGATVFTAQVAAANRSE---VRGEQLLAQVETILALTGKEKVNLIGHSQGSPTARYVASVRPDLVASVTSVGGVNWGSRVADIVRNTVP--EDS-IS---EALAVKITNSFVTLINVLSGGKG-LEQDALAALDTLTTEGSLAFNRHYPE---GVP-TT-YCGQGEAIASNGVHY--FSWTGSS---------------------------------AITNLLDPTDIPIGVLSLAF---D-EPNDGLVSVCSSHLGQVIGTHYKMNHLDEVNGLLGIRHLFEVSPVTLYRQHANRLQQLGL O68551/41-360 ADNYATTRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQHGATVYVANLSGFQSDDGPKGRDEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVPAVAPDLVASVTTIGAADRGSEFADFVQGVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSNN-ANQDALAGLKTLTTAQAATYNQNYPSAGLGRP-GSCQTGRPTETV-GGNTHLLYSWAGTAIQPTLSVFG-VTGA----------TDTSTIPLIDPANVLDPSTLALFGTGTVMINRASGQNDGLVSKCSALYGKVLSTSYKWNHIDEINQLLGVRGANAEDPVAVIRTHANRLKLAGV A0A0T7D2V3/30-313 --GYTETKYPIMLVHGLFGFDTLAG--VDYFYGVPESLTKDGASVYVAQVSATNSSE---VRGEQLLSQVETLLAATGASKVNLVGHSHGGPTARYVASVRPDLVASVTSIGGVHKGSKVADLVRGNVS--EGS-VT---EGIAVKLAGGLTTLINLLSGGTD-LDQDGLASLEALTTEGSLAFNQFYPE---GVP-TS-ECGDGEWQASNGVYY--YSWTGSS---------------------------------TFTNLLDPTDGAMTILGLAF---N-EPNDGLVGACSAHLGKVIGDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLAGL Q0BAH5/45-364 SDDYATTRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQHGATVYVANLSGFQNDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALKTLTTAQAATYNQNYPSAGLGAP-GSCQTGAPTESV-GGNTHLLYSWAGTAIQPTISALG-VTGA----------ADTSTIPLVDPANALDLSTLALLGTGTVMINRASGQNDGLVSKCSALYGKVLSTNYKWNHVDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV Z2F0N9/26-309 --GYTQTKYPIVLVHGLFGFDSLAG--VDYFFGIPHSLTKDGATVYVAQVSATNSSE---ARGEQLLSQVETLLAATGASKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGTVP--EGS-GT---EQLAVKLAQGLTTLINLLSGGSD-LDQDPLASLAALTTEGSLAFNQHYPE---GIP-TS-ECGDGDLLAPNGVYY--YSWTGSS---------------------------------TFSNVFDPTDAAMMVLGLAF---D-GPNDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A1J0JZY1/26-309 --GYTQTKYPIVLVHGLFGFDSLAG--VDYFFGIPHSLTKDGATVYVAQVSATNSSE---ARGEQLLSQVETLLAATGASKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGTVP--EGS-GT---EQLAVKLAQGLTTLINLLSGGSD-LDQDPLASLAALTTEGSLAFNQHYPE---GIP-TS-ECGDGDLLAPNGVYY--YSWTGSS---------------------------------TFSNVFDPTDAAMMVLGLAF---D-GPNDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A0U2QQQ4/45-364 ADDYATTRYPIILVHGLTGTDKYAG-VLDYFYGIQQDLQQHGATVYVANLSGYQSDDGPDGRGEQLLAQVKQVLAQTGAAKVNLVGHSQGGLSSRYVAAVAPELVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVFGMLT---SSTHN-TNQDALAALQTLTTARAATYNQNFPSAGLGAP-GSCQSGAPTETV-GGNTHLLYSWAGTAIQPTFSALG-VTGA----------KDTSTIPVADPANALDVSTLALLGSGTVMINRGAGENDGVVSKCSALFGQVLSTSYKWNHVDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV Q8RKT7/29-311 --GYTATKYPIVLTHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYITEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLIGHSHGGPTIRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-VP--EGS-SG---EAIIAGLVNAMGAFINFVSGSSSTAPQNSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYKV-NGVRY--YSWSGTS---------------------------------PLTNPLDVSDAMMGAGSLAF---S-GPNDGLVGRCSSHLGMVIRDDYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL A0A0M2WUR8/29-302 ----TQTKYPIVLVHGLFGFDKLGP--VEYFYGVPDALRSGGAQVYVTTVSAANSTE---VRGEQLLSQVRQILAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSVAGVNKGSKVADILSGAIP--NTS----------NALGNALASLIGILSGNKG-LPQNAGASLASLSTAGSLAFNSRHPQ---GVP-TS-ACGEGAYQV-QGVHY--FSWSGAQ---------------------------------PYTNVLDVGDPLLAAISLAF---GGAKNDGLVSSCSSHLGKVIRDDYAMNHLDEINQFVGIVNLFETNPVTVFRQQANRLQGL-- A3NMC8/41-360 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A3P7T9/41-360 VDNYAATQYPIILVHGLTGTDKYAN-VLEYWYGIREDLQAHGAQVYVANLSGFQSDDGPNGRGEQLLAYVQQVLAATGASKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQTVLAYDPTG-LS---STVIAAFVNVFGILT---SSTNN-TNQDALAALKTLTTSQAATYNQNYPSAGLGAP-GSCQTGAQTETV-GGNTHLLYSWGGTAIQPTLSILG-VTGA----------TDTSTIPVVDPANVLDASTLAMLGSGTVMINRGSGANDGLVSRCSSLYGQVLGTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKTQGV A0A068FJV4/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYVTEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLIGHSHGGPTIRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-VP--EGS-SG---EAIIAGLVNAMGAFINFVSGSSSTAPQNSLGSLESLNSEGAARFNAKFPH---GIP-TT-ACGEGAYKV-DGVHY--YSWSGTS---------------------------------PLTNPLDVSDAMMGAGSLAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL A0A0E3JN96/29-311 --GYTATKYPIVLAHGMLGFDSLLG--IDYWYGIPSALRRDGAQVYVTEVSQLNTSE---LRGEELLAQVEEIVAISGKPKVNLIGHSHGGPTIRYVAGVRPDLIASVTSVGAPHKGSDVADLIRK-VP--EGS-SG---EAIIAGLVNAMGAFINFVSGSSSTAPQNSLGSLESLNSEGAARFNAKFPH---GIP-TT-ACGEGAYKV-DGVHY--YSWSGTS---------------------------------PLTNPLDVSDAMMGAGSLAF---S-GPNDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFMGLTSLFETDPVSVYRQHANRLKNAGL A0A1A7USD8/27-310 --GYTETKYPIVLVHGLFGFDSLAG--FDYFYGIPQALSKSGAKVYVAQISATNSSE---VRGEQLLAQVENVLAITGADKVNLIGHSHGAPTARYVASVAPQMVASVTSIGGVNKGSKVADIVRNTVP--EDS-VS---EAIAVELASALTTIIGVLSGGSD-LPQDGLSSLQALTTEGSLAFNEHYPE---GVP-KS-SCGDGEWQATNGVYY--YSWTGTS---------------------------------TYTNVLDPADPAMFILGLTF---D-EPNDGLVGRCSTHLGRVIRDDYKMNHLDEINGLLGIHHLFETDPKTLYRQHANRLQQQGL A0A084TCY6/27-310 --GYTETKYPIVLVHGLFGFDSLAG--FDYFYGIPQALSKSGAKVYVAQISATNSSE---VRGEQLLAQVENVLAITGADKVNLIGHSHGAPTARYVASVAPQMVASVTSIGGVNKGSKVADIVRNTVP--EDS-VS---EAIAVELASALTTIIGVLSGGSD-LPQDGLSSLQALTTEGSLAFNEHYPE---GVP-KS-SCGDGEWQATNGVYY--YSWTGTS---------------------------------TYTNVLDPADPAMFILGLTF---D-EPNDGLVGRCSTHLGRVIRDDYKMNHLDEINGLLGIHHLFETDPKTLYRQHANRLQQQGL P08658/5-275 ----VNTRYPILLVHGLFGFDRIGS--HHYFHGIKQALNECGASVFVPIISAANDNE---ARGDQLLKQIHNLRRQVGAQRVNLIGHSQGALTARYVAAIAPELIASVTSVSGPNHGSELADRLRLAFV--PGR-LG---ETVAAALTTSFSAFLSALSGHPR-LPQNALNALNALTTDGVAAFNRQYPQ---GLP-DR-WGGMGPAQV-NAVHY--YSWSGII-----------KGS----------------RLAESLNLLDPLHNALRVFDSFF-TRETRENDGMVGRFSSHLGQVIRSDYPLDHLDTINHM-ARGSAGAS------------------ Q9HUZ7/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL U3H9P2/27-310 --GYTQTKYPVVLAHGMLGFDSILG--IDYWYGIPSALRRDGASVYVTEVSQLNTSE---ARGEELLEQVEEIVAISGKRKVNLIGHSHGGPTIRYVAGVRPDLVASATSVGGPHKGSATADFLRQ-IP--PGS-AS---EAIVAGIVNGLGSLINFLSGSKSTLPQNGLGSLESLNSQGAARFNAKFPQ---GIP-TS-ACGEGAYQV-NGVRY--YSWSGTS---------------------------------PLTNVLDISDVLLGATALTF---KGEATDGLVGRCSSHLGKVVRDNYRMNHLDEVNQTFGLTSLFETDPVTVYRQHANRLKNDGL A0A0B3BPM8/33-318 -SDYTKTRYPIVLSHGMLGWDSMLG--IDYWYGIPGALRSGGASVYTTEVSQLNTSE---VRGEELIEQVEDIVALSGKPKVNLIGHSHGGPTVRYVAAMRPDLIASATSVGAPHTGSDLADFLKL-FP--DGS-LT---QTIVSELVNQIGKMIHFLSGSPSTNPQDSLGSLESLHSEGAARFNAKFPQ---GMP-LR-KCGEGAYKV-NGVNY--YSWSGTS---------------------------------PLTNPLDPSDGMMGVASLTF--IGGEANDGMVGRCSSHLGKVIRDNYRMNHLDEVNQFFGLTSLFETDPVTVYRQHANRLKNDGL A0A0C2BH86/27-310 --GYTQTKYPIVLVHGLFGFDNIGP--FGYWYGIPSALTADGAKVYVTQVSAANSTE---VRGEQLLTQVKQILAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSVGGVNKGSAVADILVHVAP--PGS-LS---NAVLTSVTNGLSSMINWLSGNPT-LPQSSWAAAMSLSTAGSAKFNAAHPE---GVP-TT-ACGEGAYQV-NGVRY--FSWSGGS---------------------------------SYTNVLDVVDPWLLLTSAAF---GGAKNDGMVASCSSHLGKVIRDDYGMNHLDEVNQTAGIVNLFETNPKTLYRQHANRLQSLGL A0A0T6UNV8/28-314 -STYTKTKYPIVLGHGLLGFDSILG--VGYWYGVPTALKSGGASVYVTEVAQINSTE---FRGEQLLEQVEEIVAITGKGKVNLMGHSHGGPTVRYVAGVRPDLVASVTTIAGANKGSELADFVRNNLA--EGS-TG---EAVVAQLFQALGSTISLLSGGANISNQDALAAVGSLTTQAATEFNTRFPQ---GVP-TS-ACGEGAYKV-DGVRY--YSWSGAT---------------------------------PRTNILDISDLITVIGAQTF--TREKDTDGLVGRCSSHLGMVVRDNYRMNHLDEINHALGLTSLLETDPLTVYRQQANRLKLAGL A0A0L7YWL3/30-313 --GYTQTKYPIVLVHGLFGFDTLAG--VDYFYGIPQSLTKDGATVYVAQVSATNSTE---LRGEQLLQQVESILVATGAQKANLIGHSHGGPTARYVASVRPDLIASVTSIGGVNKGSKVADLVRGHVA--DGS-LS---EAAAIKLAEGLSGLISLLSGGTD-LEQDPLASLEALTTKGSLEFNHYYPE---GIP-TS-ECGDGELLAENGVYY--YSWTGAS---------------------------------TFTNVLDPTDGAMTILGLAF---D-GPNDGLVGACSAHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL R1HA44/20-303 --GYTQTRYPIVLVHGLFGFDKLLG--VDYFYGIPQALGRDGAKVYVAQVSATASSA---LRGEQLLAQVQQVLAVTGADKVNLIGHSHGGPTIRYVASVAPELVASATSVGGVNFGSEIADKVRMQVI--PGS-AG---EALAASAASALSGVISLLSGGSN-LPQDPLKALDALTSAGAARFNAAYPE---GLP-HQ-YCGEGPLQAENGVYY--FSWSGRG---------------------------------NLTNILDPVDPALVLTGTFF---S-EANDGLVGVCSSHLGKVIGTHYRMNHLDEVNQSFGIHHLFETDPVSLYRQHANRLKEMGL J1ENC2/32-313 --GYTQTRYPIVLVHGLFGFDSALG--VDYFYGIPDALRQGGAKVYVAQVSAANSTE---VRGEQLLAQVKNILAITGAAKVNLVGHSHGGPTARYVAGVAPGKIASVTSVGGVNRGSRVADIMRGVAP--AGS-VS---ETIANGAASALVALINLTSGGSG-LPQMPTAALDSLTTAGSAAFNRRFPQ---GVP-TA-GCGNGAELV-NGVRY--YSWTGTK---------------------------------TLTNVLDASDALLGVLGLVF---G-EANDGLVSACSSRLGTHL-GDYRQNHLDEVNQLVGLRDWFSTDPVTLYRQQANRLKAAGL A0A1M3J7Q7/26-306 ---ATQTRYPIVLVHGLFGFDSALG--IDYFYGIPDALRRDGAKVYVAQVSAANSTE---VRGEQLLAQVKNILALSGAAKVNLIGHSHGGPTARYVAGVAPQLVASVTSVGGVNRGSRVADIVRGVAP--AGS-VS---EAVANTAAKALVSLINVASGGTG-LPQMPTAALDSLSTAGSARFNQRFGA---GVP-SS-GCGSGAEQV-NGVRY--YSWTGTR---------------------------------TATNLLDLSDAPLALLGLVF---G-EANDGLVSACSSRLGKSL-GDYAQNHLDEVNQLLGLRDWFATDPVTLYREHATRLKGLGL A0A1E4LZC2/26-306 ---ATQTRYPIVLVHGLFGFDSALG--IDYFYGIPDALRRDGAKVYVAQVSAANSTE---VRGEQLLAQVKNILALSGAAKVNLIGHSHGGPTARYVAGVAPQLVASVTSVGGVNRGSRVADIVRGVAP--AGS-VS---EAVANTAAKALVSLINVASGGTG-LPQMPTAALDSLSTAGSARFNQRFGA---GVP-SS-GCGSGAEQV-NGVRY--YSWTGTR---------------------------------TATNLLDLSDAPLALLGLVF---G-EANDGLVSACSSRLGKSL-GDYAQNHLDEVNQLLGLRDWFATDPVTLYREHATRLKGLGL A0A1A9N6N1/47-364 GDDYAATRYPIILVHGLTGTDKYLG-VLDYWYGIQSDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGAQKVNLIGHSQGGLTSRYVAAVAPELVASVTTIGTPHRGSEFADFVQAALQKDPTG-LS---TPIIGAFANIFGILT---SSTHN-TNQDAVAALQTLTTANAAAYNLRYPSAGLGAP-GSCQTGAATETV-GGNTHLLYSWAGSAIQPT-SLLG-IPGA----------IDTSV-ASLDTADVLDPSTLVLYGTGAIMLSRQSGQNDGLVSVCSALYGKVLGTSYKWNHLDEINQLLGVRGANAADPVAVIRTQANRLKTQGV A0A0A5I163/27-310 --GYTETKYPIVLVHGLFGFDSLAG--VDYFYGIPQSLTKDGATVYVAQVSATHSSE---ARGEQLLNQVETLLAATGAQKVNLIGHSHGGPTARYVASIRPDLVASVTSVGGVHKGSKVADIVRGTVP--EGS-IS---EGVAVKLAQGLVTLINLLSGGSD-LEQDPLASLDALTTEGSLSFNRYYPE---GIP-ST-ECGNGDLLASNGVYY--YSWTGSA---------------------------------NFTNVFDPTDGAMMVLGLAF---D-GPNDGLVATCSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKQQGL F2LNF6/40-358 ADTYAATRYPVILVHGLAGTDKFAN-VLDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQGVLATDPTG-LS---STVIAAFVNVFGTLI---NSSLN-TNQDALAALKTLTTAQTAAYNKNFPSAGLGAP-GTCQTGAANETV-AGNQHLLYSWGGTAIQPGATVLG-VTGA----------SDTST-STFDSANVTDISTLALLGTGAVMINRGSGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKQQGI A0A120IHU0/20-302 --GYTETRHPIVLVHGLFGFDQMLG--VDYFYKVPQALQADGAKVYVAQVSATNSSE---LRGEQLLTQVKQILAITGASKVNLIGHSHGGPTTRYVASVRPDLVASVSNIAGVNKGSKVADVVRKATP--PGS-IN---EATAILIAEGLAKLIGLVSKDGS-LPQSANAALDSLTTAGAAKFNAKFPE---GLP-LG-ACNEGAYQV-NGVRY--YSWSGAS---------------------------------PVTNVFDVSDAAMGLTSLAF---K-EKNDGLVSSCSSHLGQVLRDDYRMNHLDEVNQFIGIVSLFETNPVSVFRQHANRLKNAGL S6AKE8/30-314 -SGYTQTRYPIVLTHGMLGFDSLLG--VDYWYGIPSALRRDGARVYVTEVSQLNTSE---ARGEELLEQVEEIVAISGSPKVNLIGHSHGGPTIRYVAAVRPDLVASATSVGAPHKGSATADFIRQ-VP--PGS-AG---EVLLAGIVNGLGALINFLSGSSSELQQNALGSLASLNSQGAAAFNARFPQ---GLP-TT-ACGEGAYQV-NGVRY--YSWSGTS---------------------------------PLTNVLDISDALLGASSLTF---NGEANDGLVGRCSSHLGKVIRDDYRMNHLDEVNQTLGLTSLFETDPVTVYRQQANRLKNDGL A0A104NQZ3/45-364 ADDYATTRYPIILVHGLTGTDKYVG-VFDYWWGIQEDLQQHGANVYVANLSGFQSDDGPDGRGEQLLAYVKQVLAQTGATKVNLIGHSQGGLTSRYVAAVAPELVASVTTIGTPHRGSEFADFVQGVLAYDPTG-LS---STVIAAFVNVIGALT---NSTHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQSGAPTETV-GGNTHLLYSWAGTAIQPTFSVLG-VTGA----------RDTSTIPVVDPANVTDVSTLALLGSGTVMVNRGSGENDGVVSKCSALYGQVLSTRYKWNHVDEINQLFGVRGAYAEDPVAVIRTHANRLKLAGV Q1N359/30-312 -STYTKTKYPIVFAHGLLGFDELLG--VEYWYKIPAALRKDGAKVYVTQVSNTNFTE---VRGEQLIAQIENIIAVSGANKVNLIGHSHGGPTIRYVASVRPDLVASVTTVAGVNKGSNTADFLRQ-IP--EGS-AL---EGLALSIVNAFSSVLDFLSGGGY--TPDALGALTSLSTEGALAFNAQHPQ---GVP-TT-ACGEGDYVV-NGIRY--YSWSGGS---------------------------------PVTNVLDISDTAMGLTALTF---GSEKNDGLVGSCDSRLGQVIRDDYRMNHLDEVNQVLGIHHLFETDPVTTYRNHANRLKKAGL A0A0N1EDM3/23-306 --GYTQTKYPLVLAHGIMGFDDVLG--IDYFYRLPTNLSKDGARVYVTSVSSVNSSE---QRGEQLLLQVEQIMALTGASKVNLIGHSQGAQSIRYVASIRPDIVASATSVGGVNFGSPVADVVRQGLT--PGS-KL---EGVAKTAFNAFGGLIALLSGNSG-LPQNAVGALESLTTEGALAFNLKYPE---GLP-AS-QCEQGPMQASNGVYY--FSWSGTR---------------------------------TLTNIFDPSDAALAITSLLI---P-GDDDGLVSRCSSHLGYVLKDNYKMNHLDEVNQMIGFHHIFETDPLTVYRQHANRLKRMGL F0LXT6/30-312 --GYTHTKYPIVLVHGLFGFDTLAG--VDYFYGIPQSLTKDGATVYVAQVSATNSTE---LRGEQLLAQVETLLAATGAEKVNLMGHSHGGPTVRYVASVRPDLVASATSIGGVNKGSAVADLVRNTIP--QDS-VT---EALAVKLADGLVALINLLSGGGD-LEQDALASLDALTTEGSLAFNQNYPE---GIP-AT-ACGEGDYEV-NGVRY--YSWTGAS---------------------------------TFTNALDPTDAAMTVLGLAF---D-GPSDGLVGACSAHLGQVIRDDYAMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL I4JIG4/26-308 --GYTQTRYPIVLGHGMLGFDSLLG--VDYWYGIPAALRRDGAQVYVTEVSQLNTSE---LRGEELLAQVEEIVALSGKPKVNLIGHSHGGPTVRYVAAVRPDLVASVTSVGAPHKGSDVADLIRN-IP--EGS-AG---EAIVAGLVNTMGALINFLSGSSSSAPQNSLGSLESLNSEGAARFNAKFPQ---GIP-TT-ACGEGAYVV-NGVRY--YSWSGTS---------------------------------PLTNPLDISDAMMGAGALAF---D-EPNDGLVGRCSSHLGMVIRDDYRMNHLDEVNQVLGLTSLFETDPITVYRQHANRLKNAGL A0A1F4JRI0/27-310 --GYTQTKYPIVLVHGLLGFDHIGL--VEYWYGIPWALRADGARVYTTQVSAANSTE---VRGEQLLTQVKQILAATGATKVNLIGHSHGSPTARYVASVRPDLIASVTSVGGVNKGSAVADILLGVTP--PGS-LS---NAVLVSINNGVAAIINFLSGGGS-LPQNARAANVSLSTAGTLKFNAAHPA---GVP-TT-ACGEGAYQV-RGVYY--FSWSGAK---------------------------------PYTNVFDIMDPALALTSLAF---GGAKNDGLVSSCSSRLGRVIRDDYAMNHLDEVNQTIGLINIFETNPKTVYRQHANRLKNMGL A0A0J6NL45/26-309 --GYTQTRYPIVLVHGLFGFGQLLG--VDYFYQVPAALRSDGAQVFVAEVSALNSNE---ARGEQLLQQVQKIIAITGAAKVNLIGHSQGAPTARYVAGVRPDLVASVTSVGGVNKGSVVADIVRGTVP--PGS-VS---EAVASAVAKALTAVMQFFAGTTG-QPQYPVGALDSLTTAGSAAFSAKFPQ---GVP-TS-ACGEGDYQV-NGIRY--YSWTGSS---------------------------------TVTNVLDPLSAPMGVLGLAF---GSTPTDGLVSTCSAHLGQVIRDNYRMNHVNEINQSFGLVSLFEVSPVSLYRQQANRLKNTGL A0A0P9AA70/39-318 ---ATQTRYPIVLVHGLFGFDSLFG--VDYWYGIPSALQRSGARVFVAQVSAANSTE---VRGEQLLAQVKNIMAITGAAKVNLVGHSHGGPTIRYVAGVAPQLVASVTSVAGPNKGSRVADILRGTVP--AGS-LG---ESVLNGAVNAFVALINLGSGGTG-LPQMPVAALNSLTAAGSADFTRRFPQ---AVP-T--GCGDGAEVV-DGVRY--YSWTGKQ---------------------------------PVTNLLDPSDASLGLLSLSF---G-ETNDGLVAVCSSRLGKHL-GDYRQNHLDEVNQLLGVRDWLAPDPVALYRQHATRLKQIGL A0A0B1YP13/45-364 ADNYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---STVISAFVNVFGILT---SSSHN-TNQDALASLKTLTTAQAATYNQNYPSAGLGVP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSLFG-VTGA----------QDMSTIPLVDPANALDPSTLALFGTGTVMINRGSGQNDGLVSKCSALYGKVLSTSYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLQLAGV M1H0U7/23-306 --GYTQTKYPIVLAHGLMGFDDVLG--VDYFYRVPASLSRDGAQVFVTAVSSLNSSE---QRGEQLLQQVEQIIALTGTTKVNLIGHSQGAQSIRYVASLRPDLVASATSVGGVNFGSPVADVVRQGLT--PGS-KL---EGIAKTAFDAFGGLIALLSDNSQ-LPQDALGALESLTTEGALAFNQKYPE---GLP-AE-QCQQGPMYASNGVYY--FSWSGTR---------------------------------TLTNIFDPSDAALAITAILI---P-GDDDGLVSRCSSHLGYVLKDNYRMNHLDEVNQLIGFHHLFATDPLTVYRQHANRLKKLGL L8JBA0/30-313 --GYTETKYPIVLVHGLFGFDTLAG--MDYFYGIPQALTKSGAKVYVAQISATNSTE---VRGEQLLAQVEEVLAVTGAEKVNLIGHSHGGPTTRYVASVAPELVASVTSIGGVNKGSYIADLTRNTIP--EGS-IP---EGIGVKLAEGLTTLINLLSGGSH-LPQDPLASLDALTTVGLMEFNKKYPE---GVP-ST-YCGEGEYLADNGVYY--YSWTGTS---------------------------------NFTNLLDPTDGAMVILGLAF---D-EPNDGLVGKCSTHLGKVIRDDYKMNHLDEINGMLGVTHLFETAPTTVYRQHANRLQQQGL A0A0L8SLI4/26-309 --GYTQTKYPIVLVHGLFGFDSLAG--VDYFFGIPHSLTKDGATVYVAQVSATNSSE---ARGEQLLSQVETLLAATGANKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGTVP--EGS-GT---EQLAVKLAQGLTTLINLLSGGSD-LDQDPLASLAALTTEGSLAFNQHYPE---GIP-TS-ECGDGDLLAPNGVYY--YSWTGSS---------------------------------TFSNVFDPTDAAMMVLGLAF---D-GPNDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL Q87QG8/26-309 --GYTQTKYPIVLVHGLFGFDSLAG--VDYFFGIPHSLTKDGATVYVAQVSATNSSE---ARGEQLLSQVETLLAATGANKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGTVP--EGS-GT---EQLAVKLAQGLTTLINLLSGGSD-LDQDPLASLAALTTEGSLAFNQHYPE---GIP-TS-ECGDGDLLAPNGVYY--YSWTGSS---------------------------------TFSNVFDPTDAAMMVLGLAF---D-GPNDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A0F6LRJ6/26-309 --GYTQTKYPIVLVHGLFGFDSLAG--VDYFFGIPHSLTKDGATVYVAQVSATNSSE---ARGEQLLSQVETLLAATGANKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGTVP--EGS-GT---EQLAVKLAQGLTTLINLLSGGSD-LDQDPLASLAALTTEGSLAFNQHYPE---GIP-TS-ECGDGDLLAPNGVYY--YSWTGSS---------------------------------TFSNVFDPTDAAMMVLGLAF---D-GPNDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL W8QX89/30-313 -SGYTQTRYPIVLTHGMLGFDSLLG--LDYWYGIPRALQRDGAQVYVTEVSQLNTSE---LRGEELLDQVEEIVAISGKSKVNLIGHSHGGPTVRYVAAVRPDLVASVTSVGAPHKGSDVADLLRK-VP--EGS-GG---EAIIAGLVNGMGALIHFLSGSPSTAPQNSLGSLESLNSEGAARFNARYPQ---GLP-TS-ACGEGAHKV-GGVSY--YSWSGTS---------------------------------PLTNPLDVSDAMLGAGSLAF---D-EANDGLVGRCSSHLGMVIRDNYRMNHLDEVNQVLGLTSLFETDPLTVYRQHANRLKNAGL A0A1E5C8D4/30-313 --GYTQTKYPIVLVHGLFGFDRIAG--VDYFHAIPQALTRSGAKVFVAQVSATNSSE---KRGEQLLQQVRWVLAVTGAKKVNLIGHSHGSPTARYVASVAPRYVASVTSVGGVNKGSEFADVVRKTFS--QGS-SG---EAVAVGAAKALSGLISVLSGGSH-LPQDPLASLNSLTTKGSLAFNAKYPE---GIP-TS-RCGEGRYRESNGVYY--YSWSGTS---------------------------------TATNIFDITDPVLFVTGLFF---S-EPNDGLVGRCATHLGRVIRSNYRMNHLDEVNQFFGLHHLFETDPVTVYRQHANRLKRQGL A6CWS4/27-310 --GYTETKYPIVLVHGLFGFDSLAG--FDYFYGIPQTLSKSGAKVYVAQISATNSSE---VRGEQLLAQVENVLAITGADKVNLIGHSHGAPTARYVASVAPQMVASVTSIGGVNKGSKVADIVRNTVP--EDS-VS---EAIAVELASALTTIIGVLSGGSD-LPQDGLSSLQALTTEGSLAFNEHYPE---GVP-KS-SCGDGEWQAANGVYY--YSWTGTS---------------------------------TYTNVLDPADPAMFILGLTF---D-EPNDGLVGRCSTHLGRVIRDDYKMNHLDEINGLLGIHHLFETDPKTLYRQHANRLQQQGL A0A1K1TB52/51-370 TDDYAATRYPVILVHGLTGTDKYAG-VLEYWYGIQEDLQRHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQSVLAYDPTG-LS---SSVIATFFNVFGILT---SSSNN-TNQDALAALKTLTTSQAAAYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTVSMFG-VTGA----------KDVSTIPLIDPANALDLSTLALLGTGTVMINRGAGQNDGLVSKCSALYGQVLGTRYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A1L6LKZ3/49-332 -DTYTQTKYPIVLCHGMAGFDSLFG-VLDYFYGIESALESGGAKVYVTHVPQFNSTE---ARGEALLDQIEDLAARTGAKKFNLIGHSHGGLDVRYVAAMRPDLVASVTSVGSPHKGADLADFLRNNIS--EGG-FT---EGVLGLFANSLGLVLGLLSGHTS--PQDAVGALESLSQAGAAAYNAKFPA---GLP-TS-ACGNGPASV-NGIRF--YSWSGHS---------------------------------TITNVLDVSDAPFALTSLVY---K-SDNDGLVGTCSSHLGTVIRDDYTMNHLDEVNQLFGFTALFSTNPVTVFRSHANRLKNAGL A0A0M0IQS3/27-311 -SGYTQTQYPIVLVHGLFGFDTLAG--VDYFYGIPHSLTKDGATVYVAQVSASNSSE---IRGEQLLTQVETLLAATGATKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGTVP--EGS-GL---EGLAVKLAGGLTTLINLLSGGTD-LDQDPLASLEALTTEGSLAFNQHHPY---GIP-NT-ECGEGELLASNGVYY--YSWTGSS---------------------------------TFTNLLDPTDGALVILGWAF---D-EPNDGLVSACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKQQGL A0A1E4USH8/31-315 -SGYTQTRYPIVLTHGMMGWDSMLG--IDYWYGIPSALRRDGASVYITEVSQLNTSE---TRGEELLEQVEEIVAISGKGKVNLIGHSHGGPTIRYVAAVSPQLVASATSVAGPHKGSDLADFIRQ-VP--PGS-AG---ETLLASIVNSLGGVINFLSGSASTSPQNSLGALESLNSEGAAVFNAKYPQ---GLP-TS-ACGEGAYSV-AGVRY--YSWSGTS---------------------------------PVTNLLDPSDAMFALTALTF---NGEDSDGMVGRCSSHLGKVIRDNYRMNHLDVVNQAFGLTSLFETDPLTVFRQHANRLKNDGL A0A1F4LEX8/23-305 -STYTQTRYPIVLVHGIFGFDSALG--VDYFYGIPSALRSDGAKVYVAQVSAANSHE---VRGEQLLAQVKNILAVTGASKVNLVGHSQGSPTSRYVSGVAPHLVASVTSVGGVNRGSRVADIVRGVAP--VGS-VS---ETLANSTALALTSLINVLSGGTS-LQQLPTAALDSLSTAGSAKFNQRFPA---GVP-TS-GCGNGAELV-NGVRY--YSWTGTK---------------------------------PMTNVLDVSDGLLGVLGLVF---G-EANDGLVSACSTRLGKHL-GDYRQNHLDEVNQVLGLRDWFSTDPVTLYRQHANRLKVAGL F7YQZ3/30-313 --GYTQTQYPIVLVHGLFGFDTLAG--VDYFYGIPQSLTKDGAKVYVAQVSAINSSE---LRGEQLLQQVESLLAATGAQKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSIVADLVRGHIK--EGS-IS---EAIAVKMAQGLAGLVGLLSGGSN-LDQDPLASLEALTTQGSLAFNQHYPE---GVP-SS-ECSDGELLADNGVYY--YSWTGSS---------------------------------TFTNLLDPTDAAMMLTGLVF---N-GPNDGLVGVCSTHLGKVIRDDYQMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL U2ZZ79/28-311 --GYTQTRYPIVLVHGLFGFDTLAG--VDYFYSIPHSLTKDGASVYVAQVSATNSSE---LRGEQLLSQVEMLLAATGAEKVNLIGHSHGGPTARYVASVRPDLVASVTSVGGVNKGSKVADLVRGAVA--DGS-AG---EAIAVKLAEGLVTLINLLSGGSD-LEQDPLASLAALTTEGSLAFNQHYPE---GVP-TS-ECGDGEFLADNGVYY--YSWTGSS---------------------------------TFTNLLDPTDAAMTILGLAF---D-GPSDGLVGVCSTHLGKVIRDDYQMNHLDEINGLLGVHHLFETDPVTLYRQHANRLKLQGL A0A0N0IGM0/47-364 ADDYAATRYPIILVHGLTGTDKYLG-VLDYWYGIQSDLQQHGASVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGAQKVNLIGHSQGGLTSRYVAAVAPELVASVTTIGTPHRGSEFADFVQDALQKDPTG-LS---TPIIGAFANIFGILT---SSNHN-TNQNAVAALQTLTTANAAAYNLRYPSAGLGAP-GSCQTGAATETV-NGNTHLLYSWAGSAIQPT-SVLG-IPGA----------TDTSV-APIDSANLLDPSTLVLYGTGTIMLSRQSGQNDGLVSVCSALYGKVLGTSYKWNHLDEINQLLGVRGANAADPVAVIRTQANRLKTQGV A0A066RH64/30-313 --GYTETKYPIVLVHGLFGFDSIAG--IDYFYGIPHALNKDGATVFVAQISATNSTE---LRGEQLLAQVEDVLAITGAEKVNLIGHSHGGPTARYVASVAPEMVASVTSIGGVNKGSRIADIVRGAVP--EGS-IP---EGIAVKLAEGLVGMINLLSGGSD-LPQDPLASLAALTTEGALAFNQKYPE---GIP-ES-ACGEGDYVADNGVSY--FSWTGTG---------------------------------NFTNALDPIDAAMTVLGLGF---H-NPNDGLVGQCSTHLGKVIRNDYKMNHLDEINGLLGITHLFETAPTTLYRQHANRLQLKGL Q2C961/15-298 --GYTETKYPIVLVHGLLGFDSLAG--FDYFYGIPQTLSKSGAKVYVAQISATNSTE---VRGEQLLAQVENVLAVTGANKVNLIGHSHGAPTARYVASVAPQIVASVTSVGGVNKGSKVADLVRNTIP--EDS-VS---ETIAVELSKALTTLIGILSGGLD-LPQDGLGALKALTTKGALTFNELYPE---GVP-LS-SCGDGEWQADNGVYY--YSWTGTA---------------------------------TYTNVLDPTDAAMFLLGLTF---D-EPNDGLVAKCSSHLGRIIRDDYKMNHLDEINGLLGIHHLFETDPKTLYRQHANRLQQQGL A0A1K2HNR7/25-308 -SGYTQTKYPIVLVHGLFGWDQALG--IDYWYRIPAELQKDGAKVYVAQVSATHSTE---LRGEQLLAQVKQVLAITGASKVNLIGHSHGGPTVRYVAGVAPQLVASTTTVGGVNKGSKIADLVRGTLK--PGS-VS---ESVAAGVAKGLAGLISLVSGGSS-LPQDPVQALEALTTQKLADFNQRFPG---GVP-ST-ACGEGAYSH-KGVLY--YSWSGGS---------------------------------TLTNVLDPGDGALALTGLIY---G-EQNDGLVGTCSSRLGKVIRADYRMNHIDEINHFFGIVHLFETNPVTLYRQHANRLKNAGV A0A1E5FQI2/30-313 --GYTQTQYPIVLVHGLFGFDTLAG--VDYFYGIPQSLTKDGAEVYVAQVSATNSSE---LRGEQLLQQVESLLAATGAQKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSIVADLVRGHIK--EGS-IS---EAIAVKMAQGLAGLVGLLSGGSN-LDQDPLASLEALTTQGSLAFNQHYPE---GVP-SS-ECGDGELLADNGVYY--YSWTGSS---------------------------------TFTNLLDPTDAAMMLTGLVF---N-GPNDGLVGVCSTHLGKVIRDDYQMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A0Q0Z5U6/29-312 -SGYTQTRYPIVLVHGLFGFDTLAG--VDYFYGIPQSLTRDGAQVYVAQVSATHSSE---RRGEQLLAQIESLLAVTGAKKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVHKGSAVADLLRGTIP--PGS-NT---EQVAVALTQSFVALIDLLSGGES-HPQDPLASLAALTTEGSLKFNQYYPE---GVP-TS-KCGEGEYEV-NGVRY--YSWSGGS---------------------------------NVTNILDPSDAAMGVLGLVF---S-EPNDGLVATCSTHLGKVIRDDYRMNHLDEINGLLGIHSLLETDPLTLYRQHANRLKLAGL A0A0C5X0I7/29-312 --GYTETKYPIVLVHGLFGFDTLAG--VDYFYGIPQSLTKDGATVYVAQVSATNSTE---VRGEQLLAQVERLLAATGSSKVNLIGHSHGGPTVRYVASVRPDLIASVTSIGGVHKGSDVADLVRNTVE--PGS-PA---EALSVKLAEGLVTLIGLLSGGSD-LEQDPLASLDALTTEGSLAFNQHYPE---GVP-TT-ECGNGDFLASNGVYY--YSWTGSS---------------------------------TFTNLLDPSDAAMTVLGLAF---D-GPSDGLVGTCSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A0K1EU80/54-337 -DNYAQTRYPIVLAHGMAGFDSLFG-VLDYFHGVESTLRSSGAQVYVTQVPAFNTTE---ERGEALLAQVQNIVARSGRGKVNLIGHSHGGLDIRYVASVRPDLVASVTSVGSPHRGAELATYLRGQVR--PGG-FT---EGVLSYFANSLGTVLGLLSGHSS--QQNALGALHALSADGMAQFNATYPA---GIP-ST-KCGQGASSV-NGVKY--YSWSGTG---------------------------------VVTNVLDAGDYAFGLTRLFY---N-EANDGLVGQCSSHLGTVLRDDYYMNHLDEVNQLVGITALFTTDPKSVFRSHANRLKNSGL A0A031MFP9/30-315 -SNYTKTQYPIVLAHGMLGWDSMLG--IDYWYGIPQALRKDGADVYITEVSQLDTSE---ARGEQLLEQVEEIVAISGKSKVNLFGHSHGGPTIRYVAAVRPDLVASVTSIGAPHKGSALADFLRE-MP--EGS-AG---EAIVAGLVNAAGKMINFLSGSPIDTPMNSLGSLESLHSAGAARFNAKFPQ---GIP-TT-ACGEGDYQV-NNVRY--YSWSGTN---------------------------------PSTNLLDPSDLMMVVAAQTF--PKGEANDGMVGRCSSRLGMVIRDNYRMNHLDEVNQILGLTSLFETDPVTVYRQQANRLKQAGL A3YAD6/31-314 -DDYTQTKYPILLTHGILGFDEMLG--VDYWYKIPQTLSSEGAEVYTTQVANSQSVE---VRGEQLLAEVEDIIAATGADKVNLIGHSHGGPTVRYVASVRPDLIASVTSVGGVNKGSDVADFVRNAVP--EDS-AA---EAVLAGLTTALATVIDYLSAGGY--EQDVLSMLTSLTTEGSLAFNEDHPQ---GVP-TT-ACGEGDYSV-NGVNY--YSWSGAS---------------------------------AFTNALDPSDYLLGLTSVLI---DDSKNDGLIESCDSNLGMVVRNDYSMNHLDEVNQFFGIHHLFATDPLTVYRTHANRLKNAGL A0A0F4R1G8/31-314 -DDYTQTKYPILLTHGILGFDEMLG--VDYWYKIPQTLEAEGAEVYTTQVANSQSVE---VRGEQLLSEVQNIIAATGATKVNLIGHSHGGPTVRYVASVRPDLIASVTSVGGVNKGSDVADFVRNAVP--EDS-AA---EAVLAGLTTALATVIDYLSAGGY--EQDVLSMLTSLTTEGSLAFNQNHPQ---GIP-TT-ACGEGEYSV-NGVNY--YSWSGAS---------------------------------AFTNALDPSDYFLGLTSVLI---DDSKNDGLIESCDSNLGMVVRNDYSMNHLDEVNQFFGIHHLFATDPLTVYRTHANRLKNAGL E3BNL1/27-311 -SDYTKTQYPIVLVHGLFGFDTLAG--VEYFYGIPQMLTKGGATVYVAQVSAANSSE---LRGEQLLQQIETLTAATGVSKVNIIGHSHGGPTARYVASVRPDLVASVTSIGGPHKGSKVADIVRGKVP--PGS-PF---EGLAEYLATALAILINHLSGGQD-LAQDPIAALDALTTEGAEEFNRYYPE---GVP-ES-ECGEGDFQSDFGVYY--YSWTGSK---------------------------------ASTNFFDPIDGVLAILGLAF---D-GPNDGLVSTCSAHLGKVIGDNYKMNHLDEINGLFGIHHLWETDPLELFSEHANRLKLLGL A0A1G3EB40/30-314 -SGYTQTKYPVVLAHGMLGFDSILG--VDYWYGIPAALRRDGASVYITEVSQLNTSE---ARGEELLDQVEEIVAISGKPKVNLIGHSHGGPTIRYVAAVKPNLIASATSVGAPHKGSATADFIRQ-VP--PGS-AG---ESLLAGIVNGLGTLINFLSGSSSTTPQNALGSLESLNSQGAARFNAKFPQ---GIP-TT-ACGEGAYSV-NGVRY--YSWSGTS---------------------------------PVTNIIDPSDLLLGATALTF---NGEANDGLVGRCSSRMGKVIRDNYRMNHLDEVNQTLGLTSLFETDPVTVYRQHANRLKNDGL A0A098U9L6/26-308 --GYTQTRYPIVLVHGLLGWDSIGP--FDYWFGITDALRRDGAQVYVAQVSAANSTE---VRGEQLLTYVKQVLAATGAQKVNLIGHSHGGPTIRYVASVAPNLVASVTSVGGVNKGSAVADVIRGANP--PGT-FS---EAVLGSIVNGLAGTIAFLSGDSS--AQVSTAALDSLTTAGAAKFNAAHPE---GVP-TT-ACGEGAYQA-RGVYY--FSWSGAQ---------------------------------PFTNLLDPIDAPLSLVSLAF---RGEKNDGLVGSCSSHLGRVIRDDYAMNHLDEVNQVAGLVNLFETNPVTLYRQHANRLREMGL A0A1F4KE96/28-312 -GTYSQTKYPIVLVHGIFGFDKIGP--VEYFYGIPSALRADGAKVYLVQVSAANSHE---VRGEQLLTQVKQILAASGAAKVNLIGHSQGSPTSRYVASVRPDLVASVTSVGGVNKGSAVADLMLGVVP--PGS-LS---NTVLVSIANGFGAFMHLVSGGAG-PAQDSLAATKSLSTAGSLKFNAAYPE---GVP-TT-ACGEGAYTA-RGVAY--YSWSGAK---------------------------------PYTNFFDIVDPALALTSLAF---SGARNDGLVSSCSTHLGRVIRDNYRMNHADEINQTIGLVHLFETNPVTLYRQQANRLKNAGL A0A135I4S9/27-310 --GYTQTKYPIVLVHGLFGFDNIAG--VEYFHAIPQALTRSGAKVFVAQVSATNSSE---KRGEQLLRQVRWVLAVTNAKKVNLIGHSHGSPTARYVASVAPQHVASVTSVGGVNKGSEFADAVRKAFP--SGS-LG---EAAAVGAAKALSGLISFLSGGKH-LPQDPLASLHSLTTKGSLAFNAKYPE---GVP-RS-RCGEGAYRASNGVYY--YSWSGTS---------------------------------TVTNILDLSDPAFFVTGLFF---S-EPNDGLVGRCATHLGRVIRSNYRMNHLDEVNGFFGLHHWFETDPVTVYRQHANRLKQQGL A0A135ZHX5/30-313 --GYTVTKYPIVLVHGLFGFDTLAG--IDYFYGIPQALSKSGAKVYVAQISATNSTE---LRGEQLLAQVQNVLAITGAEKVNLIGHSHGGPTARYVASVSPELVASVTSIGGVNKGSRIADIARGTIS--EGS-IP---ESVAVKLAEGLVSLINLLSGGGD-LPQDPLASLAALTTQGSLQFNQKYPE---GVP-VT-ECGEGDYVAANGVYY--YSWTGTR---------------------------------NFTNALDPTDAAMVVLGLAF---D-EPNDGLVGQCSTHLGKVIRNDYKMNHLDEINGLLGVTHLFETAPTTLYRQHANRLQLQGL E8M9R9/26-310 -SGYTATKYPIVLVHGLFGFDTLAG--VDYFYGIPHSLTKDGATVYVSQVSATNSSE---ARGEQLLQQVETLLAATGATKVNLIGHSHGGPTARYVASLRPDLVASVTSVGGVHKGSKVADLVRGAVP--EGS-TT---EGVAVKLASGLTTLINLLSGGSN-LDQDPLASLAALTTEGSLTFNQYYPE---GIP-AT-YCGEGNQIAENGVHY--YSWTGSS---------------------------------TFTNLFDPTDSAMVVLGWAF---D-EPNDGLVSACSAHLGKVIRDDYRMNHLDEINGLLGIHHLFDTDPVSIYRQHANRLKLQGL A0A158DWP5/40-359 ADQYAQTKYPIILVHGLTGTDKYLG-VLDYWYGIQTDLQQHGAQVYVASLSGFQADDGPNGRGEQLLAYVKRVLAVTGAQKVNLVGHSQGGLTSRYVATVAPGLVASVTTIATPHRGSEFADLFLEKLKADPTG-LA---TPVLAAFFNLFGTVT---NSGHN-SNQDAYLALQTLTSAGTARFNASYPTAALGAP-GSCKTGAASATV-GGAQQLYYSWTGSAIQPAAKLFD-ITLG----------QDISTFPLFDLANLLDLSTPVFYLTGTEMLNRNAGPNDGLVSVCSSLYGQVLSTSYKWNHIDAINQLLGIRGLFAEDPVAVIRTHANRLKSAGV A0A178K9B8/30-313 --GYTATKYPIVLVHGLFGFDTLAG--IDYFYGIPQALTKSGAKVYVAQISATNSTE---VRGEQLLKQVEEVLAVTGAKKVNLIGHSHGGPTARYVGSVAPDLVASVTSIGGVNKGSRVADIVRGTVP--EGS-IS---EGVAVKLAEGLVTLINLLSGGGD-LPQDPLASLAALTTEGSLKFNQKYPE---GVP-TT-ACGEGDYLAPNGVYY--YSWTGTR---------------------------------NFTNALDPTDGAMVALGLVF---D-EPNDGLVGQCSTHLGKVIRNDYKMNHLDEINGLLGITHLFETAPTTIYRQHANRLQQQGL A0A1M3JJE9/20-302 -GTYTQTRYPIVLVHGLFGFDSALG--VDYFYGIPEALRRDGAKVYVAQVSAANSTE---VRGEQLLAQVKNILALTGAQKVNLIGHSHGGPTTRYVAGVAPQLVASVTSVGGVNRGSRVADILRGVAP--AGS-VS---ESVANTAASALVTLINLVSGGSR-LPQMPTAALDSLTTAGSAKFNQRFGA---GVP-TS-GCGNGAELV-NGVRY--YSWTGTR---------------------------------TLTNVLDVSDAPLALMGVVF---G-EANDGLVSACSSRLGKHL-GDYAQNHLDEVNQVLGLRDWFSTDPVTVYRGHANRLKNLGL A0A117MXT0/26-310 -SGYTQTRYPIVLVHGLFGFGQMLG--VDYFYQVPAALKADGAQVYVAEVSATDSNE---ARGEQLLQQVQKILAITGAQKVNLIGHSQGAPTARYVAGVRPDLVASVTTIGGVNKGSTVADIVRGAAP--AGT-VS---EAVAAAIAGALAKVIAFFSGTSD-LPQQPIAALNSLTTAGSLAFNAKFPA---GVP-RS-ACGEGDYQV-NGVQY--YSWTGAA---------------------------------TTTNVLDPLTIPMGVLGLAF---GSTASDGLVAVCSAHLGQVIRDDYKMNHVNEINQSFGLVSLFEVSPVSLYRQQANRLKNAGL K0HWS3/32-313 --GYTQTRYPIVLVHGLFGFDSALG--IDYFYGIPDALRQGGAKVYVAQVSAANSTE---VRGEQLLAQVKTILALTGASKVNLVGHSHGGPTTRYVAGVAPQLVASVTSIGGVNRGSRVADILRGVAP--AGS-VS---EAVASAAAKALVGLINLTSGGTG-LPQMPTAALDSLTTAGSAKFNSRFPQ---GVP-TS-GCGSGAELV-NGVRY--YSWTGTL---------------------------------PLTNVLDASDALLATLSLTF---G-EANDGLVSACSSRLGKHL-GDYRQNHLDEVNQLLGLRDWFSTDPVTLYRQHANRLKQQGL A0A1E3G107/45-364 ADGYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQNVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSAFG-VTGA----------TDTSTIPVVDPANALDLSTLALFGTGTVMINRSSGQNDGLVSKCSALYGKVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A0B2B7J6/45-364 ADGYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLVGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQNVLAYDPTG-LS---SSVIAAFVNVFGILT---SSSHN-TNQDALAALQTLTTARAATYNQNYPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTLSAFG-VTGA----------TDTSTIPVVDPANALDLSTLALFGTGTVMINRSSGQNDGLVSKCSALYGKVLSTSYKWNHLDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A0F9XP08/25-309 -ANYTQTQYPIVLAHGMLGFDSILG--IDYWFGIPAALRRDGARVYITEVSQLDTSE---KRGEQLLRQVEEIVAISGKRKVNLIGHSHGGPTIRYVAAVRPDLVASVTSVGAPHKGSKTADFIRN-VP--PGS-AG---EAVVAGIVNGLGSLINFLSGSRSTSPQNALGALESLNSQGAARFNARFPQ---GIP-TS-ACGEGAYKV-NGVRY--YSWGGTS---------------------------------PLTNVFDVSDILLGASAVPF---GFEANDGLVGRCSSHMGMVVRDNYRMNHLDEVNQTFGLTSIFETNPVSVYRQHANRLKNAGL A0A1H1YF16/27-311 -STYTQTRYPIVLAHGMLGFDSILG--VDYWYGIPSALRRDGAKVYITEVSQLDTSE---ARGEQLLRQVEEIAAISGKGKVNLIGHSHGGPTARYVAAVRPDLIASVTSVGAPHKGSKTADFLRQ-IP--EGS-TG---EAILAGIVNGMGALIHFLSGSPSDSPQNSLGSLESLNTQGAARFNAKFPQ---GLP-TS-ACGEGAYKV-RGVRY--YSWSGTR---------------------------------PLTNVLDVSDVLMGASALTF---GFEANDGLVGRCSSHLGMVIRDDYRMNHLDEVNQTFGLTSLFETSPVSVYRQHANRLKNAGL A0A1F4KED9/23-307 -GTYSQTRYPIVLVHGLLGFDKLGP--VEYFYGIPSALRSDGAKVYVVQVAAANSTE---VRGEQLLTQVKQILAATGASKVNLMGHSHGGPTSRYVASVRPDLVASVTSIGGVNKGSAVADVLLGVAP--PGS-LS---NTVLVSVTNGLATVINFLSGGSG-LTQNALAAAKSLSTAGSAKFNAAYPE---GLP-TT-ACGEGAYSA-RGVAY--YSWSGAK---------------------------------PYTNLFDIADPALALTSLAF---AGARNDGLVGTCSSHLGRVIRDNYAMNHLDEVNQTIGLVNLFETNPVTIFRQQANRLKNAGL A0A0D7KDM4/32-312 --GYTATRHPIVLVHGLFGFDSVLG--VDYFYGIPDALRQSGAKVYVAQVSAANSTE---VRGEQLLAQVKNILALSGASKVNLIGHSHGGPTIRYVAGVAPQLVASATSVAGVNRGSRVADIVRGVAP--AGS-VS---ETVASTAATALVGMINLLSGGTG-LPQMPTAALDSLTTQGSAKFNQKFPQ---GIP-A--DCGNGAELV-NGVRY--YSWTGTK---------------------------------TATNLLDPSDAFLVTLGWTF---G-EANDGLVSACSSRLGKHL-GDYRQNHLDEVNQMVGLRDWFSADPVTLYRQHANRLQKAGL A0A1H6EIA1/49-329 --TSAQTAYPIVLVHGMLGFDTVAG--IDYWYGIPGELRAQGAKVFVAEVAATNSSE---VRGEQLLKQVKDVLALTGASKVNLIGHSHGGPTARYVSGVAPQLVASVTTVGSPHKGSKVADVLGDTLP--DGS-IS---RAVVVSVVNAFSSLIGILSGNNT--PQNGLGALNSLNTAGSAKFNAKFPD---GVP-TT-ACGNGSELV-NGVRY--FSWSGNQ---------------------------------PLTNVFDASDYPLSLAGVVH---G-EANDGLVSTCSARLGTYL-GSYRQNHLDEVNQMLGLRDLFSVSPVTLYANQAAKLKQLGL A0A0Q6WCC6/27-304 --GYTQTKYPIVLVHGLFGFDSLGP--VDYFYGIASGLSSGGARVYVTSVSASNSTE---VRGEQLLLQVKQILAATGAAKVNLIGHSHGGPTSRYVASVRPDLVASVSSVGGVNKGSKVADVLVGAVP------------NVTYDLANALSGLISLLSGSPT-LPQSSRAAAESLSTAGTLAFNARHPQ---GVP-TS-ACGEGAYQV-NGVHY--YSWSGAK---------------------------------PWTNALDAADPFLAVTGLAF---NGEKNDGLVGSCSSRLGRVIRDDYALNHLDEVNQLIGITNLFETNPVTLFRQHANRLQGQGL A0A066UY09/30-313 --GYTQTQYPIVLVHGLFGFDTLAG--VDYFYGIPESLAKDGANVYVAQVSATNSSE---VRGEQLLAQVETIIAVTGADKVNLVGHSHGGPTARYVGSVRPDLVASVTSVGGVHKGSKVADLVRGNVA--EGS-IT---ESIAVKLAGGLTTLINLLSGGSD-LEQDGLASLEALTTEGSLAFNQHYPE---GVP-TS-ACGDGEWQASNGVYY--YSWTGSS---------------------------------TFTNLLDPTDGAMTILGLAF---D-GPSDGLVGTCSAHLGRVIGDNYKMNHLDEINGTLGIHHLFETDPVTLYRQHANRLKLAGL A0A0T6UW39/48-335 -DDYTQTRYPIVFSHGLYGFDRLLGGAVEYWHGIPGALRQSGADVFVTEVSPVNSTE---VRGEELLQQVENYLAITGKGKVNLVGHSHGGPTIRYVAGVRPDLVASVTTIAGVNKGSALADYLKE-NP--ENP-VA---RATIVALAEGLGALIDVLSADGKFHKQDGLASLAALSTEGSLKFNSRFPD---GIP-KT-DCGEGDYVV-KNIRY--YSWSGAS---------------------------------PSTNIFDPSDLITKVASLTF--PKGVANDGMVGSCSSHLGMVIRDNYRMNHLDEVNLMFGLTSLLETNPVTVYRQHANRLKLAGL K2JZA4/28-312 -SGYTQTHYPIVLVHGLFGFDSLAG--VDYWYGIPSALSKDGAKVYVVNVSAANSTE---VRGEQLLAQIDNILALTGADKVNLIGHSHGGPTARYAASMSPDKVASVTSVGGVNWGSSFADAVRGAIP--QDS-LS---EDIIAGAFNAFAGIIEFLSGTPA-DPQDAVAALESLTTAGTLAFNARYPE---GMP-SQ-YCGQGDEQAGNGVYY--YSWSGAS---------------------------------TVTNVLDISDAGLLATSLVF---S-EPGDGLVSSCSSHLGKVIRDNYGMNHLDEVNQTFGLVNLFETNPKTLFRTQANRLKNLGL A0A0F5ZYF6/30-313 --GYTQTKYPIVLVHGLFGFDSIAG--MDYFHAIPQALTRSGAKVFVAQVSATNSSE---KRGEQLLRQVRWVKAVTGASKVNLIGHSHGSPTARYVASVAPQHVASVTSVGGVNKGSEFADVVRGTFP--PGS-AG---EALAVTAARTLSGLISLLSGGSS-LPQDPLASLHSLTTKGSLAFNAKYPE---GVP-TS-RCGEGSYRAANGVYY--YSWSGTS---------------------------------TVTNVFDISDPVLFATGLFF---S-EANDGLVGRCSTHLGKVIRSNYRMNHLDEVNQLFGLHHLFETDPVTLYRQHANRLKRQGL C5AH11/40-358 ADTYAATRYPVILVHGLTGTDKYAN-VLDYWYGIQSDLESHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKVDPTG-LS---SKVIAGFVNVFGTLV---SSSHN-PNQDALAALKTLTTAQAAVYNRNFPSAGLGAP-GSCQTGAATETV-GGNQHLLYSWGGTAIQPTSTVLG-VTGA----------SDTST-GLIDAANVADPSTLVLLATGTVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPLAVIRTHVNRLKLQGV A0A0T6UNR8/29-313 -SNYTKTKYPIVLGHGMLGWDSMLG--IDYWYGIPSALRKDGARVFTTEVSQLNTSE---VRGEDLLAEVEEILAITGAKKVNLMGHSHGGPTTRYVAAVRPDLVASVTSIGAPHKGSDVADLIRK-IP--QDS-TA---ETLLASLVNAIGGVIHLLSGSSSTSGQNSLGSLESLNSVGAAAFNAKYPQ---GIP-TT-ACGEGAYKV-NDVRY--YSWSGTS---------------------------------PTTNLLDPSDLITKVASRAF---KDPQNDGFVGRCSSHMGMVIRDNYRMTHLDEVNQFFGLTSLLETSPVTVYRQQANRLKLAGL N9U2J2/20-301 ----SHTRYPIILVHGLFGFDKLMG--VDYFYGIPQALTRDGATVYVAQVSATNSSE---ARGEQLLTQVQQVLAITGAEKVNLIGHSHGGPTVRYVASVAPELVASATSVGGVNQGSAIADLVRVNAP--PGS-AA---ETLASSAAQALSGVISLLSGGGK-LPQDPIKALDALTSAGATEFNRHYPE---GLP-TT-PCGEGPMRADNGVHY--FSWSGRG---------------------------------NLTNILDPVDPALVLTGLFF---D-EPNDGLVGVCSSHLGKVIGTGYKMNHLDEVNHSFGIRHLFETDPVSLYVQHARRLKDLGL A0A1B4PZ56/45-364 ADDYAATRYPIILVHGLTGTDKYAG-VLEYWYGIQEDLQQNGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQNVLSYDPTG-LS---SSVIAAFVNVFGLLT---SSSHN-TNQDALAALQTLTTARAATYNQKFPSAGLGAP-GSCQTGAPTETV-GGNTHLLYSWAGTAIQPTISVFG-VTGA----------TDTSTLALVDPANALDSSTLALLGSGTVMINRGAGPNDGVVSKCSALFGKVLSTNYKWNHLDEINQLLGVRGAYAEDPVAVIRAHANRLKLAGV A0A0W1L3N5/23-306 --GYTETKYPIVLAHGLMGFDDVLG--IDYFYRIPEQLSKDGAMVFTTSVSSLNSSE---QRGEQLLLQVEQILALTGAQKVNLIGHSQGAQSIRYVASIKPALVASVTSVGGVNFGSPVADIARDGLT--PGS-NL---EGVAKSAFDAFGGLIALLSGNSQ-LPQDAIGALESLTTQGALAFNQKYPE---GLP-QS-PCQQGPLQASNGVYY--FSWSGTR---------------------------------AFTNIFDPSDAALSVTSLLI---P-GDDDGLVSRCSSHLGYVIKDNYRMNHLDEVNQILGFHHLFETDPITVYRQHANRLKNMGL A0A1H1STA0/31-315 -SQYTQTKYPIVLTHGMLGFDSLLG--IDYWYGIPAALRKDGATVYITEVSQLDTSE---ARGEQLLEQVEEIVAISGKQKVNLIGHSHGGPTVRYVASVRPDLVASVTSVGAPHKGSATADFLRQ-IP--EGS-AG---ETVLAGLVNAMGAFINLVSGSSSMTPQNALGSLESLNSAGAAVFNARFPQ---GLP-TS-ACGEGAYKV-NGVRY--YSWSGTS---------------------------------PLTNALDVSDLLTGAASLTF---NGEANDGLVGRCSSHLGMVIRDNYRMNHLDEVNQFLGLTSLFETDPVTVYRQQANRLKNAGL U3C9C8/24-308 -TDYTAAKYPIVLVHGLFGFDTLAG--VDYFYGIPESLTKDGATVYVAQVSAANSTE---IRGEQLLAQVEQLLAATGAQKVNLIGHSHGGPTARYVAGVRPDLVASVTSVGGVHKGSSVADILRRSVP--EGS-YK---EIIATKLAKGLTALIGLLSGGSH-LEQDPLASLAALTTEGSLAFNQWFPE---GVP-SS-YCGEGDELAENGVYY--FSWTGSA---------------------------------TFTHALDPTDSAFMLLSLAF---D-LPNDGLVDVCSAHLGNVIRDDYRLNHLDEINGWLGLHHLFETDPVTLYRQHANRLKLYGL Q6LFX5/30-313 --GYTETQYPIVLVHGLFGFNSLAG--FDYFYGIPQELSKSGAKVYVAQISATNSSE---LRGEQLLLQVEEVLAVTGAEKVNLIGHSHGGPTARYVASVAPQYVASVTSIGGVNKGSTVADIMRGTIP--EGS-LP---EGIAVKLAGGLTTLIGLLSGGSD-LPQDPLASLEALTTAGSLAFNQKYPE---GIP-TS-DCGDGDWVADNGVYY--YSWTGTS---------------------------------NYTNILDPIDPAMFILGFAF---D-EPNDGLVGQCSSHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPKTLYRQHANRLQLQGL A0A1F4N7Q8/29-314 --GYTQTKYPIVLVHGLFGWDSIAG-TVDYFHKVPAALRASGAQVYVTQVSAANSTE---VRGEQLLKQVKEILAITGASKVNIVGHSHGGPTARYVAGVAPELVASVSSVGGVNRGSDFADALRGVLP--NGSPIT---GAVASLVDTTLVSLIQTLSGNGE-LPRNAEAALESLSTAGSLKFNQKFPA---GIP-TT-ACGEGAYVV-QGVRY--YSWGGNK---------------------------------QITNLLDISDGVMALSGAFF---NGKTNDGLVSTCSMNLGQVIRTNYKMNHLDEVNQLFGLVHLFETNPVEVYRQQANRLKNAGL A0A0A0SY74/27-311 -SGYTQTQYPIVLVHGLFGFDTLAG--VDYFYGIPHALTKDGASVYVAQVSATNSSE---VRGEQLLEQVETLLAATGAAKVNLVGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGTVP--EDS-GL---EALAVKLAEGLTTLINLLSGGGD-LDQDPLASLDALTTEGSLAFNQHYPE---GIP-AT-ECGNGDLFAGNGVYY--YSWTGSS---------------------------------TFTNIFDPTDAAMTILGLAF---N-EPNDGLVGACSTHLGQVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A0Q6TFJ7/26-308 --GYTQTRYPIVLVHGFLGWDSIGP--YDYWFGIADALRRDGAQVYVAQVSAANSTE---VRGEQLLTYVKQVLAATGAQKVNLIGHSHGGPTVRYVASVAPGLVASVTSVGGVNKGTPVADILRGVAA--PGS-FS---ESVLGSIVNGVAGTIAFLSGDSS--TQVSTAALDSMTTAGAARFNAAHPE---GVP-AT-ACGEGAYQA-RGVYY--FSWSGAQ---------------------------------PFTNLIDPLDAPLSLVSLAF---LGQKNDGLVGSCSSHLGRVIRDDYRMNHLDEVNQVAGLVNLFETNPVTLYRQHANRLREMGL A0A1H1VVJ1/30-315 -SDYTQTHYPIVLAHGMLGWDNMLG--IDYWHGIPQALRKDGASVYITEVSQLDTSE---ARGEQLLEQVEEIVAISGKAKVNLFGHSHGGPTIRYVAAVRPDLIASVTSIGAPHKGSALGDFIRQ-VP--ENS-AG---EALLASLVNAAGKLINFLSDSPIDTPMNSLGSLESLNSEGAARFNAKFPQ---GIP-TS-ACGEGDYQV-NGVRY--YSWSGTS---------------------------------PSTNILDPSDLMMTVAAMTF--PKGEANDGMVGRCSSRLGMVIRDDYRMNHLDEVNQFFGLTSIFETDPVTVYRQQANRLKKAGL A0A1B3PIL3/32-313 --GYTQTRYPIVLVHGLFGFDSALG--IDYFYGIPDSLRQGGARVYVAQVSAANSTE---VRGEQLLSQVKTILAITGAQKVNLVGHSHGGPTTRYVAGVAPQLVASVTSIGGVNRGSRVADILRGVAP--AGS-VS---EAVANAAAKALVGLINLTSGGSG-LPQMPTAALDSLTTAGSAKFNTRFPQ---GVP-TS-GCGNGAEVV-NGVRY--YSWTGTL---------------------------------PLTNVLDASDGLLSVMSLVF---G-EANDGLVSACSSRLGRHL-GDYRQNHLDEVNQLLGLRDWFSTDPVTLYRQHANRLKAQGL A0A1F8VGY9/26-309 --GYTQTKYPIVLVHGLFGFDNIGP--VEYFYGIPSALRADGAKVYVVQVAAANSTE---VRGEQLLSQVRQVLAATGAVKVNLMGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSAVADVLLGVAP--AGT-FS---NTVLVSITNGLGTLINFLSGGGG-LSQNSLAAAQSLSTAGSKKFNAAHPQ---GVP-TS-VCGEGAYTV-NGVAY--YSWSGAK---------------------------------PYTHLLDVADPALALTSLAF---LGAKNDGLVSSCSSRLGKVIRDDYAINHLDEVNQTVGLTNLFETSPVTLFRQQANRLKNAGL A0A0C2S7V4/30-312 --GYTETRYPIVLTHGMLGFDSLLG--VDYWYGIPRALRRDGAEVYVTEVSQLNTSE---LRGEELLEQVEEIVALSGKPKVNLIGHSHGGPTIRYVAAVRPDLVASVTSVGAPHKGSAVADMIRQ-VP--EGS-AG---EAFLAGLTNAMGALINFLSGSNSSAPQNALGSLESLNSEGAARFNAKYPQ---GIP-TS-ACGEGAYVV-KGVRY--YSWSGTS---------------------------------PLTNPLDVSDAMMGAGSLAF---D-EANDGLVGRCSSHLGMVIRDNYRMNHLDEVNQVLGLTSLFETDPVSVYRQHANRLRNAGL A0A078MFP8/30-315 -SDYTKTRYPIVLTHGMLGWDNMLG--IDYWYGIPQALRKDGASVYITEVSQLDTSE---ARGEQLLEQVEEIIAISGAPKVNLFGHSHGGPTVRYVAAVRPDLVASVTSIGAPHKGSALADFLRQ-IP--EDS-AG---EAIVSGLVNAVGKMINFISDSPIDTPMNSLGSLESLYSEGAARFNARFPQ---GIP-TT-ACGEGDYQV-NGVRY--YSWSGTS---------------------------------PATNPLDPSDLMMVTASLTF--PRGEANDGMVGRCSSRMGMVIRDNYRMNHLDEVNQFFGLTSIFETDPVTVYRQQANRLKKAGL A0A1E9C7D3/25-309 -TDYTRTRYPIVLSHGLFGFKSVGP--VDYWHAIVPALEKDGAKVFATSQSPVNSNE---VRGEQLLAQVEEVLALTGAEKVNLIGHSQGGMTVRYVAGVAPQLVASVTTMGTPHKGTPVADAVTGFSEF-LGP-IG---TEVIASAVEALFSVVDIVDGGEW-VKGDALAALNSLNTPGTARFNQRFPQ---AIP-AS-ACGQGAETV-AGVRY--YSMSGTG---------------------------------SLTNALDPSSAGLAVTGLLF---G-EANDGLVGQCSSHLGSVVKDNYRMDHLDEVNQLLGLVSLFESDPTQVYRQHANRLRNVGL L0WAM4/33-320 -SSYAKTRYPIVLAHGMAGFDKAGP--LDYWYGIPGDLQDRGAKVYLTQVSSFESSE---VRGEQLLEQVLDILAITGADKVNLIGHSHGNQSIRYVAAAIPDRIASVTSVGGPTKGSPVADVIASVSDV-AGD-GL---SNGVGSIVNAFGTLIGLAAGEK--LPQDSLAGLASLTTAGAADFNARFPA---GVP-TS-ACGEGSYVV-NGIRY--YSWGGTG---------------------------------HVTNLLDPLDVPLALVSAAFVGKADSQNDGLVGRCSNHLGKVIRDNYRMNHLDEVNQVIGLTDLFETDPVVVFRNHANRLKNAGL A0A1H2HH56/31-315 -SGYTKTQYPIVLSHGMLGFDSLLG--VDYWFGIPGALRKDGAKVYVTEVSQLDTSE---ARGEQLLAQVEEIVAISGKPRVNLIGHSHGGPTVRYVAAVRPDLVASVTSVGAPHKGSATADFIRN-VP--EGS-AG---EAMLAGIVNGLGGLINFLSGSSSTTPQNALGTLESLNSAGAARFNARFPQ---GLP-TS-ACGEGAYVV-NGVRY--YSWSGTS---------------------------------PVTNILDPADLMLGATALTF---GFEANDGLVGRCSSRMGMVIRDNYRMNHLDEVNQTFGLTSLFETSPVSVYRQHANRLKRAGL A0A1B4QZ40/45-366 VDNYAATQYPIILVHGLTGTDRYAN-VLEYWYGIQEDLTAHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVMAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHWGSQFADFVQQVTSVDPTG-LL---QGAVAAFANVFGTLT---SSNLN-TNQDALAALKALETSQTAVFNQNYPSAGLGSSLAACQTGAATETV-NGNKHLLYSWTGTAIQPTISLLGVVTGA----------VDTSTIPVVDPANVLDASTLSLLTTGTVMVNRASGANDGLVSRCSSLYGQVLSTSYHWNHIDEINQLLGVRGAFAEDPVAAIRTHANRLKTQGV A0A103E627/45-366 VDNYAATQYPIILVHGLTGTDRYAN-VLEYWYGIQEDLTAHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVMAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHWGSQFADFVQQVTSVDPTG-LL---QGAVAAFANVFGTLT---SSNLN-TNQDALAALKALETSQTAVFNQNYPSAGLGSSLAACQTGAATETV-NGNKHLLYSWTGTAIQPTISLLGVVTGA----------VDTSTIPVVDPANVLDASTLSLLTTGTVMVNRASGANDGLVSRCSSLYGQVLSTSYHWNHIDEINQLLGVRGAFAEDPVAAIRTHANRLKTQGV Q1ZM99/27-310 --GYTETKYPIVLVHGLLGFDSLAG--FDYFYGIPQTLSKSGAKVYVAQISATNSTE---VRGEQLLAQVENVLAVTGAKKVNLIGHSHGAPTSRYVASVAPQIVASVTSVGGVNKGSKVADLVRNTIP--EDS-VS---EKIAVELSKALTTLIGILSGGLD-LPQDGLGALKALTTKGALTFNKLYPE---GVP-LS-SCGDGEWQADNGVYY--YSWTGTA---------------------------------TYTNVLDPTDAAMFLLGLTF---D-EPNDGLVAKCSSHLGRIIRDDYKMNHLDEINGLLGIHHLFETDPKTLYRQHANRLQQQGL V5ES30/27-310 --GYTETKYPIVLVHGLLGFDSLAG--FDYFYGIPQTLSKSGAKVYVAQISATNSTE---VRGEQLLAQVENVLAVTGAKKVNLIGHSHGAPTSRYVASVAPQIVASVTSVGGVNKGSKVADLVRNTIP--EDS-VS---EKIAVELSKALTTLIGILSGGLD-LPQDGLGALKALTTKGALTFNKLYPE---GVP-LS-SCGDGEWQADNGVYY--YSWTGTA---------------------------------TYTNVLDPTDAAMFLLGLTF---D-EPNDGLVAKCSSHLGRIIRDDYKMNHLDEINGLLGIHHLFETDPKTLYRQHANRLQQQGL A0A0J1HCY2/24-307 --GYTATKYPIVLVHGLFGFDSLAG--VDYFYGIPHSLTKDGAAVFVAQVSATNSTE---ARGEQLLAQVENLLAATGSEKVNLIGHSHGGPTARYVASVRPDLVASVTSVGGVHKGSRVADVLRGAVP--PGS-IS---EGVAVKMAEGLTTLIGLLSGGHN-LEQDPLASLEALTTAGSLAFNRDYPE---GVP-TS-DCGDGQFLADNGVYY--YSWTGSA---------------------------------TFTNVLDPTDGAMTMLGWVF---D-GPSDGLVGVCSAHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A1E4VJJ3/27-310 --GYTQTRYPIVLAHGMFGFDSILG--MDYWYRIPSALRRHGATVYVTEVSQLNSTE---ARGEELLEQVEEIVAISGKPKVNLIGHSHGGPTARYVAGIRPNLVASVTSIGSPHKGSATADFIRS-IP--RDS-PG---EAFIANIANALGKVINVLSGSSSQLPQDVLAGLESLTTVSSAQFNGRFPA---GVP-TT-ACGEGAYVV-KGIRY--YSWSGSR---------------------------------TLTNPLDISDPLLFATSLPF---KGKDNDGLVGRCSSHLGKVVRDNYRMNHLDQVNHLLGLVNLFETPPVSVFRQHANRLKNDGL A0A0F2HMT2/30-313 --GYTQTRYPIVLVHGLFGFDKLAG--VDYFYGIPESLTKDGAKVYVAQVSATNSSE---VRGEQLLAQVETLLAATGAEKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVHKGSKVADLVRGHVA--EGS-VT---EALAVKLAEGLSGLIGLLSGGSS-LEQDPLASLDALTTRGSLRFNQFYPE---GIP-SS-ECGEGDLLAANGVYY--YSWTGAS---------------------------------TFTNVLDPIDAPMAILGLAF---S-EPSDGLVSTCSAHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQGL A0A1J5CA25/26-309 --GYTQTKYPIVLVHGLFGFDKIGP--VDYFYGLSSALRSDGAKVFTTQVSAANSTE---VRGEQLLTQVKQILAATGAAKVNLIGHSHGGPTIRYVASVRPDLVASVTSIGGVNKGSAVADVILGVAP--PGS-LP---NSVLVSVTNGLGSIINFLSGGTG-LRQDSLAAVKSLSTAGSLSFNRSHPE---GVP-TS-ACGEGAYVV-RGVSY--FSWSGAK---------------------------------PYTNVFDVVDPALALTSLAF---AGAKSDGLVSSCSSHLGRVIRDNYAMNHLDEVNQTIGLVNLFETNPVTLYRQHANRLRNLGM K0CIC5/21-304 -DDYTETRYPIVLVHGLFGFDTAAG--VDYWYRIPEELRRSGAEVYVTQVAAAQDTE---VRGEQLARQVEDILAISGADKVNLIGHSHGSPTIRYVASVYPDMVASATGVGGVNWGARLADVLQGVVD--DVP-FS---GDLIGFLGNALAGLIDLFSGGGN--EQDILAALKALTTEETIAFNQQYPE---GMP-SE-YCGEGPREGSNGVSY--FSWSGAK---------------------------------PLTNFLDPSDVLLGATAIVF---LGEKNDGLVSSCSSHLGMVIRDDYRMNHLDEVNQVLGLHDLFSTDPVTLYRQHANRLGNYQ- U2AYA9/31-317 --GYTQTQYPIVLGHGMLGFDSILG--VDYWYGIPAALRRDGASVYITEVSQLDTSE---ARGEQLLQQVEDIVAISGKAKVNLIGHSHGGPTTRYVAAVRPDLVASVTSVGAPHRGSATADFLKG-IS--DGP-AGPVATPLLAGIVNGLGALINFLSGSPSTTPQNALGSLESLNSEGAARFNAKFPQ---GIP-TS-ACGEGAYSV-NGVRY--YSWSGTS---------------------------------PLTNLLDPSDLLMGASALTF---GSEANDGLVGRCSSRMGQVIRDNYRMNHLDEVNQTLGLTSLFETDPVTVYRQHANRLKNAGL A0A1E5BPH7/29-312 --GYTQTKYPIVLVHGLFGFDNIAG--FDYFHAIPQALTRSGAKVYIAQVSAVNSSE---KRGEQLLRQVRRVLAITGAPKVNLIGHSHGSPTSRYVASVAPQYVASVTSVGGVNKGSEFADVMRKALR--PGS-AG---EASVVAATKVFARLISVLSGSGR-LPQDPLASLDSLSTKGSLKFNRKYPE---GVP-RS-RCGNGDSRASNGVYY--YSWSGTS---------------------------------QVTNILDLSDPVLFTTGLFF---R-EANDGLVGRCSTHLGRVIRDNYRMNHLDEVNGFFGLHHLFETDPVTVYRQHANRLKQQGL U3AVP1/31-313 --GYTKTKYPIVLTHGMLGFDSILG--VDYWYGIPSSLRSDGASVYITEVSQLNTSE---LRGEELLDQVEEIAAISGKGKVNLIGHSHGGPTVRYVAAIRPDLVASVTSVGAPHKGSDTADFLRQ-IP--PGS-AG---EALVAGIVNGLGTLINFLSGSPSTTPQNALGALESLNSQGAAVFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGTS---------------------------------PLTNILDVSDLLMGASSLTF---D-EANDGLVGRCSSHLGKVIRDNYRMNHLDEVNQVFGLTSLFETDPVTVYRQQANRLKLAGL A0A142IRZ6/31-313 --GYTKTKYPIVLTHGMLGFDSILG--VDYWYGIPSSLRSDGASVYITEVSQLNTSE---LRGEELLDQVEEIAAISGKGKVNLIGHSHGGPTVRYVAAIRPDLVASVTSVGAPHKGSDTADFLRQ-IP--PGS-AG---EALVAGIVNGLGTLINFLSGSPSTTPQNALGALESLNSQGAAVFNAKYPQ---GIP-TS-ACGEGAYKV-NGVSY--YSWSGTS---------------------------------PLTNILDVSDLLMGASSLTF---D-EANDGLVGRCSSHLGKVIRDNYRMNHLDEVNQVFGLTSLFETDPVTVYRQQANRLKLAGL A0A1D2S172/31-312 --GYTQTRYPIVLVHGLFGFDSLFG--LDYFYGVPDALRSGGAKVFVAQVSAANSTE---VRGEQLLAQVRNILAVTGAAKVNLIGHSHGGPTARYVAGVAPQLVASVTSVGGVNRGSRVADVVRGVAP--PGS-VS---ETVAKGAATALVTLINLASGGSG-LPQMPTAALDSLTTAGAARFNQRFGA---GVP-TS-GCGNGAELV-AGVRY--YSWTGTR---------------------------------NLTNVLDPSDAALLATGLVF---G-DANDGLVSACSARLGRNL-GDYRQNHLDEVNQMVGLRDWFSPDPVTLYRQQANRLKTAGL A0A0A1YGC7/30-314 -SSYTQTKYPIVLSHGMLGFDSILG--IDYWYGISSALRRDGASVYTTEVSQLNTSE---ARGEELLEQVEEIVAISGKPKVNLIGHSHGGPTIRYVAAVSPQLVASATSVGAPHKGSAAADFIRQ-VP--PGS-AG---EALLSGIVNGLGSLINFLSGSSSTTPQNALGALESLNSVGAAQFNAKYPQ---GLP-TS-ACGEGAYSV-NGVRY--YSWSGTS---------------------------------PVTNILDPSDLLLGATALTF---NGEANDGLVSRCSSHMGKVIRDDYRMNHLDEVNQSFGLTSWFETDPVSVYRQHANRLKNDGL A0A0C1YGY7/27-310 --GYTQTRYPIVLVHGLFGFDNIGP--FGYWYGIPSALTNDGAKVYVAQVSAANSTE---VRGEQLLTQVKQILAATGATKVNLIGHSHGGPTTRYVASVRPDLVASVTSVGGVNKGSAVADLLIGVAP--PGS-LS---NAVLTSVTNGLASLISWLSGSPT-LPQNSWAAANSLSTAGSAKFNAAHPE---GVP-IT-SCGEGAYQV-NGVRY--FSWSGGS---------------------------------SYTNVLDVVDPWLLLTSAAF---GGAKNDGLVASCSTHLGKVIRDDYGMNHLDEVNQTIGIVNLFETNPKTLYRQHANRLQSLGL Q7MK20/32-313 ----TQTRYPIVLVHGLFGFDKLAG--VDYFYGIPESLTKDGAKVYVAQVSATNSSE---VRGEQLLSQVEMLLAATGAAKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGHVS--EGS-LT---EALAVKLAEGLSGLIGLLSGGSG-LDQDPLASLDALTTQGSLRFNQFYPE---GLP-QT-ECGEGEMLAGNGVYY--YSWTGSS---------------------------------TYTNVLDPADAPMAILGLAF---AGEANDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKLQG- A7XW72/45-364 ADTYAATRYPIILVHGLTGTDKYAG-VLEYWYGIREDLQSHGATVYVANLSGFQSDDGPNGRGEQLLAYVKTVLAATGATKVNLIGHSQGGLTSRYVAAVAPDLVASVTTIGTPHRGSEFADFVQGLLKLDPTG-LS---SSVLAGFANLFGVLT---SSSNS-TNQNAIAALGALETSQAAIFNQNYPSAGLGAP-GSCQTGASTETV-GGNKHLLYSWAGTAIQPVTSLFG-STGA----------KDVSTIPLVDPANALDLSTLALLGTGTVMISRGSGPNDGLVSKCSALYGQVLGTNYKWNHIDEINQLLGVRGAYAEDPVAVIRTHANRLKLAGV A0A0F5VD19/30-313 --GYTETQYPIVLVHGLFGFDSLAG--IDYFYGIPHALNKDGATVYVAQVSATNSTE---LRGEQLLAQVEDVLAISGAEKVNLIGHSHGGPTARYVASVAPELVASVTSIGGVNKGSRIADIVRGTVP--EGS-LP---EGIAVELAQGLVTLINLLSGGSE-LPQDPLASLAALTTEGSLAFNQKYPE---GIP-TT-RCGEGDYVADNGVYY--FSWSGTS---------------------------------NFTNALDPADAAMTVLGLAF---D-EPNDGLVGRCSSHLGKVIRDDYQMNHLDEINGLLGITHLFETAPTTLYRQHANRLQQQGL F9TBV6/28-311 --GYTQTQHPIVLVHGLFGFDTLAG--VDYFYGIPHSLTRDGATVYVAQVSASNSTE---VRGEQLLKQVETLLAATGATKVNLIGHSHGGPTARYVASVRPDLVASVTSIGGVNKGSKVADLVRGTVP--EGS-GL---EGLAVKLAGGLTTLINLLSGGTD-LEQDPLASLEALTTEGSLAFNQHHPY---GIP-TT-ACGDGDLLASNGVYY--YSWTGSS---------------------------------TFTNLLDPTDGAMVILGWAF---D-EPNDGLVGACSTHLGKVIRDDYKMNHLDEINGLLGIHHLFETDPVTLYRQHANRLKQQGL #=GC scorecons 014764868987869974958445601578577854494458949876468445747000498889855854668568638898799969758499885859688897867855669845885654354004550450004464544554644762238553403486576684586745554784478400085804604584543360585370089859550000000000000000000000000000000004368479565456344654600142548998854885559486455854897887965685445655686565858888873476 #=GC scorecons_70 ___**_***********_*_*___*___**_***___*___**_****__*___*_*____******__*__***_***_***********_*_****_*_*_*********__****__**_*_____________________________*____*_______**_**_*__*_*_____**__**____*_*__*___*_____*__*__*__***_*_____________________________________**_**_____*___*__________*****__**___*_**___*__********_**____*__***_*_*_******__*_ #=GC scorecons_80 ___*__*_*****_***_*_*_______**_***___*___**_***___*_____*____******__*____*__*__********_**_*_****_*_*_******__*____**__**____________________________________*_______*__*__*__*_______**__**____*_*______*________*__*__***_*______________________________________*_**____________________*****__**___*_*____*__*******___*________*____*_******__*_ #=GC scorecons_90 ______*_***_*_**__*_*________*___*___*___**_**____*__________***_**__*____*__*__****_***_*__*_****_*_*_*_**_*__*____**__**____________________________________*_______*_____*__*________*___*____*_*______*________*_____***_*______________________________________*__*____________________*****__**___*_*____*__**_**_*___*________*____*__****_____ //