# STOCKHOLM 1.0 #=GF ID 2.40.30.10/FF/38073 #=GF DE Sulfate adenylyltransferase subunit 1 #=GF AC 2.40.30.10/FF/38073 #=GF TP FunFam #=GF DR CATH: 4.2 #=GF DR DOPS: 98.383 #=GS 1zunB03/329-434 AC Q87WW1 #=GS 1zunB03/329-434 OS [Pseudomonas syringae] pv. tomato str. DC3000 #=GS 1zunB03/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS 1zunB03/329-434 DR CATH; 1zun; B:329-434; #=GS 1zunB03/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 3; #=GS 1zunB03/329-434 DR GO; GO:0004020; GO:0004781; GO:0006790; #=GS 1zunB03/329-434 DR EC; 2.7.7.4; #=GS P9WNM5/309-415 AC P9WNM5 #=GS P9WNM5/309-415 OS Mycobacterium tuberculosis H37Rv #=GS P9WNM5/309-415 DE Bifunctional enzyme CysN/CysC #=GS P9WNM5/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS P9WNM5/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium tuberculosis; #=GS P9WNM5/309-415 DR GO; GO:0000103; GO:0004020; GO:0005829; GO:0005886; GO:0009336; GO:0010134; GO:0010438; GO:0034599; GO:0040007; #=GS P9WNM5/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q57FI4/329-432 AC Q57FI4 #=GS Q57FI4/329-432 OS Brucella abortus bv. 1 str. 9-941 #=GS Q57FI4/329-432 DE CysNC, sulfate adenylate transferase, subunit 1/adenylylsulfate kinase #=GS Q57FI4/329-432 DR GENE3D; 6c695c2df6aeb915b228e52e5691bc69/329-432; #=GS Q57FI4/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS Q57FI4/329-432 DR EC; 1.2.99.5; 2.7.7.4; #=GS C0RGP6/329-432 AC C0RGP6 #=GS C0RGP6/329-432 OS Brucella melitensis ATCC 23457 #=GS C0RGP6/329-432 DE Sulfate adenylyltransferase, large subunit #=GS C0RGP6/329-432 DR GENE3D; 041faca55563b5f602f9e6bfe246a5e8/329-432; #=GS C0RGP6/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella melitensis; #=GS C0RGP6/329-432 DR EC; 1.2.99.5; 2.7.1.25; 2.7.7.4; #=GS A0A0E2W7D6/312-418 AC A0A0E2W7D6 #=GS A0A0E2W7D6/312-418 OS Mycobacterium avium subsp. hominissuis A5 #=GS A0A0E2W7D6/312-418 DE Adenylylsulfate kinase #=GS A0A0E2W7D6/312-418 DR GENE3D; cc10fa8e381f0615d14cd19afd429e43/312-418; #=GS A0A0E2W7D6/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; Mycobacterium avium subsp. hominissuis; #=GS A0A0E2W7D6/312-418 DR EC; 2.7.1.25; 2.7.1.26; 2.7.7.4; #=GS A0R241/312-418 AC A0R241 #=GS A0R241/312-418 OS Mycobacterium smegmatis str. MC2 155 #=GS A0R241/312-418 DE Adenylylsulfate kinase / sulfate adenylyltransferase subunit 1 #=GS A0R241/312-418 DR GENE3D; dfd7943c4d1b01884860d2c8235be035/312-418; #=GS A0R241/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium smegmatis; #=GS A0R241/312-418 DR EC; 2.7.1.26; 2.7.7.4; #=GS A0A1M9Z3R8/309-414 AC A0A1M9Z3R8 #=GS A0A1M9Z3R8/309-414 OS Mycobacterium abscessus subsp. abscessus #=GS A0A1M9Z3R8/309-414 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS A0A1M9Z3R8/309-414 DR GENE3D; 0150a1a110a3e0b0a2d10dc72aa78cda/309-414; #=GS A0A1M9Z3R8/309-414 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium chelonae group; Mycobacterium abscessus subgroup; Mycobacterium abscessus; Mycobacterium abscessus subsp. abscessus; #=GS A0A1M9Z3R8/309-414 DR EC; 2.7.1.25; #=GS C0G3W4/325-428 AC C0G3W4 #=GS C0G3W4/325-428 OS Brucella ceti str. Cudo #=GS C0G3W4/325-428 DE Sulfate adenylyltransferase, large subunit #=GS C0G3W4/325-428 DR GENE3D; 568e044b46096d22b847d1def10dc9b0/325-428; #=GS C0G3W4/325-428 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella ceti; #=GS C0G3W4/325-428 DR EC; 1.2.99.5; #=GS P23845/333-435 AC P23845 #=GS P23845/333-435 OS Escherichia coli K-12 #=GS P23845/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS P23845/333-435 DR GENE3D; 7b018704e074fee34e7a5f6016618c09/333-435; #=GS P23845/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS P23845/333-435 DR GO; GO:0003924; GO:0004781; GO:0005515; GO:0005525; GO:0006790; #=GS P23845/333-435 DR EC; 2.7.7.4; #=GS A1BAB6/336-440 AC A1BAB6 #=GS A1BAB6/336-440 OS Paracoccus denitrificans PD1222 #=GS A1BAB6/336-440 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS A1BAB6/336-440 DR GENE3D; 05018b5eb599958ddcb0ef7b029f089d/336-440; #=GS A1BAB6/336-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus denitrificans; #=GS A1BAB6/336-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q8P611/355-458 AC Q8P611 #=GS Q8P611/355-458 OS Xanthomonas campestris pv. campestris str. ATCC 33913 #=GS Q8P611/355-458 DE ATP sulfurylase/adenylylsulfate kinase #=GS Q8P611/355-458 DR GENE3D; 1ee77d607f385287849fffd00d9fbfe6/355-458; #=GS Q8P611/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas campestris; #=GS Q8P611/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS P13442/327-430 AC P13442 #=GS P13442/327-430 OS Sinorhizobium meliloti 1021 #=GS P13442/327-430 DE Bifunctional enzyme NodQ #=GS P13442/327-430 DR GENE3D; 41efa7345285edcd7e05e71158501977/327-430; #=GS P13442/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; #=GS P13442/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS I6YA54/309-415 AC I6YA54 #=GS I6YA54/309-415 OS Mycobacterium tuberculosis H37Rv #=GS I6YA54/309-415 DE Adenylyltransferase #=GS I6YA54/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS I6YA54/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium tuberculosis; #=GS I6YA54/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q7UMW2/329-433 AC Q7UMW2 #=GS Q7UMW2/329-433 OS Rhodopirellula baltica SH 1 #=GS Q7UMW2/329-433 DE Bifunctional enzyme CysN/CysC #=GS Q7UMW2/329-433 DR GENE3D; a65221dfa988e4d54d3ea50ce50fac88/329-433; #=GS Q7UMW2/329-433 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Planctomycetales; Planctomycetaceae; Rhodopirellula; Rhodopirellula baltica; #=GS Q7UMW2/329-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q2RS05/327-431 AC Q2RS05 #=GS Q2RS05/327-431 OS Rhodospirillum rubrum ATCC 11170 #=GS Q2RS05/327-431 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS Q2RS05/327-431 DR GENE3D; fb34a552f64c09241025405ea20cd23e/327-431; #=GS Q2RS05/327-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Rhodospirillum; Rhodospirillum rubrum; #=GS Q2RS05/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q9KP20/331-433 AC Q9KP20 #=GS Q9KP20/331-433 OS Vibrio cholerae O1 biovar El Tor str. N16961 #=GS Q9KP20/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS Q9KP20/331-433 DR GENE3D; 1ac14871350e0cf89a4e882774fc2446/331-433; #=GS Q9KP20/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS Q9KP20/331-433 DR GO; GO:0004781; GO:0006790; #=GS Q9KP20/331-433 DR EC; 2.7.7.4; #=GS Q8EB10/335-445 AC Q8EB10 #=GS Q8EB10/335-445 OS Shewanella oneidensis MR-1 #=GS Q8EB10/335-445 DE Sulfate adenylyltransferase subunit 1 #=GS Q8EB10/335-445 DR GENE3D; 218953eb3157dc46de30e60c3a5b85fd/335-445; #=GS Q8EB10/335-445 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella oneidensis; #=GS Q8EB10/335-445 DR GO; GO:0004781; GO:0006790; #=GS Q8EB10/335-445 DR EC; 2.7.7.4; #=GS A0KP35/329-434 AC A0KP35 #=GS A0KP35/329-434 OS Aeromonas hydrophila subsp. hydrophila ATCC 7966 #=GS A0KP35/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0KP35/329-434 DR GENE3D; 0591e7cb4c75174cb6231006f3dd7dc4/329-434; #=GS A0KP35/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas hydrophila; Aeromonas hydrophila subsp. hydrophila; #=GS A0KP35/329-434 DR EC; 2.7.7.4; #=GS Q32CH9/333-435 AC Q32CH9 #=GS Q32CH9/333-435 OS Shigella dysenteriae Sd197 #=GS Q32CH9/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS Q32CH9/333-435 DR GENE3D; 097d6870c52017186b8739d0959c870b/333-435; #=GS Q32CH9/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella dysenteriae; #=GS Q32CH9/333-435 DR EC; 2.7.7.4; #=GS Q8ZMF5/332-434 AC Q8ZMF5 #=GS Q8ZMF5/332-434 OS Salmonella enterica subsp. enterica serovar Typhimurium str. LT2 #=GS Q8ZMF5/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS Q8ZMF5/332-434 DR GENE3D; 0e0c8448338b1a3d4bcc7497b09a76a8/332-434; #=GS Q8ZMF5/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS Q8ZMF5/332-434 DR EC; 2.7.7.4; #=GS Q1ITG6/328-432 AC Q1ITG6 #=GS Q1ITG6/328-432 OS Candidatus Koribacter versatilis Ellin345 #=GS Q1ITG6/328-432 DE Sulfate adenylyltransferase subunit 1 #=GS Q1ITG6/328-432 DR GENE3D; 0fa5e6f8ea734679e97102acc3cb78bc/328-432; #=GS Q1ITG6/328-432 DR ORG; Bacteria; Acidobacteria; Acidobacteriia; Acidobacteriales; Acidobacteriaceae; Candidatus Koribacter; Candidatus Koribacter versatilis; #=GS Q1ITG6/328-432 DR EC; 2.7.7.4; #=GS Q92VH6/327-430 AC Q92VH6 #=GS Q92VH6/327-430 OS Sinorhizobium meliloti 1021 #=GS Q92VH6/327-430 DE Sulfate adenylyltransferase #=GS Q92VH6/327-430 DR GENE3D; 1e33a0f5ab2556652537ecf033053b6d/327-430; #=GS Q92VH6/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; #=GS Q92VH6/327-430 DR EC; 2.7.7.4; #=GS A6TD43/333-435 AC A6TD43 #=GS A6TD43/333-435 OS Klebsiella pneumoniae subsp. pneumoniae MGH 78578 #=GS A6TD43/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A6TD43/333-435 DR GENE3D; 221c4735fe04e579301fe743369fcd60/333-435; #=GS A6TD43/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella pneumoniae; Klebsiella pneumoniae subsp. pneumoniae; #=GS A6TD43/333-435 DR EC; 2.7.7.4; #=GS Q2S507/313-417 AC Q2S507 #=GS Q2S507/313-417 OS Salinibacter ruber DSM 13855 #=GS Q2S507/313-417 DE Sulfate adenylyltransferase, large subunit subfamily, putative #=GS Q2S507/313-417 DR GENE3D; 29fd3b321d7ab7a472e0904d973e817d/313-417; #=GS Q2S507/313-417 DR ORG; Bacteria; Bacteroidetes; Bacteroidetes Order II. Incertae sedis; Rhodothermaceae; Salinibacter; Salinibacter ruber; #=GS Q2S507/313-417 DR EC; 2.7.7.4; #=GS A3N3E0/136-241 AC A3N3E0 #=GS A3N3E0/136-241 OS Actinobacillus pleuropneumoniae serovar 5b str. L20 #=GS A3N3E0/136-241 DE Sulphate adenylate transferase subunit 1 #=GS A3N3E0/136-241 DR GENE3D; 38b7fd92dd794c70970e25d2dc794649/136-241; #=GS A3N3E0/136-241 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; #=GS A3N3E0/136-241 DR EC; 2.7.7.4; #=GS Q1D9W7/340-444 AC Q1D9W7 #=GS Q1D9W7/340-444 OS Myxococcus xanthus DK 1622 #=GS Q1D9W7/340-444 DE Sulfate adenylyltransferase subunit 1 #=GS Q1D9W7/340-444 DR GENE3D; 4d4c7d8d586dee2c72591b5b671bb240/340-444; #=GS Q1D9W7/340-444 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Cystobacterineae; Myxococcaceae; Myxococcus; Myxococcus xanthus; #=GS Q1D9W7/340-444 DR EC; 2.7.7.4; #=GS A0A0R4J6Q6/330-434 AC A0A0R4J6Q6 #=GS A0A0R4J6Q6/330-434 OS Acinetobacter baumannii AYE #=GS A0A0R4J6Q6/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0R4J6Q6/330-434 DR GENE3D; 533df2129bff1cbc3c825aa29b46e462/330-434; #=GS A0A0R4J6Q6/330-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter calcoaceticus/baumannii complex; Acinetobacter baumannii; #=GS A0A0R4J6Q6/330-434 DR EC; 2.7.7.4; #=GS Q8AAP9/322-436 AC Q8AAP9 #=GS Q8AAP9/322-436 OS Bacteroides thetaiotaomicron VPI-5482 #=GS Q8AAP9/322-436 DE Sulfate adenylyltransferase subunit 1 #=GS Q8AAP9/322-436 DR GENE3D; 54f508c5939a12666a463ebf81ea4306/322-436; #=GS Q8AAP9/322-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides thetaiotaomicron; #=GS Q8AAP9/322-436 DR EC; 2.7.7.4; #=GS Q5E830/332-435 AC Q5E830 #=GS Q5E830/332-435 OS Vibrio fischeri ES114 #=GS Q5E830/332-435 DE Sulfate adenylyltransferase subunit 1 #=GS Q5E830/332-435 DR GENE3D; 59092b00f065412075d4b6f96996e17d/332-435; #=GS Q5E830/332-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Aliivibrio; Aliivibrio fischeri; #=GS Q5E830/332-435 DR EC; 2.7.7.4; #=GS A0A0H3CPV3/334-434 AC A0A0H3CPV3 #=GS A0A0H3CPV3/334-434 OS Enterobacter cloacae subsp. cloacae ATCC 13047 #=GS A0A0H3CPV3/334-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0H3CPV3/334-434 DR GENE3D; 6d733fb89d4398e1edfba164f010ae8a/334-434; #=GS A0A0H3CPV3/334-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; Enterobacter cloacae subsp. cloacae; #=GS A0A0H3CPV3/334-434 DR EC; 2.7.7.4; #=GS P56893/335-438 AC P56893 #=GS P56893/335-438 OS Sinorhizobium meliloti 1021 #=GS P56893/335-438 DE Sulfate adenylyltransferase subunit 1 #=GS P56893/335-438 DR GENE3D; 6f728e8817b0b40dc81cf663799082c2/335-438; #=GS P56893/335-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; #=GS P56893/335-438 DR EC; 2.7.7.4; #=GS Q1MJV4/333-436 AC Q1MJV4 #=GS Q1MJV4/333-436 OS Rhizobium leguminosarum bv. viciae 3841 #=GS Q1MJV4/333-436 DE Sulfate adenylyltransferase subunit 1 #=GS Q1MJV4/333-436 DR GENE3D; 808230a4c43e8e9d792e012af2de5e38/333-436; #=GS Q1MJV4/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium leguminosarum; #=GS Q1MJV4/333-436 DR EC; 2.7.7.4; #=GS Q3JV22/330-434 AC Q3JV22 #=GS Q3JV22/330-434 OS Burkholderia pseudomallei 1710b #=GS Q3JV22/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS Q3JV22/330-434 DR GENE3D; a3e9b6fd4d5f6a7d7168a3124528c0c2/330-434; #=GS Q3JV22/330-434 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; pseudomallei group; Burkholderia pseudomallei; #=GS Q3JV22/330-434 DR EC; 2.7.7.4; #=GS Q8UH69/332-436 AC Q8UH69 #=GS Q8UH69/332-436 OS Agrobacterium fabrum str. C58 #=GS Q8UH69/332-436 DE Sulfate adenylyltransferase subunit 1 #=GS Q8UH69/332-436 DR GENE3D; c1cb808ac720baa416ba6e0f894dc287/332-436; #=GS Q8UH69/332-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium tumefaciens complex; Agrobacterium fabrum; #=GS Q8UH69/332-436 DR EC; 2.7.7.4; #=GS P57498/326-430 AC P57498 #=GS P57498/326-430 OS Buchnera aphidicola str. APS (Acyrthosiphon pisum) #=GS P57498/326-430 DE Sulfate adenylyltransferase subunit 1 #=GS P57498/326-430 DR GENE3D; d663a64ad1bde50d6f277c862e9422e6/326-430; #=GS P57498/326-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Buchnera; Buchnera aphidicola; #=GS P57498/326-430 DR EC; 2.7.7.4; #=GS Q8EYJ5/307-412 AC Q8EYJ5 #=GS Q8EYJ5/307-412 OS Leptospira interrogans serovar Lai str. 56601 #=GS Q8EYJ5/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS Q8EYJ5/307-412 DR GENE3D; d6fd1626321ac8e5edb469e425206e20/307-412; #=GS Q8EYJ5/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira interrogans; #=GS Q8EYJ5/307-412 DR EC; 2.7.7.4; #=GS Q9A882/328-431 AC Q9A882 #=GS Q9A882/328-431 OS Caulobacter crescentus CB15 #=GS Q9A882/328-431 DE Sulfate adenylate transferase, subunit 1/adenylylsulfate kinase #=GS Q9A882/328-431 DR GENE3D; dfcf4136d55369d5ec6d14d1779090b1/328-431; #=GS Q9A882/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter vibrioides; #=GS Q9A882/328-431 DR EC; 2.7.7.4; #=GS B4F230/342-445 AC B4F230 #=GS B4F230/342-445 OS Proteus mirabilis HI4320 #=GS B4F230/342-445 DE Sulfate adenylyltransferase subunit 1 #=GS B4F230/342-445 DR GENE3D; e10131b63004e0fbcb101895c97d41a6/342-445; #=GS B4F230/342-445 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus; Proteus mirabilis; #=GS B4F230/342-445 DR EC; 2.7.7.4; #=GS A0A1B3RWL6/329-432 AC A0A1B3RWL6 #=GS A0A1B3RWL6/329-432 OS Brucella melitensis #=GS A0A1B3RWL6/329-432 DE Adenylyl-sulfate kinase #=GS A0A1B3RWL6/329-432 DR GENE3D; 041faca55563b5f602f9e6bfe246a5e8/329-432; #=GS A0A1B3RWL6/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella melitensis; #=GS A0A1B3RWL6/329-432 DR EC; 1.2.99.5; 2.7.1.25; 2.7.7.4; #=GS Q8YEX3/329-432 AC Q8YEX3 #=GS Q8YEX3/329-432 OS Brucella melitensis bv. 1 str. 16M #=GS Q8YEX3/329-432 DE Sulfate adenylyltransferase / adenylylsulfate kinase #=GS Q8YEX3/329-432 DR GENE3D; 041faca55563b5f602f9e6bfe246a5e8/329-432; #=GS Q8YEX3/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella melitensis; #=GS Q8YEX3/329-432 DR EC; 1.2.99.5; 2.7.1.25; 2.7.7.4; #=GS V7L8L2/312-418 AC V7L8L2 #=GS V7L8L2/312-418 OS Mycobacterium avium subsp. avium 10-9275 #=GS V7L8L2/312-418 DE Adenylylsulfate kinase #=GS V7L8L2/312-418 DR GENE3D; cc10fa8e381f0615d14cd19afd429e43/312-418; #=GS V7L8L2/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; Mycobacterium avium subsp. avium; #=GS V7L8L2/312-418 DR EC; 2.7.1.25; 2.7.1.26; 2.7.7.4; #=GS V7P7T6/312-418 AC V7P7T6 #=GS V7P7T6/312-418 OS Mycobacterium avium 10-5560 #=GS V7P7T6/312-418 DE Adenylylsulfate kinase #=GS V7P7T6/312-418 DR GENE3D; cc10fa8e381f0615d14cd19afd429e43/312-418; #=GS V7P7T6/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; #=GS V7P7T6/312-418 DR EC; 2.7.1.25; 2.7.1.26; 2.7.7.4; #=GS V7JDI7/312-418 AC V7JDI7 #=GS V7JDI7/312-418 OS Mycobacterium avium 05-4293 #=GS V7JDI7/312-418 DE Adenylylsulfate kinase #=GS V7JDI7/312-418 DR GENE3D; cc10fa8e381f0615d14cd19afd429e43/312-418; #=GS V7JDI7/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; #=GS V7JDI7/312-418 DR EC; 2.7.1.25; 2.7.1.26; 2.7.7.4; #=GS A0A049E1A2/312-418 AC A0A049E1A2 #=GS A0A049E1A2/312-418 OS Mycobacterium avium XTB13-223 #=GS A0A049E1A2/312-418 DE Bifunctional enzyme CysN/CysC #=GS A0A049E1A2/312-418 DR GENE3D; cc10fa8e381f0615d14cd19afd429e43/312-418; #=GS A0A049E1A2/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; #=GS A0A049E1A2/312-418 DR EC; 2.7.1.25; 2.7.1.26; 2.7.7.4; #=GS A0A1L6WN95/312-418 AC A0A1L6WN95 #=GS A0A1L6WN95/312-418 OS Mycobacterium avium subsp. hominissuis #=GS A0A1L6WN95/312-418 DE Adenylyl-sulfate kinase #=GS A0A1L6WN95/312-418 DR GENE3D; cc10fa8e381f0615d14cd19afd429e43/312-418; #=GS A0A1L6WN95/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; Mycobacterium avium subsp. hominissuis; #=GS A0A1L6WN95/312-418 DR EC; 2.7.1.25; 2.7.1.26; 2.7.7.4; #=GS A0A0H2ZV28/312-418 AC A0A0H2ZV28 #=GS A0A0H2ZV28/312-418 OS Mycobacterium avium 104 #=GS A0A0H2ZV28/312-418 DE Sulfate adenylytransferase, large subunit/adenylylsulfate kinase #=GS A0A0H2ZV28/312-418 DR GENE3D; cc10fa8e381f0615d14cd19afd429e43/312-418; #=GS A0A0H2ZV28/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; #=GS A0A0H2ZV28/312-418 DR EC; 2.7.1.25; 2.7.1.26; 2.7.7.4; #=GS A0A0E2X114/312-418 AC A0A0E2X114 #=GS A0A0E2X114/312-418 OS Mycobacterium avium subsp. hominissuis 101 #=GS A0A0E2X114/312-418 DE Adenylylsulfate kinase #=GS A0A0E2X114/312-418 DR GENE3D; cc10fa8e381f0615d14cd19afd429e43/312-418; #=GS A0A0E2X114/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; Mycobacterium avium subsp. hominissuis; #=GS A0A0E2X114/312-418 DR EC; 2.7.1.25; 2.7.1.26; 2.7.7.4; #=GS A0A0E2XA79/312-418 AC A0A0E2XA79 #=GS A0A0E2XA79/312-418 OS Mycobacterium avium subsp. hominissuis 100 #=GS A0A0E2XA79/312-418 DE Adenylylsulfate kinase #=GS A0A0E2XA79/312-418 DR GENE3D; cc10fa8e381f0615d14cd19afd429e43/312-418; #=GS A0A0E2XA79/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; Mycobacterium avium subsp. hominissuis; #=GS A0A0E2XA79/312-418 DR EC; 2.7.1.25; 2.7.1.26; 2.7.7.4; #=GS O50274/329-434 AC O50274 #=GS O50274/329-434 OS Pseudomonas aeruginosa PAO1 #=GS O50274/329-434 DE Bifunctional enzyme CysN/CysC #=GS O50274/329-434 DR GENE3D; 7badec72a6e63768a19bbf88e9729e38/329-434; #=GS O50274/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS O50274/329-434 DR GO; GO:0009970; #=GS O50274/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q9R5P5/327-431 AC A0A0Q9R5P5 #=GS A0A0Q9R5P5/327-431 OS Nocardioides sp. Soil796 #=GS A0A0Q9R5P5/327-431 DE Adenylyltransferase #=GS A0A0Q9R5P5/327-431 DR GENE3D; 0007b937f3a4746c3579f4dfb9d8cb60/327-431; #=GS A0A0Q9R5P5/327-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Nocardioides; Nocardioides sp. Soil796; #=GS A0A0Q9R5P5/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5PQM8/330-434 AC X5PQM8 #=GS X5PQM8/330-434 OS Mesorhizobium sp. LSJC280B00 #=GS X5PQM8/330-434 DE Adenylylsulfate kinase #=GS X5PQM8/330-434 DR GENE3D; 002464c556a7d84c3e08eae0d1de7ae1/330-434; #=GS X5PQM8/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSJC280B00; #=GS X5PQM8/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A139VI72/323-429 AC A0A139VI72 #=GS A0A139VI72/323-429 OS Mycobacterium phlei DSM 43239 = CCUG 21000 #=GS A0A139VI72/323-429 DE Adenylylsulfate kinase #=GS A0A139VI72/323-429 DR GENE3D; 0141d3126f7ddc87a5a420c38e6e29f6/323-429; #=GS A0A139VI72/323-429 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium phlei; #=GS A0A139VI72/323-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A095VM46/329-433 AC A0A095VM46 #=GS A0A095VM46/329-433 OS Rhizobium sp. YS-1r #=GS A0A095VM46/329-433 DE Adenylyltransferase #=GS A0A095VM46/329-433 DR GENE3D; 01f5bee4afccad230693b9ec8bf474c9/329-433; #=GS A0A095VM46/329-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. YS-1r; #=GS A0A095VM46/329-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1C3RG07/327-431 AC A0A1C3RG07 #=GS A0A1C3RG07/327-431 OS Terasakiella sp. PR1 #=GS A0A1C3RG07/327-431 DE Bifunctional enzyme NodQ #=GS A0A1C3RG07/327-431 DR GENE3D; 037e4af60a3a5c6b0f0e8852ec909e20/327-431; #=GS A0A1C3RG07/327-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylocystaceae; Terasakiella; Terasakiella sp. PR1; #=GS A0A1C3RG07/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R0CHW1/325-428 AC A0A0R0CHW1 #=GS A0A0R0CHW1/325-428 OS Stenotrophomonas terrae #=GS A0A0R0CHW1/325-428 DE Adenylyltransferase #=GS A0A0R0CHW1/325-428 DR GENE3D; 03ac0330b207a464a6a34f063f0d0cb6/325-428; #=GS A0A0R0CHW1/325-428 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas terrae; #=GS A0A0R0CHW1/325-428 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0U3PCM7/328-432 AC A0A0U3PCM7 #=GS A0A0U3PCM7/328-432 OS Pannonibacter phragmitetus #=GS A0A0U3PCM7/328-432 DE Adenylyltransferase #=GS A0A0U3PCM7/328-432 DR GENE3D; 03fedefa7807ab95ad2ce40cae416d51/328-432; #=GS A0A0U3PCM7/328-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Pannonibacter; Pannonibacter phragmitetus; #=GS A0A0U3PCM7/328-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS O07309/327-430 AC O07309 #=GS O07309/327-430 OS Ensifer sp. BR816 #=GS O07309/327-430 DE Bifunctional enzyme NodQ #=GS O07309/327-430 DR GENE3D; 04348d024c0ac2e68a20dc0db20608af/327-430; #=GS O07309/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Ensifer; Ensifer sp. BR816; #=GS O07309/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS T5I2K5/327-431 AC T5I2K5 #=GS T5I2K5/327-431 OS Rhodococcus erythropolis DN1 #=GS T5I2K5/327-431 DE Adenylylsulfate kinase #=GS T5I2K5/327-431 DR GENE3D; 0528b03ff66ef3ce0a05bf9e14303de2/327-431; #=GS T5I2K5/327-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus erythropolis; #=GS T5I2K5/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7KRA4/327-430 AC A0A0Q7KRA4 #=GS A0A0Q7KRA4/327-430 OS Ensifer sp. Root1312 #=GS A0A0Q7KRA4/327-430 DE Adenylyltransferase #=GS A0A0Q7KRA4/327-430 DR GENE3D; 0795de790f2469735fbd785046d7ac2b/327-430; #=GS A0A0Q7KRA4/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Ensifer; Ensifer sp. Root1312; #=GS A0A0Q7KRA4/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A3XD31/355-458 AC A0A0A3XD31 #=GS A0A0A3XD31/355-458 OS Xanthomonas phaseoli pv. phaseoli #=GS A0A0A3XD31/355-458 DE Adenylyltransferase #=GS A0A0A3XD31/355-458 DR GENE3D; 081dc9660a8c439c1f0a559a8d5da6d3/355-458; #=GS A0A0A3XD31/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas phaseoli; #=GS A0A0A3XD31/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N0E693/329-434 AC A0A0N0E693 #=GS A0A0N0E693/329-434 OS Pseudomonas fuscovaginae #=GS A0A0N0E693/329-434 DE Sulfate adenylyltransferase, large subunit #=GS A0A0N0E693/329-434 DR GENE3D; 0866b6e99c1e93c64946ff5f78d46d4a/329-434; #=GS A0A0N0E693/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas fuscovaginae; #=GS A0A0N0E693/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H1RE97/312-415 AC A0A0H1RE97 #=GS A0A0H1RE97/312-415 OS Microvirga vignae #=GS A0A0H1RE97/312-415 DE Adenylyltransferase #=GS A0A0H1RE97/312-415 DR GENE3D; 09b7c54c18a1bb735d20b7e4ba0e3f7e/312-415; #=GS A0A0H1RE97/312-415 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Microvirga; Microvirga vignae; #=GS A0A0H1RE97/312-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS W5IUB9/329-434 AC W5IUB9 #=GS W5IUB9/329-434 OS Pseudomonas sp. M1 #=GS W5IUB9/329-434 DE Adenylylsulfate kinase #=GS W5IUB9/329-434 DR GENE3D; 09f5dd4fd893596e978acffcf2601a9c/329-434; #=GS W5IUB9/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. M1; #=GS W5IUB9/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1A5DC78/329-434 AC A0A1A5DC78 #=GS A0A1A5DC78/329-434 OS Pseudomonas sp. EGD-AKN5 #=GS A0A1A5DC78/329-434 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase #=GS A0A1A5DC78/329-434 DR GENE3D; 09f5dd4fd893596e978acffcf2601a9c/329-434; #=GS A0A1A5DC78/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. EGD-AKN5; #=GS A0A1A5DC78/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0V8T185/329-434 AC A0A0V8T185 #=GS A0A0V8T185/329-434 OS Pseudomonas sp. ADP #=GS A0A0V8T185/329-434 DE Adenylylsulfate kinase #=GS A0A0V8T185/329-434 DR GENE3D; 09f5dd4fd893596e978acffcf2601a9c/329-434; #=GS A0A0V8T185/329-434 DR ORG; Bacteria; Proteobacteria; Pseudomonas sp. ADP; #=GS A0A0V8T185/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6KRL7/325-428 AC A0A0Q6KRL7 #=GS A0A0Q6KRL7/325-428 OS Bosea sp. Leaf344 #=GS A0A0Q6KRL7/325-428 DE Adenylyltransferase #=GS A0A0Q6KRL7/325-428 DR GENE3D; 0b1c310b9e2f03882528209172623d6a/325-428; #=GS A0A0Q6KRL7/325-428 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. Leaf344; #=GS A0A0Q6KRL7/325-428 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0S7Z322/327-430 AC A0A0S7Z322 #=GS A0A0S7Z322/327-430 OS Gammaproteobacteria bacterium SG8_30 #=GS A0A0S7Z322/327-430 DE Adenylyltransferase #=GS A0A0S7Z322/327-430 DR GENE3D; 0b8fcc8621cb831131c08cb9f42405e8/327-430; #=GS A0A0S7Z322/327-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium SG8_30; #=GS A0A0S7Z322/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0L8ASU9/325-427 AC A0A0L8ASU9 #=GS A0A0L8ASU9/325-427 OS Limnohabitans planktonicus II-D5 #=GS A0A0L8ASU9/325-427 DE Adenylyltransferase #=GS A0A0L8ASU9/325-427 DR GENE3D; 0ba8154b35aaae6ba9d8cae5820bb9e8/325-427; #=GS A0A0L8ASU9/325-427 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Limnohabitans; Limnohabitans planktonicus; #=GS A0A0L8ASU9/325-427 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A090DCQ4/330-434 AC A0A090DCQ4 #=GS A0A090DCQ4/330-434 OS Mesorhizobium sp. ORS3324 #=GS A0A090DCQ4/330-434 DE Bifunctional enzyme NodQ #=GS A0A090DCQ4/330-434 DR GENE3D; 0c2ddfbf423579316e978b819873623f/330-434; #=GS A0A090DCQ4/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. ORS3324; #=GS A0A090DCQ4/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A142N9I4/329-434 AC A0A142N9I4 #=GS A0A142N9I4/329-434 OS Pseudomonas koreensis #=GS A0A142N9I4/329-434 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase #=GS A0A142N9I4/329-434 DR GENE3D; 0de094d2bced514b2f073a21694a81a4/329-434; #=GS A0A142N9I4/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas koreensis; #=GS A0A142N9I4/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS V8RA49/329-434 AC V8RA49 #=GS V8RA49/329-434 OS Pseudomonas moraviensis R28-S #=GS V8RA49/329-434 DE Adenylylsulfate kinase #=GS V8RA49/329-434 DR GENE3D; 0de094d2bced514b2f073a21694a81a4/329-434; #=GS V8RA49/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas moraviensis; #=GS V8RA49/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q8PHD1/355-458 AC Q8PHD1 #=GS Q8PHD1/355-458 OS Xanthomonas axonopodis pv. citri str. 306 #=GS Q8PHD1/355-458 DE ATP sulfurylase #=GS Q8PHD1/355-458 DR GENE3D; 0eb99de86a433cb5d31bb122546bba91/355-458; #=GS Q8PHD1/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas citri group; Xanthomonas citri; Xanthomonas citri subsp. citri; #=GS Q8PHD1/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS M4UEF9/355-458 AC M4UEF9 #=GS M4UEF9/355-458 OS Xanthomonas axonopodis Xac29-1 #=GS M4UEF9/355-458 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS M4UEF9/355-458 DR GENE3D; 0eb99de86a433cb5d31bb122546bba91/355-458; #=GS M4UEF9/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas axonopodis; #=GS M4UEF9/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D5SE40/355-458 AC A0A0D5SE40 #=GS A0A0D5SE40/355-458 OS Xanthomonas citri subsp. citri #=GS A0A0D5SE40/355-458 DE Adenylylsulfate kinase #=GS A0A0D5SE40/355-458 DR GENE3D; 0eb99de86a433cb5d31bb122546bba91/355-458; #=GS A0A0D5SE40/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas citri group; Xanthomonas citri; Xanthomonas citri subsp. citri; #=GS A0A0D5SE40/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0U5FHV4/355-458 AC A0A0U5FHV4 #=GS A0A0U5FHV4/355-458 OS #=GS A0A0U5FHV4/355-458 DE Adenylyl-sulfate kinase #=GS A0A0U5FHV4/355-458 DR GENE3D; 0eb99de86a433cb5d31bb122546bba91/355-458; #=GS A0A0U5FHV4/355-458 DR ORG; #=GS A0A0U5FHV4/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS K0PUH2/325-430 AC K0PUH2 #=GS K0PUH2/325-430 OS Rhizobium mesoamericanum STM3625 #=GS K0PUH2/325-430 DE Bifunctional enzyme NodQ #=GS K0PUH2/325-430 DR GENE3D; 0f7f675a7204dc93786cb0c831df6c1c/325-430; #=GS K0PUH2/325-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium mesoamericanum; #=GS K0PUH2/325-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A109JE38/325-430 AC A0A109JE38 #=GS A0A109JE38/325-430 OS Rhizobium sp. BR10423 #=GS A0A109JE38/325-430 DE Adenylyltransferase #=GS A0A109JE38/325-430 DR GENE3D; 0f7f675a7204dc93786cb0c831df6c1c/325-430; #=GS A0A109JE38/325-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. BR10423; #=GS A0A109JE38/325-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A085JYR3/337-440 AC A0A085JYR3 #=GS A0A085JYR3/337-440 OS Sphingobium yanoikuyae #=GS A0A085JYR3/337-440 DE Adenylyltransferase #=GS A0A085JYR3/337-440 DR GENE3D; 0fbb845abcb962d4e24f24d6c23950b4/337-440; #=GS A0A085JYR3/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium yanoikuyae; #=GS A0A085JYR3/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R0CKE7/349-452 AC A0A0R0CKE7 #=GS A0A0R0CKE7/349-452 OS Pseudoxanthomonas dokdonensis #=GS A0A0R0CKE7/349-452 DE Adenylyltransferase #=GS A0A0R0CKE7/349-452 DR GENE3D; 104bb91449757be55704cadbae7dc48e/349-452; #=GS A0A0R0CKE7/349-452 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Pseudoxanthomonas; Pseudoxanthomonas dokdonensis; #=GS A0A0R0CKE7/349-452 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E3UMB7/322-425 AC A0A0E3UMB7 #=GS A0A0E3UMB7/322-425 OS Pseudoxanthomonas suwonensis #=GS A0A0E3UMB7/322-425 DE Adenylyltransferase #=GS A0A0E3UMB7/322-425 DR GENE3D; 10ac008369232cbe3695d38e1371bb4a/322-425; #=GS A0A0E3UMB7/322-425 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Pseudoxanthomonas; Pseudoxanthomonas suwonensis; #=GS A0A0E3UMB7/322-425 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F2RMW6/328-431 AC A0A0F2RMW6 #=GS A0A0F2RMW6/328-431 OS Hyphomonas sp. BRH_c22 #=GS A0A0F2RMW6/328-431 DE Adenylyltransferase #=GS A0A0F2RMW6/328-431 DR GENE3D; 10fffd8146b5a80928d8df3207ae67d6/328-431; #=GS A0A0F2RMW6/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas sp. BRH_c22; #=GS A0A0F2RMW6/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0S3EXB4/337-440 AC A0A0S3EXB4 #=GS A0A0S3EXB4/337-440 OS Sphingobium baderi #=GS A0A0S3EXB4/337-440 DE Adenylyltransferase #=GS A0A0S3EXB4/337-440 DR GENE3D; 11ed6b4727108359d8640fbdbb3eaf94/337-440; #=GS A0A0S3EXB4/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium baderi; #=GS A0A0S3EXB4/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q5JBH1/355-458 AC A0A0Q5JBH1 #=GS A0A0Q5JBH1/355-458 OS Xanthomonas sp. Leaf148 #=GS A0A0Q5JBH1/355-458 DE Adenylyltransferase #=GS A0A0Q5JBH1/355-458 DR GENE3D; 1229363a070eebc198af908a38a7c4c8/355-458; #=GS A0A0Q5JBH1/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas sp. Leaf148; #=GS A0A0Q5JBH1/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A059G0T4/328-431 AC A0A059G0T4 #=GS A0A059G0T4/328-431 OS Hyphomonas hirschiana VP5 #=GS A0A059G0T4/328-431 DE Sulfate adenylyltransferase #=GS A0A059G0T4/328-431 DR GENE3D; 130c0d530d5b97a9972917d9850b2c99/328-431; #=GS A0A059G0T4/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas hirschiana; #=GS A0A059G0T4/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q0C439/328-431 AC Q0C439 #=GS Q0C439/328-431 OS Hyphomonas neptunium ATCC 15444 #=GS Q0C439/328-431 DE Sulfate adenylyltransferase, large subunit/adenylylsulfate kinase #=GS Q0C439/328-431 DR GENE3D; 130c0d530d5b97a9972917d9850b2c99/328-431; #=GS Q0C439/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas neptunium; #=GS Q0C439/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N8TPX4/334-437 AC A0A0N8TPX4 #=GS A0A0N8TPX4/334-437 OS Xanthomonas phaseoli pv. dieffenbachiae #=GS A0A0N8TPX4/334-437 DE Adenylyltransferase #=GS A0A0N8TPX4/334-437 DR GENE3D; 132dfe00d2fdf200a205b1d43440869c/334-437; #=GS A0A0N8TPX4/334-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas phaseoli; #=GS A0A0N8TPX4/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS V7E3E0/329-434 AC V7E3E0 #=GS V7E3E0/329-434 OS Pseudomonas fluorescens BBc6R8 #=GS V7E3E0/329-434 DE Adenylylsulfate kinase /sulfate adenylyltransferase subunit 1 #=GS V7E3E0/329-434 DR GENE3D; 134d3e5d0739fcd6fcef145312e00494/329-434; #=GS V7E3E0/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; #=GS V7E3E0/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0V8H388/319-425 AC A0A0V8H388 #=GS A0A0V8H388/319-425 OS Gordonia sp. SGD-V-85 #=GS A0A0V8H388/319-425 DE Adenylyltransferase #=GS A0A0V8H388/319-425 DR GENE3D; 1376d035789fbac3d0520a5e82d198a7/319-425; #=GS A0A0V8H388/319-425 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Gordoniaceae; Gordonia; Gordonia sp. SGD-V-85; #=GS A0A0V8H388/319-425 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1C4EFQ8/319-425 AC A0A1C4EFQ8 #=GS A0A1C4EFQ8/319-425 OS Gordonia sp. v-85 #=GS A0A1C4EFQ8/319-425 DE Bifunctional enzyme CysN/CysC #=GS A0A1C4EFQ8/319-425 DR GENE3D; 1376d035789fbac3d0520a5e82d198a7/319-425; #=GS A0A1C4EFQ8/319-425 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Gordoniaceae; Gordonia; Gordonia sp. v-85; #=GS A0A1C4EFQ8/319-425 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H1ABT3/330-434 AC A0A0H1ABT3 #=GS A0A0H1ABT3/330-434 OS Mesorhizobium sp. LC103 #=GS A0A0H1ABT3/330-434 DE Adenylyltransferase #=GS A0A0H1ABT3/330-434 DR GENE3D; 13fd9b25b6e82d7d449edc359eebc840/330-434; #=GS A0A0H1ABT3/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LC103; #=GS A0A0H1ABT3/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8J1L4/350-453 AC A0A0Q8J1L4 #=GS A0A0Q8J1L4/350-453 OS Lysobacter sp. Root690 #=GS A0A0Q8J1L4/350-453 DE Adenylyltransferase #=GS A0A0Q8J1L4/350-453 DR GENE3D; 157e5611d7e96d16db4ec8f8ed5ec185/350-453; #=GS A0A0Q8J1L4/350-453 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter sp. Root690; #=GS A0A0Q8J1L4/350-453 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0V0Q230/336-440 AC A0A0V0Q230 #=GS A0A0V0Q230/336-440 OS Paracoccus sp. MKU1 #=GS A0A0V0Q230/336-440 DE Adenylyltransferase #=GS A0A0V0Q230/336-440 DR GENE3D; 16313c61e3d4f67c98cc01bce0a59c77/336-440; #=GS A0A0V0Q230/336-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus sp. MKU1; #=GS A0A0V0Q230/336-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4FZV4/330-434 AC A0A0Q4FZV4 #=GS A0A0Q4FZV4/330-434 OS Sphingomonas sp. Leaf20 #=GS A0A0Q4FZV4/330-434 DE Adenylyltransferase #=GS A0A0Q4FZV4/330-434 DR GENE3D; 16a8872e2666461669515a22ce04d99c/330-434; #=GS A0A0Q4FZV4/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf20; #=GS A0A0Q4FZV4/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0W1QH69/330-433 AC A0A0W1QH69 #=GS A0A0W1QH69/330-433 OS Sphingomonas sp. WG #=GS A0A0W1QH69/330-433 DE Adenylyltransferase #=GS A0A0W1QH69/330-433 DR GENE3D; 1739a0edc6ceba412f9f7c6193d5db3f/330-433; #=GS A0A0W1QH69/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. WG; #=GS A0A0W1QH69/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D0S754/345-447 AC A0A0D0S754 #=GS A0A0D0S754/345-447 OS Lysobacter sp. A03 #=GS A0A0D0S754/345-447 DE NODE_1, whole genome shotgun sequence #=GS A0A0D0S754/345-447 DR GENE3D; 177cf3705458c9d08c0f072dec07109b/345-447; #=GS A0A0D0S754/345-447 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter sp. A03; #=GS A0A0D0S754/345-447 DR EC; 2.7.1.25; 2.7.7.4; #=GS U4UZM8/333-436 AC U4UZM8 #=GS U4UZM8/333-436 OS Rhodobacteraceae bacterium HIMB11 #=GS U4UZM8/333-436 DE Sulfate adenylyltransferase subunit 1, adenylylsulfate kinase #=GS U4UZM8/333-436 DR GENE3D; 1788e542245f5c4d5b453db80849c4e2/333-436; #=GS U4UZM8/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacteraceae bacterium HIMB11; #=GS U4UZM8/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0T0PYM0/329-433 AC A0A0T0PYM0 #=GS A0A0T0PYM0/329-433 OS Sphingomonas sp. Leaf412 #=GS A0A0T0PYM0/329-433 DE Adenylyltransferase #=GS A0A0T0PYM0/329-433 DR GENE3D; 18b0ebaf499bec92ee107ec2eecffe99/329-433; #=GS A0A0T0PYM0/329-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf412; #=GS A0A0T0PYM0/329-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N1LRN3/334-437 AC A0A0N1LRN3 #=GS A0A0N1LRN3/334-437 OS Novosphingobium sp. AAP83 #=GS A0A0N1LRN3/334-437 DE Adenylyltransferase #=GS A0A0N1LRN3/334-437 DR GENE3D; 18d0bfd6f6a759e2ff3e710ac6d3b902/334-437; #=GS A0A0N1LRN3/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. AAP83; #=GS A0A0N1LRN3/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A069J852/327-431 AC A0A069J852 #=GS A0A069J852/327-431 OS Rhodococcus qingshengii #=GS A0A069J852/327-431 DE Adenylyltransferase #=GS A0A069J852/327-431 DR GENE3D; 19a74640c70fa52cec2c056abe9c8840/327-431; #=GS A0A069J852/327-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus qingshengii; #=GS A0A069J852/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8DFK5/327-429 AC A0A0Q8DFK5 #=GS A0A0Q8DFK5/327-429 OS Rhodanobacter sp. Root627 #=GS A0A0Q8DFK5/327-429 DE Adenylyltransferase #=GS A0A0Q8DFK5/327-429 DR GENE3D; 19e7f483a4cdb9e9d64177dc65c6249e/327-429; #=GS A0A0Q8DFK5/327-429 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Rhodanobacter; Rhodanobacter sp. Root627; #=GS A0A0Q8DFK5/327-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q5HE81/313-416 AC A0A0Q5HE81 #=GS A0A0Q5HE81/313-416 OS Aureimonas sp. Leaf324 #=GS A0A0Q5HE81/313-416 DE Adenylyltransferase #=GS A0A0Q5HE81/313-416 DR GENE3D; 1a6909d13a1fee4f0353d79da8132ead/313-416; #=GS A0A0Q5HE81/313-416 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Aureimonas; Aureimonas sp. Leaf324; #=GS A0A0Q5HE81/313-416 DR EC; 2.7.1.25; 2.7.7.4; #=GS A1TDE8/312-418 AC A1TDE8 #=GS A1TDE8/312-418 OS Mycobacterium vanbaalenii PYR-1 #=GS A1TDE8/312-418 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS A1TDE8/312-418 DR GENE3D; 1a987f620752617c6771caac58a6e9dc/312-418; #=GS A1TDE8/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium vanbaalenii; #=GS A1TDE8/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8HCN7/328-431 AC A0A0Q8HCN7 #=GS A0A0Q8HCN7/328-431 OS Pseudomonas sp. Root68 #=GS A0A0Q8HCN7/328-431 DE Adenylyltransferase #=GS A0A0Q8HCN7/328-431 DR GENE3D; 1b56db41c7b749d79aefc70bbbd75988/328-431; #=GS A0A0Q8HCN7/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. Root68; #=GS A0A0Q8HCN7/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8PK49/328-431 AC A0A0Q8PK49 #=GS A0A0Q8PK49/328-431 OS Pseudomonas sp. Root71 #=GS A0A0Q8PK49/328-431 DE Adenylyltransferase #=GS A0A0Q8PK49/328-431 DR GENE3D; 1b56db41c7b749d79aefc70bbbd75988/328-431; #=GS A0A0Q8PK49/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. Root71; #=GS A0A0Q8PK49/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1L3L9M7/321-424 AC A0A1L3L9M7 #=GS A0A1L3L9M7/321-424 OS Sinorhizobium americanum CCGM7 #=GS A0A1L3L9M7/321-424 DE Bifunctional enzyme NodQ #=GS A0A1L3L9M7/321-424 DR GENE3D; 1c777d073abc11fef2cd58c81fa0f19a/321-424; #=GS A0A1L3L9M7/321-424 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium americanum; #=GS A0A1L3L9M7/321-424 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6CCE7/334-437 AC X6CCE7 #=GS X6CCE7/334-437 OS Mesorhizobium sp. LNHC232B00 #=GS X6CCE7/334-437 DE Adenylylsulfate kinase #=GS X6CCE7/334-437 DR GENE3D; 1dc4ccdcf8cd76c7f4d871cd243bbc1b/334-437; #=GS X6CCE7/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNHC232B00; #=GS X6CCE7/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS J8VWB0/337-440 AC J8VWB0 #=GS J8VWB0/337-440 OS Sphingomonas sp. LH128 #=GS J8VWB0/337-440 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS J8VWB0/337-440 DR GENE3D; 1e784926f0ecc2b45ff36c1453db4db4/337-440; #=GS J8VWB0/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. LH128; #=GS J8VWB0/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A031K292/337-440 AC A0A031K292 #=GS A0A031K292/337-440 OS Novosphingobium resinovorum #=GS A0A031K292/337-440 DE Adenylyl-sulfate kinase #=GS A0A031K292/337-440 DR GENE3D; 1e784926f0ecc2b45ff36c1453db4db4/337-440; #=GS A0A031K292/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium resinovorum; #=GS A0A031K292/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A096FIS3/328-431 AC A0A096FIS3 #=GS A0A096FIS3/328-431 OS Comamonas testosteroni #=GS A0A096FIS3/328-431 DE Adenylylsulfate kinase #=GS A0A096FIS3/328-431 DR GENE3D; 1eb48422decfe1635572fcb19f24c7e2/328-431; #=GS A0A096FIS3/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas testosteroni; #=GS A0A096FIS3/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0J8XA46/312-418 AC A0A0J8XA46 #=GS A0A0J8XA46/312-418 OS Mycobacterium heckeshornense #=GS A0A0J8XA46/312-418 DE Adenylyl-sulfate kinase #=GS A0A0J8XA46/312-418 DR GENE3D; 1eb922f9b99be5a3e8603fa1570e9056/312-418; #=GS A0A0J8XA46/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium heckeshornense; #=GS A0A0J8XA46/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H2X6B5/355-458 AC A0A0H2X6B5 #=GS A0A0H2X6B5/355-458 OS Xanthomonas campestris pv. campestris str. 8004 #=GS A0A0H2X6B5/355-458 DE ATP sulfurylase/adenylylsulfate kinase #=GS A0A0H2X6B5/355-458 DR GENE3D; 1ee77d607f385287849fffd00d9fbfe6/355-458; #=GS A0A0H2X6B5/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas campestris; #=GS A0A0H2X6B5/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS B0RPG9/355-458 AC B0RPG9 #=GS B0RPG9/355-458 OS Xanthomonas campestris pv. campestris str. B100 #=GS B0RPG9/355-458 DE Sulfate adenylyltransferase subunit 1 / adenylyl-sulfate kinase #=GS B0RPG9/355-458 DR GENE3D; 1ee77d607f385287849fffd00d9fbfe6/355-458; #=GS B0RPG9/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas campestris; #=GS B0RPG9/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6HB04/330-434 AC X6HB04 #=GS X6HB04/330-434 OS Mesorhizobium sp. L2C084A000 #=GS X6HB04/330-434 DE Adenylylsulfate kinase #=GS X6HB04/330-434 DR GENE3D; 1f76722f5e57f4dd8658d2d780421ab9/330-434; #=GS X6HB04/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L2C084A000; #=GS X6HB04/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8CLZ0/349-452 AC A0A0Q8CLZ0 #=GS A0A0Q8CLZ0/349-452 OS Lysobacter sp. Root604 #=GS A0A0Q8CLZ0/349-452 DE Adenylyltransferase #=GS A0A0Q8CLZ0/349-452 DR GENE3D; 21cbb6756bcbd827c40350363022e9b7/349-452; #=GS A0A0Q8CLZ0/349-452 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter sp. Root604; #=GS A0A0Q8CLZ0/349-452 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A074K0V6/327-431 AC A0A074K0V6 #=GS A0A074K0V6/327-431 OS Thalassospira permensis NBRC 106175 #=GS A0A074K0V6/327-431 DE Adenylylsulfate kinase #=GS A0A074K0V6/327-431 DR GENE3D; 21f11515726cf4fc6fff1632836090b0/327-431; #=GS A0A074K0V6/327-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira permensis; #=GS A0A074K0V6/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS X7Y4G4/312-418 AC X7Y4G4 #=GS X7Y4G4/312-418 OS Mycobacterium kansasii 824 #=GS X7Y4G4/312-418 DE Bifunctional enzyme CysN/CysC #=GS X7Y4G4/312-418 DR GENE3D; 22160e1d58c5c9829ab6a579e950c836/312-418; #=GS X7Y4G4/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium kansasii; #=GS X7Y4G4/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS U5WPH9/312-418 AC U5WPH9 #=GS U5WPH9/312-418 OS Mycobacterium kansasii ATCC 12478 #=GS U5WPH9/312-418 DE Adenylylsulfate kinase #=GS U5WPH9/312-418 DR GENE3D; 22160e1d58c5c9829ab6a579e950c836/312-418; #=GS U5WPH9/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium kansasii; #=GS U5WPH9/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS X7ZKS3/312-418 AC X7ZKS3 #=GS X7ZKS3/312-418 OS Mycobacterium kansasii 662 #=GS X7ZKS3/312-418 DE Bifunctional enzyme CysN/CysC #=GS X7ZKS3/312-418 DR GENE3D; 22160e1d58c5c9829ab6a579e950c836/312-418; #=GS X7ZKS3/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium kansasii; #=GS X7ZKS3/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1A0TUJ7/312-418 AC A0A1A0TUJ7 #=GS A0A1A0TUJ7/312-418 OS Mycobacterium sp. 852013-50142_SCH4511227 #=GS A0A1A0TUJ7/312-418 DE Adenylyl-sulfate kinase #=GS A0A1A0TUJ7/312-418 DR GENE3D; 22e44b25420196355ae09708b971a8c3/312-418; #=GS A0A1A0TUJ7/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. 852013-50142_SCH4511227; #=GS A0A1A0TUJ7/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A1UK26/312-418 AC A1UK26 #=GS A1UK26/312-418 OS Mycobacterium sp. KMS #=GS A1UK26/312-418 DE Adenylylsulfate kinase / sulfate adenylyltransferase subunit 1 #=GS A1UK26/312-418 DR GENE3D; 22e44b25420196355ae09708b971a8c3/312-418; #=GS A1UK26/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. KMS; #=GS A1UK26/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4JRV7/334-437 AC A0A0Q4JRV7 #=GS A0A0Q4JRV7/334-437 OS Sphingomonas sp. Leaf29 #=GS A0A0Q4JRV7/334-437 DE Adenylyltransferase #=GS A0A0Q4JRV7/334-437 DR GENE3D; 23f4f2fd4dd07f8e85d192da108216b6/334-437; #=GS A0A0Q4JRV7/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf29; #=GS A0A0Q4JRV7/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4FCW9/334-437 AC A0A0Q4FCW9 #=GS A0A0Q4FCW9/334-437 OS Sphingomonas sp. Leaf16 #=GS A0A0Q4FCW9/334-437 DE Adenylyltransferase #=GS A0A0Q4FCW9/334-437 DR GENE3D; 23f4f2fd4dd07f8e85d192da108216b6/334-437; #=GS A0A0Q4FCW9/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf16; #=GS A0A0Q4FCW9/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4K7B1/334-437 AC A0A0Q4K7B1 #=GS A0A0Q4K7B1/334-437 OS Sphingomonas sp. Leaf32 #=GS A0A0Q4K7B1/334-437 DE Adenylyltransferase #=GS A0A0Q4K7B1/334-437 DR GENE3D; 23f4f2fd4dd07f8e85d192da108216b6/334-437; #=GS A0A0Q4K7B1/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf32; #=GS A0A0Q4K7B1/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS V4P0B6/329-432 AC V4P0B6 #=GS V4P0B6/329-432 OS Asticcacaulis sp. AC466 #=GS V4P0B6/329-432 DE Adenylylsulfate kinase #=GS V4P0B6/329-432 DR GENE3D; 24043bc9da68615457b9f8bcc531b87b/329-432; #=GS V4P0B6/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis sp. AC466; #=GS V4P0B6/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A132PD75/312-418 AC A0A132PD75 #=GS A0A132PD75/312-418 OS Mycobacterium wolinskyi #=GS A0A132PD75/312-418 DE Adenylyltransferase #=GS A0A132PD75/312-418 DR GENE3D; 2567fd300d68315ee58c0cf3b8be700a/312-418; #=GS A0A132PD75/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium wolinskyi; #=GS A0A132PD75/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0B1ZJP8/337-440 AC A0A0B1ZJP8 #=GS A0A0B1ZJP8/337-440 OS Novosphingobium malaysiense #=GS A0A0B1ZJP8/337-440 DE Adenylyltransferase #=GS A0A0B1ZJP8/337-440 DR GENE3D; 25d11de03a457c9d81962ce2a1535e4f/337-440; #=GS A0A0B1ZJP8/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium malaysiense; #=GS A0A0B1ZJP8/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A060BBZ5/328-431 AC A0A060BBZ5 #=GS A0A060BBZ5/328-431 OS Halomonas campaniensis #=GS A0A060BBZ5/328-431 DE Adenylyltransferase #=GS A0A060BBZ5/328-431 DR GENE3D; 25d91150f5c887a7640bc376f0c8ec33/328-431; #=GS A0A060BBZ5/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas campaniensis; #=GS A0A060BBZ5/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q0IH77/334-437 AC A0A0Q0IH77 #=GS A0A0Q0IH77/334-437 OS Xanthomonas phaseoli pv. dieffenbachiae #=GS A0A0Q0IH77/334-437 DE Adenylyltransferase #=GS A0A0Q0IH77/334-437 DR GENE3D; 26191c63ad178d05f561b87d33e8b2bd/334-437; #=GS A0A0Q0IH77/334-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas phaseoli; #=GS A0A0Q0IH77/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8IKV1/327-431 AC A0A0Q8IKV1 #=GS A0A0Q8IKV1/327-431 OS Devosia sp. Root685 #=GS A0A0Q8IKV1/327-431 DE Adenylyltransferase #=GS A0A0Q8IKV1/327-431 DR GENE3D; 26d6f97dca4109071e0a875fec2247ce/327-431; #=GS A0A0Q8IKV1/327-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. Root685; #=GS A0A0Q8IKV1/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A060DSB6/327-430 AC A0A060DSB6 #=GS A0A060DSB6/327-430 OS Azospirillum brasilense #=GS A0A060DSB6/327-430 DE Adenylyltransferase #=GS A0A060DSB6/327-430 DR GENE3D; 273b7cb7448dd87267e95808012d6191/327-430; #=GS A0A060DSB6/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Azospirillum; Azospirillum brasilense; #=GS A0A060DSB6/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS L0GR40/329-434 AC L0GR40 #=GS L0GR40/329-434 OS Pseudomonas stutzeri RCH2 #=GS L0GR40/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS L0GR40/329-434 DR GENE3D; 28eb81e8ba0ca67c476e557d72040f88/329-434; #=GS L0GR40/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS L0GR40/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4KP60/331-433 AC A0A0Q4KP60 #=GS A0A0Q4KP60/331-433 OS Sphingomonas sp. Leaf33 #=GS A0A0Q4KP60/331-433 DE Adenylyltransferase #=GS A0A0Q4KP60/331-433 DR GENE3D; 293c2c847f029161c2bdbaddc8457f3c/331-433; #=GS A0A0Q4KP60/331-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf33; #=GS A0A0Q4KP60/331-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS L7VBI5/312-418 AC L7VBI5 #=GS L7VBI5/312-418 OS Mycobacterium liflandii 128FXT #=GS L7VBI5/312-418 DE Bifunctional enzyme CysN/CysC: sulfate adenyltransferase #=GS L7VBI5/312-418 DR GENE3D; 29e53d94f3396f395cd65c11fc2d68ad/312-418; #=GS L7VBI5/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium liflandii; #=GS L7VBI5/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M1KJN1/355-458 AC A0A0M1KJN1 #=GS A0A0M1KJN1/355-458 OS Xanthomonas oryzae #=GS A0A0M1KJN1/355-458 DE Adenylyltransferase #=GS A0A0M1KJN1/355-458 DR GENE3D; 2b4d13b6cb6505da6e095a3d859aaa90/355-458; #=GS A0A0M1KJN1/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas oryzae; #=GS A0A0M1KJN1/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A090GRL9/330-434 AC A0A090GRL9 #=GS A0A090GRL9/330-434 OS Mesorhizobium plurifarium #=GS A0A090GRL9/330-434 DE Bifunctional enzyme NodQ #=GS A0A090GRL9/330-434 DR GENE3D; 2b6e79b501982f9ab22ef00c4a79e535/330-434; #=GS A0A090GRL9/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium plurifarium; #=GS A0A090GRL9/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A099CZK2/325-428 AC A0A099CZK2 #=GS A0A099CZK2/325-428 OS Oleiagrimonas soli #=GS A0A099CZK2/325-428 DE Adenylyltransferase #=GS A0A099CZK2/325-428 DR GENE3D; 2bb2dedc7e041a33419b50691f313c36/325-428; #=GS A0A099CZK2/325-428 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Oleiagrimonas; Oleiagrimonas soli; #=GS A0A099CZK2/325-428 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A1FVG3/309-415 AC A0A0A1FVG3 #=GS A0A0A1FVG3/309-415 OS Mycobacterium sp. VKM Ac-1817D #=GS A0A0A1FVG3/309-415 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0A1FVG3/309-415 DR GENE3D; 2be9b9b600b9e8156d596be6a4d599d6/309-415; #=GS A0A0A1FVG3/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. VKM Ac-1817D; #=GS A0A0A1FVG3/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A100WPG7/309-415 AC A0A100WPG7 #=GS A0A100WPG7/309-415 OS Mycobacterium fortuitum subsp. acetamidolyticum #=GS A0A100WPG7/309-415 DE Bifunctional sulfate adenyltransferase/adenylylsulfate kinase cysN/cysC #=GS A0A100WPG7/309-415 DR GENE3D; 2be9b9b600b9e8156d596be6a4d599d6/309-415; #=GS A0A100WPG7/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium fortuitum complex; Mycobacterium fortuitum; Mycobacterium fortuitum subsp. acetamidolyticum; #=GS A0A100WPG7/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS K0UHF4/309-415 AC K0UHF4 #=GS K0UHF4/309-415 OS Mycobacterium fortuitum subsp. fortuitum DSM 46621 = ATCC 6841 #=GS K0UHF4/309-415 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS K0UHF4/309-415 DR GENE3D; 2be9b9b600b9e8156d596be6a4d599d6/309-415; #=GS K0UHF4/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium fortuitum complex; Mycobacterium fortuitum; Mycobacterium fortuitum subsp. fortuitum; #=GS K0UHF4/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N9YA19/309-415 AC A0A0N9YA19 #=GS A0A0N9YA19/309-415 OS Mycobacterium fortuitum #=GS A0A0N9YA19/309-415 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0N9YA19/309-415 DR GENE3D; 2be9b9b600b9e8156d596be6a4d599d6/309-415; #=GS A0A0N9YA19/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium fortuitum complex; Mycobacterium fortuitum; #=GS A0A0N9YA19/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0G9GZ28/320-422 AC A0A0G9GZ28 #=GS A0A0G9GZ28/320-422 OS Dyella japonica DSM 16301 #=GS A0A0G9GZ28/320-422 DE Adenylyltransferase #=GS A0A0G9GZ28/320-422 DR GENE3D; 2bf33f58ce5f4c7d90f03b3e4b7e2f7e/320-422; #=GS A0A0G9GZ28/320-422 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Dyella; Dyella japonica; #=GS A0A0G9GZ28/320-422 DR EC; 2.7.1.25; 2.7.7.4; #=GS H0SN53/326-429 AC H0SN53 #=GS H0SN53/326-429 OS Bradyrhizobium sp. ORS 375 #=GS H0SN53/326-429 DE Putative bifunctional enzyme: Sulfate adenylyltransferase (SAT) subunit 1 (N-terminal) Adenylyl-sulfate kinase (APS kinase)(C-terminal)(NodQ/CysNC-like) #=GS H0SN53/326-429 DR GENE3D; 2c3b9f76aba3f232e2354bb5ebbe038b/326-429; #=GS H0SN53/326-429 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. ORS 375; #=GS H0SN53/326-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0C5XGY3/336-439 AC A0A0C5XGY3 #=GS A0A0C5XGY3/336-439 OS Sphingobium sp. YBL2 #=GS A0A0C5XGY3/336-439 DE Adenylyltransferase #=GS A0A0C5XGY3/336-439 DR GENE3D; 2c5c43ef9ee9ca995aa614008fa7936f/336-439; #=GS A0A0C5XGY3/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. YBL2; #=GS A0A0C5XGY3/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A059L0R7/329-434 AC A0A059L0R7 #=GS A0A059L0R7/329-434 OS Pseudomonas mandelii PD30 #=GS A0A059L0R7/329-434 DE Adenylylsulfate kinase #=GS A0A059L0R7/329-434 DR GENE3D; 2c759285b4b558a6361a8f480fa647ba/329-434; #=GS A0A059L0R7/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas mandelii; #=GS A0A059L0R7/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A4JIU7/347-450 AC A4JIU7 #=GS A4JIU7/347-450 OS Burkholderia vietnamiensis G4 #=GS A4JIU7/347-450 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS A4JIU7/347-450 DR GENE3D; 2ccca81288694abfab1a398bf6b928f8/347-450; #=GS A4JIU7/347-450 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia vietnamiensis; #=GS A4JIU7/347-450 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7V290/330-434 AC A0A0Q7V290 #=GS A0A0Q7V290/330-434 OS Mesorhizobium sp. Root552 #=GS A0A0Q7V290/330-434 DE Adenylyltransferase #=GS A0A0Q7V290/330-434 DR GENE3D; 2d02db2d1464f635799654cf37dfccb0/330-434; #=GS A0A0Q7V290/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. Root552; #=GS A0A0Q7V290/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS V7LJZ6/312-418 AC V7LJZ6 #=GS V7LJZ6/312-418 OS Mycobacterium avium subsp. avium 11-4751 #=GS V7LJZ6/312-418 DE Adenylylsulfate kinase #=GS V7LJZ6/312-418 DR GENE3D; 2d7103b8f98721141a08d974192d36ad/312-418; #=GS V7LJZ6/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; Mycobacterium avium subsp. avium; #=GS V7LJZ6/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A178XVK7/327-430 AC A0A178XVK7 #=GS A0A178XVK7/327-430 OS Sinorhizobium americanum #=GS A0A178XVK7/327-430 DE Adenylyltransferase #=GS A0A178XVK7/327-430 DR GENE3D; 2e44603c0a5f4a8d3e5daf4bfdadd39a/327-430; #=GS A0A178XVK7/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium americanum; #=GS A0A178XVK7/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D1MRJ6/330-434 AC A0A0D1MRJ6 #=GS A0A0D1MRJ6/330-434 OS Sphingomonas taxi #=GS A0A0D1MRJ6/330-434 DE Adenylyltransferase #=GS A0A0D1MRJ6/330-434 DR GENE3D; 2e89fb32488d0bde0456255791b30824/330-434; #=GS A0A0D1MRJ6/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas taxi; #=GS A0A0D1MRJ6/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS G2IHZ5/332-435 AC G2IHZ5 #=GS G2IHZ5/332-435 OS Sphingobium sp. SYK-6 #=GS G2IHZ5/332-435 DE Sulfate adenylyltransferase subunit 1/adenylyl-sulfate kinase #=GS G2IHZ5/332-435 DR GENE3D; 2f2ab0dd1644a38343761693d43535aa/332-435; #=GS G2IHZ5/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. SYK-6; #=GS G2IHZ5/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A167BGH1/328-431 AC A0A167BGH1 #=GS A0A167BGH1/328-431 OS Ectothiorhodospira sp. BSL-9 #=GS A0A167BGH1/328-431 DE Adenylyltransferase #=GS A0A167BGH1/328-431 DR GENE3D; 2f500770403d52e806e05d66c0e20a0c/328-431; #=GS A0A167BGH1/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Ectothiorhodospira; Ectothiorhodospira sp. BSL-9; #=GS A0A167BGH1/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0W1IET2/332-435 AC A0A0W1IET2 #=GS A0A0W1IET2/332-435 OS Sphingopyxis sp. A083 #=GS A0A0W1IET2/332-435 DE Adenylyltransferase #=GS A0A0W1IET2/332-435 DR GENE3D; 2f6d5de49eb6e3bb29ba1a92a0864b5c/332-435; #=GS A0A0W1IET2/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. A083; #=GS A0A0W1IET2/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7RAL4/326-429 AC A0A0Q7RAL4 #=GS A0A0Q7RAL4/326-429 OS Ensifer sp. Root142 #=GS A0A0Q7RAL4/326-429 DE Adenylyltransferase #=GS A0A0Q7RAL4/326-429 DR GENE3D; 3026085a258f7f39348a88e1e8816e40/326-429; #=GS A0A0Q7RAL4/326-429 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Ensifer; Ensifer sp. Root142; #=GS A0A0Q7RAL4/326-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M3ANV7/339-442 AC A0A0M3ANV7 #=GS A0A0M3ANV7/339-442 OS Sphingobium chungbukense #=GS A0A0M3ANV7/339-442 DE Adenylyltransferase #=GS A0A0M3ANV7/339-442 DR GENE3D; 30aefff678cfa8dcc23cbc71f7f6f90a/339-442; #=GS A0A0M3ANV7/339-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium chungbukense; #=GS A0A0M3ANV7/339-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A074MJX0/334-437 AC A0A074MJX0 #=GS A0A074MJX0/334-437 OS Erythrobacter sp. JL475 #=GS A0A074MJX0/334-437 DE Adenylyltransferase #=GS A0A074MJX0/334-437 DR GENE3D; 31b44340374d13723b3fd231bb6a8bed/334-437; #=GS A0A074MJX0/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. JL475; #=GS A0A074MJX0/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS C0ZUW7/327-431 AC C0ZUW7 #=GS C0ZUW7/327-431 OS Rhodococcus erythropolis PR4 #=GS C0ZUW7/327-431 DE Bifunctional protein CysNC #=GS C0ZUW7/327-431 DR GENE3D; 32d1b5d0b4fb94d99376f3ba51bb8bb0/327-431; #=GS C0ZUW7/327-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus erythropolis; #=GS C0ZUW7/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS B6QY69/328-432 AC B6QY69 #=GS B6QY69/328-432 OS Pseudovibrio sp. JE062 #=GS B6QY69/328-432 DE NodQ bifunctional enzyme (Nodulation protein Q) #=GS B6QY69/328-432 DR GENE3D; 32d45e947d86bc38b135c5894e51a4db/328-432; #=GS B6QY69/328-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Pseudovibrio; Pseudovibrio sp. JE062; #=GS B6QY69/328-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6CVY9/330-435 AC X6CVY9 #=GS X6CVY9/330-435 OS Mesorhizobium sp. LNHC232B00 #=GS X6CVY9/330-435 DE Adenylylsulfate kinase #=GS X6CVY9/330-435 DR GENE3D; 3339ee4ba1fce3d2b9533b9bbcd1f29e/330-435; #=GS X6CVY9/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNHC232B00; #=GS X6CVY9/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A090GA44/330-434 AC A0A090GA44 #=GS A0A090GA44/330-434 OS Mesorhizobium plurifarium #=GS A0A090GA44/330-434 DE Bifunctional enzyme NodQ #=GS A0A090GA44/330-434 DR GENE3D; 334d5e6d65303e160dec4b86ffd99c1e/330-434; #=GS A0A090GA44/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium plurifarium; #=GS A0A090GA44/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0B1Y302/342-445 AC A0A0B1Y302 #=GS A0A0B1Y302/342-445 OS Ralstonia sp. A12 #=GS A0A0B1Y302/342-445 DE Adenylyltransferase #=GS A0A0B1Y302/342-445 DR GENE3D; 339ced74f6b5079075168d123ce7f361/342-445; #=GS A0A0B1Y302/342-445 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Ralstonia; Ralstonia sp. A12; #=GS A0A0B1Y302/342-445 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A1HR87/329-434 AC A0A0A1HR87 #=GS A0A0A1HR87/329-434 OS Pseudomonas sp. SHC52 #=GS A0A0A1HR87/329-434 DE Sulfate adenylyltransferase subunit 1 / Adenylylsulfate kinase #=GS A0A0A1HR87/329-434 DR GENE3D; 34b3d1eaf3f5466dfb1cefb99f00fbb1/329-434; #=GS A0A0A1HR87/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. SHC52; #=GS A0A0A1HR87/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8J0Q1/328-431 AC A0A0Q8J0Q1 #=GS A0A0Q8J0Q1/328-431 OS Pseudomonas sp. Root68 #=GS A0A0Q8J0Q1/328-431 DE Adenylyltransferase #=GS A0A0Q8J0Q1/328-431 DR GENE3D; 34d2a07d07d4a672788fdc2a42bba121/328-431; #=GS A0A0Q8J0Q1/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. Root68; #=GS A0A0Q8J0Q1/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8PGF7/328-431 AC A0A0Q8PGF7 #=GS A0A0Q8PGF7/328-431 OS Pseudomonas sp. Root71 #=GS A0A0Q8PGF7/328-431 DE Adenylyltransferase #=GS A0A0Q8PGF7/328-431 DR GENE3D; 34d2a07d07d4a672788fdc2a42bba121/328-431; #=GS A0A0Q8PGF7/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. Root71; #=GS A0A0Q8PGF7/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A163V3K2/329-433 AC A0A163V3K2 #=GS A0A163V3K2/329-433 OS Labrenzia sp. OB1 #=GS A0A163V3K2/329-433 DE Adenylyltransferase #=GS A0A163V3K2/329-433 DR GENE3D; 36781e71e8b17ebe7b30204d1d9f9997/329-433; #=GS A0A163V3K2/329-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia sp. OB1; #=GS A0A163V3K2/329-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS T0J909/342-446 AC T0J909 #=GS T0J909/342-446 OS Novosphingobium lindaniclasticum LE124 #=GS T0J909/342-446 DE Adenylylsulfate kinase #=GS T0J909/342-446 DR GENE3D; 36a07c415ac7fd744de946097f3c7984/342-446; #=GS T0J909/342-446 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium lindaniclasticum; #=GS T0J909/342-446 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H1RCC2/320-424 AC A0A0H1RCC2 #=GS A0A0H1RCC2/320-424 OS Microvirga vignae #=GS A0A0H1RCC2/320-424 DE Adenylyltransferase #=GS A0A0H1RCC2/320-424 DR GENE3D; 36c787e709d719f559508f79ed803b7f/320-424; #=GS A0A0H1RCC2/320-424 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Microvirga; Microvirga vignae; #=GS A0A0H1RCC2/320-424 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1L8CQT7/324-426 AC A0A1L8CQT7 #=GS A0A1L8CQT7/324-426 OS Mariprofundus micogutta #=GS A0A1L8CQT7/324-426 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1L8CQT7/324-426 DR GENE3D; 3705550162ec4a2b11a19a34aeb38540/324-426; #=GS A0A1L8CQT7/324-426 DR ORG; Bacteria; Proteobacteria; Zetaproteobacteria; Mariprofundales; Mariprofundaceae; Mariprofundus; Mariprofundus micogutta; #=GS A0A1L8CQT7/324-426 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0W1GCI7/332-435 AC A0A0W1GCI7 #=GS A0A0W1GCI7/332-435 OS Sphingopyxis sp. H071 #=GS A0A0W1GCI7/332-435 DE Adenylyltransferase #=GS A0A0W1GCI7/332-435 DR GENE3D; 3879d536e7584fc5a0ca1a4c16742abe/332-435; #=GS A0A0W1GCI7/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. H071; #=GS A0A0W1GCI7/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8F854/322-425 AC A0A0Q8F854 #=GS A0A0Q8F854/322-425 OS Pseudoxanthomonas sp. Root630 #=GS A0A0Q8F854/322-425 DE Adenylyltransferase #=GS A0A0Q8F854/322-425 DR GENE3D; 38804250207a08a59c98dd861ba487f0/322-425; #=GS A0A0Q8F854/322-425 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Pseudoxanthomonas; Pseudoxanthomonas sp. Root630; #=GS A0A0Q8F854/322-425 DR EC; 2.7.1.25; 2.7.7.4; #=GS F7YBB5/334-437 AC F7YBB5 #=GS F7YBB5/334-437 OS Mesorhizobium opportunistum WSM2075 #=GS F7YBB5/334-437 DE Sulfate adenylyltransferase, large subunit #=GS F7YBB5/334-437 DR GENE3D; 3969b5d58cdb483626a4de9ae49526b0/334-437; #=GS F7YBB5/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium opportunistum; #=GS F7YBB5/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F5L4K3/328-431 AC A0A0F5L4K3 #=GS A0A0F5L4K3/328-431 OS Devosia limi DSM 17137 #=GS A0A0F5L4K3/328-431 DE Adenylyltransferase #=GS A0A0F5L4K3/328-431 DR GENE3D; 398a6f4d29e25aa5bf70fd8b3d3c3181/328-431; #=GS A0A0F5L4K3/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia limi; #=GS A0A0F5L4K3/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D0LL92/355-458 AC A0A0D0LL92 #=GS A0A0D0LL92/355-458 OS Xanthomonas campestris #=GS A0A0D0LL92/355-458 DE Adenylyltransferase #=GS A0A0D0LL92/355-458 DR GENE3D; 3b81851f5b2501c4951e0c99a2b51ce0/355-458; #=GS A0A0D0LL92/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas campestris; #=GS A0A0D0LL92/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8M8G5/312-415 AC A0A0Q8M8G5 #=GS A0A0Q8M8G5/312-415 OS Rhodanobacter sp. Root179 #=GS A0A0Q8M8G5/312-415 DE Adenylyltransferase #=GS A0A0Q8M8G5/312-415 DR GENE3D; 3bebdd160b5066e4432fb78acfc5aa67/312-415; #=GS A0A0Q8M8G5/312-415 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Rhodanobacter; Rhodanobacter sp. Root179; #=GS A0A0Q8M8G5/312-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E3C273/328-431 AC A0A0E3C273 #=GS A0A0E3C273/328-431 OS Comamonas testosteroni #=GS A0A0E3C273/328-431 DE Adenylylsulfate kinase #=GS A0A0E3C273/328-431 DR GENE3D; 3cb97266e92e3cb71932641f8dc6acf3/328-431; #=GS A0A0E3C273/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas testosteroni; #=GS A0A0E3C273/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS D5BU28/326-430 AC D5BU28 #=GS D5BU28/326-430 OS Candidatus Puniceispirillum marinum IMCC1322 #=GS D5BU28/326-430 DE Binfunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS D5BU28/326-430 DR GENE3D; 3eaa6ba6b6ab078444d63f6d7b70ce10/326-430; #=GS D5BU28/326-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Candidatus Puniceispirillum; Candidatus Puniceispirillum marinum; #=GS D5BU28/326-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N0K3B8/339-442 AC A0A0N0K3B8 #=GS A0A0N0K3B8/339-442 OS alpha proteobacterium AAP81b #=GS A0A0N0K3B8/339-442 DE Adenylyltransferase #=GS A0A0N0K3B8/339-442 DR GENE3D; 3ed78bf56607b7535a3711539f31e262/339-442; #=GS A0A0N0K3B8/339-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; alpha proteobacterium AAP81b; #=GS A0A0N0K3B8/339-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R0EBZ2/325-428 AC A0A0R0EBZ2 #=GS A0A0R0EBZ2/325-428 OS Stenotrophomonas daejeonensis #=GS A0A0R0EBZ2/325-428 DE Adenylyltransferase #=GS A0A0R0EBZ2/325-428 DR GENE3D; 3f81cccfe038d60b27f8bc4f4504863e/325-428; #=GS A0A0R0EBZ2/325-428 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas daejeonensis; #=GS A0A0R0EBZ2/325-428 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0I9U8Z8/312-418 AC A0A0I9U8Z8 #=GS A0A0I9U8Z8/312-418 OS Mycobacterium haemophilum #=GS A0A0I9U8Z8/312-418 DE Adenylyltransferase #=GS A0A0I9U8Z8/312-418 DR GENE3D; 400c54dd4831b21839d360568fc3cdb8/312-418; #=GS A0A0I9U8Z8/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium haemophilum; #=GS A0A0I9U8Z8/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4U343/330-433 AC A0A0Q4U343 #=GS A0A0Q4U343/330-433 OS Sphingomonas sp. Leaf257 #=GS A0A0Q4U343/330-433 DE Adenylyltransferase #=GS A0A0Q4U343/330-433 DR GENE3D; 410d7b588c935c6d49701d4962ef804b/330-433; #=GS A0A0Q4U343/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf257; #=GS A0A0Q4U343/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A178Y3B9/327-430 AC A0A178Y3B9 #=GS A0A178Y3B9/327-430 OS Sinorhizobium saheli #=GS A0A178Y3B9/327-430 DE Adenylyltransferase #=GS A0A178Y3B9/327-430 DR GENE3D; 4126a44db8beb9df311d5b2c56d00520/327-430; #=GS A0A178Y3B9/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium saheli; #=GS A0A178Y3B9/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS B5WJ41/328-431 AC B5WJ41 #=GS B5WJ41/328-431 OS Burkholderia sp. H160 #=GS B5WJ41/328-431 DE Sulfate adenylyltransferase, large subunit #=GS B5WJ41/328-431 DR GENE3D; 41656eeca02c109569c1175fbfbab72b/328-431; #=GS B5WJ41/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. H160; #=GS B5WJ41/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D5M5H6/328-431 AC A0A0D5M5H6 #=GS A0A0D5M5H6/328-431 OS Halomonas sp. KO116 #=GS A0A0D5M5H6/328-431 DE Adenylyl-sulfate kinase #=GS A0A0D5M5H6/328-431 DR GENE3D; 417d4abb02cbe043e7f95d15e820958f/328-431; #=GS A0A0D5M5H6/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas sp. KO116; #=GS A0A0D5M5H6/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N2S9X6/334-437 AC A0A0N2S9X6 #=GS A0A0N2S9X6/334-437 OS Xanthomonas vasicola pv. vasculorum NCPPB 206 #=GS A0A0N2S9X6/334-437 DE Adenylyltransferase #=GS A0A0N2S9X6/334-437 DR GENE3D; 41a486e4de128e827d040e497c1a3f09/334-437; #=GS A0A0N2S9X6/334-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas vasicola; #=GS A0A0N2S9X6/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS M4MP11/327-430 AC M4MP11 #=GS M4MP11/327-430 OS Sinorhizobium meliloti 2011 #=GS M4MP11/327-430 DE NodQ1 ATP-sulfurylase large subunit-APS kinase #=GS M4MP11/327-430 DR GENE3D; 41efa7345285edcd7e05e71158501977/327-430; #=GS M4MP11/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; #=GS M4MP11/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q5GEJ1/355-458 AC A0A0Q5GEJ1 #=GS A0A0Q5GEJ1/355-458 OS Xanthomonas sp. Leaf131 #=GS A0A0Q5GEJ1/355-458 DE Adenylyltransferase #=GS A0A0Q5GEJ1/355-458 DR GENE3D; 422148eef177fbb4d8865f861edeb9ad/355-458; #=GS A0A0Q5GEJ1/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas sp. Leaf131; #=GS A0A0Q5GEJ1/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0C5VVM2/328-432 AC A0A0C5VVM2 #=GS A0A0C5VVM2/328-432 OS Gynuella sunshinyii YC6258 #=GS A0A0C5VVM2/328-432 DE GTPase-Sulfate adenylate transferase subunit 1 #=GS A0A0C5VVM2/328-432 DR GENE3D; 427e0f8007de1c0cb5617b6684daa98c/328-432; #=GS A0A0C5VVM2/328-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Saccharospirillaceae; Gynuella; Gynuella sunshinyii; #=GS A0A0C5VVM2/328-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS V7FDN3/330-434 AC V7FDN3 #=GS V7FDN3/330-434 OS Mesorhizobium sp. LSHC420B00 #=GS V7FDN3/330-434 DE Adenylylsulfate kinase #=GS V7FDN3/330-434 DR GENE3D; 438414ce475eca2e5b392de7c5c1ee9c/330-434; #=GS V7FDN3/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSHC420B00; #=GS V7FDN3/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q471N7/336-439 AC Q471N7 #=GS Q471N7/336-439 OS Ralstonia eutropha JMP134 #=GS Q471N7/336-439 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS Q471N7/336-439 DR GENE3D; 4502502934dffae3199dfe8f107c526d/336-439; #=GS Q471N7/336-439 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Cupriavidus; Cupriavidus pinatubonensis; #=GS Q471N7/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R0E805/325-428 AC A0A0R0E805 #=GS A0A0R0E805/325-428 OS Stenotrophomonas acidaminiphila #=GS A0A0R0E805/325-428 DE Adenylyltransferase #=GS A0A0R0E805/325-428 DR GENE3D; 451934d71bbd7dcb952d3f7559ebf4e2/325-428; #=GS A0A0R0E805/325-428 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas acidaminiphila; #=GS A0A0R0E805/325-428 DR EC; 2.7.1.25; 2.7.7.4; #=GS B8ELU5/330-434 AC B8ELU5 #=GS B8ELU5/330-434 OS Methylocella silvestris BL2 #=GS B8ELU5/330-434 DE Sulfate adenylyltransferase, large subunit #=GS B8ELU5/330-434 DR GENE3D; 4586cbbdf9fc2434e3408890bec705c8/330-434; #=GS B8ELU5/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Beijerinckiaceae; Methylocella; Methylocella silvestris; #=GS B8ELU5/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1C3TKN2/373-476 AC A0A1C3TKN2 #=GS A0A1C3TKN2/373-476 OS Xanthomonas translucens pv. translucens DSM 18974 #=GS A0A1C3TKN2/373-476 DE Sulfate adenylyltransferase subunit 1 / adenylyl-sulfate kinase #=GS A0A1C3TKN2/373-476 DR GENE3D; 467f09618d11509b74a5aa162c6049f0/373-476; #=GS A0A1C3TKN2/373-476 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas translucens; #=GS A0A1C3TKN2/373-476 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q9JP18/309-415 AC A0A0Q9JP18 #=GS A0A0Q9JP18/309-415 OS Mycobacterium sp. Soil538 #=GS A0A0Q9JP18/309-415 DE Adenylyltransferase #=GS A0A0Q9JP18/309-415 DR GENE3D; 4694c5badda340c0eaf4ab5a6d5fe292/309-415; #=GS A0A0Q9JP18/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. Soil538; #=GS A0A0Q9JP18/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A3F4G4/355-458 AC A0A0A3F4G4 #=GS A0A0A3F4G4/355-458 OS Xanthomonas vasicola #=GS A0A0A3F4G4/355-458 DE Adenylyltransferase #=GS A0A0A3F4G4/355-458 DR GENE3D; 46adabd687b0f1b19e1f8f206cc3881a/355-458; #=GS A0A0A3F4G4/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas vasicola; #=GS A0A0A3F4G4/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H0XQ96/338-441 AC A0A0H0XQ96 #=GS A0A0H0XQ96/338-441 OS Erythrobacter marinus #=GS A0A0H0XQ96/338-441 DE Adenylyltransferase #=GS A0A0H0XQ96/338-441 DR GENE3D; 470d00f981fc106dd152ea8773d9cf75/338-441; #=GS A0A0H0XQ96/338-441 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter marinus; #=GS A0A0H0XQ96/338-441 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A117V4H3/338-441 AC A0A117V4H3 #=GS A0A117V4H3/338-441 OS Novosphingobium sp. Fuku2-ISO-50 #=GS A0A117V4H3/338-441 DE Adenylyltransferase #=GS A0A117V4H3/338-441 DR GENE3D; 475ece960aae298a7a2fb41df38bf9c2/338-441; #=GS A0A117V4H3/338-441 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. Fuku2-ISO-50; #=GS A0A117V4H3/338-441 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P7CES8/328-431 AC A0A0P7CES8 #=GS A0A0P7CES8/328-431 OS Frankia sp. R43 #=GS A0A0P7CES8/328-431 DE Adenylyltransferase #=GS A0A0P7CES8/328-431 DR GENE3D; 479e53ac45ab4fc1b674d32557a1f9d4/328-431; #=GS A0A0P7CES8/328-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia sp. R43; #=GS A0A0P7CES8/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0J9FHN9/337-440 AC A0A0J9FHN9 #=GS A0A0J9FHN9/337-440 OS Sphingobium yanoikuyae #=GS A0A0J9FHN9/337-440 DE Adenylyltransferase #=GS A0A0J9FHN9/337-440 DR GENE3D; 47bbd8616a1ec625f799ec1ac47be03e/337-440; #=GS A0A0J9FHN9/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium yanoikuyae; #=GS A0A0J9FHN9/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS B6IP68/339-442 AC B6IP68 #=GS B6IP68/339-442 OS Rhodospirillum centenum SW #=GS B6IP68/339-442 DE Bifunctional enzyme cysN #=GS B6IP68/339-442 DR GENE3D; 47e4c0f68fa1db301a2d682172bba224/339-442; #=GS B6IP68/339-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Rhodospirillum; Rhodospirillum centenum; #=GS B6IP68/339-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q5YVB9/327-430 AC A0A0Q5YVB9 #=GS A0A0Q5YVB9/327-430 OS Bradyrhizobium sp. Leaf396 #=GS A0A0Q5YVB9/327-430 DE Adenylyltransferase #=GS A0A0Q5YVB9/327-430 DR GENE3D; 494b824557eed2f166444a01422b32aa/327-430; #=GS A0A0Q5YVB9/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. Leaf396; #=GS A0A0Q5YVB9/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M2R6V1/327-430 AC A0A0M2R6V1 #=GS A0A0M2R6V1/327-430 OS Kiloniella litopenaei #=GS A0A0M2R6V1/327-430 DE Adenylyltransferase #=GS A0A0M2R6V1/327-430 DR GENE3D; 49a6f29fa69f01cd0e3752140709682a/327-430; #=GS A0A0M2R6V1/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Kiloniellales; Kiloniellaceae; Kiloniella; Kiloniella litopenaei; #=GS A0A0M2R6V1/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A098FSR0/329-434 AC A0A098FSR0 #=GS A0A098FSR0/329-434 OS Pseudomonas xanthomarina #=GS A0A098FSR0/329-434 DE Bifunctional enzyme CysN/CysC #=GS A0A098FSR0/329-434 DR GENE3D; 4a28b945aedbbce4b798f76b88d0e4dd/329-434; #=GS A0A098FSR0/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas xanthomarina; #=GS A0A098FSR0/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS U3HEY9/329-434 AC U3HEY9 #=GS U3HEY9/329-434 OS Pseudomonas alcaligenes OT 69 #=GS U3HEY9/329-434 DE Adenylylsulfate kinase #=GS U3HEY9/329-434 DR GENE3D; 4a6ad136cdf01037ca5ef61e99c15c92/329-434; #=GS U3HEY9/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas alcaligenes; #=GS U3HEY9/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8MYK2/327-430 AC A0A0Q8MYK2 #=GS A0A0Q8MYK2/327-430 OS Phenylobacterium sp. Root700 #=GS A0A0Q8MYK2/327-430 DE Adenylyltransferase #=GS A0A0Q8MYK2/327-430 DR GENE3D; 4a88e636c619b41f70869fada89f17d8/327-430; #=GS A0A0Q8MYK2/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium sp. Root700; #=GS A0A0Q8MYK2/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7YTV4/340-443 AC A0A0Q7YTV4 #=GS A0A0Q7YTV4/340-443 OS Sphingopyxis sp. Root1497 #=GS A0A0Q7YTV4/340-443 DE Adenylyltransferase #=GS A0A0Q7YTV4/340-443 DR GENE3D; 4a9e9d3f8b68d8cca14f47490194c77f/340-443; #=GS A0A0Q7YTV4/340-443 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. Root1497; #=GS A0A0Q7YTV4/340-443 DR EC; 2.7.1.25; 2.7.7.4; #=GS G4I5G8/309-414 AC G4I5G8 #=GS G4I5G8/309-414 OS Mycobacterium rhodesiae JS60 #=GS G4I5G8/309-414 DE Adenylyl-sulfate kinase #=GS G4I5G8/309-414 DR GENE3D; 4aea611b7c6a79a80b38458e3526ed77/309-414; #=GS G4I5G8/309-414 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium rhodesiae; #=GS G4I5G8/309-414 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0U3A5V9/327-431 AC A0A0U3A5V9 #=GS A0A0U3A5V9/327-431 OS Rhodococcus erythropolis R138 #=GS A0A0U3A5V9/327-431 DE Adenylyltransferase #=GS A0A0U3A5V9/327-431 DR GENE3D; 4af07c63f39992eb44d60a1aacf6d98c/327-431; #=GS A0A0U3A5V9/327-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus erythropolis; #=GS A0A0U3A5V9/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E4A4A4/327-431 AC A0A0E4A4A4 #=GS A0A0E4A4A4/327-431 OS Rhodococcus erythropolis #=GS A0A0E4A4A4/327-431 DE Adenylyltransferase #=GS A0A0E4A4A4/327-431 DR GENE3D; 4af07c63f39992eb44d60a1aacf6d98c/327-431; #=GS A0A0E4A4A4/327-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus erythropolis; #=GS A0A0E4A4A4/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS V4P4M5/329-432 AC V4P4M5 #=GS V4P4M5/329-432 OS Asticcacaulis sp. AC460 #=GS V4P4M5/329-432 DE Adenylylsulfate kinase #=GS V4P4M5/329-432 DR GENE3D; 4b88877665e39fb22e013e8e0567b898/329-432; #=GS V4P4M5/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis sp. AC460; #=GS V4P4M5/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0S9NK70/327-430 AC A0A0S9NK70 #=GS A0A0S9NK70/327-430 OS Brevundimonas sp. Leaf280 #=GS A0A0S9NK70/327-430 DE Adenylyltransferase #=GS A0A0S9NK70/327-430 DR GENE3D; 4d3bcaddc02347d4afbe3f92889b219a/327-430; #=GS A0A0S9NK70/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. Leaf280; #=GS A0A0S9NK70/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N0E6D9/329-431 AC A0A0N0E6D9 #=GS A0A0N0E6D9/329-431 OS Ahrensia marina #=GS A0A0N0E6D9/329-431 DE Adenylyltransferase #=GS A0A0N0E6D9/329-431 DR GENE3D; 4e9afec0bcceb5f34e9786c283954568/329-431; #=GS A0A0N0E6D9/329-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ahrensia; Ahrensia marina; #=GS A0A0N0E6D9/329-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS H6SQR4/331-433 AC H6SQR4 #=GS H6SQR4/331-433 OS Pararhodospirillum photometricum DSM 122 #=GS H6SQR4/331-433 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS H6SQR4/331-433 DR GENE3D; 4f28e44570af20c06b81786a60830eb0/331-433; #=GS H6SQR4/331-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Pararhodospirillum; Pararhodospirillum photometricum; #=GS H6SQR4/331-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0S9CH76/333-436 AC A0A0S9CH76 #=GS A0A0S9CH76/333-436 OS Sphingomonas sp. Leaf231 #=GS A0A0S9CH76/333-436 DE Adenylyltransferase #=GS A0A0S9CH76/333-436 DR GENE3D; 4ff062430ad8ea6c3f6bb20531ae2b4e/333-436; #=GS A0A0S9CH76/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf231; #=GS A0A0S9CH76/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F3L9R5/327-430 AC A0A0F3L9R5 #=GS A0A0F3L9R5/327-430 OS Brevundimonas sp. KM4 #=GS A0A0F3L9R5/327-430 DE Adenylyltransferase #=GS A0A0F3L9R5/327-430 DR GENE3D; 506926cb6b34edbb1f29c9bf1f320e1e/327-430; #=GS A0A0F3L9R5/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. KM4; #=GS A0A0F3L9R5/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS E8RMR0/327-430 AC E8RMR0 #=GS E8RMR0/327-430 OS Asticcacaulis excentricus CB 48 #=GS E8RMR0/327-430 DE Sulfate adenylyltransferase, large subunit #=GS E8RMR0/327-430 DR GENE3D; 5093d0997c17776158dd8ea0556470fa/327-430; #=GS E8RMR0/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis excentricus; #=GS E8RMR0/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS W1S2F0/336-439 AC W1S2F0 #=GS W1S2F0/336-439 OS Sphingobium sp. C100 #=GS W1S2F0/336-439 DE Adenylylsulfate kinase #=GS W1S2F0/336-439 DR GENE3D; 50c95caff46e50f49b55d9a5227c5868/336-439; #=GS W1S2F0/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. C100; #=GS W1S2F0/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0B4X9F0/324-427 AC A0A0B4X9F0 #=GS A0A0B4X9F0/324-427 OS Rhizobium gallicum bv. gallicum R602 #=GS A0A0B4X9F0/324-427 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein NodQ #=GS A0A0B4X9F0/324-427 DR GENE3D; 513994a148d2b9dece673100955b508e/324-427; #=GS A0A0B4X9F0/324-427 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium gallicum; #=GS A0A0B4X9F0/324-427 DR EC; 2.7.1.25; 2.7.7.4; #=GS B2AIS0/337-440 AC B2AIS0 #=GS B2AIS0/337-440 OS Cupriavidus taiwanensis LMG 19424 #=GS B2AIS0/337-440 DE Bifunctional enzyme: ATP-sulfurylase large subunit (Sulfate adenylate transferase)(SAT) and Adenylyl-sulfate kinase (APS kinase) (ATP adenosine-5'-phosphosulfate 3'-phosphotransferase) #=GS B2AIS0/337-440 DR GENE3D; 5219f3c57e30d33df46493d01b72121d/337-440; #=GS B2AIS0/337-440 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Cupriavidus; Cupriavidus taiwanensis; #=GS B2AIS0/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P7C1T8/330-433 AC A0A0P7C1T8 #=GS A0A0P7C1T8/330-433 OS Frankia sp. R43 #=GS A0A0P7C1T8/330-433 DE Adenylyltransferase #=GS A0A0P7C1T8/330-433 DR GENE3D; 526f99513878e6bf9fb784580de3db45/330-433; #=GS A0A0P7C1T8/330-433 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia sp. R43; #=GS A0A0P7C1T8/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A4YYA8/317-421 AC A4YYA8 #=GS A4YYA8/317-421 OS Bradyrhizobium sp. ORS 278 #=GS A4YYA8/317-421 DE Putative CysN/CysC bifunctional enzyme: Sulfate adenylyltransferase (SAT) subunit 1 (N-terminal) Adenylyl-sulfate kinase (APS kinase)(C-terminal) #=GS A4YYA8/317-421 DR GENE3D; 532fd4911784041141104079538a6072/317-421; #=GS A4YYA8/317-421 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. ORS 278; #=GS A4YYA8/317-421 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0B2YCD3/312-418 AC A0A0B2YCD3 #=GS A0A0B2YCD3/312-418 OS Mycobacterium setense #=GS A0A0B2YCD3/312-418 DE Adenylyltransferase #=GS A0A0B2YCD3/312-418 DR GENE3D; 534dca34e879f09d85fc78664fedd244/312-418; #=GS A0A0B2YCD3/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium setense; #=GS A0A0B2YCD3/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4QJY5/325-428 AC A0A0Q4QJY5 #=GS A0A0Q4QJY5/325-428 OS Stenotrophomonas sp. Leaf70 #=GS A0A0Q4QJY5/325-428 DE Adenylyltransferase #=GS A0A0Q4QJY5/325-428 DR GENE3D; 53ec98ec4065d1e7a299ed79d89d1229/325-428; #=GS A0A0Q4QJY5/325-428 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas sp. Leaf70; #=GS A0A0Q4QJY5/325-428 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R2TRX1/334-438 AC A0A0R2TRX1 #=GS A0A0R2TRX1/334-438 OS Rhodobacter sp. BACL10 MAG-120910-bin24 #=GS A0A0R2TRX1/334-438 DE Adenylyltransferase #=GS A0A0R2TRX1/334-438 DR GENE3D; 5471f83720e44d8feb42206d2b08c519/334-438; #=GS A0A0R2TRX1/334-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sp. BACL10 MAG-120910-bin24; #=GS A0A0R2TRX1/334-438 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6P9G9/334-437 AC A0A0Q6P9G9 #=GS A0A0Q6P9G9/334-437 OS Mesorhizobium sp. Root102 #=GS A0A0Q6P9G9/334-437 DE Adenylyltransferase #=GS A0A0Q6P9G9/334-437 DR GENE3D; 54bd2ab6531700380dfb49deb2da943f/334-437; #=GS A0A0Q6P9G9/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. Root102; #=GS A0A0Q6P9G9/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A059EEF2/328-431 AC A0A059EEF2 #=GS A0A059EEF2/328-431 OS Hyphomonas sp. L-53-1-40 #=GS A0A059EEF2/328-431 DE Adenylylsulfate kinase #=GS A0A059EEF2/328-431 DR GENE3D; 54e820d2db7c83f320a1130248c855b9/328-431; #=GS A0A059EEF2/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas sp. L-53-1-40; #=GS A0A059EEF2/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS U1T425/329-434 AC U1T425 #=GS U1T425/329-434 OS Pseudomonas mendocina EGD-AQ5 #=GS U1T425/329-434 DE Adenylylsulfate kinase #=GS U1T425/329-434 DR GENE3D; 561c4c22e0be530047d60ba36521e369/329-434; #=GS U1T425/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas mendocina; #=GS U1T425/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F3G729/329-434 AC A0A0F3G729 #=GS A0A0F3G729/329-434 OS Pseudomonas pseudoalcaligenes #=GS A0A0F3G729/329-434 DE Adenylylsulfate kinase #=GS A0A0F3G729/329-434 DR GENE3D; 561c4c22e0be530047d60ba36521e369/329-434; #=GS A0A0F3G729/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas oleovorans/pseudoalcaligenes group; Pseudomonas pseudoalcaligenes; #=GS A0A0F3G729/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS B0T3J2/336-438 AC B0T3J2 #=GS B0T3J2/336-438 OS Caulobacter sp. K31 #=GS B0T3J2/336-438 DE Sulfate adenylyltransferase, large subunit #=GS B0T3J2/336-438 DR GENE3D; 564f05b3280305965f50caadf87a6130/336-438; #=GS B0T3J2/336-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter sp. K31; #=GS B0T3J2/336-438 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D6JKF7/334-437 AC A0A0D6JKF7 #=GS A0A0D6JKF7/334-437 OS Candidatus Filomicrobium marinum #=GS A0A0D6JKF7/334-437 DE Bifunctional enzyme NodQ #=GS A0A0D6JKF7/334-437 DR GENE3D; 5676c55af3e15df11f93b61ffa0efb11/334-437; #=GS A0A0D6JKF7/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Filomicrobium; Candidatus Filomicrobium marinum; #=GS A0A0D6JKF7/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A087M1S0/327-431 AC A0A087M1S0 #=GS A0A087M1S0/327-431 OS Devosia riboflavina #=GS A0A087M1S0/327-431 DE Adenylyltransferase #=GS A0A087M1S0/327-431 DR GENE3D; 57ebdd3b3533b1554b1eb418bedff0c5/327-431; #=GS A0A087M1S0/327-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia riboflavina; #=GS A0A087M1S0/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1B8SE14/312-418 AC A0A1B8SE14 #=GS A0A1B8SE14/312-418 OS Mycobacterium kumamotonense #=GS A0A1B8SE14/312-418 DE Adenylyltransferase #=GS A0A1B8SE14/312-418 DR GENE3D; 5823eb7dbd2473f475ca96f50b12da28/312-418; #=GS A0A1B8SE14/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium terrae complex; Mycobacterium kumamotonense; #=GS A0A1B8SE14/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS H0RYB9/326-429 AC H0RYB9 #=GS H0RYB9/326-429 OS Bradyrhizobium sp. ORS 285 #=GS H0RYB9/326-429 DE Bifunctional enzyme: Sulfate adenylyltransferase (SAT) subunit 1 (N-terminal) Adenylyl-sulfate kinase (APS kinase)(C-terminal)(NodQ/CysNC-like) #=GS H0RYB9/326-429 DR GENE3D; 58ee56ffe2d008ac8021fe8d8f58ba5a/326-429; #=GS H0RYB9/326-429 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. ORS 285; #=GS H0RYB9/326-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A173L030/336-439 AC A0A173L030 #=GS A0A173L030/336-439 OS Sphingobium sp. EP60837 #=GS A0A173L030/336-439 DE Sulfate adenylyltransferase #=GS A0A173L030/336-439 DR GENE3D; 58f34b8672cbbf35781e9ecb2950e2ca/336-439; #=GS A0A173L030/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. EP60837; #=GS A0A173L030/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0C5KWC2/331-434 AC A0A0C5KWC2 #=GS A0A0C5KWC2/331-434 OS Sphingomonas hengshuiensis #=GS A0A0C5KWC2/331-434 DE Adenylyltransferase #=GS A0A0C5KWC2/331-434 DR GENE3D; 5901212db80942b0d1e80bd3b8224ea3/331-434; #=GS A0A0C5KWC2/331-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas hengshuiensis; #=GS A0A0C5KWC2/331-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A150UEV1/326-429 AC A0A150UEV1 #=GS A0A150UEV1/326-429 OS Bradyrhizobium sp. AT1 #=GS A0A150UEV1/326-429 DE Adenylyltransferase #=GS A0A150UEV1/326-429 DR GENE3D; 59cd5c7e3c1caa68850a7a0e11b336e1/326-429; #=GS A0A150UEV1/326-429 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. AT1; #=GS A0A150UEV1/326-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1L3LF05/327-430 AC A0A1L3LF05 #=GS A0A1L3LF05/327-430 OS Sinorhizobium americanum CCGM7 #=GS A0A1L3LF05/327-430 DE Bifunctional enzyme NodQ #=GS A0A1L3LF05/327-430 DR GENE3D; 5a35bb2f94c0962478ef2395cc07d838/327-430; #=GS A0A1L3LF05/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium americanum; #=GS A0A1L3LF05/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A081MKQ4/327-430 AC A0A081MKQ4 #=GS A0A081MKQ4/327-430 OS Pseudorhizobium pelagicum #=GS A0A081MKQ4/327-430 DE Adenylyltransferase #=GS A0A081MKQ4/327-430 DR GENE3D; 5a5c6f8e4341e8e708ead5507eef373d/327-430; #=GS A0A081MKQ4/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Pseudorhizobium; Pseudorhizobium pelagicum; #=GS A0A081MKQ4/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A064CN77/309-415 AC A0A064CN77 #=GS A0A064CN77/309-415 OS Mycobacterium aromaticivorans JS19b1 = JCM 16368 #=GS A0A064CN77/309-415 DE Adenylyltransferase #=GS A0A064CN77/309-415 DR GENE3D; 5aa972a1d838acdac0377745779b44bc/309-415; #=GS A0A064CN77/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium aromaticivorans; #=GS A0A064CN77/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4CJS2/337-440 AC A0A0Q4CJS2 #=GS A0A0Q4CJS2/337-440 OS Sphingomonas sp. Leaf9 #=GS A0A0Q4CJS2/337-440 DE Adenylyltransferase #=GS A0A0Q4CJS2/337-440 DR GENE3D; 5bbde7252bc0b013a198132ff8ca8dd3/337-440; #=GS A0A0Q4CJS2/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf9; #=GS A0A0Q4CJS2/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0K0TV54/323-426 AC A0A0K0TV54 #=GS A0A0K0TV54/323-426 OS Devosia sp. H5989 #=GS A0A0K0TV54/323-426 DE Bifunctional enzyme CysN/CysC Sulfate adenylyltransferase subunit 1 #=GS A0A0K0TV54/323-426 DR GENE3D; 5bc75f68b662c155fd972c014c026eef/323-426; #=GS A0A0K0TV54/323-426 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. H5989; #=GS A0A0K0TV54/323-426 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1L3RLM5/320-424 AC A0A1L3RLM5 #=GS A0A1L3RLM5/320-424 OS Granulibacter bethesdensis #=GS A0A1L3RLM5/320-424 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1L3RLM5/320-424 DR GENE3D; 5c05fd4baf79986bf37116a3da180d53/320-424; #=GS A0A1L3RLM5/320-424 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Granulibacter; Granulibacter bethesdensis; #=GS A0A1L3RLM5/320-424 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q9P1K5/313-415 AC A0A0Q9P1K5 #=GS A0A0Q9P1K5/313-415 OS Rhodanobacter sp. Soil772 #=GS A0A0Q9P1K5/313-415 DE Adenylyltransferase #=GS A0A0Q9P1K5/313-415 DR GENE3D; 5c81717ab6248060f1de8b5de180e27b/313-415; #=GS A0A0Q9P1K5/313-415 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Rhodanobacter; Rhodanobacter sp. Soil772; #=GS A0A0Q9P1K5/313-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A098PXR5/334-437 AC A0A098PXR5 #=GS A0A098PXR5/334-437 OS Xanthomonas axonopodis pv. vasculorum #=GS A0A098PXR5/334-437 DE Adenylyltransferase #=GS A0A098PXR5/334-437 DR GENE3D; 5d0065f5ad45b48308c2755382cdcfdf/334-437; #=GS A0A098PXR5/334-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas axonopodis; #=GS A0A098PXR5/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0W0H776/329-432 AC A0A0W0H776 #=GS A0A0W0H776/329-432 OS Pseudomonas fluorescens ICMP 11288 #=GS A0A0W0H776/329-432 DE Adenylyltransferase #=GS A0A0W0H776/329-432 DR GENE3D; 5d867028a7c26bf4eac04f280cddd345/329-432; #=GS A0A0W0H776/329-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; #=GS A0A0W0H776/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6FQN3/330-434 AC X6FQN3 #=GS X6FQN3/330-434 OS Mesorhizobium sp. L48C026A00 #=GS X6FQN3/330-434 DE Adenylylsulfate kinase #=GS X6FQN3/330-434 DR GENE3D; 5e15b573f057ca59c25afa5bde6edd61/330-434; #=GS X6FQN3/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L48C026A00; #=GS X6FQN3/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A0ES88/327-430 AC A0A0A0ES88 #=GS A0A0A0ES88/327-430 OS Lysobacter arseniciresistens ZS79 #=GS A0A0A0ES88/327-430 DE Adenylyltransferase #=GS A0A0A0ES88/327-430 DR GENE3D; 5ec11c6b97c02255ba896fd15546aa62/327-430; #=GS A0A0A0ES88/327-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter arseniciresistens; #=GS A0A0A0ES88/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A125PWA3/373-476 AC A0A125PWA3 #=GS A0A125PWA3/373-476 OS Xanthomonas translucens #=GS A0A125PWA3/373-476 DE Adenylyltransferase #=GS A0A125PWA3/373-476 DR GENE3D; 5f77baa79251a941f34ec04c8976bc6b/373-476; #=GS A0A125PWA3/373-476 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas translucens; #=GS A0A125PWA3/373-476 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6H409/330-434 AC X6H409 #=GS X6H409/330-434 OS Mesorhizobium sp. L2C067A000 #=GS X6H409/330-434 DE Adenylylsulfate kinase #=GS X6H409/330-434 DR GENE3D; 5ffe70f48386b7ca87e45d621a2d5bc9/330-434; #=GS X6H409/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L2C067A000; #=GS X6H409/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6KKE7/330-434 AC X6KKE7 #=GS X6KKE7/330-434 OS Mesorhizobium sp. L103C105A0 #=GS X6KKE7/330-434 DE Adenylylsulfate kinase #=GS X6KKE7/330-434 DR GENE3D; 5ffe70f48386b7ca87e45d621a2d5bc9/330-434; #=GS X6KKE7/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L103C105A0; #=GS X6KKE7/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6JH27/330-434 AC X6JH27 #=GS X6JH27/330-434 OS Mesorhizobium sp. L103C131B0 #=GS X6JH27/330-434 DE Adenylylsulfate kinase #=GS X6JH27/330-434 DR GENE3D; 5ffe70f48386b7ca87e45d621a2d5bc9/330-434; #=GS X6JH27/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L103C131B0; #=GS X6JH27/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS V7GAE5/330-434 AC V7GAE5 #=GS V7GAE5/330-434 OS Mesorhizobium sp. LNJC394B00 #=GS V7GAE5/330-434 DE Adenylylsulfate kinase #=GS V7GAE5/330-434 DR GENE3D; 5ffe70f48386b7ca87e45d621a2d5bc9/330-434; #=GS V7GAE5/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNJC394B00; #=GS V7GAE5/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS V7ETW5/330-434 AC V7ETW5 #=GS V7ETW5/330-434 OS Mesorhizobium sp. LSJC264A00 #=GS V7ETW5/330-434 DE Adenylylsulfate kinase #=GS V7ETW5/330-434 DR GENE3D; 5ffe70f48386b7ca87e45d621a2d5bc9/330-434; #=GS V7ETW5/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSJC264A00; #=GS V7ETW5/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5P5D8/330-434 AC X5P5D8 #=GS X5P5D8/330-434 OS Mesorhizobium sp. LSJC277A00 #=GS X5P5D8/330-434 DE Adenylylsulfate kinase #=GS X5P5D8/330-434 DR GENE3D; 5ffe70f48386b7ca87e45d621a2d5bc9/330-434; #=GS X5P5D8/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSJC277A00; #=GS X5P5D8/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6ADL0/330-434 AC X6ADL0 #=GS X6ADL0/330-434 OS Mesorhizobium sp. LNJC386A00 #=GS X6ADL0/330-434 DE Adenylylsulfate kinase #=GS X6ADL0/330-434 DR GENE3D; 5ffe70f48386b7ca87e45d621a2d5bc9/330-434; #=GS X6ADL0/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNJC386A00; #=GS X6ADL0/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1A5IA65/330-435 AC A0A1A5IA65 #=GS A0A1A5IA65/330-435 OS Mesorhizobium loti #=GS A0A1A5IA65/330-435 DE Adenylyl-sulfate kinase #=GS A0A1A5IA65/330-435 DR GENE3D; 604d9d460f8020c0d292ba874e606ad6/330-435; #=GS A0A1A5IA65/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium loti; #=GS A0A1A5IA65/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS W9E5K0/330-435 AC W9E5K0 #=GS W9E5K0/330-435 OS Mesorhizobium loti R7A #=GS W9E5K0/330-435 DE Sulfate adenylyltransferase subunit 1 #=GS W9E5K0/330-435 DR GENE3D; 604d9d460f8020c0d292ba874e606ad6/330-435; #=GS W9E5K0/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium loti; #=GS W9E5K0/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q985Q4/330-435 AC Q985Q4 #=GS Q985Q4/330-435 OS Mesorhizobium loti MAFF303099 #=GS Q985Q4/330-435 DE Nodulation protein NodQ, sulfate adenylate transferase, subunit 1 #=GS Q985Q4/330-435 DR GENE3D; 604d9d460f8020c0d292ba874e606ad6/330-435; #=GS Q985Q4/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium loti; #=GS Q985Q4/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A2SSC3/332-435 AC A0A0A2SSC3 #=GS A0A0A2SSC3/332-435 OS Legionella norrlandica #=GS A0A0A2SSC3/332-435 DE Adenylyltransferase #=GS A0A0A2SSC3/332-435 DR GENE3D; 60623b1025baba09578b835c7b1fb4ee/332-435; #=GS A0A0A2SSC3/332-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Legionellales; Legionellaceae; Legionella; Legionella norrlandica; #=GS A0A0A2SSC3/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A6UI80/327-430 AC A6UI80 #=GS A6UI80/327-430 OS Sinorhizobium medicae WSM419 #=GS A6UI80/327-430 DE Sulfate adenylyltransferase, large subunit #=GS A6UI80/327-430 DR GENE3D; 60ca0498b2cb1c9deae71957f877671d/327-430; #=GS A6UI80/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium medicae; #=GS A6UI80/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS E3IVF7/328-431 AC E3IVF7 #=GS E3IVF7/328-431 OS Frankia inefficax #=GS E3IVF7/328-431 DE Sulfate adenylyltransferase, large subunit #=GS E3IVF7/328-431 DR GENE3D; 615d67855c38eca7490adef3d66673ae/328-431; #=GS E3IVF7/328-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia inefficax; #=GS E3IVF7/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0J6LRU7/332-435 AC A0A0J6LRU7 #=GS A0A0J6LRU7/332-435 OS Burkholderia sp. LK4 #=GS A0A0J6LRU7/332-435 DE Adenylyltransferase #=GS A0A0J6LRU7/332-435 DR GENE3D; 61c70e8bdc21c5c0c3e2945b84206b59/332-435; #=GS A0A0J6LRU7/332-435 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. LK4; #=GS A0A0J6LRU7/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0J5T1C3/332-435 AC A0A0J5T1C3 #=GS A0A0J5T1C3/332-435 OS Burkholderia lata #=GS A0A0J5T1C3/332-435 DE Adenylyltransferase #=GS A0A0J5T1C3/332-435 DR GENE3D; 61c70e8bdc21c5c0c3e2945b84206b59/332-435; #=GS A0A0J5T1C3/332-435 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia lata; #=GS A0A0J5T1C3/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS B5EPY5/308-410 AC B5EPY5 #=GS B5EPY5/308-410 OS Acidithiobacillus ferrooxidans ATCC 53993 #=GS B5EPY5/308-410 DE Sulfate adenylyltransferase, large subunit #=GS B5EPY5/308-410 DR GENE3D; 62cc6743b6bd81e53c274cd220171cc4/308-410; #=GS B5EPY5/308-410 DR ORG; Bacteria; Proteobacteria; Acidithiobacillia; Acidithiobacillales; Acidithiobacillaceae; Acidithiobacillus; Acidithiobacillus ferrooxidans; #=GS B5EPY5/308-410 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A021X7I1/328-431 AC A0A021X7I1 #=GS A0A021X7I1/328-431 OS Shinella sp. DD12 #=GS A0A021X7I1/328-431 DE Bifunctional enzyme NodQ #=GS A0A021X7I1/328-431 DR GENE3D; 631441d5c887b8139565de6f76081343/328-431; #=GS A0A021X7I1/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Shinella; Shinella sp. DD12; #=GS A0A021X7I1/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A081N721/327-430 AC A0A081N721 #=GS A0A081N721/327-430 OS Endozoicomonas montiporae #=GS A0A081N721/327-430 DE Adenylyltransferase #=GS A0A081N721/327-430 DR GENE3D; 6340b91612bc040f89932762551a3d5b/327-430; #=GS A0A081N721/327-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Hahellaceae; Endozoicomonas; Endozoicomonas montiporae; #=GS A0A081N721/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A142BB15/327-430 AC A0A142BB15 #=GS A0A142BB15/327-430 OS Endozoicomonas montiporae CL-33 #=GS A0A142BB15/327-430 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase #=GS A0A142BB15/327-430 DR GENE3D; 6340b91612bc040f89932762551a3d5b/327-430; #=GS A0A142BB15/327-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Hahellaceae; Endozoicomonas; Endozoicomonas montiporae; #=GS A0A142BB15/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F5FTZ1/332-435 AC A0A0F5FTZ1 #=GS A0A0F5FTZ1/332-435 OS Devosia geojensis #=GS A0A0F5FTZ1/332-435 DE Adenylyltransferase #=GS A0A0F5FTZ1/332-435 DR GENE3D; 639384970d41a880e96c02cb12d13f14/332-435; #=GS A0A0F5FTZ1/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia geojensis; #=GS A0A0F5FTZ1/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H2MI75/327-430 AC A0A0H2MI75 #=GS A0A0H2MI75/327-430 OS Kiloniella spongiae #=GS A0A0H2MI75/327-430 DE Adenylyltransferase #=GS A0A0H2MI75/327-430 DR GENE3D; 6428125a9d1f9ef5279b92723cf7a1fe/327-430; #=GS A0A0H2MI75/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Kiloniellales; Kiloniellaceae; Kiloniella; Kiloniella spongiae; #=GS A0A0H2MI75/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8B9S1/330-434 AC A0A0Q8B9S1 #=GS A0A0Q8B9S1/330-434 OS Mesorhizobium sp. Root157 #=GS A0A0Q8B9S1/330-434 DE Adenylyltransferase #=GS A0A0Q8B9S1/330-434 DR GENE3D; 644ec7ab6c2f14b46ea248d4c654513b/330-434; #=GS A0A0Q8B9S1/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. Root157; #=GS A0A0Q8B9S1/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1B9VMF3/327-431 AC A0A1B9VMF3 #=GS A0A1B9VMF3/327-431 OS Thalassospira sp. KO164 #=GS A0A1B9VMF3/327-431 DE Adenylyl-sulfate kinase #=GS A0A1B9VMF3/327-431 DR GENE3D; 64ae63574acf1783e12dfb98fe065ac3/327-431; #=GS A0A1B9VMF3/327-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira sp. KO164; #=GS A0A1B9VMF3/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6EUE2/326-429 AC A0A0Q6EUE2 #=GS A0A0Q6EUE2/326-429 OS Aurantimonas sp. Leaf443 #=GS A0A0Q6EUE2/326-429 DE Adenylyltransferase #=GS A0A0Q6EUE2/326-429 DR GENE3D; 64c40f105b073da0358a5673727a8c5b/326-429; #=GS A0A0Q6EUE2/326-429 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Aurantimonas; Aurantimonas sp. Leaf443; #=GS A0A0Q6EUE2/326-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS C4ZNJ4/328-431 AC C4ZNJ4 #=GS C4ZNJ4/328-431 OS Thauera sp. MZ1T #=GS C4ZNJ4/328-431 DE Sulfate adenylyltransferase, large subunit #=GS C4ZNJ4/328-431 DR GENE3D; 64ec3abb401804a848a47a5c1ef0f4a7/328-431; #=GS C4ZNJ4/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Thauera; Thauera sp. MZ1T; #=GS C4ZNJ4/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS G2E3D6/324-427 AC G2E3D6 #=GS G2E3D6/324-427 OS Thiorhodococcus drewsii AZ1 #=GS G2E3D6/324-427 DE Sulfate adenylyltransferase subunit 1 #=GS G2E3D6/324-427 DR GENE3D; 660ff2cbe3ddb7d262a1c0861a402c0a/324-427; #=GS G2E3D6/324-427 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thiorhodococcus; Thiorhodococcus drewsii; #=GS G2E3D6/324-427 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A090GDG3/330-434 AC A0A090GDG3 #=GS A0A090GDG3/330-434 OS Mesorhizobium plurifarium #=GS A0A090GDG3/330-434 DE Bifunctional enzyme NodQ #=GS A0A090GDG3/330-434 DR GENE3D; 662fe17253d283285c30a0a8c8d7e079/330-434; #=GS A0A090GDG3/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium plurifarium; #=GS A0A090GDG3/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS W6WPI0/329-432 AC W6WPI0 #=GS W6WPI0/329-432 OS Rhizobium sp. CF080 #=GS W6WPI0/329-432 DE Adenylyl-sulfate kinase #=GS W6WPI0/329-432 DR GENE3D; 66a33b4cb7f105694b35403a2992eff1/329-432; #=GS W6WPI0/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. CF080; #=GS W6WPI0/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS W6M4Z0/327-432 AC W6M4Z0 #=GS W6M4Z0/327-432 OS Candidatus Competibacter denitrificans Run_A_D11 #=GS W6M4Z0/327-432 DE Bifunctional enzyme nodQ #=GS W6M4Z0/327-432 DR GENE3D; 67349675f6b9df2682f0d85f22efafc7/327-432; #=GS W6M4Z0/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Competibacteraceae; Candidatus Competibacter; Candidatus Competibacter denitrificans; #=GS W6M4Z0/327-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A022LBA7/341-448 AC A0A022LBA7 #=GS A0A022LBA7/341-448 OS Dietzia sp. UCD-THP #=GS A0A022LBA7/341-448 DE Adenylyltransferase #=GS A0A022LBA7/341-448 DR GENE3D; 676743a9fd66cfb5710f9081fe7490b6/341-448; #=GS A0A022LBA7/341-448 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Dietziaceae; Dietzia; Dietzia sp. UCD-THP; #=GS A0A022LBA7/341-448 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q2QE86/309-415 AC A0A0Q2QE86 #=GS A0A0Q2QE86/309-415 OS Mycobacterium gordonae #=GS A0A0Q2QE86/309-415 DE Adenylyltransferase #=GS A0A0Q2QE86/309-415 DR GENE3D; 67857ae7bdd8f42282e203197783a94c/309-415; #=GS A0A0Q2QE86/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium gordonae; #=GS A0A0Q2QE86/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS V4Q3V1/334-437 AC V4Q3V1 #=GS V4Q3V1/334-437 OS Asticcacaulis sp. AC402 #=GS V4Q3V1/334-437 DE Adenylylsulfate kinase #=GS V4Q3V1/334-437 DR GENE3D; 68ac197eff4384790eb6114959f2469d/334-437; #=GS V4Q3V1/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis sp. AC402; #=GS V4Q3V1/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1J1EAB2/368-471 AC A0A1J1EAB2 #=GS A0A1J1EAB2/368-471 OS Lysobacter enzymogenes #=GS A0A1J1EAB2/368-471 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS A0A1J1EAB2/368-471 DR GENE3D; 69089851c4b80222be48af6b3e4b2895/368-471; #=GS A0A1J1EAB2/368-471 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter enzymogenes; #=GS A0A1J1EAB2/368-471 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M2LSH3/339-442 AC A0A0M2LSH3 #=GS A0A0M2LSH3/339-442 OS Sphingomonas sp. Ag1 #=GS A0A0M2LSH3/339-442 DE Adenylyltransferase #=GS A0A0M2LSH3/339-442 DR GENE3D; 690ebc32f22f9fd420be09d6bb00fa8c/339-442; #=GS A0A0M2LSH3/339-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Ag1; #=GS A0A0M2LSH3/339-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS D5VG28/328-431 AC D5VG28 #=GS D5VG28/328-431 OS Caulobacter segnis ATCC 21756 #=GS D5VG28/328-431 DE Sulfate adenylyltransferase, large subunit #=GS D5VG28/328-431 DR GENE3D; 69d8f3df6e1cae4824327541f93ac754/328-431; #=GS D5VG28/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter segnis; #=GS D5VG28/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0C3IN63/328-431 AC A0A0C3IN63 #=GS A0A0C3IN63/328-431 OS Halomonas sp. KHS3 #=GS A0A0C3IN63/328-431 DE Adenylyltransferase #=GS A0A0C3IN63/328-431 DR GENE3D; 69d9923085e0f4bf26a73345e4523017/328-431; #=GS A0A0C3IN63/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas sp. KHS3; #=GS A0A0C3IN63/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M2K2Q0/312-418 AC A0A0M2K2Q0 #=GS A0A0M2K2Q0/312-418 OS Mycobacterium obuense #=GS A0A0M2K2Q0/312-418 DE Adenylyltransferase #=GS A0A0M2K2Q0/312-418 DR GENE3D; 6bed6ab5b1776379ab169b5cf401bd0e/312-418; #=GS A0A0M2K2Q0/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium obuense; #=GS A0A0M2K2Q0/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6V5P4/328-430 AC A0A0Q6V5P4 #=GS A0A0Q6V5P4/328-430 OS Caulobacter sp. Root343 #=GS A0A0Q6V5P4/328-430 DE Adenylyltransferase #=GS A0A0Q6V5P4/328-430 DR GENE3D; 6c1bb7012b0e42d24f77c3c97c9c463a/328-430; #=GS A0A0Q6V5P4/328-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter sp. Root343; #=GS A0A0Q6V5P4/328-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6U1Y9/328-430 AC A0A0Q6U1Y9 #=GS A0A0Q6U1Y9/328-430 OS Caulobacter sp. Root342 #=GS A0A0Q6U1Y9/328-430 DE Adenylyltransferase #=GS A0A0Q6U1Y9/328-430 DR GENE3D; 6c1bb7012b0e42d24f77c3c97c9c463a/328-430; #=GS A0A0Q6U1Y9/328-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter sp. Root342; #=GS A0A0Q6U1Y9/328-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q2YP45/329-432 AC Q2YP45 #=GS Q2YP45/329-432 OS Brucella abortus 2308 #=GS Q2YP45/329-432 DE Shikimate kinase:Uridine kinase:Elongation factor, GTP-binding:ATP/GTP-binding site motif A (P-loop):Adenylylsulfate kinase:E #=GS Q2YP45/329-432 DR GENE3D; 6c695c2df6aeb915b228e52e5691bc69/329-432; #=GS Q2YP45/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS Q2YP45/329-432 DR EC; 1.2.99.5; 2.7.7.4; #=GS D7H1A7/329-432 AC D7H1A7 #=GS D7H1A7/329-432 OS Brucella abortus bv. 5 str. B3196 #=GS D7H1A7/329-432 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase #=GS D7H1A7/329-432 DR GENE3D; 6c695c2df6aeb915b228e52e5691bc69/329-432; #=GS D7H1A7/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS D7H1A7/329-432 DR EC; 1.2.99.5; 2.7.7.4; #=GS A0A0M1WCW2/329-432 AC A0A0M1WCW2 #=GS A0A0M1WCW2/329-432 OS Brucella abortus NCTC 8038 #=GS A0A0M1WCW2/329-432 DE Sulfate adenylyltransferase #=GS A0A0M1WCW2/329-432 DR GENE3D; 6c695c2df6aeb915b228e52e5691bc69/329-432; #=GS A0A0M1WCW2/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS A0A0M1WCW2/329-432 DR EC; 1.2.99.5; 2.7.7.4; #=GS A0A0F6ANU5/329-432 AC A0A0F6ANU5 #=GS A0A0F6ANU5/329-432 OS Brucella abortus S19 #=GS A0A0F6ANU5/329-432 DE Binfunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS A0A0F6ANU5/329-432 DR GENE3D; 6c695c2df6aeb915b228e52e5691bc69/329-432; #=GS A0A0F6ANU5/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS A0A0F6ANU5/329-432 DR EC; 1.2.99.5; 2.7.7.4; #=GS C4IR31/329-432 AC C4IR31 #=GS C4IR31/329-432 OS Brucella abortus str. 2308 A #=GS C4IR31/329-432 DE Sulfate adenylyltransferase, large subunit #=GS C4IR31/329-432 DR GENE3D; 6c695c2df6aeb915b228e52e5691bc69/329-432; #=GS C4IR31/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; #=GS C4IR31/329-432 DR EC; 1.2.99.5; 2.7.7.4; #=GS A0A060I820/321-424 AC A0A060I820 #=GS A0A060I820/321-424 OS Rhizobium etli bv. mimosae str. IE4771 #=GS A0A060I820/321-424 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase #=GS A0A060I820/321-424 DR GENE3D; 6d1004193cc133328767e3a1849a76c3/321-424; #=GS A0A060I820/321-424 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium etli; #=GS A0A060I820/321-424 DR EC; 2.7.1.25; 2.7.7.4; #=GS W1NDD3/328-431 AC W1NDD3 #=GS W1NDD3/328-431 OS Halomonas huangheensis #=GS W1NDD3/328-431 DE Adenylylsulfate kinase #=GS W1NDD3/328-431 DR GENE3D; 6d3f26e6240897c4f4310f60ab31999d/328-431; #=GS W1NDD3/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas huangheensis; #=GS W1NDD3/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7E928/330-433 AC A0A0Q7E928 #=GS A0A0Q7E928/330-433 OS Devosia sp. Root413D1 #=GS A0A0Q7E928/330-433 DE Adenylyltransferase #=GS A0A0Q7E928/330-433 DR GENE3D; 6e2a4f09d94ea90846b62d1fb57e41d9/330-433; #=GS A0A0Q7E928/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. Root413D1; #=GS A0A0Q7E928/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D1CIX3/337-441 AC A0A0D1CIX3 #=GS A0A0D1CIX3/337-441 OS Novosphingobium sp. P6W #=GS A0A0D1CIX3/337-441 DE Scaffold3, whole genome shotgun sequence #=GS A0A0D1CIX3/337-441 DR GENE3D; 703d895798b0ce16c08e10e60863ae3f/337-441; #=GS A0A0D1CIX3/337-441 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. P6W; #=GS A0A0D1CIX3/337-441 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A090GK91/330-434 AC A0A090GK91 #=GS A0A090GK91/330-434 OS Mesorhizobium sp. ORS3359 #=GS A0A090GK91/330-434 DE Bifunctional enzyme NodQ #=GS A0A090GK91/330-434 DR GENE3D; 708ea3d8e2412c3a2e0e08761fea9148/330-434; #=GS A0A090GK91/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. ORS3359; #=GS A0A090GK91/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q5RHJ8/337-440 AC A0A0Q5RHJ8 #=GS A0A0Q5RHJ8/337-440 OS Sphingomonas sp. Leaf357 #=GS A0A0Q5RHJ8/337-440 DE Adenylyltransferase #=GS A0A0Q5RHJ8/337-440 DR GENE3D; 717e591f67e66f83327dd68b21793556/337-440; #=GS A0A0Q5RHJ8/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf357; #=GS A0A0Q5RHJ8/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0G3XDR0/335-443 AC A0A0G3XDR0 #=GS A0A0G3XDR0/335-443 OS Croceicoccus naphthovorans #=GS A0A0G3XDR0/335-443 DE Adenylyltransferase #=GS A0A0G3XDR0/335-443 DR GENE3D; 71c3a8091139bac730092d3624f04824/335-443; #=GS A0A0G3XDR0/335-443 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Croceicoccus; Croceicoccus naphthovorans; #=GS A0A0G3XDR0/335-443 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P7CHQ0/330-433 AC A0A0P7CHQ0 #=GS A0A0P7CHQ0/330-433 OS Frankia sp. R43 #=GS A0A0P7CHQ0/330-433 DE Adenylyltransferase #=GS A0A0P7CHQ0/330-433 DR GENE3D; 71e075b738df482f39f587f3a555898f/330-433; #=GS A0A0P7CHQ0/330-433 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia sp. R43; #=GS A0A0P7CHQ0/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D1MQ43/309-415 AC A0A0D1MQ43 #=GS A0A0D1MQ43/309-415 OS Mycobacterium bovis #=GS A0A0D1MQ43/309-415 DE Bifunctional enzyme CysN/CysC #=GS A0A0D1MQ43/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS A0A0D1MQ43/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium bovis; #=GS A0A0D1MQ43/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS P9WNM4/309-415 AC P9WNM4 #=GS P9WNM4/309-415 OS Mycobacterium tuberculosis CDC1551 #=GS P9WNM4/309-415 DE Bifunctional enzyme CysN/CysC #=GS P9WNM4/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS P9WNM4/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium tuberculosis; #=GS P9WNM4/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0K2HUS7/309-415 AC A0A0K2HUS7 #=GS A0A0K2HUS7/309-415 OS Mycobacterium bovis BCG #=GS A0A0K2HUS7/309-415 DE Bifunctional sulfate adenyltransferase subunit 1 CysN/adenylylsulfate kinase CysC #=GS A0A0K2HUS7/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS A0A0K2HUS7/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium bovis; #=GS A0A0K2HUS7/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H3M3J7/309-415 AC A0A0H3M3J7 #=GS A0A0H3M3J7/309-415 OS Mycobacterium bovis BCG str. Pasteur 1173P2 #=GS A0A0H3M3J7/309-415 DE Probable bifunctional enzyme cysN/cysC: sulfate adenyltransferase (Subunit 1) + adenylylsulfate kinase #=GS A0A0H3M3J7/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS A0A0H3M3J7/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium bovis; #=GS A0A0H3M3J7/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H3L7Z3/309-415 AC A0A0H3L7Z3 #=GS A0A0H3L7Z3/309-415 OS Mycobacterium tuberculosis str. Erdman = ATCC 35801 #=GS A0A0H3L7Z3/309-415 DE Bifunctional sulfate adenylyltransferasesubunit 1/adenylylsulfate kinase protein #=GS A0A0H3L7Z3/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS A0A0H3L7Z3/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium tuberculosis; #=GS A0A0H3L7Z3/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A197J1Y8/309-415 AC A0A197J1Y8 #=GS A0A197J1Y8/309-415 OS Mycobacterium mungi #=GS A0A197J1Y8/309-415 DE Adenylyl-sulfate kinase #=GS A0A197J1Y8/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS A0A197J1Y8/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium mungi; #=GS A0A197J1Y8/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A109SMK3/309-415 AC A0A109SMK3 #=GS A0A109SMK3/309-415 OS Mycobacterium microti #=GS A0A109SMK3/309-415 DE Bifunctional sulfate adenyltransferase subunit 1 CysN/adenylylsulfate kinase CysC #=GS A0A109SMK3/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS A0A109SMK3/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium microti; #=GS A0A109SMK3/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0G4DYF6/309-415 AC A0A0G4DYF6 #=GS A0A0G4DYF6/309-415 OS Mycobacterium caprae #=GS A0A0G4DYF6/309-415 DE Bifunctional enzyme CysN/CysC #=GS A0A0G4DYF6/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS A0A0G4DYF6/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium caprae; #=GS A0A0G4DYF6/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS G0THW3/309-415 AC G0THW3 #=GS G0THW3/309-415 OS Mycobacterium canettii CIPT 140010059 #=GS G0THW3/309-415 DE Putative bifunctional enzyme CYSN/CYSC: sulfate adenyltransferase (Subunit 1) + adenylylsulfate kinase #=GS G0THW3/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS G0THW3/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium canettii; #=GS G0THW3/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A5U1Y4/309-415 AC A5U1Y4 #=GS A5U1Y4/309-415 OS Mycobacterium tuberculosis H37Ra #=GS A5U1Y4/309-415 DE Binfunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS A5U1Y4/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS A5U1Y4/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium tuberculosis; #=GS A5U1Y4/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A045JVI2/309-415 AC A0A045JVI2 #=GS A0A045JVI2/309-415 OS Mycobacterium tuberculosis #=GS A0A045JVI2/309-415 DE Adenylyl-sulfate kinase #=GS A0A045JVI2/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS A0A045JVI2/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium tuberculosis; #=GS A0A045JVI2/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS M8CP05/309-415 AC M8CP05 #=GS M8CP05/309-415 OS Mycobacterium orygis 112400015 #=GS M8CP05/309-415 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS M8CP05/309-415 DR GENE3D; 74372879da8711fd92c9331a7528c50e/309-415; #=GS M8CP05/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium orygis; #=GS M8CP05/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4JCI8/336-439 AC A0A0Q4JCI8 #=GS A0A0Q4JCI8/336-439 OS Sphingomonas sp. Leaf28 #=GS A0A0Q4JCI8/336-439 DE Adenylyltransferase #=GS A0A0Q4JCI8/336-439 DR GENE3D; 744a5cd7d53cf8f11e665dd93614f88a/336-439; #=GS A0A0Q4JCI8/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf28; #=GS A0A0Q4JCI8/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS P52978/326-429 AC P52978 #=GS P52978/326-429 OS Rhizobium tropici #=GS P52978/326-429 DE Bifunctional enzyme NodQ #=GS P52978/326-429 DR GENE3D; 7571a54e3eab86c804442a8f78a0016e/326-429; #=GS P52978/326-429 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium tropici; #=GS P52978/326-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS I2AWL6/326-429 AC I2AWL6 #=GS I2AWL6/326-429 OS Rhizobium tropici #=GS I2AWL6/326-429 DE NodQ #=GS I2AWL6/326-429 DR GENE3D; 7571a54e3eab86c804442a8f78a0016e/326-429; #=GS I2AWL6/326-429 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium tropici; #=GS I2AWL6/326-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0B2BX37/337-440 AC A0A0B2BX37 #=GS A0A0B2BX37/337-440 OS Porphyrobacter mercurialis #=GS A0A0B2BX37/337-440 DE Adenylyltransferase #=GS A0A0B2BX37/337-440 DR GENE3D; 759eb5ed649d45ed6211e5d054cc1224/337-440; #=GS A0A0B2BX37/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Porphyrobacter; Porphyrobacter mercurialis; #=GS A0A0B2BX37/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0J7Y6S8/337-441 AC A0A0J7Y6S8 #=GS A0A0J7Y6S8/337-441 OS Novosphingobium barchaimii LL02 #=GS A0A0J7Y6S8/337-441 DE Adenylylsulfate kinase #=GS A0A0J7Y6S8/337-441 DR GENE3D; 762ac9a0ded303327f040b769741f1f6/337-441; #=GS A0A0J7Y6S8/337-441 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium barchaimii; #=GS A0A0J7Y6S8/337-441 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4FH59/330-434 AC A0A0Q4FH59 #=GS A0A0Q4FH59/330-434 OS Sphingomonas sp. Leaf17 #=GS A0A0Q4FH59/330-434 DE Adenylyltransferase #=GS A0A0Q4FH59/330-434 DR GENE3D; 76929e8ca285d4bfd97e19398d65d52b/330-434; #=GS A0A0Q4FH59/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf17; #=GS A0A0Q4FH59/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0G3WMZ5/334-437 AC A0A0G3WMZ5 #=GS A0A0G3WMZ5/334-437 OS Burkholderia pyrrocinia #=GS A0A0G3WMZ5/334-437 DE Adenylyltransferase #=GS A0A0G3WMZ5/334-437 DR GENE3D; 76eee47cc4406f945225ee398d6d4878/334-437; #=GS A0A0G3WMZ5/334-437 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia pyrrocinia; #=GS A0A0G3WMZ5/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6DVA9/330-435 AC X6DVA9 #=GS X6DVA9/330-435 OS Mesorhizobium sp. LNHC220B00 #=GS X6DVA9/330-435 DE Adenylylsulfate kinase #=GS X6DVA9/330-435 DR GENE3D; 7736c10a381c52771146233d0f68fb53/330-435; #=GS X6DVA9/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNHC220B00; #=GS X6DVA9/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0K2VW69/330-434 AC A0A0K2VW69 #=GS A0A0K2VW69/330-434 OS Mesorhizobium plurifarium #=GS A0A0K2VW69/330-434 DE Bifunctional enzyme NodQ #=GS A0A0K2VW69/330-434 DR GENE3D; 780353a5e4ff321c6a0450551b42ce1c/330-434; #=GS A0A0K2VW69/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium plurifarium; #=GS A0A0K2VW69/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A125MMQ6/346-449 AC A0A125MMQ6 #=GS A0A125MMQ6/346-449 OS Lysobacter capsici AZ78 #=GS A0A125MMQ6/346-449 DE Sulfate adenylyltransferase subunit 1 #=GS A0A125MMQ6/346-449 DR GENE3D; 784094054145af7b6a343156ae6f2b96/346-449; #=GS A0A125MMQ6/346-449 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter capsici; #=GS A0A125MMQ6/346-449 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A199Y4H6/327-431 AC A0A199Y4H6 #=GS A0A199Y4H6/327-431 OS Thalassospira profundimaris #=GS A0A199Y4H6/327-431 DE Adenylyltransferase #=GS A0A199Y4H6/327-431 DR GENE3D; 799205584d533af82e4d249c5daaa8ae/327-431; #=GS A0A199Y4H6/327-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira profundimaris; #=GS A0A199Y4H6/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A127R8Y9/312-418 AC A0A127R8Y9 #=GS A0A127R8Y9/312-418 OS Mycobacterium simiae #=GS A0A127R8Y9/312-418 DE Adenylyltransferase #=GS A0A127R8Y9/312-418 DR GENE3D; 7a5ad8531ee7e22f198e10e4955ece3c/312-418; #=GS A0A127R8Y9/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium simiae; #=GS A0A127R8Y9/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N1BVB2/309-413 AC A0A0N1BVB2 #=GS A0A0N1BVB2/309-413 OS alpha proteobacterium AAP38 #=GS A0A0N1BVB2/309-413 DE Adenylyltransferase #=GS A0A0N1BVB2/309-413 DR GENE3D; 7ac801ea1649e7b1df218c5caf8785a9/309-413; #=GS A0A0N1BVB2/309-413 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; alpha proteobacterium AAP38; #=GS A0A0N1BVB2/309-413 DR EC; 2.7.1.25; 2.7.7.4; #=GS M5FJZ0/330-434 AC M5FJZ0 #=GS M5FJZ0/330-434 OS Mesorhizobium sp. STM 4661 #=GS M5FJZ0/330-434 DE Bifunctional enzyme nodQ #=GS M5FJZ0/330-434 DR GENE3D; 7b53d573494d573a08bc9b2ba709bf3a/330-434; #=GS M5FJZ0/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. STM 4661; #=GS M5FJZ0/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A8LG97/328-431 AC A8LG97 #=GS A8LG97/328-431 OS Frankia sp. EAN1pec #=GS A8LG97/328-431 DE Sulfate adenylyltransferase, large subunit #=GS A8LG97/328-431 DR GENE3D; 7b9588d59a3ec9248cfab5b1dd7d7e9c/328-431; #=GS A8LG97/328-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia sp. EAN1pec; #=GS A8LG97/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H2ZGI7/329-434 AC A0A0H2ZGI7 #=GS A0A0H2ZGI7/329-434 OS Pseudomonas aeruginosa UCBPP-PA14 #=GS A0A0H2ZGI7/329-434 DE ATP sulfurylase GTP-binding subunit/APS kinase #=GS A0A0H2ZGI7/329-434 DR GENE3D; 7badec72a6e63768a19bbf88e9729e38/329-434; #=GS A0A0H2ZGI7/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0H2ZGI7/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E1B3F6/329-434 AC A0A0E1B3F6 #=GS A0A0E1B3F6/329-434 OS Pseudomonas aeruginosa MTB-1 #=GS A0A0E1B3F6/329-434 DE Adenylylsulfate kinase #=GS A0A0E1B3F6/329-434 DR GENE3D; 7badec72a6e63768a19bbf88e9729e38/329-434; #=GS A0A0E1B3F6/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0E1B3F6/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A157V259/329-434 AC A0A157V259 #=GS A0A157V259/329-434 OS Enterobacter cloacae #=GS A0A157V259/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A157V259/329-434 DR GENE3D; 7badec72a6e63768a19bbf88e9729e38/329-434; #=GS A0A157V259/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; #=GS A0A157V259/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0C6F156/329-434 AC A0A0C6F156 #=GS A0A0C6F156/329-434 OS Pseudomonas aeruginosa #=GS A0A0C6F156/329-434 DE Adenylylsulfate kinase #=GS A0A0C6F156/329-434 DR GENE3D; 7badec72a6e63768a19bbf88e9729e38/329-434; #=GS A0A0C6F156/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS A0A0C6F156/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS W1MND5/329-434 AC W1MND5 #=GS W1MND5/329-434 OS Pseudomonas aeruginosa VRFPA03 #=GS W1MND5/329-434 DE Adenylylsulfate kinase #=GS W1MND5/329-434 DR GENE3D; 7badec72a6e63768a19bbf88e9729e38/329-434; #=GS W1MND5/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; #=GS W1MND5/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1D5BRD3/329-434 AC A0A1D5BRD3 #=GS A0A1D5BRD3/329-434 OS Pseudomonas sp. P179 #=GS A0A1D5BRD3/329-434 DE Bifunctional enzyme CysN/CysC #=GS A0A1D5BRD3/329-434 DR GENE3D; 7badec72a6e63768a19bbf88e9729e38/329-434; #=GS A0A1D5BRD3/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. P179; #=GS A0A1D5BRD3/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6C3T4/330-434 AC X6C3T4 #=GS X6C3T4/330-434 OS Mesorhizobium sp. LNJC372A00 #=GS X6C3T4/330-434 DE Adenylylsulfate kinase #=GS X6C3T4/330-434 DR GENE3D; 7c600970925894ba8b294c2f59f2a9ce/330-434; #=GS X6C3T4/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNJC372A00; #=GS X6C3T4/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS V7HL51/330-434 AC V7HL51 #=GS V7HL51/330-434 OS Mesorhizobium sp. L103C120A0 #=GS V7HL51/330-434 DE Adenylylsulfate kinase #=GS V7HL51/330-434 DR GENE3D; 7c600970925894ba8b294c2f59f2a9ce/330-434; #=GS V7HL51/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L103C120A0; #=GS V7HL51/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5RUG9/330-434 AC X5RUG9 #=GS X5RUG9/330-434 OS Mesorhizobium sp. LSJC265A00 #=GS X5RUG9/330-434 DE Adenylylsulfate kinase #=GS X5RUG9/330-434 DR GENE3D; 7c600970925894ba8b294c2f59f2a9ce/330-434; #=GS X5RUG9/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSJC265A00; #=GS X5RUG9/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6FU92/330-434 AC X6FU92 #=GS X6FU92/330-434 OS Mesorhizobium sp. L2C085B000 #=GS X6FU92/330-434 DE Adenylylsulfate kinase #=GS X6FU92/330-434 DR GENE3D; 7c600970925894ba8b294c2f59f2a9ce/330-434; #=GS X6FU92/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L2C085B000; #=GS X6FU92/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6JJE6/330-434 AC X6JJE6 #=GS X6JJE6/330-434 OS Mesorhizobium sp. L103C119B0 #=GS X6JJE6/330-434 DE Adenylylsulfate kinase #=GS X6JJE6/330-434 DR GENE3D; 7c600970925894ba8b294c2f59f2a9ce/330-434; #=GS X6JJE6/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L103C119B0; #=GS X6JJE6/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5XBF4/330-434 AC X5XBF4 #=GS X5XBF4/330-434 OS Mesorhizobium sp. LNJC405B00 #=GS X5XBF4/330-434 DE Adenylylsulfate kinase #=GS X5XBF4/330-434 DR GENE3D; 7c600970925894ba8b294c2f59f2a9ce/330-434; #=GS X5XBF4/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNJC405B00; #=GS X5XBF4/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5YRY7/330-434 AC X5YRY7 #=GS X5YRY7/330-434 OS Mesorhizobium sp. LNJC399B00 #=GS X5YRY7/330-434 DE Adenylylsulfate kinase #=GS X5YRY7/330-434 DR GENE3D; 7c600970925894ba8b294c2f59f2a9ce/330-434; #=GS X5YRY7/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNJC399B00; #=GS X5YRY7/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6I1J4/330-434 AC X6I1J4 #=GS X6I1J4/330-434 OS Mesorhizobium sp. L2C066B000 #=GS X6I1J4/330-434 DE Adenylylsulfate kinase #=GS X6I1J4/330-434 DR GENE3D; 7c600970925894ba8b294c2f59f2a9ce/330-434; #=GS X6I1J4/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L2C066B000; #=GS X6I1J4/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5PWV6/330-434 AC X5PWV6 #=GS X5PWV6/330-434 OS Mesorhizobium sp. LSJC285A00 #=GS X5PWV6/330-434 DE Adenylylsulfate kinase #=GS X5PWV6/330-434 DR GENE3D; 7c600970925894ba8b294c2f59f2a9ce/330-434; #=GS X5PWV6/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSJC285A00; #=GS X5PWV6/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6J3G4/330-434 AC X6J3G4 #=GS X6J3G4/330-434 OS Mesorhizobium sp. L2C054A000 #=GS X6J3G4/330-434 DE Adenylylsulfate kinase #=GS X6J3G4/330-434 DR GENE3D; 7c600970925894ba8b294c2f59f2a9ce/330-434; #=GS X6J3G4/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L2C054A000; #=GS X6J3G4/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS W0E4M2/330-433 AC W0E4M2 #=GS W0E4M2/330-433 OS Marichromatium purpuratum 984 #=GS W0E4M2/330-433 DE Adenylylsulfate kinase #=GS W0E4M2/330-433 DR GENE3D; 7cbcbafa7ee0f6618f7d3e645be7057e/330-433; #=GS W0E4M2/330-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Marichromatium; Marichromatium purpuratum; #=GS W0E4M2/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A8E069/361-464 AC A0A0A8E069 #=GS A0A0A8E069/361-464 OS Xanthomonas sacchari #=GS A0A0A8E069/361-464 DE Adenylyltransferase #=GS A0A0A8E069/361-464 DR GENE3D; 7cc688563a8d9277d4aa8a0695667f92/361-464; #=GS A0A0A8E069/361-464 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas sacchari; #=GS A0A0A8E069/361-464 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0U5E4Q3/333-436 AC A0A0U5E4Q3 #=GS A0A0U5E4Q3/333-436 OS Thiocapsa sp. KS1 #=GS A0A0U5E4Q3/333-436 DE CysN/CysC bifunctional enzyme: Sulphate adenylyltransferase, large subunit and Adenylyl-sulfate kinase #=GS A0A0U5E4Q3/333-436 DR GENE3D; 7cefb851af308a36cf72fd043de4fccf/333-436; #=GS A0A0U5E4Q3/333-436 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Thiocapsa; Thiocapsa sp. KS1; #=GS A0A0U5E4Q3/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A066PQN9/314-418 AC A0A066PQN9 #=GS A0A066PQN9/314-418 OS Acidiphilium sp. JA12-A1 #=GS A0A066PQN9/314-418 DE Bifunctional enzyme NodQ #=GS A0A066PQN9/314-418 DR GENE3D; 7d33e58f065b6c67a509eb11b26d2bea/314-418; #=GS A0A066PQN9/314-418 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acidiphilium; Acidiphilium sp. JA12-A1; #=GS A0A066PQN9/314-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS F7S3I0/314-418 AC F7S3I0 #=GS F7S3I0/314-418 OS Acidiphilium sp. PM #=GS F7S3I0/314-418 DE Bifunctional enzyme nodQ #=GS F7S3I0/314-418 DR GENE3D; 7d33e58f065b6c67a509eb11b26d2bea/314-418; #=GS F7S3I0/314-418 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acidiphilium; Acidiphilium sp. PM; #=GS F7S3I0/314-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS F0IY52/314-418 AC F0IY52 #=GS F0IY52/314-418 OS Acidiphilium multivorum AIU301 #=GS F0IY52/314-418 DE Sulfate adenylyltransferase subunit 1/adenylylsulfate kinase #=GS F0IY52/314-418 DR GENE3D; 7d33e58f065b6c67a509eb11b26d2bea/314-418; #=GS F0IY52/314-418 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acidiphilium; Acidiphilium multivorum; #=GS F0IY52/314-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS W6KBQ6/327-430 AC W6KBQ6 #=GS W6KBQ6/327-430 OS Magnetospira sp. QH-2 #=GS W6KBQ6/327-430 DE Putative CysN/CysC(Nod Q) bifunctional enzyme: Sulfate adenylyltransferase (SAT) subunit 1 (N-terminal) Adenylyl-sulfate kinase (APS kinase)(C-terminal) #=GS W6KBQ6/327-430 DR GENE3D; 7d67aa7df21e1ea8c8978260816b0bd7/327-430; #=GS W6KBQ6/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetospira; Magnetospira sp. QH-2; #=GS W6KBQ6/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R2WLS0/334-438 AC A0A0R2WLS0 #=GS A0A0R2WLS0/334-438 OS Rhodobacter sp. BACL10 MAG-120419-bin15 #=GS A0A0R2WLS0/334-438 DE Adenylyltransferase #=GS A0A0R2WLS0/334-438 DR GENE3D; 7dbaff0713642dd55df50ed0c96d9c4a/334-438; #=GS A0A0R2WLS0/334-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sp. BACL10 MAG-120419-bin15; #=GS A0A0R2WLS0/334-438 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R0ARF8/325-428 AC A0A0R0ARF8 #=GS A0A0R0ARF8/325-428 OS Stenotrophomonas maltophilia #=GS A0A0R0ARF8/325-428 DE Adenylyltransferase #=GS A0A0R0ARF8/325-428 DR GENE3D; 7e3a99ef6a8142b210c8ff9ee3e52a4d/325-428; #=GS A0A0R0ARF8/325-428 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas maltophilia; #=GS A0A0R0ARF8/325-428 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8QBK9/339-441 AC A0A0Q8QBK9 #=GS A0A0Q8QBK9/339-441 OS Duganella sp. Root198D2 #=GS A0A0Q8QBK9/339-441 DE Adenylyltransferase #=GS A0A0Q8QBK9/339-441 DR GENE3D; 7eadbe637fee22ab992b24101bd6ca99/339-441; #=GS A0A0Q8QBK9/339-441 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Duganella; Duganella sp. Root198D2; #=GS A0A0Q8QBK9/339-441 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q3RHG2/356-459 AC Q3RHG2 #=GS Q3RHG2/356-459 OS Xylella fastidiosa Dixon #=GS Q3RHG2/356-459 DE Adenylylsulfate kinase #=GS Q3RHG2/356-459 DR GENE3D; 7ed22109a74c4f5945e90789dd2fdd5c/356-459; #=GS Q3RHG2/356-459 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xylella; Xylella fastidiosa; #=GS Q3RHG2/356-459 DR EC; 2.7.1.25; 2.7.7.4; #=GS V4RIN6/322-427 AC V4RIN6 #=GS V4RIN6/322-427 OS Lutibaculum baratangense AMV1 #=GS V4RIN6/322-427 DE Sulfate adenylyltransferase subunit 1 #=GS V4RIN6/322-427 DR GENE3D; 80a1cbd1ea2293a727e210687eff3c92/322-427; #=GS V4RIN6/322-427 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhodobiaceae; Lutibaculum; Lutibaculum baratangense; #=GS V4RIN6/322-427 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q5V2U6/327-430 AC A0A0Q5V2U6 #=GS A0A0Q5V2U6/327-430 OS Brevundimonas sp. Leaf363 #=GS A0A0Q5V2U6/327-430 DE Adenylyltransferase #=GS A0A0Q5V2U6/327-430 DR GENE3D; 80b3e324b716eefb26b3d2df31af9a30/327-430; #=GS A0A0Q5V2U6/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. Leaf363; #=GS A0A0Q5V2U6/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4Q039/333-436 AC A0A0Q4Q039 #=GS A0A0Q4Q039/333-436 OS Sphingomonas sp. Leaf67 #=GS A0A0Q4Q039/333-436 DE Adenylyltransferase #=GS A0A0Q4Q039/333-436 DR GENE3D; 80caf2c5fecd51fc189581857b8b2d83/333-436; #=GS A0A0Q4Q039/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf67; #=GS A0A0Q4Q039/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A062UFE6/328-431 AC A0A062UFE6 #=GS A0A062UFE6/328-431 OS Hyphomonas beringensis #=GS A0A062UFE6/328-431 DE Adenylylsulfate kinase #=GS A0A062UFE6/328-431 DR GENE3D; 822c01cdf406ce24575c723103f5f91b/328-431; #=GS A0A062UFE6/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas beringensis; #=GS A0A062UFE6/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0T1W3X9/309-414 AC A0A0T1W3X9 #=GS A0A0T1W3X9/309-414 OS Mycobacterium sp. Root135 #=GS A0A0T1W3X9/309-414 DE Adenylyltransferase #=GS A0A0T1W3X9/309-414 DR GENE3D; 83dbfd399f9403adb454f9118783367b/309-414; #=GS A0A0T1W3X9/309-414 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. Root135; #=GS A0A0T1W3X9/309-414 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8QKN7/336-440 AC A0A0Q8QKN7 #=GS A0A0Q8QKN7/336-440 OS Sphingomonas sp. Root710 #=GS A0A0Q8QKN7/336-440 DE Adenylyltransferase #=GS A0A0Q8QKN7/336-440 DR GENE3D; 83ecf835a1a24f34993f9de5c9496e44/336-440; #=GS A0A0Q8QKN7/336-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Root710; #=GS A0A0Q8QKN7/336-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q5UQW0/336-439 AC A0A0Q5UQW0 #=GS A0A0Q5UQW0/336-439 OS Sphingomonas sp. Leaf198 #=GS A0A0Q5UQW0/336-439 DE Adenylyltransferase #=GS A0A0Q5UQW0/336-439 DR GENE3D; 83fdb1d734c3738cefb61eebefe7b50b/336-439; #=GS A0A0Q5UQW0/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf198; #=GS A0A0Q5UQW0/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS U4M050/355-458 AC U4M050 #=GS U4M050/355-458 OS Xanthomonas fuscans subsp. fuscans #=GS U4M050/355-458 DE Adenylyltransferase #=GS U4M050/355-458 DR GENE3D; 8455e88df07269364c2ba0f07fe67a34/355-458; #=GS U4M050/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas citri group; Xanthomonas fuscans; Xanthomonas fuscans subsp. fuscans; #=GS U4M050/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R3MBY4/319-424 AC A0A0R3MBY4 #=GS A0A0R3MBY4/319-424 OS Bradyrhizobium lablabi #=GS A0A0R3MBY4/319-424 DE Adenylyltransferase #=GS A0A0R3MBY4/319-424 DR GENE3D; 8508167e0f9e2bd57377db3d8640c9c7/319-424; #=GS A0A0R3MBY4/319-424 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium lablabi; #=GS A0A0R3MBY4/319-424 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0T6ZAU0/327-430 AC A0A0T6ZAU0 #=GS A0A0T6ZAU0/327-430 OS Sinorhizobium fredii USDA 205 #=GS A0A0T6ZAU0/327-430 DE Adenylylsulfate kinase #=GS A0A0T6ZAU0/327-430 DR GENE3D; 8593a7006fb1f2413a8182e8915ded97/327-430; #=GS A0A0T6ZAU0/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium fredii; #=GS A0A0T6ZAU0/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS E3J7U8/330-433 AC E3J7U8 #=GS E3J7U8/330-433 OS Frankia inefficax #=GS E3J7U8/330-433 DE Sulfate adenylyltransferase, large subunit #=GS E3J7U8/330-433 DR GENE3D; 85eb8c1afb0d9ba0eea361986e576a02/330-433; #=GS E3J7U8/330-433 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia inefficax; #=GS E3J7U8/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M3CVH2/328-431 AC A0A0M3CVH2 #=GS A0A0M3CVH2/328-431 OS Pseudomonas putida #=GS A0A0M3CVH2/328-431 DE Adenylyltransferase #=GS A0A0M3CVH2/328-431 DR GENE3D; 8633b6c0d9360e8dd6c1aed2d5ee6803/328-431; #=GS A0A0M3CVH2/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; #=GS A0A0M3CVH2/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0T2MNT4/323-426 AC A0A0T2MNT4 #=GS A0A0T2MNT4/323-426 OS Devosia sp. Root635 #=GS A0A0T2MNT4/323-426 DE Adenylyltransferase #=GS A0A0T2MNT4/323-426 DR GENE3D; 86394a64aee4d60c6a115c5cdaa70f16/323-426; #=GS A0A0T2MNT4/323-426 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. Root635; #=GS A0A0T2MNT4/323-426 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6EQD7/330-435 AC X6EQD7 #=GS X6EQD7/330-435 OS Mesorhizobium sp. LNHC209A00 #=GS X6EQD7/330-435 DE Adenylylsulfate kinase #=GS X6EQD7/330-435 DR GENE3D; 870fd905c15274c643660ae7a1fc233e/330-435; #=GS X6EQD7/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNHC209A00; #=GS X6EQD7/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS C4WH09/329-432 AC C4WH09 #=GS C4WH09/329-432 OS Ochrobactrum intermedium LMG 3301 #=GS C4WH09/329-432 DE Sulfate adenylyltransferase, large subunit #=GS C4WH09/329-432 DR GENE3D; 87a08f0e282d495936a044926c2d3adc/329-432; #=GS C4WH09/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Ochrobactrum; Ochrobactrum intermedium; #=GS C4WH09/329-432 DR EC; 1.2.99.5; 2.7.7.4; #=GS M5JRE3/329-432 AC M5JRE3 #=GS M5JRE3/329-432 OS Ochrobactrum intermedium M86 #=GS M5JRE3/329-432 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS M5JRE3/329-432 DR GENE3D; 87a08f0e282d495936a044926c2d3adc/329-432; #=GS M5JRE3/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Ochrobactrum; Ochrobactrum intermedium; #=GS M5JRE3/329-432 DR EC; 1.2.99.5; 2.7.7.4; #=GS U4VCF8/329-432 AC U4VCF8 #=GS U4VCF8/329-432 OS Ochrobactrum intermedium 229E #=GS U4VCF8/329-432 DE Adenylylsulfate kinase #=GS U4VCF8/329-432 DR GENE3D; 87a08f0e282d495936a044926c2d3adc/329-432; #=GS U4VCF8/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Ochrobactrum; Ochrobactrum intermedium; #=GS U4VCF8/329-432 DR EC; 1.2.99.5; 2.7.7.4; #=GS U7GM89/329-433 AC U7GM89 #=GS U7GM89/329-433 OS Labrenzia sp. C1B10 #=GS U7GM89/329-433 DE Adenylylsulfate kinase #=GS U7GM89/329-433 DR GENE3D; 87b65f545b81f1cd9cad8b18074730a8/329-433; #=GS U7GM89/329-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia sp. C1B10; #=GS U7GM89/329-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6SPI1/324-427 AC A0A0Q6SPI1 #=GS A0A0Q6SPI1/324-427 OS Rhizobium sp. Root1204 #=GS A0A0Q6SPI1/324-427 DE Adenylyltransferase #=GS A0A0Q6SPI1/324-427 DR GENE3D; 87c7e0b394983dd49a268d1e2ba871c7/324-427; #=GS A0A0Q6SPI1/324-427 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Root1204; #=GS A0A0Q6SPI1/324-427 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F5MZ26/312-418 AC A0A0F5MZ26 #=GS A0A0F5MZ26/312-418 OS Mycobacterium arupense #=GS A0A0F5MZ26/312-418 DE Adenylyltransferase #=GS A0A0F5MZ26/312-418 DR GENE3D; 87f41dbfb2131796ff3c10b19ad87f4a/312-418; #=GS A0A0F5MZ26/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium terrae complex; Mycobacterium arupense; #=GS A0A0F5MZ26/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A147J873/330-433 AC A0A147J873 #=GS A0A147J873/330-433 OS Sphingomonas sanguinis #=GS A0A147J873/330-433 DE Adenylyltransferase #=GS A0A147J873/330-433 DR GENE3D; 87f9988da4fc7bac9e1c290a24d5bc5a/330-433; #=GS A0A147J873/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sanguinis; #=GS A0A147J873/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q0H5C1/334-437 AC A0A0Q0H5C1 #=GS A0A0Q0H5C1/334-437 OS Xanthomonas phaseoli pv. dieffenbachiae #=GS A0A0Q0H5C1/334-437 DE Adenylyltransferase #=GS A0A0Q0H5C1/334-437 DR GENE3D; 87fbeae844b19aed81e18826cfa4a008/334-437; #=GS A0A0Q0H5C1/334-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas phaseoli; #=GS A0A0Q0H5C1/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M1MNC9/355-458 AC A0A0M1MNC9 #=GS A0A0M1MNC9/355-458 OS Xanthomonas campestris #=GS A0A0M1MNC9/355-458 DE Adenylyltransferase #=GS A0A0M1MNC9/355-458 DR GENE3D; 88f5d481c3a11eca660a8d98380e2bb7/355-458; #=GS A0A0M1MNC9/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas campestris; #=GS A0A0M1MNC9/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A147IYV2/330-433 AC A0A147IYV2 #=GS A0A147IYV2/330-433 OS Sphingomonas yabuuchiae #=GS A0A147IYV2/330-433 DE Adenylyltransferase #=GS A0A147IYV2/330-433 DR GENE3D; 893886e795f8f432a491d2882b67244e/330-433; #=GS A0A147IYV2/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas yabuuchiae; #=GS A0A147IYV2/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS B1FGT4/332-435 AC B1FGT4 #=GS B1FGT4/332-435 OS Burkholderia ambifaria IOP40-10 #=GS B1FGT4/332-435 DE Sulfate adenylyltransferase, large subunit #=GS B1FGT4/332-435 DR GENE3D; 8a40c4359de8b163de7f76afd255e304/332-435; #=GS B1FGT4/332-435 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia ambifaria; #=GS B1FGT4/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A147I3L7/330-433 AC A0A147I3L7 #=GS A0A147I3L7/330-433 OS Sphingomonas sanguinis #=GS A0A147I3L7/330-433 DE Adenylyltransferase #=GS A0A147I3L7/330-433 DR GENE3D; 8a6bfa5b83060e60639dcd8933b8ff5c/330-433; #=GS A0A147I3L7/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sanguinis; #=GS A0A147I3L7/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0G3IZV1/309-415 AC A0A0G3IZV1 #=GS A0A0G3IZV1/309-415 OS Mycobacterium sp. EPa45 #=GS A0A0G3IZV1/309-415 DE Adenylyltransferase #=GS A0A0G3IZV1/309-415 DR GENE3D; 8b2a405204ad642ea73ddb5c02c89fe1/309-415; #=GS A0A0G3IZV1/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. EPa45; #=GS A0A0G3IZV1/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS E3JDA8/330-433 AC E3JDA8 #=GS E3JDA8/330-433 OS Frankia inefficax #=GS E3JDA8/330-433 DE Sulfate adenylyltransferase, large subunit #=GS E3JDA8/330-433 DR GENE3D; 8b46a27a1758bef0289d3a79ee5f5ea9/330-433; #=GS E3JDA8/330-433 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia inefficax; #=GS E3JDA8/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4IAI2/333-436 AC A0A0Q4IAI2 #=GS A0A0Q4IAI2/333-436 OS Sphingomonas sp. Leaf22 #=GS A0A0Q4IAI2/333-436 DE Adenylyltransferase #=GS A0A0Q4IAI2/333-436 DR GENE3D; 8c1f0ba064a18093457323e167c4348b/333-436; #=GS A0A0Q4IAI2/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf22; #=GS A0A0Q4IAI2/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q5M3B5/327-430 AC A0A0Q5M3B5 #=GS A0A0Q5M3B5/327-430 OS Brevundimonas sp. Leaf168 #=GS A0A0Q5M3B5/327-430 DE Adenylyltransferase #=GS A0A0Q5M3B5/327-430 DR GENE3D; 8c62f7876d324b91e368d228ec82041e/327-430; #=GS A0A0Q5M3B5/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. Leaf168; #=GS A0A0Q5M3B5/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0B2XT79/312-418 AC A0A0B2XT79 #=GS A0A0B2XT79/312-418 OS Mycobacterium setense #=GS A0A0B2XT79/312-418 DE Adenylyltransferase #=GS A0A0B2XT79/312-418 DR GENE3D; 8ca9874e46637dd5a6f8e5b2e3bd849f/312-418; #=GS A0A0B2XT79/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium setense; #=GS A0A0B2XT79/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0G3Z0R5/335-438 AC A0A0G3Z0R5 #=GS A0A0G3Z0R5/335-438 OS Burkholderia contaminans #=GS A0A0G3Z0R5/335-438 DE Adenylyltransferase #=GS A0A0G3Z0R5/335-438 DR GENE3D; 8caeba35e18cf02fe73a024a360809bb/335-438; #=GS A0A0G3Z0R5/335-438 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia contaminans; #=GS A0A0G3Z0R5/335-438 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R3DRM8/318-422 AC A0A0R3DRM8 #=GS A0A0R3DRM8/318-422 OS Bradyrhizobium manausense #=GS A0A0R3DRM8/318-422 DE Adenylyltransferase #=GS A0A0R3DRM8/318-422 DR GENE3D; 8d30eceb546f240698f31c15e3589679/318-422; #=GS A0A0R3DRM8/318-422 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium manausense; #=GS A0A0R3DRM8/318-422 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7ILH4/327-430 AC A0A0Q7ILH4 #=GS A0A0Q7ILH4/327-430 OS Devosia sp. Root436 #=GS A0A0Q7ILH4/327-430 DE Adenylyltransferase #=GS A0A0Q7ILH4/327-430 DR GENE3D; 8dbe5f8fb53ad92c2c24b240a67bb309/327-430; #=GS A0A0Q7ILH4/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. Root436; #=GS A0A0Q7ILH4/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N0K4V1/334-437 AC A0A0N0K4V1 #=GS A0A0N0K4V1/334-437 OS Novosphingobium sp. AAP93 #=GS A0A0N0K4V1/334-437 DE Adenylyltransferase #=GS A0A0N0K4V1/334-437 DR GENE3D; 8e1afa7a0dec836241b7603565ab5777/334-437; #=GS A0A0N0K4V1/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. AAP93; #=GS A0A0N0K4V1/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0S2DDR5/369-472 AC A0A0S2DDR5 #=GS A0A0S2DDR5/369-472 OS Lysobacter enzymogenes #=GS A0A0S2DDR5/369-472 DE Bifunctional enzyme CysN/cysC #=GS A0A0S2DDR5/369-472 DR GENE3D; 8f64f9904fc5492fef9045bb861f75a9/369-472; #=GS A0A0S2DDR5/369-472 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter enzymogenes; #=GS A0A0S2DDR5/369-472 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4LMN1/333-436 AC A0A0Q4LMN1 #=GS A0A0Q4LMN1/333-436 OS Sphingomonas sp. Leaf42 #=GS A0A0Q4LMN1/333-436 DE Adenylyltransferase #=GS A0A0Q4LMN1/333-436 DR GENE3D; 8fe1ea18ed5383f508bd6c26244906ca/333-436; #=GS A0A0Q4LMN1/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf42; #=GS A0A0Q4LMN1/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6AAE8/333-436 AC A0A0Q6AAE8 #=GS A0A0Q6AAE8/333-436 OS Sphingomonas sp. Leaf407 #=GS A0A0Q6AAE8/333-436 DE Adenylyltransferase #=GS A0A0Q6AAE8/333-436 DR GENE3D; 8fe1ea18ed5383f508bd6c26244906ca/333-436; #=GS A0A0Q6AAE8/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf407; #=GS A0A0Q6AAE8/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F2KK91/333-437 AC A0A0F2KK91 #=GS A0A0F2KK91/333-437 OS Azospirillum thiophilum #=GS A0A0F2KK91/333-437 DE Adenylyltransferase #=GS A0A0F2KK91/333-437 DR GENE3D; 9123811145ccd47ec9b4401922545ffc/333-437; #=GS A0A0F2KK91/333-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Azospirillum; Azospirillum thiophilum; #=GS A0A0F2KK91/333-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS S9ZJN0/328-431 AC S9ZJN0 #=GS S9ZJN0/328-431 OS Thauera terpenica 58Eu #=GS S9ZJN0/328-431 DE Adenylylsulfate kinase #=GS S9ZJN0/328-431 DR GENE3D; 913fc4479d36a153cd0d90a05e6735ae/328-431; #=GS S9ZJN0/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Thauera; Thauera terpenica; #=GS S9ZJN0/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A6WVC8/329-432 AC A6WVC8 #=GS A6WVC8/329-432 OS Ochrobactrum anthropi ATCC 49188 #=GS A6WVC8/329-432 DE Sulfate adenylyltransferase, large subunit #=GS A6WVC8/329-432 DR GENE3D; 916cad4a515362b00dbc775f63cf5443/329-432; #=GS A6WVC8/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Ochrobactrum; Ochrobactrum anthropi; #=GS A6WVC8/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R3CYD2/327-429 AC A0A0R3CYD2 #=GS A0A0R3CYD2/327-429 OS Bradyrhizobium yuanmingense #=GS A0A0R3CYD2/327-429 DE Adenylyltransferase #=GS A0A0R3CYD2/327-429 DR GENE3D; 924e9f83a6b0311edfc9c47a5a262c2e/327-429; #=GS A0A0R3CYD2/327-429 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium yuanmingense; #=GS A0A0R3CYD2/327-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6DUF5/330-435 AC X6DUF5 #=GS X6DUF5/330-435 OS Mesorhizobium sp. LNHC221B00 #=GS X6DUF5/330-435 DE Adenylylsulfate kinase #=GS X6DUF5/330-435 DR GENE3D; 92574882f6a2455161e34085da7775f3/330-435; #=GS X6DUF5/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNHC221B00; #=GS X6DUF5/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8R7J3/333-436 AC A0A0Q8R7J3 #=GS A0A0Q8R7J3/333-436 OS Sphingomonas sp. Root720 #=GS A0A0Q8R7J3/333-436 DE Adenylyltransferase #=GS A0A0Q8R7J3/333-436 DR GENE3D; 926d897a88d7dc612b49ae524f270cc3/333-436; #=GS A0A0Q8R7J3/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Root720; #=GS A0A0Q8R7J3/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N1EES5/349-453 AC A0A0N1EES5 #=GS A0A0N1EES5/349-453 OS Novosphingobium sp. ST904 #=GS A0A0N1EES5/349-453 DE Adenylyltransferase #=GS A0A0N1EES5/349-453 DR GENE3D; 927d60cedef584dd290a42f52529fa2c/349-453; #=GS A0A0N1EES5/349-453 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. ST904; #=GS A0A0N1EES5/349-453 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0V2F5Y8/327-430 AC A0A0V2F5Y8 #=GS A0A0V2F5Y8/327-430 OS Caulobacter vibrioides #=GS A0A0V2F5Y8/327-430 DE Adenylyltransferase #=GS A0A0V2F5Y8/327-430 DR GENE3D; 928ea378b3e1a65e261366610e244d5e/327-430; #=GS A0A0V2F5Y8/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter vibrioides; #=GS A0A0V2F5Y8/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0W7XZ68/355-458 AC A0A0W7XZ68 #=GS A0A0W7XZ68/355-458 OS Xanthomonas phaseoli pv. manihotis #=GS A0A0W7XZ68/355-458 DE Adenylyltransferase #=GS A0A0W7XZ68/355-458 DR GENE3D; 92b50022af07896ae9aafda9f47a41e6/355-458; #=GS A0A0W7XZ68/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas phaseoli; #=GS A0A0W7XZ68/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0I9TGG7/312-418 AC A0A0I9TGG7 #=GS A0A0I9TGG7/312-418 OS Mycobacterium heraklionense #=GS A0A0I9TGG7/312-418 DE Adenylyltransferase #=GS A0A0I9TGG7/312-418 DR GENE3D; 92e71fb8e30190a28920b05985e7320a/312-418; #=GS A0A0I9TGG7/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium heraklionense; #=GS A0A0I9TGG7/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS E8TNR2/332-436 AC E8TNR2 #=GS E8TNR2/332-436 OS Mesorhizobium ciceri biovar biserrulae WSM1271 #=GS E8TNR2/332-436 DE Sulfate adenylyltransferase, large subunit #=GS E8TNR2/332-436 DR GENE3D; 9321dde9a2a1157d86421e8958314048/332-436; #=GS E8TNR2/332-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium ciceri; #=GS E8TNR2/332-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P6VVT1/355-458 AC A0A0P6VVT1 #=GS A0A0P6VVT1/355-458 OS Xanthomonas axonopodis #=GS A0A0P6VVT1/355-458 DE Adenylyltransferase #=GS A0A0P6VVT1/355-458 DR GENE3D; 9328ab5a8e72100a8ad15cf8b1648ca4/355-458; #=GS A0A0P6VVT1/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas axonopodis; #=GS A0A0P6VVT1/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A160TXW7/328-431 AC A0A160TXW7 #=GS A0A160TXW7/328-431 OS hydrothermal vent metagenome #=GS A0A160TXW7/328-431 DE Sulfate adenylyltransferase subunit 1 / Adenylylsulfate kinase #=GS A0A160TXW7/328-431 DR GENE3D; 934e93573f9e3cc88c369b87d7739b27/328-431; #=GS A0A160TXW7/328-431 DR ORG; hydrothermal vent metagenome; #=GS A0A160TXW7/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4CR99/333-436 AC A0A0Q4CR99 #=GS A0A0Q4CR99/333-436 OS Sphingomonas sp. Leaf10 #=GS A0A0Q4CR99/333-436 DE Adenylyltransferase #=GS A0A0Q4CR99/333-436 DR GENE3D; 935e328d96cf769b21fc8e02d58d0246/333-436; #=GS A0A0Q4CR99/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf10; #=GS A0A0Q4CR99/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0L1KFR5/332-439 AC A0A0L1KFR5 #=GS A0A0L1KFR5/332-439 OS Erythrobacter citreus LAMA 915 #=GS A0A0L1KFR5/332-439 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0L1KFR5/332-439 DR GENE3D; 94421ed803c6b44edf9daaa3261cd96c/332-439; #=GS A0A0L1KFR5/332-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter citreus; #=GS A0A0L1KFR5/332-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS D3D0H9/328-431 AC D3D0H9 #=GS D3D0H9/328-431 OS Frankia sp. EUN1f #=GS D3D0H9/328-431 DE Sulfate adenylyltransferase, large subunit #=GS D3D0H9/328-431 DR GENE3D; 947cf7f5a63ab6a866c0508ab5e2f8d5/328-431; #=GS D3D0H9/328-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia sp. EUN1f; #=GS D3D0H9/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8F7Y0/334-437 AC A0A0Q8F7Y0 #=GS A0A0Q8F7Y0/334-437 OS Pseudoxanthomonas sp. Root65 #=GS A0A0Q8F7Y0/334-437 DE Adenylyltransferase #=GS A0A0Q8F7Y0/334-437 DR GENE3D; 94eb543a447060f3ff8bf32576a962d6/334-437; #=GS A0A0Q8F7Y0/334-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Pseudoxanthomonas; Pseudoxanthomonas sp. Root65; #=GS A0A0Q8F7Y0/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6F047/330-435 AC X6F047 #=GS X6F047/330-435 OS Mesorhizobium sp. LNHC229A00 #=GS X6F047/330-435 DE Adenylylsulfate kinase #=GS X6F047/330-435 DR GENE3D; 9537652d7f79d0f7a5c53f657550d64b/330-435; #=GS X6F047/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNHC229A00; #=GS X6F047/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D6SBT7/329-434 AC A0A0D6SBT7 #=GS A0A0D6SBT7/329-434 OS Pseudomonas sp. FeS53a #=GS A0A0D6SBT7/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0D6SBT7/329-434 DR GENE3D; 968815e7c3b750a2700e4869ebb048e7/329-434; #=GS A0A0D6SBT7/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. FeS53a; #=GS A0A0D6SBT7/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0G9MZI7/341-444 AC A0A0G9MZI7 #=GS A0A0G9MZI7/341-444 OS Erythrobacter luteus #=GS A0A0G9MZI7/341-444 DE Adenylyltransferase #=GS A0A0G9MZI7/341-444 DR GENE3D; 9701091c929d7e1ea848477aa5e9090e/341-444; #=GS A0A0G9MZI7/341-444 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter luteus; #=GS A0A0G9MZI7/341-444 DR EC; 2.7.1.25; 2.7.7.4; #=GS H0G9P5/327-430 AC H0G9P5 #=GS H0G9P5/327-430 OS Sinorhizobium meliloti CCNWSX0020 #=GS H0G9P5/327-430 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS H0G9P5/327-430 DR GENE3D; 9864d1ecf6d3d2d4b3f1270fff816f66/327-430; #=GS H0G9P5/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; #=GS H0G9P5/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E0UNR7/327-430 AC A0A0E0UNR7 #=GS A0A0E0UNR7/327-430 OS Sinorhizobium meliloti BL225C #=GS A0A0E0UNR7/327-430 DE Adenylyl-sulfate kinase #=GS A0A0E0UNR7/327-430 DR GENE3D; 9864d1ecf6d3d2d4b3f1270fff816f66/327-430; #=GS A0A0E0UNR7/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; #=GS A0A0E0UNR7/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7TT59/318-421 AC A0A0Q7TT59 #=GS A0A0Q7TT59/318-421 OS Pseudolabrys sp. Root1462 #=GS A0A0Q7TT59/318-421 DE Adenylyltransferase #=GS A0A0Q7TT59/318-421 DR GENE3D; 98d095db1ad2a6fa714b75ce50362638/318-421; #=GS A0A0Q7TT59/318-421 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Xanthobacteraceae; Pseudolabrys; Pseudolabrys sp. Root1462; #=GS A0A0Q7TT59/318-421 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4RBD1/336-439 AC A0A0Q4RBD1 #=GS A0A0Q4RBD1/336-439 OS Sphingomonas sp. Leaf242 #=GS A0A0Q4RBD1/336-439 DE Adenylyltransferase #=GS A0A0Q4RBD1/336-439 DR GENE3D; 99064508db42c8591e25774ef2283294/336-439; #=GS A0A0Q4RBD1/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf242; #=GS A0A0Q4RBD1/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F5FK38/327-430 AC A0A0F5FK38 #=GS A0A0F5FK38/327-430 OS Devosia chinhatensis #=GS A0A0F5FK38/327-430 DE Adenylyltransferase #=GS A0A0F5FK38/327-430 DR GENE3D; 9ac994e6b2786bf9ea1e5255a3a99639/327-430; #=GS A0A0F5FK38/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia chinhatensis; #=GS A0A0F5FK38/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS B2IB29/338-442 AC B2IB29 #=GS B2IB29/338-442 OS Beijerinckia indica subsp. indica ATCC 9039 #=GS B2IB29/338-442 DE Sulfate adenylyltransferase, large subunit #=GS B2IB29/338-442 DR GENE3D; 9b0f21fe1b207ab88e25f874edaba4a2/338-442; #=GS B2IB29/338-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Beijerinckiaceae; Beijerinckia; Beijerinckia indica; Beijerinckia indica subsp. indica; #=GS B2IB29/338-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N1B0N7/331-435 AC A0A0N1B0N7 #=GS A0A0N1B0N7/331-435 OS Porphyrobacter sp. AAP60 #=GS A0A0N1B0N7/331-435 DE Adenylyltransferase #=GS A0A0N1B0N7/331-435 DR GENE3D; 9b2a2275c2fd0d9641c012f1c2b8b558/331-435; #=GS A0A0N1B0N7/331-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Porphyrobacter; Porphyrobacter sp. AAP60; #=GS A0A0N1B0N7/331-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS T0GLB9/338-441 AC T0GLB9 #=GS T0GLB9/338-441 OS Sphingobium baderi LL03 #=GS T0GLB9/338-441 DE Adenylylsulfate kinase #=GS T0GLB9/338-441 DR GENE3D; 9b5d0ef539e406e6ba3d96c519edd67a/338-441; #=GS T0GLB9/338-441 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium baderi; #=GS T0GLB9/338-441 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R0C4I6/325-428 AC A0A0R0C4I6 #=GS A0A0R0C4I6/325-428 OS Stenotrophomonas humi #=GS A0A0R0C4I6/325-428 DE Adenylyltransferase #=GS A0A0R0C4I6/325-428 DR GENE3D; 9bacdcf044c0d5e84a1fac0a4e781ca1/325-428; #=GS A0A0R0C4I6/325-428 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas humi; #=GS A0A0R0C4I6/325-428 DR EC; 2.7.1.25; 2.7.7.4; #=GS S2F696/328-431 AC S2F696 #=GS S2F696/328-431 OS Pseudomonas sp. G5(2012) #=GS S2F696/328-431 DE Sulfate adenylyltransferase, large subunit #=GS S2F696/328-431 DR GENE3D; 9c9163469d954502c6b29eed6fe1ecaf/328-431; #=GS S2F696/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. G5(2012); #=GS S2F696/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A083ULK0/328-431 AC A0A083ULK0 #=GS A0A083ULK0/328-431 OS Pseudomonas putida #=GS A0A083ULK0/328-431 DE Adenylyltransferase #=GS A0A083ULK0/328-431 DR GENE3D; 9c9163469d954502c6b29eed6fe1ecaf/328-431; #=GS A0A083ULK0/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; #=GS A0A083ULK0/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A096DQF0/328-431 AC A0A096DQF0 #=GS A0A096DQF0/328-431 OS Comamonas testosteroni #=GS A0A096DQF0/328-431 DE Adenylylsulfate kinase #=GS A0A096DQF0/328-431 DR GENE3D; 9cdab616d92fb042dd0597ee5be0413b/328-431; #=GS A0A096DQF0/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas testosteroni; #=GS A0A096DQF0/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E3YN89/355-458 AC A0A0E3YN89 #=GS A0A0E3YN89/355-458 OS Xanthomonas campestris #=GS A0A0E3YN89/355-458 DE Adenylyltransferase #=GS A0A0E3YN89/355-458 DR GENE3D; 9d11d236d6f251e93ee3731a18d9fa15/355-458; #=GS A0A0E3YN89/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas campestris; #=GS A0A0E3YN89/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS R4MFQ8/309-415 AC R4MFQ8 #=GS R4MFQ8/309-415 OS Mycobacterium tuberculosis CAS/NITR204 #=GS R4MFQ8/309-415 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS R4MFQ8/309-415 DR GENE3D; 9d5d7f51302cb35cce6b72f7eda992e4/309-415; #=GS R4MFQ8/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium tuberculosis; #=GS R4MFQ8/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0U0QM72/309-415 AC A0A0U0QM72 #=GS A0A0U0QM72/309-415 OS Mycobacterium tuberculosis #=GS A0A0U0QM72/309-415 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase #=GS A0A0U0QM72/309-415 DR GENE3D; 9d5d7f51302cb35cce6b72f7eda992e4/309-415; #=GS A0A0U0QM72/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium tuberculosis; #=GS A0A0U0QM72/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS S2KPR6/327-430 AC S2KPR6 #=GS S2KPR6/327-430 OS Halomonas anticariensis FP35 = DSM 16096 #=GS S2KPR6/327-430 DE Adenylylsulfate kinase #=GS S2KPR6/327-430 DR GENE3D; 9d9e13c3a58385f0431f1dd6b1bd6eb1/327-430; #=GS S2KPR6/327-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas anticariensis; #=GS S2KPR6/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0K1JAB8/329-432 AC A0A0K1JAB8 #=GS A0A0K1JAB8/329-432 OS Azoarcus sp. CIB #=GS A0A0K1JAB8/329-432 DE Bifunctional enzyme NodQ #=GS A0A0K1JAB8/329-432 DR GENE3D; 9e1403078ea3a078c7a8b4acb1656d74/329-432; #=GS A0A0K1JAB8/329-432 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Azoarcus; Azoarcus sp. CIB; #=GS A0A0K1JAB8/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7TSL3/336-438 AC A0A0Q7TSL3 #=GS A0A0Q7TSL3/336-438 OS Caulobacter sp. Root1455 #=GS A0A0Q7TSL3/336-438 DE Adenylyltransferase #=GS A0A0Q7TSL3/336-438 DR GENE3D; 9ebb73e259e1c0c624e25805fa2be55c/336-438; #=GS A0A0Q7TSL3/336-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter sp. Root1455; #=GS A0A0Q7TSL3/336-438 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6PK59/330-433 AC A0A0Q6PK59 #=GS A0A0Q6PK59/330-433 OS Devosia sp. Root105 #=GS A0A0Q6PK59/330-433 DE Adenylyltransferase #=GS A0A0Q6PK59/330-433 DR GENE3D; 9f4979f7daab9ae29dc42d3d2faa38d0/330-433; #=GS A0A0Q6PK59/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. Root105; #=GS A0A0Q6PK59/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A022FRT1/341-444 AC A0A022FRT1 #=GS A0A022FRT1/341-444 OS Cupriavidus sp. SK-4 #=GS A0A022FRT1/341-444 DE Adenylyltransferase #=GS A0A022FRT1/341-444 DR GENE3D; 9fa54b33b28a15a9b6b5ca8f8851a941/341-444; #=GS A0A022FRT1/341-444 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Cupriavidus; Cupriavidus sp. SK-4; #=GS A0A022FRT1/341-444 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q1GSY3/332-435 AC Q1GSY3 #=GS Q1GSY3/332-435 OS Sphingopyxis alaskensis RB2256 #=GS Q1GSY3/332-435 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS Q1GSY3/332-435 DR GENE3D; 9fb245ae078109850e541070fa3b757e/332-435; #=GS Q1GSY3/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis alaskensis; #=GS Q1GSY3/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0K1M5Q8/355-458 AC A0A0K1M5Q8 #=GS A0A0K1M5Q8/355-458 OS Xanthomonas arboricola pv. juglandis #=GS A0A0K1M5Q8/355-458 DE Adenylyltransferase #=GS A0A0K1M5Q8/355-458 DR GENE3D; a05213da605f4597ffbe9ce15a0c4eec/355-458; #=GS A0A0K1M5Q8/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas arboricola; #=GS A0A0K1M5Q8/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0K2YKR7/327-431 AC A0A0K2YKR7 #=GS A0A0K2YKR7/327-431 OS Rhodococcus sp. RD6.2 #=GS A0A0K2YKR7/327-431 DE Bifunctional enzyme NodQ #=GS A0A0K2YKR7/327-431 DR GENE3D; a05c46947e602815b52539a6519e7c34/327-431; #=GS A0A0K2YKR7/327-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus sp. RD6.2; #=GS A0A0K2YKR7/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F5PHB2/338-442 AC A0A0F5PHB2 #=GS A0A0F5PHB2/338-442 OS Sphingomonas sp. SRS2 #=GS A0A0F5PHB2/338-442 DE Adenylyltransferase #=GS A0A0F5PHB2/338-442 DR GENE3D; a0d06966e3ce456738618ce080c81489/338-442; #=GS A0A0F5PHB2/338-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. SRS2; #=GS A0A0F5PHB2/338-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N9MZS2/328-434 AC A0A0N9MZS2 #=GS A0A0N9MZS2/328-434 OS Gordonia sp. QH-11 #=GS A0A0N9MZS2/328-434 DE Adenylyltransferase #=GS A0A0N9MZS2/328-434 DR GENE3D; a10ddf41d860d6ee6fddf2686216aee2/328-434; #=GS A0A0N9MZS2/328-434 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Gordoniaceae; Gordonia; Gordonia sp. QH-11; #=GS A0A0N9MZS2/328-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A024KHR7/330-433 AC A0A024KHR7 #=GS A0A024KHR7/330-433 OS Devosia sp. DBB001 #=GS A0A024KHR7/330-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A024KHR7/330-433 DR GENE3D; a143d6896fef6bc4e55535b161336af5/330-433; #=GS A0A024KHR7/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. DBB001; #=GS A0A024KHR7/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1L5NQR4/324-427 AC A0A1L5NQR4 #=GS A0A1L5NQR4/324-427 OS Rhizobium gallicum #=GS A0A1L5NQR4/324-427 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase #=GS A0A1L5NQR4/324-427 DR GENE3D; a18b5863660799a95fafff660dd97c78/324-427; #=GS A0A1L5NQR4/324-427 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium gallicum; #=GS A0A1L5NQR4/324-427 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A127FAU0/327-431 AC A0A127FAU0 #=GS A0A127FAU0/327-431 OS Steroidobacter denitrificans #=GS A0A127FAU0/327-431 DE Bifunctional enzyme CysN/CysC #=GS A0A127FAU0/327-431 DR GENE3D; a1e6c0e0d0abcbf54267b605f992040d/327-431; #=GS A0A127FAU0/327-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Nevskiales; Sinobacteraceae; Steroidobacter; Steroidobacter denitrificans; #=GS A0A127FAU0/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1A0QNG8/325-431 AC A0A1A0QNG8 #=GS A0A1A0QNG8/325-431 OS Mycobacterium sp. 852014-51730_SCH5271717 #=GS A0A1A0QNG8/325-431 DE Adenylyl-sulfate kinase #=GS A0A1A0QNG8/325-431 DR GENE3D; a241dc6e0134ebe8e85c415d01530491/325-431; #=GS A0A1A0QNG8/325-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. 852014-51730_SCH5271717; #=GS A0A1A0QNG8/325-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M2ZBK3/325-431 AC A0A0M2ZBK3 #=GS A0A0M2ZBK3/325-431 OS Mycobacterium elephantis #=GS A0A0M2ZBK3/325-431 DE Adenylyltransferase #=GS A0A0M2ZBK3/325-431 DR GENE3D; a241dc6e0134ebe8e85c415d01530491/325-431; #=GS A0A0M2ZBK3/325-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium elephantis; #=GS A0A0M2ZBK3/325-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS W9BR22/332-435 AC W9BR22 #=GS W9BR22/332-435 OS Blastomonas sp. CACIA14H2 #=GS W9BR22/332-435 DE Adenylylsulfate kinase #=GS W9BR22/332-435 DR GENE3D; a2d34d6a9e473de31988a3c0def751e5/332-435; #=GS W9BR22/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Blastomonas; Blastomonas sp. CACIA14H2; #=GS W9BR22/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A178XTT3/324-427 AC A0A178XTT3 #=GS A0A178XTT3/324-427 OS Sinorhizobium americanum #=GS A0A178XTT3/324-427 DE Adenylyltransferase #=GS A0A178XTT3/324-427 DR GENE3D; a2e0ef3988093ce2ea067e4c2a16f17e/324-427; #=GS A0A178XTT3/324-427 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium americanum; #=GS A0A178XTT3/324-427 DR EC; 2.7.1.25; 2.7.7.4; #=GS A8L8D5/328-431 AC A8L8D5 #=GS A8L8D5/328-431 OS Frankia sp. EAN1pec #=GS A8L8D5/328-431 DE Sulfate adenylyltransferase, large subunit #=GS A8L8D5/328-431 DR GENE3D; a383234b955c2ab90d2824be501597ac/328-431; #=GS A8L8D5/328-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia sp. EAN1pec; #=GS A8L8D5/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7WL83/330-434 AC A0A0Q7WL83 #=GS A0A0Q7WL83/330-434 OS Mesorhizobium sp. Root554 #=GS A0A0Q7WL83/330-434 DE Adenylyltransferase #=GS A0A0Q7WL83/330-434 DR GENE3D; a3bf81f2aa0135044077cc7428dbeabe/330-434; #=GS A0A0Q7WL83/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. Root554; #=GS A0A0Q7WL83/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS V4Q005/330-433 AC V4Q005 #=GS V4Q005/330-433 OS Asticcacaulis benevestitus DSM 16100 = ATCC BAA-896 #=GS V4Q005/330-433 DE Adenylylsulfate kinase #=GS V4Q005/330-433 DR GENE3D; a3ca45cee2902a1ef2a1a650aece8589/330-433; #=GS V4Q005/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis benevestitus; #=GS V4Q005/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0W1ESI9/332-435 AC A0A0W1ESI9 #=GS A0A0W1ESI9/332-435 OS Sphingopyxis sp. HIX #=GS A0A0W1ESI9/332-435 DE Adenylyltransferase #=GS A0A0W1ESI9/332-435 DR GENE3D; a3e7aef8f8c6f632e55d5ce332238359/332-435; #=GS A0A0W1ESI9/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. HIX; #=GS A0A0W1ESI9/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A176U0J5/328-431 AC A0A176U0J5 #=GS A0A176U0J5/328-431 OS Comamonas thiooxydans #=GS A0A176U0J5/328-431 DE Adenylyltransferase #=GS A0A176U0J5/328-431 DR GENE3D; a4e141de7e5ca7723699bbeb41d15688/328-431; #=GS A0A176U0J5/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas thiooxydans; #=GS A0A176U0J5/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4I044/330-433 AC A0A0Q4I044 #=GS A0A0Q4I044/330-433 OS Sphingomonas sp. Leaf226 #=GS A0A0Q4I044/330-433 DE Adenylyltransferase #=GS A0A0Q4I044/330-433 DR GENE3D; a5fef47280ea9a2cd9347768f4a2f45b/330-433; #=GS A0A0Q4I044/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf226; #=GS A0A0Q4I044/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS F8E8F3/341-445 AC F8E8F3 #=GS F8E8F3/341-445 OS Flexistipes sinusarabici DSM 4947 #=GS F8E8F3/341-445 DE Sulfate adenylyltransferase subunit 1 #=GS F8E8F3/341-445 DR GENE3D; a6162c308845ff3751b17e36e72fc822/341-445; #=GS F8E8F3/341-445 DR ORG; Bacteria; Deferribacteres; Deferribacteres; Deferribacterales; Deferribacteraceae; Flexistipes; Flexistipes sinusarabici; #=GS F8E8F3/341-445 DR EC; 2.7.1.25; 2.7.7.4; #=GS R0EPJ4/328-431 AC R0EPJ4 #=GS R0EPJ4/328-431 OS Caulobacter crescentus OR37 #=GS R0EPJ4/328-431 DE Sulfate adenylyltransferase subunit 1, adenylylsulfate kinase #=GS R0EPJ4/328-431 DR GENE3D; a774278ec43615a622a0da17d6d89592/328-431; #=GS R0EPJ4/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter vibrioides; #=GS R0EPJ4/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0U3AJ82/355-458 AC A0A0U3AJ82 #=GS A0A0U3AJ82/355-458 OS Xanthomonas oryzae pv. oryzae #=GS A0A0U3AJ82/355-458 DE Adenylyltransferase #=GS A0A0U3AJ82/355-458 DR GENE3D; a79b5aa69c992c8ac2a0f37243e24cc7/355-458; #=GS A0A0U3AJ82/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas oryzae; #=GS A0A0U3AJ82/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M1KR51/355-458 AC A0A0M1KR51 #=GS A0A0M1KR51/355-458 OS Xanthomonas oryzae #=GS A0A0M1KR51/355-458 DE Adenylyltransferase #=GS A0A0M1KR51/355-458 DR GENE3D; a79b5aa69c992c8ac2a0f37243e24cc7/355-458; #=GS A0A0M1KR51/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas oryzae; #=GS A0A0M1KR51/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS G8QBT3/329-434 AC G8QBT3 #=GS G8QBT3/329-434 OS Pseudomonas fluorescens F113 #=GS G8QBT3/329-434 DE CysN #=GS G8QBT3/329-434 DR GENE3D; a7d06f2b227424ac65d5a03227cc63ca/329-434; #=GS G8QBT3/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; #=GS G8QBT3/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0T2Q9B0/338-442 AC A0A0T2Q9B0 #=GS A0A0T2Q9B0/338-442 OS Altererythrobacter sp. Root672 #=GS A0A0T2Q9B0/338-442 DE Adenylyltransferase #=GS A0A0T2Q9B0/338-442 DR GENE3D; a7ff295237669478c94b8593875c98b1/338-442; #=GS A0A0T2Q9B0/338-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Altererythrobacter; Altererythrobacter sp. Root672; #=GS A0A0T2Q9B0/338-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4EGH7/337-446 AC A0A0Q4EGH7 #=GS A0A0Q4EGH7/337-446 OS Sphingomonas sp. Leaf208 #=GS A0A0Q4EGH7/337-446 DE Adenylyltransferase #=GS A0A0Q4EGH7/337-446 DR GENE3D; a83d8c09b4e97267ea4587cf523678d6/337-446; #=GS A0A0Q4EGH7/337-446 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf208; #=GS A0A0Q4EGH7/337-446 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A077M9I4/336-439 AC A0A077M9I4 #=GS A0A077M9I4/336-439 OS Tetrasphaera jenkinsii Ben 74 #=GS A0A077M9I4/336-439 DE Bifunctional enzyme nodQ #=GS A0A077M9I4/336-439 DR GENE3D; a861dfaad75722425d851b3073e1f621/336-439; #=GS A0A077M9I4/336-439 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Micrococcales; Intrasporangiaceae; Tetrasphaera; Tetrasphaera jenkinsii; #=GS A0A077M9I4/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS W6LYG5/326-429 AC W6LYG5 #=GS W6LYG5/326-429 OS Candidatus Contendobacter odensis Run_B_J11 #=GS W6LYG5/326-429 DE Bifunctional enzyme nodQ #=GS W6LYG5/326-429 DR GENE3D; a88d44dca9a6913355a25aed098d7ffb/326-429; #=GS W6LYG5/326-429 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Competibacteraceae; Candidatus Contendobacter; Candidatus Contendobacter odensis; #=GS W6LYG5/326-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0G9IBI2/331-434 AC A0A0G9IBI2 #=GS A0A0G9IBI2/331-434 OS Xanthomonas hyacinthi DSM 19077 #=GS A0A0G9IBI2/331-434 DE Adenylyltransferase #=GS A0A0G9IBI2/331-434 DR GENE3D; a8b33785f91b655d265ffa0e8b1cc01e/331-434; #=GS A0A0G9IBI2/331-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas hyacinthi; #=GS A0A0G9IBI2/331-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A6Q856/329-431 AC A0A0A6Q856 #=GS A0A0A6Q856/329-431 OS Paraburkholderia sacchari #=GS A0A0A6Q856/329-431 DE Adenylyltransferase #=GS A0A0A6Q856/329-431 DR GENE3D; a945614c73268354cb1da8d1b3f58978/329-431; #=GS A0A0A6Q856/329-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Paraburkholderia; Paraburkholderia sacchari; #=GS A0A0A6Q856/329-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS M5EJB1/330-434 AC M5EJB1 #=GS M5EJB1/330-434 OS Mesorhizobium metallidurans STM 2683 #=GS M5EJB1/330-434 DE Bifunctional enzyme nodQ #=GS M5EJB1/330-434 DR GENE3D; a94b87c7565387c441f3431f8b7a7f88/330-434; #=GS M5EJB1/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium metallidurans; #=GS M5EJB1/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS P72339/330-434 AC P72339 #=GS P72339/330-434 OS Rhizobium sp. N33 #=GS P72339/330-434 DE Bifunctional enzyme NodQ #=GS P72339/330-434 DR GENE3D; a9c04cb3604dd7089ac6d2e8ae654118/330-434; #=GS P72339/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. N33; #=GS P72339/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0J6FSJ0/359-462 AC A0A0J6FSJ0 #=GS A0A0J6FSJ0/359-462 OS Xanthomonas sp. NCPPB1128 #=GS A0A0J6FSJ0/359-462 DE Adenylyltransferase #=GS A0A0J6FSJ0/359-462 DR GENE3D; ab4788a30a9734a17bebc2eec6f1ea14/359-462; #=GS A0A0J6FSJ0/359-462 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas sp. NCPPB1128; #=GS A0A0J6FSJ0/359-462 DR EC; 2.7.1.25; 2.7.7.4; #=GS I0HTX9/328-431 AC I0HTX9 #=GS I0HTX9/328-431 OS Rubrivivax gelatinosus IL144 #=GS I0HTX9/328-431 DE Sulfate adenylyltransferase subunit 1/adenylyl-sulfate kinase CysN/CysC #=GS I0HTX9/328-431 DR GENE3D; ab52a228c2425e80add200eb5b95fcef/328-431; #=GS I0HTX9/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Rubrivivax; Rubrivivax gelatinosus; #=GS I0HTX9/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6P9V1/330-434 AC A0A0Q6P9V1 #=GS A0A0Q6P9V1/330-434 OS Mesorhizobium sp. Root102 #=GS A0A0Q6P9V1/330-434 DE Adenylyltransferase #=GS A0A0Q6P9V1/330-434 DR GENE3D; abd890c484f0d8d8cb7036efd61d6e80/330-434; #=GS A0A0Q6P9V1/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. Root102; #=GS A0A0Q6P9V1/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A161HFZ8/328-431 AC A0A161HFZ8 #=GS A0A161HFZ8/328-431 OS Ectothiorhodospira sp. BSL-9 #=GS A0A161HFZ8/328-431 DE Adenylyltransferase #=GS A0A161HFZ8/328-431 DR GENE3D; abed6cda5382120d75abbb078cb0112a/328-431; #=GS A0A161HFZ8/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Ectothiorhodospira; Ectothiorhodospira sp. BSL-9; #=GS A0A161HFZ8/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0K2YEY7/316-422 AC A0A0K2YEY7 #=GS A0A0K2YEY7/316-422 OS Rhodococcus sp. RD6.2 #=GS A0A0K2YEY7/316-422 DE Bifunctional enzyme CysN/CysC #=GS A0A0K2YEY7/316-422 DR GENE3D; abf7b46e47c2d8f8210f139b3faea8d0/316-422; #=GS A0A0K2YEY7/316-422 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus sp. RD6.2; #=GS A0A0K2YEY7/316-422 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F5QFM5/327-430 AC A0A0F5QFM5 #=GS A0A0F5QFM5/327-430 OS Devosia epidermidihirudinis #=GS A0A0F5QFM5/327-430 DE Adenylyltransferase #=GS A0A0F5QFM5/327-430 DR GENE3D; ac83352b8b96d44cdae7e310cb8c15a4/327-430; #=GS A0A0F5QFM5/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia epidermidihirudinis; #=GS A0A0F5QFM5/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q5R4M6/319-425 AC A0A0Q5R4M6 #=GS A0A0Q5R4M6/319-425 OS Williamsia sp. Leaf354 #=GS A0A0Q5R4M6/319-425 DE Adenylyltransferase #=GS A0A0Q5R4M6/319-425 DR GENE3D; acb90ce88de09f4e08e0f1c1b6e521a5/319-425; #=GS A0A0Q5R4M6/319-425 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Williamsiaceae; Williamsia; Williamsia sp. Leaf354; #=GS A0A0Q5R4M6/319-425 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A097ECZ5/330-434 AC A0A097ECZ5 #=GS A0A097ECZ5/330-434 OS Sphingomonas taxi #=GS A0A097ECZ5/330-434 DE Adenylyltransferase #=GS A0A097ECZ5/330-434 DR GENE3D; ad2015672c8a1486a2a535c0ae963ee8/330-434; #=GS A0A097ECZ5/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas taxi; #=GS A0A097ECZ5/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A166QW69/328-431 AC A0A166QW69 #=GS A0A166QW69/328-431 OS Frankia sp. EI5c #=GS A0A166QW69/328-431 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS A0A166QW69/328-431 DR GENE3D; ad7fda12a760ab715de64e73c0d4b3bf/328-431; #=GS A0A166QW69/328-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia sp. EI5c; #=GS A0A166QW69/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A087LNN6/330-433 AC A0A087LNN6 #=GS A0A087LNN6/330-433 OS Devosia sp. 17-2-E-8 #=GS A0A087LNN6/330-433 DE Adenylyltransferase #=GS A0A087LNN6/330-433 DR GENE3D; adcc4f1e9f2f1394233ab3093b3c1358/330-433; #=GS A0A087LNN6/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. 17-2-E-8; #=GS A0A087LNN6/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS V7GZS6/330-434 AC V7GZS6 #=GS V7GZS6/330-434 OS Mesorhizobium sp. L2C089B000 #=GS V7GZS6/330-434 DE Adenylylsulfate kinase #=GS V7GZS6/330-434 DR GENE3D; ae34aae70c3d1850c5767b06b80c4299/330-434; #=GS V7GZS6/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L2C089B000; #=GS V7GZS6/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0K2DAE1/324-428 AC A0A0K2DAE1 #=GS A0A0K2DAE1/324-428 OS Chelatococcus sp. CO-6 #=GS A0A0K2DAE1/324-428 DE Adenylyltransferase #=GS A0A0K2DAE1/324-428 DR GENE3D; ae450e2e8f5137d60e63851e9ee2b79e/324-428; #=GS A0A0K2DAE1/324-428 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Beijerinckiaceae; Chelatococcus; Chelatococcus sp. CO-6; #=GS A0A0K2DAE1/324-428 DR EC; 2.7.1.25; 2.7.7.4; #=GS B3E8Y0/344-448 AC B3E8Y0 #=GS B3E8Y0/344-448 OS Geobacter lovleyi SZ #=GS B3E8Y0/344-448 DE Sulfate adenylyltransferase, large subunit #=GS B3E8Y0/344-448 DR GENE3D; ae6a45e9cd527ec470fe87aa54742bf3/344-448; #=GS B3E8Y0/344-448 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Geobacteraceae; Geobacter; Geobacter lovleyi; #=GS B3E8Y0/344-448 DR EC; 2.7.1.25; 2.7.7.4; #=GS A5VBM2/339-442 AC A5VBM2 #=GS A5VBM2/339-442 OS Sphingomonas wittichii RW1 #=GS A5VBM2/339-442 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS A5VBM2/339-442 DR GENE3D; af5645a2e9064bab48e3a818d4810cd0/339-442; #=GS A5VBM2/339-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas wittichii; #=GS A5VBM2/339-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E2N9N8/330-434 AC A0A0E2N9N8 #=GS A0A0E2N9N8/330-434 OS Mesorhizobium sp. LSHC414A00 #=GS A0A0E2N9N8/330-434 DE Adenylylsulfate kinase #=GS A0A0E2N9N8/330-434 DR GENE3D; af895052419dfc63ea98f60f171b58be/330-434; #=GS A0A0E2N9N8/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSHC414A00; #=GS A0A0E2N9N8/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q9ERF4/322-425 AC A0A0Q9ERF4 #=GS A0A0Q9ERF4/322-425 OS Lysobacter sp. Root96 #=GS A0A0Q9ERF4/322-425 DE Adenylyltransferase #=GS A0A0Q9ERF4/322-425 DR GENE3D; b03e04e317f0066d08d6d98f8072e187/322-425; #=GS A0A0Q9ERF4/322-425 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter sp. Root96; #=GS A0A0Q9ERF4/322-425 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A132SF08/309-415 AC A0A132SF08 #=GS A0A132SF08/309-415 OS Mycobacterium sp. NAZ190054 #=GS A0A132SF08/309-415 DE Adenylyltransferase #=GS A0A132SF08/309-415 DR GENE3D; b06a51736b1aca247e8fe0fd8fc99db2/309-415; #=GS A0A132SF08/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. NAZ190054; #=GS A0A132SF08/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0G9MMM2/332-435 AC A0A0G9MMM2 #=GS A0A0G9MMM2/332-435 OS Erythrobacter gangjinensis #=GS A0A0G9MMM2/332-435 DE Adenylyltransferase #=GS A0A0G9MMM2/332-435 DR GENE3D; b1f04cc58f953173766fb6167522a1ad/332-435; #=GS A0A0G9MMM2/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter gangjinensis; #=GS A0A0G9MMM2/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A0ER80/332-435 AC A0A0A0ER80 #=GS A0A0A0ER80/332-435 OS Lysobacter concretionis Ko07 = DSM 16239 #=GS A0A0A0ER80/332-435 DE Adenylyltransferase #=GS A0A0A0ER80/332-435 DR GENE3D; b322068f702c80522af26314b5b87184/332-435; #=GS A0A0A0ER80/332-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter concretionis; #=GS A0A0A0ER80/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS F9ZDQ6/328-431 AC F9ZDQ6 #=GS F9ZDQ6/328-431 OS Nitrosomonas sp. AL212 #=GS F9ZDQ6/328-431 DE Sulfate adenylyltransferase, large subunit #=GS F9ZDQ6/328-431 DR GENE3D; b342e86c39b56e846d4cea795aabad1c/328-431; #=GS F9ZDQ6/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosomonas; Nitrosomonas sp. AL212; #=GS F9ZDQ6/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E3CBG2/328-431 AC A0A0E3CBG2 #=GS A0A0E3CBG2/328-431 OS Comamonas testosteroni #=GS A0A0E3CBG2/328-431 DE Adenylylsulfate kinase #=GS A0A0E3CBG2/328-431 DR GENE3D; b36221ab7a59598514416c3eba974a5f/328-431; #=GS A0A0E3CBG2/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas testosteroni; #=GS A0A0E3CBG2/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E0UKN9/327-430 AC A0A0E0UKN9 #=GS A0A0E0UKN9/327-430 OS Sinorhizobium meliloti BL225C #=GS A0A0E0UKN9/327-430 DE Sulfate adenylyltransferase, large subunit #=GS A0A0E0UKN9/327-430 DR GENE3D; b36c7b6ea403b260a59bb5a5619d789a/327-430; #=GS A0A0E0UKN9/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; #=GS A0A0E0UKN9/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A069IT69/327-430 AC A0A069IT69 #=GS A0A069IT69/327-430 OS Brevundimonas sp. EAKA #=GS A0A069IT69/327-430 DE Adenylyltransferase #=GS A0A069IT69/327-430 DR GENE3D; b3c863948bc8cec33f45b1a573d923ce/327-430; #=GS A0A069IT69/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. EAKA; #=GS A0A069IT69/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1B1VQJ8/335-439 AC A0A1B1VQJ8 #=GS A0A1B1VQJ8/335-439 OS Ketogulonicigenium vulgare #=GS A0A1B1VQJ8/335-439 DE Adenylyl-sulfate kinase #=GS A0A1B1VQJ8/335-439 DR GENE3D; b4115b051eac6b42a81633f8e08591cc/335-439; #=GS A0A1B1VQJ8/335-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ketogulonicigenium; Ketogulonicigenium vulgare; #=GS A0A1B1VQJ8/335-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS E3EY13/335-439 AC E3EY13 #=GS E3EY13/335-439 OS Ketogulonicigenium vulgare Y25 #=GS E3EY13/335-439 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS E3EY13/335-439 DR GENE3D; b4115b051eac6b42a81633f8e08591cc/335-439; #=GS E3EY13/335-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ketogulonicigenium; Ketogulonicigenium vulgare; #=GS E3EY13/335-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS F9Y4V4/335-439 AC F9Y4V4 #=GS F9Y4V4/335-439 OS Ketogulonicigenium vulgare WSH-001 #=GS F9Y4V4/335-439 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS F9Y4V4/335-439 DR GENE3D; b4115b051eac6b42a81633f8e08591cc/335-439; #=GS F9Y4V4/335-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ketogulonicigenium; Ketogulonicigenium vulgare; #=GS F9Y4V4/335-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F7PV09/328-431 AC A0A0F7PV09 #=GS A0A0F7PV09/328-431 OS Hoeflea sp. IMCC20628 #=GS A0A0F7PV09/328-431 DE Sulfate adenylyltransferase, large subunit #=GS A0A0F7PV09/328-431 DR GENE3D; b43bda7987430487ba8a4d7d675a9293/328-431; #=GS A0A0F7PV09/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Hoeflea; Hoeflea sp. IMCC20628; #=GS A0A0F7PV09/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F2QRC2/328-431 AC A0A0F2QRC2 #=GS A0A0F2QRC2/328-431 OS Hyphomonadaceae bacterium BRH_c29 #=GS A0A0F2QRC2/328-431 DE Adenylyltransferase #=GS A0A0F2QRC2/328-431 DR GENE3D; b628c497fb8484b57280952af5df274b/328-431; #=GS A0A0F2QRC2/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonadaceae bacterium BRH_c29; #=GS A0A0F2QRC2/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A023NMP0/321-423 AC A0A023NMP0 #=GS A0A023NMP0/321-423 OS Dyella jiangningensis #=GS A0A023NMP0/321-423 DE Adenylyltransferase #=GS A0A023NMP0/321-423 DR GENE3D; b675bac797774e35faeb10438468e58c/321-423; #=GS A0A023NMP0/321-423 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Dyella; Dyella jiangningensis; #=GS A0A023NMP0/321-423 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A199Y5L9/327-431 AC A0A199Y5L9 #=GS A0A199Y5L9/327-431 OS Thalassospira tepidiphila MCCC 1A03514 #=GS A0A199Y5L9/327-431 DE Adenylyltransferase #=GS A0A199Y5L9/327-431 DR GENE3D; b7188da52f025c3d899f0395e0607d92/327-431; #=GS A0A199Y5L9/327-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira tepidiphila; #=GS A0A199Y5L9/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R3CMG7/320-424 AC A0A0R3CMG7 #=GS A0A0R3CMG7/320-424 OS Bradyrhizobium yuanmingense #=GS A0A0R3CMG7/320-424 DE Adenylyltransferase #=GS A0A0R3CMG7/320-424 DR GENE3D; b72ae2bebbcfa1e7678bfc77aaee880c/320-424; #=GS A0A0R3CMG7/320-424 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium yuanmingense; #=GS A0A0R3CMG7/320-424 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M9UBD1/326-430 AC A0A0M9UBD1 #=GS A0A0M9UBD1/326-430 OS Ardenticatena maritima #=GS A0A0M9UBD1/326-430 DE Bifunctional enzyme CysN/CysC #=GS A0A0M9UBD1/326-430 DR GENE3D; b76ce074a66ce67be9ea6062d4e19cae/326-430; #=GS A0A0M9UBD1/326-430 DR ORG; Bacteria; Chloroflexi; Ardenticatenia; Ardenticatenales; Ardenticatenaceae; Ardenticatena; Ardenticatena maritima; #=GS A0A0M9UBD1/326-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS F8M6L7/309-415 AC F8M6L7 #=GS F8M6L7/309-415 OS Mycobacterium africanum GM041182 #=GS F8M6L7/309-415 DE Putative bifunctional enzyme CYSN/CYSC: sulfate adenyltransferase (Subunit 1) + adenylylsulfate kinase #=GS F8M6L7/309-415 DR GENE3D; b8544609e2923929596efd7971f3bca9/309-415; #=GS F8M6L7/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium africanum; #=GS F8M6L7/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0K0X6M6/309-415 AC A0A0K0X6M6 #=GS A0A0K0X6M6/309-415 OS Mycobacterium goodii #=GS A0A0K0X6M6/309-415 DE Adenylyltransferase #=GS A0A0K0X6M6/309-415 DR GENE3D; ba439b3347335a14128fc5060671dc06/309-415; #=GS A0A0K0X6M6/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium goodii; #=GS A0A0K0X6M6/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A062UCG2/328-431 AC A0A062UCG2 #=GS A0A062UCG2/328-431 OS Hyphomonas chukchiensis #=GS A0A062UCG2/328-431 DE Adenylylsulfate kinase #=GS A0A062UCG2/328-431 DR GENE3D; baeeae6c6d5ed596d77bc83518dc5162/328-431; #=GS A0A062UCG2/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas chukchiensis; #=GS A0A062UCG2/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS T0IIP5/336-439 AC T0IIP5 #=GS T0IIP5/336-439 OS Sphingobium quisquiliarum P25 #=GS T0IIP5/336-439 DE Adenylylsulfate kinase #=GS T0IIP5/336-439 DR GENE3D; bb19d13efa99a61f73fe5a36c3e84ded/336-439; #=GS T0IIP5/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium quisquiliarum; #=GS T0IIP5/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A059DLB5/328-431 AC A0A059DLB5 #=GS A0A059DLB5/328-431 OS Hyphomonas sp. CY54-11-8 #=GS A0A059DLB5/328-431 DE Adenylylsulfate kinase #=GS A0A059DLB5/328-431 DR GENE3D; bce028a41a30adc622889c96474edbdb/328-431; #=GS A0A059DLB5/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas sp. CY54-11-8; #=GS A0A059DLB5/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q842M2/327-431 AC Q842M2 #=GS Q842M2/327-431 OS Rhodococcus sp. DS7 #=GS Q842M2/327-431 DE CysNC #=GS Q842M2/327-431 DR GENE3D; bdc987f8342c1bc3fbd01d2d84513eff/327-431; #=GS Q842M2/327-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus sp. DS7; #=GS Q842M2/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A6UMC6/327-430 AC A6UMC6 #=GS A6UMC6/327-430 OS Sinorhizobium medicae WSM419 #=GS A6UMC6/327-430 DE Sulfate adenylyltransferase, large subunit #=GS A6UMC6/327-430 DR GENE3D; bdf2d3839fe9078c999696244182eb9b/327-430; #=GS A6UMC6/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium medicae; #=GS A6UMC6/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A160TLQ1/338-442 AC A0A160TLQ1 #=GS A0A160TLQ1/338-442 OS hydrothermal vent metagenome #=GS A0A160TLQ1/338-442 DE Sulfate adenylyltransferase subunit 1 / Adenylylsulfate kinase #=GS A0A160TLQ1/338-442 DR GENE3D; be0e08c202601ffb001275b54e30376a/338-442; #=GS A0A160TLQ1/338-442 DR ORG; hydrothermal vent metagenome; #=GS A0A160TLQ1/338-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS A4XQP3/329-434 AC A4XQP3 #=GS A4XQP3/329-434 OS Pseudomonas mendocina ymp #=GS A4XQP3/329-434 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS A4XQP3/329-434 DR GENE3D; be3e88f14543c48f939ba66777c64284/329-434; #=GS A4XQP3/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas mendocina; #=GS A4XQP3/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS U1UTP8/329-434 AC U1UTP8 #=GS U1UTP8/329-434 OS Pseudomonas fluorescens EGD-AQ6 #=GS U1UTP8/329-434 DE Adenylylsulfate kinase #=GS U1UTP8/329-434 DR GENE3D; beba9e671115eed213a98e6b4b045a2b/329-434; #=GS U1UTP8/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; #=GS U1UTP8/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS W0AEY2/337-440 AC W0AEY2 #=GS W0AEY2/337-440 OS Sphingomonas sanxanigenens DSM 19645 = NX02 #=GS W0AEY2/337-440 DE Adenylylsulfate kinase #=GS W0AEY2/337-440 DR GENE3D; bf56528b9f9374b870f26d08cd6eebe2/337-440; #=GS W0AEY2/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sanxanigenens; #=GS W0AEY2/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N9UE70/336-444 AC A0A0N9UE70 #=GS A0A0N9UE70/336-444 OS Sphingopyxis macrogoltabida #=GS A0A0N9UE70/336-444 DE Adenylyltransferase #=GS A0A0N9UE70/336-444 DR GENE3D; bff4d522604e31b644c4cf61be75d7ac/336-444; #=GS A0A0N9UE70/336-444 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis macrogoltabida; #=GS A0A0N9UE70/336-444 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M1KQ37/355-458 AC A0A0M1KQ37 #=GS A0A0M1KQ37/355-458 OS Xanthomonas oryzae #=GS A0A0M1KQ37/355-458 DE Adenylyltransferase #=GS A0A0M1KQ37/355-458 DR GENE3D; c0118a9989f8d72313b99e9269f8e706/355-458; #=GS A0A0M1KQ37/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas oryzae; #=GS A0A0M1KQ37/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1B1ALR8/328-431 AC A0A1B1ALR8 #=GS A0A1B1ALR8/328-431 OS Caulobacteraceae bacterium OTSz_A_272 #=GS A0A1B1ALR8/328-431 DE Adenylyltransferase #=GS A0A1B1ALR8/328-431 DR GENE3D; c04d1859f0ac01f5a6a4d1f462e4e3da/328-431; #=GS A0A1B1ALR8/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacteraceae bacterium OTSz_A_272; #=GS A0A1B1ALR8/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS M4ND41/322-424 AC M4ND41 #=GS M4ND41/322-424 OS Rhodanobacter denitrificans #=GS M4ND41/322-424 DE Sulfate adenylyltransferase subunit 1 #=GS M4ND41/322-424 DR GENE3D; c2d20dce3c6a07b0037afbf1ec03ce65/322-424; #=GS M4ND41/322-424 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Rhodanobacter; Rhodanobacter denitrificans; #=GS M4ND41/322-424 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0B4C8Z6/327-430 AC A0A0B4C8Z6 #=GS A0A0B4C8Z6/327-430 OS Brevundimonas nasdae #=GS A0A0B4C8Z6/327-430 DE Adenylyltransferase #=GS A0A0B4C8Z6/327-430 DR GENE3D; c2ec970d72531e483c16f5a0d0dff117/327-430; #=GS A0A0B4C8Z6/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas nasdae; #=GS A0A0B4C8Z6/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A087FE05/335-438 AC A0A087FE05 #=GS A0A087FE05/335-438 OS Pseudomonas sp. 1-7 #=GS A0A087FE05/335-438 DE Adenylyltransferase #=GS A0A087FE05/335-438 DR GENE3D; c2f227b51b8952aec38c6cb56fdf9fc6/335-438; #=GS A0A087FE05/335-438 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 1-7; #=GS A0A087FE05/335-438 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F4U184/328-431 AC A0A0F4U184 #=GS A0A0F4U184/328-431 OS Pseudomonas fluorescens #=GS A0A0F4U184/328-431 DE Adenylyltransferase #=GS A0A0F4U184/328-431 DR GENE3D; c33e54425c29d20b1f372b932444ba45/328-431; #=GS A0A0F4U184/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; #=GS A0A0F4U184/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P6W9T8/331-435 AC A0A0P6W9T8 #=GS A0A0P6W9T8/331-435 OS Prosthecomicrobium hirschii #=GS A0A0P6W9T8/331-435 DE Adenylyltransferase #=GS A0A0P6W9T8/331-435 DR GENE3D; c36af440575ee482e72c09637807878f/331-435; #=GS A0A0P6W9T8/331-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Prosthecomicrobium; Prosthecomicrobium hirschii; #=GS A0A0P6W9T8/331-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7D095/327-430 AC A0A0Q7D095 #=GS A0A0Q7D095/327-430 OS Phenylobacterium sp. Root1277 #=GS A0A0Q7D095/327-430 DE Adenylyltransferase #=GS A0A0Q7D095/327-430 DR GENE3D; c3f6181a0240a1debac99af01a4ebee7/327-430; #=GS A0A0Q7D095/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium sp. Root1277; #=GS A0A0Q7D095/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8ULY6/327-430 AC A0A0Q8ULY6 #=GS A0A0Q8ULY6/327-430 OS Phenylobacterium sp. Root77 #=GS A0A0Q8ULY6/327-430 DE Adenylyltransferase #=GS A0A0Q8ULY6/327-430 DR GENE3D; c3f6181a0240a1debac99af01a4ebee7/327-430; #=GS A0A0Q8ULY6/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium sp. Root77; #=GS A0A0Q8ULY6/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7EG89/327-430 AC A0A0Q7EG89 #=GS A0A0Q7EG89/327-430 OS Phenylobacterium sp. Root1290 #=GS A0A0Q7EG89/327-430 DE Adenylyltransferase #=GS A0A0Q7EG89/327-430 DR GENE3D; c3f6181a0240a1debac99af01a4ebee7/327-430; #=GS A0A0Q7EG89/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium sp. Root1290; #=GS A0A0Q7EG89/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q9AMV2/309-414 AC A0A0Q9AMV2 #=GS A0A0Q9AMV2/309-414 OS Mycobacterium sp. Root265 #=GS A0A0Q9AMV2/309-414 DE Adenylyltransferase #=GS A0A0Q9AMV2/309-414 DR GENE3D; c3f9176d63c68df82993114f4f66c010/309-414; #=GS A0A0Q9AMV2/309-414 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. Root265; #=GS A0A0Q9AMV2/309-414 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1L5BUP9/339-442 AC A0A1L5BUP9 #=GS A0A1L5BUP9/339-442 OS Sphingobium indicum B90A #=GS A0A1L5BUP9/339-442 DE Adenylyltransferase #=GS A0A1L5BUP9/339-442 DR GENE3D; c48244cb9f29830dc5c26da27c42bd63/339-442; #=GS A0A1L5BUP9/339-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium indicum; #=GS A0A1L5BUP9/339-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P6WNY9/338-442 AC A0A0P6WNY9 #=GS A0A0P6WNY9/338-442 OS Erythrobacter sp. SG61-1L #=GS A0A0P6WNY9/338-442 DE Adenylyltransferase #=GS A0A0P6WNY9/338-442 DR GENE3D; c48fae438aed7956a4feef186422b563/338-442; #=GS A0A0P6WNY9/338-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. SG61-1L; #=GS A0A0P6WNY9/338-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS V4P0L6/327-430 AC V4P0L6 #=GS V4P0L6/327-430 OS Asticcacaulis sp. YBE204 #=GS V4P0L6/327-430 DE Adenylylsulfate kinase #=GS V4P0L6/327-430 DR GENE3D; c4e3da6867d01b7c1d51dd08190e57dd/327-430; #=GS V4P0L6/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis sp. YBE204; #=GS V4P0L6/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS V4PQJ3/329-434 AC V4PQJ3 #=GS V4PQJ3/329-434 OS Pseudomonas chloritidismutans AW-1 #=GS V4PQJ3/329-434 DE Adenylylsulfate kinase #=GS V4PQJ3/329-434 DR GENE3D; c514b37510182391ec08a76bc2707118/329-434; #=GS V4PQJ3/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas chloritidismutans; #=GS V4PQJ3/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A059E041/328-431 AC A0A059E041 #=GS A0A059E041/328-431 OS Hyphomonas atlantica #=GS A0A059E041/328-431 DE Adenylylsulfate kinase #=GS A0A059E041/328-431 DR GENE3D; c5a6f43b65afd242183069ec41aadf14/328-431; #=GS A0A059E041/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas atlantica; #=GS A0A059E041/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P0NZ13/331-433 AC A0A0P0NZ13 #=GS A0A0P0NZ13/331-433 OS Caulobacter henricii #=GS A0A0P0NZ13/331-433 DE Adenylyltransferase #=GS A0A0P0NZ13/331-433 DR GENE3D; c61a220c73965954002854f7ea346d7b/331-433; #=GS A0A0P0NZ13/331-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter henricii; #=GS A0A0P0NZ13/331-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0M2L5C6/328-431 AC A0A0M2L5C6 #=GS A0A0M2L5C6/328-431 OS Comamonas testosteroni #=GS A0A0M2L5C6/328-431 DE Adenylyltransferase #=GS A0A0M2L5C6/328-431 DR GENE3D; c64264342f620f1f32da67d3e90fa165/328-431; #=GS A0A0M2L5C6/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas testosteroni; #=GS A0A0M2L5C6/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6KVL3/330-433 AC A0A0Q6KVL3 #=GS A0A0Q6KVL3/330-433 OS Sphingomonas sp. Leaf339 #=GS A0A0Q6KVL3/330-433 DE Adenylyltransferase #=GS A0A0Q6KVL3/330-433 DR GENE3D; c672c6d6adf5e1cdad5c6175ed04415d/330-433; #=GS A0A0Q6KVL3/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf339; #=GS A0A0Q6KVL3/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4LGH7/336-439 AC A0A0Q4LGH7 #=GS A0A0Q4LGH7/336-439 OS Sphingomonas sp. Leaf38 #=GS A0A0Q4LGH7/336-439 DE Adenylyltransferase #=GS A0A0Q4LGH7/336-439 DR GENE3D; c696b63fee2cf3a9ae149367df1554ff/336-439; #=GS A0A0Q4LGH7/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf38; #=GS A0A0Q4LGH7/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS F6F3G4/336-439 AC F6F3G4 #=GS F6F3G4/336-439 OS Sphingobium chlorophenolicum L-1 #=GS F6F3G4/336-439 DE Sulfate adenylyltransferase subunit 1 #=GS F6F3G4/336-439 DR GENE3D; c6ae0105819076d657b8e26ad3924a30/336-439; #=GS F6F3G4/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium chlorophenolicum; #=GS F6F3G4/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A158S572/338-442 AC A0A158S572 #=GS A0A158S572/338-442 OS Novosphingobium sp. KN65.2 #=GS A0A158S572/338-442 DE Putative CysN/CysC bifunctional enzyme: Sulfate adenylyltransferase (SAT) subunit 1 (N-terminal) Adenylyl-sulfate kinase (APS kinase)(C-terminal) #=GS A0A158S572/338-442 DR GENE3D; c6d872b5ec283e1a0ce0cdf84b4d1431/338-442; #=GS A0A158S572/338-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. KN65.2; #=GS A0A158S572/338-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS D3DD73/330-433 AC D3DD73 #=GS D3DD73/330-433 OS Frankia sp. EUN1f #=GS D3DD73/330-433 DE Sulfate adenylyltransferase, large subunit #=GS D3DD73/330-433 DR GENE3D; c8b439e73f55a60798b85aa2136d978f/330-433; #=GS D3DD73/330-433 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia sp. EUN1f; #=GS D3DD73/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A117V1Z5/338-441 AC A0A117V1Z5 #=GS A0A117V1Z5/338-441 OS Novosphingobium sp. FSW06-99 #=GS A0A117V1Z5/338-441 DE Adenylyltransferase #=GS A0A117V1Z5/338-441 DR GENE3D; c95d610636926abd90fa655c58dee5ae/338-441; #=GS A0A117V1Z5/338-441 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. FSW06-99; #=GS A0A117V1Z5/338-441 DR EC; 2.7.1.25; 2.7.7.4; #=GS S4Z7V2/309-415 AC S4Z7V2 #=GS S4Z7V2/309-415 OS Mycobacterium yongonense 05-1390 #=GS S4Z7V2/309-415 DE Sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS S4Z7V2/309-415 DR GENE3D; ca20d176d5840fc74042addfdd8669a1/309-415; #=GS S4Z7V2/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium yongonense; #=GS S4Z7V2/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS H8IL40/309-415 AC H8IL40 #=GS H8IL40/309-415 OS Mycobacterium intracellulare ATCC 13950 #=GS H8IL40/309-415 DE Sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS H8IL40/309-415 DR GENE3D; ca20d176d5840fc74042addfdd8669a1/309-415; #=GS H8IL40/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium intracellulare; #=GS H8IL40/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS J9WBF5/309-415 AC J9WBF5 #=GS J9WBF5/309-415 OS Mycobacterium indicus pranii MTCC 9506 #=GS J9WBF5/309-415 DE Bifunctional enzyme cysN/cysC #=GS J9WBF5/309-415 DR GENE3D; ca20d176d5840fc74042addfdd8669a1/309-415; #=GS J9WBF5/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium indicus pranii; #=GS J9WBF5/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS I2AAF6/309-415 AC I2AAF6 #=GS I2AAF6/309-415 OS Mycobacterium sp. MOTT36Y #=GS I2AAF6/309-415 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS I2AAF6/309-415 DR GENE3D; ca20d176d5840fc74042addfdd8669a1/309-415; #=GS I2AAF6/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. MOTT36Y; #=GS I2AAF6/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS X8CQC8/309-415 AC X8CQC8 #=GS X8CQC8/309-415 OS Mycobacterium intracellulare 1956 #=GS X8CQC8/309-415 DE Bifunctional enzyme CysN/CysC #=GS X8CQC8/309-415 DR GENE3D; ca20d176d5840fc74042addfdd8669a1/309-415; #=GS X8CQC8/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium intracellulare; #=GS X8CQC8/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P7K8I3/309-415 AC A0A0P7K8I3 #=GS A0A0P7K8I3/309-415 OS Mycobacterium chimaera #=GS A0A0P7K8I3/309-415 DE Adenylyltransferase #=GS A0A0P7K8I3/309-415 DR GENE3D; ca20d176d5840fc74042addfdd8669a1/309-415; #=GS A0A0P7K8I3/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium chimaera; #=GS A0A0P7K8I3/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A081HZX5/309-415 AC A0A081HZX5 #=GS A0A081HZX5/309-415 OS Mycobacterium sp. TKK-01-0059 #=GS A0A081HZX5/309-415 DE Bifunctional enzyme CysN/CysC #=GS A0A081HZX5/309-415 DR GENE3D; ca20d176d5840fc74042addfdd8669a1/309-415; #=GS A0A081HZX5/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium sp. TKK-01-0059; #=GS A0A081HZX5/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D8CIE0/327-431 AC A0A0D8CIE0 #=GS A0A0D8CIE0/327-431 OS Thalassospira sp. HJ #=GS A0A0D8CIE0/327-431 DE Adenylyltransferase #=GS A0A0D8CIE0/327-431 DR GENE3D; ca3fbe225805c67e06543c0030a265bf/327-431; #=GS A0A0D8CIE0/327-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira sp. HJ; #=GS A0A0D8CIE0/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6DBM8/334-437 AC X6DBM8 #=GS X6DBM8/334-437 OS Mesorhizobium sp. LNHC221B00 #=GS X6DBM8/334-437 DE Adenylylsulfate kinase #=GS X6DBM8/334-437 DR GENE3D; ca8bf50c81edb995c8dbbd3dba35391b/334-437; #=GS X6DBM8/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNHC221B00; #=GS X6DBM8/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H0SWH5/309-415 AC A0A0H0SWH5 #=GS A0A0H0SWH5/309-415 OS Mycobacterium senegalense #=GS A0A0H0SWH5/309-415 DE Adenylyltransferase #=GS A0A0H0SWH5/309-415 DR GENE3D; cb3232f4b0f96beea126a3725c235e86/309-415; #=GS A0A0H0SWH5/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium senegalense; #=GS A0A0H0SWH5/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0J8U6I7/309-415 AC A0A0J8U6I7 #=GS A0A0J8U6I7/309-415 OS Mycobacterium conceptionense #=GS A0A0J8U6I7/309-415 DE Adenylyl-sulfate kinase #=GS A0A0J8U6I7/309-415 DR GENE3D; cb3232f4b0f96beea126a3725c235e86/309-415; #=GS A0A0J8U6I7/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium conceptionense; #=GS A0A0J8U6I7/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A024MA65/309-415 AC A0A024MA65 #=GS A0A024MA65/309-415 OS Mycobacterium farcinogenes #=GS A0A024MA65/309-415 DE Sulfate adenylyltransferase, large subunit #=GS A0A024MA65/309-415 DR GENE3D; cb3232f4b0f96beea126a3725c235e86/309-415; #=GS A0A024MA65/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium farcinogenes; #=GS A0A024MA65/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS T0HL53/352-455 AC T0HL53 #=GS T0HL53/352-455 OS Sphingobium lactosutens DS20 #=GS T0HL53/352-455 DE Adenylylsulfate kinase #=GS T0HL53/352-455 DR GENE3D; cb749bc7728d4e15514f7e63cd36bf28/352-455; #=GS T0HL53/352-455 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium lactosutens; #=GS T0HL53/352-455 DR EC; 2.7.1.25; 2.7.7.4; #=GS X6IRZ9/330-434 AC X6IRZ9 #=GS X6IRZ9/330-434 OS Mesorhizobium sp. L103C565B0 #=GS X6IRZ9/330-434 DE Adenylylsulfate kinase #=GS X6IRZ9/330-434 DR GENE3D; cd866537b8e352a7f3278240618e2e72/330-434; #=GS X6IRZ9/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L103C565B0; #=GS X6IRZ9/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4ITJ8/337-446 AC A0A0Q4ITJ8 #=GS A0A0Q4ITJ8/337-446 OS Sphingomonas sp. Leaf230 #=GS A0A0Q4ITJ8/337-446 DE Adenylyltransferase #=GS A0A0Q4ITJ8/337-446 DR GENE3D; cd8c63f37f97fdc8db1ebe4b397cfcc9/337-446; #=GS A0A0Q4ITJ8/337-446 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf230; #=GS A0A0Q4ITJ8/337-446 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F2S2L9/328-430 AC A0A0F2S2L9 #=GS A0A0F2S2L9/328-430 OS Rhodospirillaceae bacterium BRH_c57 #=GS A0A0F2S2L9/328-430 DE Adenylyltransferase #=GS A0A0F2S2L9/328-430 DR GENE3D; cdbca3a4b6acf9d1c8605e5f36e9714a/328-430; #=GS A0A0F2S2L9/328-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Rhodospirillaceae bacterium BRH_c57; #=GS A0A0F2S2L9/328-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A147I6Q9/337-440 AC A0A147I6Q9 #=GS A0A147I6Q9/337-440 OS Sphingomonas endophytica #=GS A0A147I6Q9/337-440 DE Adenylyltransferase #=GS A0A147I6Q9/337-440 DR GENE3D; ce38763a35c52c89c96af459be28ceef/337-440; #=GS A0A147I6Q9/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas endophytica; #=GS A0A147I6Q9/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7PYY2/332-435 AC A0A0Q7PYY2 #=GS A0A0Q7PYY2/332-435 OS Lysobacter sp. Root494 #=GS A0A0Q7PYY2/332-435 DE Adenylyltransferase #=GS A0A0Q7PYY2/332-435 DR GENE3D; ce6f64c1c2579cf1097181cd0a45dcb0/332-435; #=GS A0A0Q7PYY2/332-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Lysobacter; Lysobacter sp. Root494; #=GS A0A0Q7PYY2/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A150ZK25/318-422 AC A0A150ZK25 #=GS A0A150ZK25/318-422 OS Bradyrhizobium sp. DOA1 #=GS A0A150ZK25/318-422 DE Adenylyltransferase #=GS A0A150ZK25/318-422 DR GENE3D; ce94ebf14e0146ffbce84106d7e0d69e/318-422; #=GS A0A150ZK25/318-422 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. DOA1; #=GS A0A150ZK25/318-422 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N0JJF0/332-435 AC A0A0N0JJF0 #=GS A0A0N0JJF0/332-435 OS Novosphingobium sp. AAP1 #=GS A0A0N0JJF0/332-435 DE Adenylyltransferase #=GS A0A0N0JJF0/332-435 DR GENE3D; cea928f7bcf172459c6147a8647fd672/332-435; #=GS A0A0N0JJF0/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. AAP1; #=GS A0A0N0JJF0/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1L5N777/329-432 AC A0A1L5N777 #=GS A0A1L5N777/329-432 OS Brucella suis #=GS A0A1L5N777/329-432 DE Adenylyl-sulfate kinase #=GS A0A1L5N777/329-432 DR GENE3D; cf6fb562e0bce5134e7a72198d32312d/329-432; #=GS A0A1L5N777/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella suis; #=GS A0A1L5N777/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS A9M7D8/329-432 AC A9M7D8 #=GS A9M7D8/329-432 OS Brucella canis ATCC 23365 #=GS A9M7D8/329-432 DE Sulfate adenylyltransferase, large subunit #=GS A9M7D8/329-432 DR GENE3D; cf6fb562e0bce5134e7a72198d32312d/329-432; #=GS A9M7D8/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella canis; #=GS A9M7D8/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H3G5J0/329-432 AC A0A0H3G5J0 #=GS A0A0H3G5J0/329-432 OS Brucella suis 1330 #=GS A0A0H3G5J0/329-432 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS A0A0H3G5J0/329-432 DR GENE3D; cf6fb562e0bce5134e7a72198d32312d/329-432; #=GS A0A0H3G5J0/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella suis; #=GS A0A0H3G5J0/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A099CLM4/310-416 AC A0A099CLM4 #=GS A0A099CLM4/310-416 OS Mycobacterium rufum #=GS A0A099CLM4/310-416 DE Adenylyltransferase #=GS A0A099CLM4/310-416 DR GENE3D; d12cc8aeb74a95b2976bc7262c3e6a49/310-416; #=GS A0A099CLM4/310-416 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium rufum; #=GS A0A099CLM4/310-416 DR EC; 2.7.1.25; 2.7.7.4; #=GS R4Z648/333-436 AC R4Z648 #=GS R4Z648/333-436 OS Candidatus Microthrix parvicella RN1 #=GS R4Z648/333-436 DE Bifunctional enzyme nodQ #=GS R4Z648/333-436 DR GENE3D; d157fda8854fbe3cb430883c19a1b202/333-436; #=GS R4Z648/333-436 DR ORG; Bacteria; Actinobacteria; Acidimicrobiia; Acidimicrobiales; Microthrixaceae; Candidatus Microthrix; Candidatus Microthrix parvicella; #=GS R4Z648/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4IFV0/332-439 AC A0A0Q4IFV0 #=GS A0A0Q4IFV0/332-439 OS Sphingobium sp. Leaf26 #=GS A0A0Q4IFV0/332-439 DE Adenylyltransferase #=GS A0A0Q4IFV0/332-439 DR GENE3D; d32ee90c29b00ca128f9b408bece9e66/332-439; #=GS A0A0Q4IFV0/332-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. Leaf26; #=GS A0A0Q4IFV0/332-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS I4BMN4/312-418 AC I4BMN4 #=GS I4BMN4/312-418 OS Mycobacterium chubuense NBB4 #=GS I4BMN4/312-418 DE Sulfate adenylyltransferase subunit 1, adenylylsulfate kinase #=GS I4BMN4/312-418 DR GENE3D; d3404655c23ab279b89005d6eb8f8c5f/312-418; #=GS I4BMN4/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium chubuense; #=GS I4BMN4/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D5LSP1/326-429 AC A0A0D5LSP1 #=GS A0A0D5LSP1/326-429 OS Martelella endophytica #=GS A0A0D5LSP1/326-429 DE Adenylyltransferase #=GS A0A0D5LSP1/326-429 DR GENE3D; d37d4a10dbf8075e649a7492447efe22/326-429; #=GS A0A0D5LSP1/326-429 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Martelella; Martelella endophytica; #=GS A0A0D5LSP1/326-429 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H3P843/309-415 AC A0A0H3P843 #=GS A0A0H3P843/309-415 OS Mycobacterium bovis AF2122/97 #=GS A0A0H3P843/309-415 DE PROBABLE BIFUNCTIONAL ENZYME CYSN/CYSC: SULFATE ADENYLTRANSFERASE (SUBUNIT 1) + ADENYLYLSULFATE KINASE #=GS A0A0H3P843/309-415 DR GENE3D; d3e603c1d9454b34ed7405dadf890973/309-415; #=GS A0A0H3P843/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium bovis; #=GS A0A0H3P843/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A147EGZ3/337-440 AC A0A147EGZ3 #=GS A0A147EGZ3/337-440 OS Novosphingobium barchaimii #=GS A0A147EGZ3/337-440 DE Adenylyltransferase #=GS A0A147EGZ3/337-440 DR GENE3D; d40f47d5a3eacb39c59d6f7915fbf8c8/337-440; #=GS A0A147EGZ3/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium barchaimii; #=GS A0A147EGZ3/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS L0J2B0/309-415 AC L0J2B0 #=GS L0J2B0/309-415 OS Mycobacterium sp. JS623 #=GS L0J2B0/309-415 DE Sulfate adenylyltransferase subunit 1 #=GS L0J2B0/309-415 DR GENE3D; d42ac875c9526ce6003c8556165d90af/309-415; #=GS L0J2B0/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium sp. JS623; #=GS L0J2B0/309-415 DR EC; 2.7.1.25; 2.7.7.4; #=GS C6XJE6/340-444 AC C6XJE6 #=GS C6XJE6/340-444 OS Hirschia baltica ATCC 49814 #=GS C6XJE6/340-444 DE Sulfate adenylyltransferase, large subunit #=GS C6XJE6/340-444 DR GENE3D; d43f767d53c8f62f5ac3ac58689f7fbb/340-444; #=GS C6XJE6/340-444 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hirschia; Hirschia baltica; #=GS C6XJE6/340-444 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A124JTS8/334-437 AC A0A124JTS8 #=GS A0A124JTS8/334-437 OS Novosphingobium fuchskuhlense #=GS A0A124JTS8/334-437 DE Adenylyltransferase #=GS A0A124JTS8/334-437 DR GENE3D; d51d5d48948bfa8e1e61e952c61f7a8a/334-437; #=GS A0A124JTS8/334-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium fuchskuhlense; #=GS A0A124JTS8/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS F7Y9U0/330-435 AC F7Y9U0 #=GS F7Y9U0/330-435 OS Mesorhizobium opportunistum WSM2075 #=GS F7Y9U0/330-435 DE Sulfate adenylyltransferase, large subunit #=GS F7Y9U0/330-435 DR GENE3D; d530f063ec9ee48423a9d0fdf3a20842/330-435; #=GS F7Y9U0/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium opportunistum; #=GS F7Y9U0/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS F8GJ81/328-431 AC F8GJ81 #=GS F8GJ81/328-431 OS Nitrosomonas sp. Is79A3 #=GS F8GJ81/328-431 DE Sulfate adenylyltransferase subunit 1 #=GS F8GJ81/328-431 DR GENE3D; d5769132871038492278d8f33cf321d3/328-431; #=GS F8GJ81/328-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosomonas; Nitrosomonas sp. Is79A3; #=GS F8GJ81/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A6D0M6/330-433 AC A0A0A6D0M6 #=GS A0A0A6D0M6/330-433 OS Sphingomonas sp. Ant20 #=GS A0A0A6D0M6/330-433 DE Adenylyltransferase #=GS A0A0A6D0M6/330-433 DR GENE3D; d57e2e4258dea158b6d982b1042d217c/330-433; #=GS A0A0A6D0M6/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Ant20; #=GS A0A0A6D0M6/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P0CS37/327-430 AC A0A0P0CS37 #=GS A0A0P0CS37/327-430 OS Brevundimonas sp. DS20 #=GS A0A0P0CS37/327-430 DE Adenylyltransferase #=GS A0A0P0CS37/327-430 DR GENE3D; d5fdebbca9f6c44035f9da6e556cfdb7/327-430; #=GS A0A0P0CS37/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. DS20; #=GS A0A0P0CS37/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS W6UV58/329-434 AC W6UV58 #=GS W6UV58/329-434 OS Pseudomonas sp. GM41(2012) #=GS W6UV58/329-434 DE Adenylyl-sulfate kinase #=GS W6UV58/329-434 DR GENE3D; d6230387f9617cac3ea89d542c3408ae/329-434; #=GS W6UV58/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM41(2012); #=GS W6UV58/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4BDT8/336-439 AC A0A0Q4BDT8 #=GS A0A0Q4BDT8/336-439 OS Novosphingobium sp. Leaf2 #=GS A0A0Q4BDT8/336-439 DE Adenylyltransferase #=GS A0A0Q4BDT8/336-439 DR GENE3D; d643a4334b08553146af69e278512e16/336-439; #=GS A0A0Q4BDT8/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. Leaf2; #=GS A0A0Q4BDT8/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS T0IXZ1/337-440 AC T0IXZ1 #=GS T0IXZ1/337-440 OS Sphingobium ummariense RL-3 #=GS T0IXZ1/337-440 DE Adenylylsulfate kinase #=GS T0IXZ1/337-440 DR GENE3D; d7036971e6a13f715fd227a4059453bc/337-440; #=GS T0IXZ1/337-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium ummariense; #=GS T0IXZ1/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0J7XQ71/332-435 AC A0A0J7XQ71 #=GS A0A0J7XQ71/332-435 OS Sphingobium czechense LL01 #=GS A0A0J7XQ71/332-435 DE Adenylylsulfate kinase #=GS A0A0J7XQ71/332-435 DR GENE3D; d76da85ce2786178cfe3b5b1fc75907e/332-435; #=GS A0A0J7XQ71/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium czechense; #=GS A0A0J7XQ71/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A074JE60/335-438 AC A0A074JE60 #=GS A0A074JE60/335-438 OS Thioclava pacifica DSM 10166 #=GS A0A074JE60/335-438 DE Adenylylsulfate kinase #=GS A0A074JE60/335-438 DR GENE3D; d7c6635c0452f82f1d8040fb0c547779/335-438; #=GS A0A074JE60/335-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Thioclava; Thioclava pacifica; #=GS A0A074JE60/335-438 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5ZGU4/330-434 AC X5ZGU4 #=GS X5ZGU4/330-434 OS Mesorhizobium sp. LNJC395A00 #=GS X5ZGU4/330-434 DE Adenylylsulfate kinase #=GS X5ZGU4/330-434 DR GENE3D; d7d96915447b04046eb6759575287b44/330-434; #=GS X5ZGU4/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNJC395A00; #=GS X5ZGU4/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q8L364/355-458 AC Q8L364 #=GS Q8L364/355-458 OS Xanthomonas oryzae pv. oryzae #=GS Q8L364/355-458 DE Adenylyltransferase #=GS Q8L364/355-458 DR GENE3D; d83d2a442c4b9656b0d9f0ff41f60ab0/355-458; #=GS Q8L364/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas oryzae; #=GS Q8L364/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS W1NA39/328-431 AC W1NA39 #=GS W1NA39/328-431 OS Halomonas huangheensis #=GS W1NA39/328-431 DE Adenylylsulfate kinase #=GS W1NA39/328-431 DR GENE3D; d91ed838a659db28234cd385b6dc4e02/328-431; #=GS W1NA39/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas huangheensis; #=GS W1NA39/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A075KAV8/320-422 AC A0A075KAV8 #=GS A0A075KAV8/320-422 OS Dyella japonica A8 #=GS A0A075KAV8/320-422 DE Adenylyltransferase #=GS A0A075KAV8/320-422 DR GENE3D; d93b08037f1d8a98fa0f33837ec3cc6e/320-422; #=GS A0A075KAV8/320-422 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Rhodanobacteraceae; Dyella; Dyella japonica; #=GS A0A075KAV8/320-422 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7VZK1/341-444 AC A0A0Q7VZK1 #=GS A0A0Q7VZK1/341-444 OS Caulobacter sp. Root1472 #=GS A0A0Q7VZK1/341-444 DE Adenylyltransferase #=GS A0A0Q7VZK1/341-444 DR GENE3D; da9a0b5beb1a772e06d3ea44bded9b0b/341-444; #=GS A0A0Q7VZK1/341-444 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter sp. Root1472; #=GS A0A0Q7VZK1/341-444 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F5PW65/327-430 AC A0A0F5PW65 #=GS A0A0F5PW65/327-430 OS Devosia psychrophila #=GS A0A0F5PW65/327-430 DE Adenylyltransferase #=GS A0A0F5PW65/327-430 DR GENE3D; daa75524460fde0d514ea870cac45e7c/327-430; #=GS A0A0F5PW65/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia psychrophila; #=GS A0A0F5PW65/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS N1MFS8/336-439 AC N1MFS8 #=GS N1MFS8/336-439 OS Sphingobium japonicum BiD32 #=GS N1MFS8/336-439 DE Sulfate adenylyltransferase subunit 1 / Adenylylsulfate kinase #=GS N1MFS8/336-439 DR GENE3D; dae7398010be6d613b4b15fd3fd78800/336-439; #=GS N1MFS8/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium japonicum; #=GS N1MFS8/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A099Q685/355-458 AC A0A099Q685 #=GS A0A099Q685/355-458 OS Xanthomonas cannabis pv. phaseoli #=GS A0A099Q685/355-458 DE Adenylyltransferase #=GS A0A099Q685/355-458 DR GENE3D; db610dfa1695d0eff9839342ccc0ec56/355-458; #=GS A0A099Q685/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas cannabis; #=GS A0A099Q685/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS F0C6A0/355-458 AC F0C6A0 #=GS F0C6A0/355-458 OS Xanthomonas gardneri ATCC 19865 #=GS F0C6A0/355-458 DE Bifunctional sulfate adenylyltransferase subunit 1/ adenylylsulfate kinase RaxQ #=GS F0C6A0/355-458 DR GENE3D; dbc61887384395cefa1ce9cb1da85fdb/355-458; #=GS F0C6A0/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas gardneri; #=GS F0C6A0/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5XF45/330-434 AC X5XF45 #=GS X5XF45/330-434 OS Mesorhizobium sp. LSHC412B00 #=GS X5XF45/330-434 DE Adenylylsulfate kinase #=GS X5XF45/330-434 DR GENE3D; dd43fc10a461bd2a05df135dac69b09b/330-434; #=GS X5XF45/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSHC412B00; #=GS X5XF45/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS D2R0V5/327-431 AC D2R0V5 #=GS D2R0V5/327-431 OS Pirellula staleyi DSM 6068 #=GS D2R0V5/327-431 DE Sulfate adenylyltransferase, large subunit #=GS D2R0V5/327-431 DR GENE3D; dfd280b09394c07fa47ca7df5a56a8f6/327-431; #=GS D2R0V5/327-431 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Planctomycetales; Planctomycetaceae; Pirellula; Pirellula staleyi; #=GS D2R0V5/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0C5V343/334-437 AC A0A0C5V343 #=GS A0A0C5V343/334-437 OS Xanthomonas oryzae pv. oryzicola #=GS A0A0C5V343/334-437 DE Adenylyltransferase #=GS A0A0C5V343/334-437 DR GENE3D; e0274418cd83c829815fe3a3833f6c51/334-437; #=GS A0A0C5V343/334-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas oryzae; #=GS A0A0C5V343/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS E6TNZ6/312-418 AC E6TNZ6 #=GS E6TNZ6/312-418 OS Mycobacterium gilvum Spyr1 #=GS E6TNZ6/312-418 DE Sulfate adenylyltransferase subunit 1 adenylylsulfate kinase #=GS E6TNZ6/312-418 DR GENE3D; e09794047a3e6d45fbc36f72d568145c/312-418; #=GS E6TNZ6/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium gilvum; #=GS E6TNZ6/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS V7KM21/312-418 AC V7KM21 #=GS V7KM21/312-418 OS Mycobacterium avium subsp. silvaticum ATCC 49884 #=GS V7KM21/312-418 DE Adenylylsulfate kinase #=GS V7KM21/312-418 DR GENE3D; e12a6a9bb4e3e6a5f11890e62b867f92/312-418; #=GS V7KM21/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium avium complex (MAC); Mycobacterium avium; Mycobacterium avium subsp. silvaticum; #=GS V7KM21/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F5NA77/312-418 AC A0A0F5NA77 #=GS A0A0F5NA77/312-418 OS Mycobacterium nebraskense #=GS A0A0F5NA77/312-418 DE Adenylyltransferase #=GS A0A0F5NA77/312-418 DR GENE3D; e22ee5a6ce41a51ad46369bfcbd5b7f0/312-418; #=GS A0A0F5NA77/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium nebraskense; #=GS A0A0F5NA77/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E3MNC0/329-434 AC A0A0E3MNC0 #=GS A0A0E3MNC0/329-434 OS Pseudomonas fluorescens #=GS A0A0E3MNC0/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0E3MNC0/329-434 DR GENE3D; e23d7c3560213fa26eddeeac71e4dc01/329-434; #=GS A0A0E3MNC0/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; #=GS A0A0E3MNC0/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R3LF81/320-425 AC A0A0R3LF81 #=GS A0A0R3LF81/320-425 OS Bradyrhizobium jicamae #=GS A0A0R3LF81/320-425 DE Adenylyltransferase #=GS A0A0R3LF81/320-425 DR GENE3D; e27829f27401716f7aeb4f4172521b57/320-425; #=GS A0A0R3LF81/320-425 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium jicamae; #=GS A0A0R3LF81/320-425 DR EC; 2.7.1.25; 2.7.7.4; #=GS E6WQ78/354-457 AC E6WQ78 #=GS E6WQ78/354-457 OS Pseudoxanthomonas suwonensis 11-1 #=GS E6WQ78/354-457 DE Sulfate adenylyltransferase, large subunit #=GS E6WQ78/354-457 DR GENE3D; e2e1852d0422f49250697e107ea0c048/354-457; #=GS E6WQ78/354-457 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Pseudoxanthomonas; Pseudoxanthomonas suwonensis; #=GS E6WQ78/354-457 DR EC; 2.7.1.25; 2.7.7.4; #=GS Z9JIQ5/355-458 AC Z9JIQ5 #=GS Z9JIQ5/355-458 OS Xylella taiwanensis #=GS Z9JIQ5/355-458 DE Adenylylsulfate kinase #=GS Z9JIQ5/355-458 DR GENE3D; e2f620c73c4e92d6a760f6458a15d664/355-458; #=GS Z9JIQ5/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xylella; Xylella taiwanensis; #=GS Z9JIQ5/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q0ZGY4/334-437 AC A0A0Q0ZGY4 #=GS A0A0Q0ZGY4/334-437 OS Xanthomonas phaseoli pv. syngonii #=GS A0A0Q0ZGY4/334-437 DE Adenylyltransferase #=GS A0A0Q0ZGY4/334-437 DR GENE3D; e36cd747d770a1a16ba3bb3474682009/334-437; #=GS A0A0Q0ZGY4/334-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas phaseoli; #=GS A0A0Q0ZGY4/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A074M9W2/335-438 AC A0A074M9W2 #=GS A0A074M9W2/335-438 OS Erythrobacter longus #=GS A0A074M9W2/335-438 DE Adenylyltransferase #=GS A0A074M9W2/335-438 DR GENE3D; e374a6739e2636fbc41b05b020fbb608/335-438; #=GS A0A074M9W2/335-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter longus; #=GS A0A074M9W2/335-438 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4IKK7/333-436 AC A0A0Q4IKK7 #=GS A0A0Q4IKK7/333-436 OS Sphingomonas sp. Leaf25 #=GS A0A0Q4IKK7/333-436 DE Adenylyltransferase #=GS A0A0Q4IKK7/333-436 DR GENE3D; e3e650b864f120750fc55f652dd21378/333-436; #=GS A0A0Q4IKK7/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf25; #=GS A0A0Q4IKK7/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0G3LPV9/344-447 AC A0A0G3LPV9 #=GS A0A0G3LPV9/344-447 OS Xanthomonas translucens pv. undulosa #=GS A0A0G3LPV9/344-447 DE Adenylyltransferase #=GS A0A0G3LPV9/344-447 DR GENE3D; e45389f18ae4890e58c90601f4f7ec9c/344-447; #=GS A0A0G3LPV9/344-447 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas translucens; #=GS A0A0G3LPV9/344-447 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0W1DHV4/332-435 AC A0A0W1DHV4 #=GS A0A0W1DHV4/332-435 OS Sphingopyxis sp. H115 #=GS A0A0W1DHV4/332-435 DE Adenylyltransferase #=GS A0A0W1DHV4/332-435 DR GENE3D; e466e2b8e727581667308bc3ec812cda/332-435; #=GS A0A0W1DHV4/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. H115; #=GS A0A0W1DHV4/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7PRZ9/327-431 AC A0A0Q7PRZ9 #=GS A0A0Q7PRZ9/327-431 OS Nocardioides sp. Root140 #=GS A0A0Q7PRZ9/327-431 DE Adenylyltransferase #=GS A0A0Q7PRZ9/327-431 DR GENE3D; e4bcd4598aa27da6fcfb6187b7ee06a8/327-431; #=GS A0A0Q7PRZ9/327-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Nocardioides; Nocardioides sp. Root140; #=GS A0A0Q7PRZ9/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0A4E701/355-458 AC A0A0A4E701 #=GS A0A0A4E701/355-458 OS Xanthomonas phaseoli pv. phaseoli #=GS A0A0A4E701/355-458 DE Adenylyltransferase #=GS A0A0A4E701/355-458 DR GENE3D; e4e6561ef83e2c27d9fa27ae19fc1a2c/355-458; #=GS A0A0A4E701/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas phaseoli; #=GS A0A0A4E701/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R3C7Q5/320-424 AC A0A0R3C7Q5 #=GS A0A0R3C7Q5/320-424 OS Bradyrhizobium pachyrhizi #=GS A0A0R3C7Q5/320-424 DE Adenylyltransferase #=GS A0A0R3C7Q5/320-424 DR GENE3D; e5ac23557a2d024945e390b61ea92d59/320-424; #=GS A0A0R3C7Q5/320-424 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium pachyrhizi; #=GS A0A0R3C7Q5/320-424 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0W1DVF9/332-435 AC A0A0W1DVF9 #=GS A0A0W1DVF9/332-435 OS Sphingopyxis sp. H050 #=GS A0A0W1DVF9/332-435 DE Adenylyltransferase #=GS A0A0W1DVF9/332-435 DR GENE3D; e62400f12c7dccfc4600cf7f5b15b0ca/332-435; #=GS A0A0W1DVF9/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. H050; #=GS A0A0W1DVF9/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q6LSV8/330-434 AC A0A0Q6LSV8 #=GS A0A0Q6LSV8/330-434 OS Aminobacter sp. Root100 #=GS A0A0Q6LSV8/330-434 DE Adenylyltransferase #=GS A0A0Q6LSV8/330-434 DR GENE3D; e6fce188f753b7b022f9b4fa506d588a/330-434; #=GS A0A0Q6LSV8/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Aminobacter; Aminobacter sp. Root100; #=GS A0A0Q6LSV8/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS E3JC73/330-433 AC E3JC73 #=GS E3JC73/330-433 OS Frankia inefficax #=GS E3JC73/330-433 DE Sulfate adenylyltransferase, large subunit #=GS E3JC73/330-433 DR GENE3D; e7321d6a756e84bf3d01b3d9150cc947/330-433; #=GS E3JC73/330-433 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Frankiales; Frankiaceae; Frankia; Frankia inefficax; #=GS E3JC73/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8RUQ2/332-435 AC A0A0Q8RUQ2 #=GS A0A0Q8RUQ2/332-435 OS Sphingopyxis sp. Root214 #=GS A0A0Q8RUQ2/332-435 DE Adenylyltransferase #=GS A0A0Q8RUQ2/332-435 DR GENE3D; e7c85e8358d751372504431833413d73/332-435; #=GS A0A0Q8RUQ2/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. Root214; #=GS A0A0Q8RUQ2/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS F6AEX2/329-434 AC F6AEX2 #=GS F6AEX2/329-434 OS Pseudomonas fulva 12-X #=GS F6AEX2/329-434 DE Adenylyl-sulfate kinase #=GS F6AEX2/329-434 DR GENE3D; e8a691592e3e1307a9d4fecd212c3ef7/329-434; #=GS F6AEX2/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas fulva; #=GS F6AEX2/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E2NUZ4/330-434 AC A0A0E2NUZ4 #=GS A0A0E2NUZ4/330-434 OS Mesorhizobium sp. LNJC391B00 #=GS A0A0E2NUZ4/330-434 DE Adenylylsulfate kinase #=GS A0A0E2NUZ4/330-434 DR GENE3D; e8cec8c71f2b2d6ede5e4a7519131a09/330-434; #=GS A0A0E2NUZ4/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNJC391B00; #=GS A0A0E2NUZ4/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N0JY73/331-434 AC A0A0N0JY73 #=GS A0A0N0JY73/331-434 OS Blastomonas sp. AAP25 #=GS A0A0N0JY73/331-434 DE Adenylyltransferase #=GS A0A0N0JY73/331-434 DR GENE3D; e915972a7ddfecadb57399c6f909efac/331-434; #=GS A0A0N0JY73/331-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Blastomonas; Blastomonas sp. AAP25; #=GS A0A0N0JY73/331-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R0A4U9/340-443 AC A0A0R0A4U9 #=GS A0A0R0A4U9/340-443 OS Stenotrophomonas panacihumi #=GS A0A0R0A4U9/340-443 DE Adenylyltransferase #=GS A0A0R0A4U9/340-443 DR GENE3D; eabc1e0a91a24c0af174d949258212fc/340-443; #=GS A0A0R0A4U9/340-443 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Stenotrophomonas; Stenotrophomonas panacihumi; #=GS A0A0R0A4U9/340-443 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0F5LBS3/327-430 AC A0A0F5LBS3 #=GS A0A0F5LBS3/327-430 OS Devosia soli #=GS A0A0F5LBS3/327-430 DE Adenylyltransferase #=GS A0A0F5LBS3/327-430 DR GENE3D; eaec7bdae805448e7944ad61e412b053/327-430; #=GS A0A0F5LBS3/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia soli; #=GS A0A0F5LBS3/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R2TYG3/287-391 AC A0A0R2TYG3 #=GS A0A0R2TYG3/287-391 OS SAR92 bacterium BACL26 MAG-121220-bin70 #=GS A0A0R2TYG3/287-391 DE Adenylyltransferase #=GS A0A0R2TYG3/287-391 DR GENE3D; eb2214f08ec63d167454227a4ca65aea/287-391; #=GS A0A0R2TYG3/287-391 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Porticoccaceae; SAR92 bacterium BACL26 MAG-121220-bin70; #=GS A0A0R2TYG3/287-391 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A061YK58/355-458 AC A0A061YK58 #=GS A0A061YK58/355-458 OS Xanthomonas arboricola pv. pruni #=GS A0A061YK58/355-458 DE Adenylyltransferase #=GS A0A061YK58/355-458 DR GENE3D; eb26cf3409e6b14029c3734ac59c9a1c/355-458; #=GS A0A061YK58/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas arboricola; #=GS A0A061YK58/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q5P7B6/330-434 AC A0A0Q5P7B6 #=GS A0A0Q5P7B6/330-434 OS Sphingomonas sp. Leaf343 #=GS A0A0Q5P7B6/330-434 DE Adenylyltransferase #=GS A0A0Q5P7B6/330-434 DR GENE3D; eb9a6385d8f8a41e5a3b388f14e6f36d/330-434; #=GS A0A0Q5P7B6/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf343; #=GS A0A0Q5P7B6/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0K8X5M7/355-458 AC A0A0K8X5M7 #=GS A0A0K8X5M7/355-458 OS Xanthomonas vasicola #=GS A0A0K8X5M7/355-458 DE Adenylyltransferase #=GS A0A0K8X5M7/355-458 DR GENE3D; ebc2d6c1d0006c628f4c4e5a890d1b22/355-458; #=GS A0A0K8X5M7/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas vasicola; #=GS A0A0K8X5M7/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A143GNG0/329-434 AC A0A143GNG0 #=GS A0A143GNG0/329-434 OS Pseudomonas fluorescens #=GS A0A143GNG0/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A143GNG0/329-434 DR GENE3D; eddc60decd1039981c34d228cdf132f7/329-434; #=GS A0A143GNG0/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; #=GS A0A143GNG0/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS G4E4W7/328-431 AC G4E4W7 #=GS G4E4W7/328-431 OS Thiorhodospira sibirica ATCC 700588 #=GS G4E4W7/328-431 DE Adenylyl-sulfate kinase #=GS G4E4W7/328-431 DR GENE3D; eea8e32f353d51500bf87215f6f95fce/328-431; #=GS G4E4W7/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thiorhodospira; Thiorhodospira sibirica; #=GS G4E4W7/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS W1KP98/339-442 AC W1KP98 #=GS W1KP98/339-442 OS Sphingobium chinhatense IP26 #=GS W1KP98/339-442 DE Adenylylsulfate kinase #=GS W1KP98/339-442 DR GENE3D; eeb29d7deea1c333c551e407c8f92ee9/339-442; #=GS W1KP98/339-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium chinhatense; #=GS W1KP98/339-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS T0GY27/339-442 AC T0GY27 #=GS T0GY27/339-442 OS Sphingobium sp. HDIP04 #=GS T0GY27/339-442 DE Adenylylsulfate kinase #=GS T0GY27/339-442 DR GENE3D; eeb29d7deea1c333c551e407c8f92ee9/339-442; #=GS T0GY27/339-442 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. HDIP04; #=GS T0GY27/339-442 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5UVF6/330-434 AC X5UVF6 #=GS X5UVF6/330-434 OS Mesorhizobium sp. LSHC426A00 #=GS X5UVF6/330-434 DE Adenylylsulfate kinase #=GS X5UVF6/330-434 DR GENE3D; eebe4c2eda703c2f1f5d4f2c4b974ab8/330-434; #=GS X5UVF6/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSHC426A00; #=GS X5UVF6/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5V5X3/330-434 AC X5V5X3 #=GS X5V5X3/330-434 OS Mesorhizobium sp. LSHC422A00 #=GS X5V5X3/330-434 DE Adenylylsulfate kinase #=GS X5V5X3/330-434 DR GENE3D; eebe4c2eda703c2f1f5d4f2c4b974ab8/330-434; #=GS X5V5X3/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSHC422A00; #=GS X5V5X3/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS X5R0F9/330-434 AC X5R0F9 #=GS X5R0F9/330-434 OS Mesorhizobium sp. LSJC269B00 #=GS X5R0F9/330-434 DE Adenylylsulfate kinase #=GS X5R0F9/330-434 DR GENE3D; eebe4c2eda703c2f1f5d4f2c4b974ab8/330-434; #=GS X5R0F9/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSJC269B00; #=GS X5R0F9/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0E2YQ75/334-437 AC A0A0E2YQ75 #=GS A0A0E2YQ75/334-437 OS Xanthomonas campestris pv. musacearum NCPPB 2005 #=GS A0A0E2YQ75/334-437 DE Adenylyltransferase #=GS A0A0E2YQ75/334-437 DR GENE3D; ef02ba558c283c18bf5fe81fcb0a641a/334-437; #=GS A0A0E2YQ75/334-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas campestris; #=GS A0A0E2YQ75/334-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0R4CQK1/337-440 AC A0A0R4CQK1 #=GS A0A0R4CQK1/337-440 OS Xenorhabdus nematophila AN6/1 #=GS A0A0R4CQK1/337-440 DE Putative bifunctional enzyme: sulfate adenylyltransferase and Adenylyl-sulfate kinase #=GS A0A0R4CQK1/337-440 DR GENE3D; ef5e0fa25c6a586c7110e5dd43b4290e/337-440; #=GS A0A0R4CQK1/337-440 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus nematophila; #=GS A0A0R4CQK1/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS D3V9I3/337-440 AC D3V9I3 #=GS D3V9I3/337-440 OS Xenorhabdus nematophila ATCC 19061 #=GS D3V9I3/337-440 DE Putative bifunctional enzyme: sulfate adenylyltransferase and Adenylyl-sulfate kinase #=GS D3V9I3/337-440 DR GENE3D; ef5e0fa25c6a586c7110e5dd43b4290e/337-440; #=GS D3V9I3/337-440 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus nematophila; #=GS D3V9I3/337-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8LI17/330-435 AC A0A0Q8LI17 #=GS A0A0Q8LI17/330-435 OS Mesorhizobium sp. Root172 #=GS A0A0Q8LI17/330-435 DE Adenylyltransferase #=GS A0A0Q8LI17/330-435 DR GENE3D; efc664ae1cfa91a835a0ada872f9695d/330-435; #=GS A0A0Q8LI17/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. Root172; #=GS A0A0Q8LI17/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1A5QW50/330-435 AC A0A1A5QW50 #=GS A0A1A5QW50/330-435 OS Mesorhizobium loti #=GS A0A1A5QW50/330-435 DE Adenylyl-sulfate kinase #=GS A0A1A5QW50/330-435 DR GENE3D; efc664ae1cfa91a835a0ada872f9695d/330-435; #=GS A0A1A5QW50/330-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium loti; #=GS A0A1A5QW50/330-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A091BD25/325-428 AC A0A091BD25 #=GS A0A091BD25/325-428 OS Arenimonas malthae CC-JY-1 #=GS A0A091BD25/325-428 DE Adenylylsulfate kinase #=GS A0A091BD25/325-428 DR GENE3D; eff7500053f18b1c84d40e459b13bd0b/325-428; #=GS A0A091BD25/325-428 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Arenimonas; Arenimonas malthae; #=GS A0A091BD25/325-428 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D1LGB7/309-414 AC A0A0D1LGB7 #=GS A0A0D1LGB7/309-414 OS Mycobacterium llatzerense #=GS A0A0D1LGB7/309-414 DE Adenylyltransferase #=GS A0A0D1LGB7/309-414 DR GENE3D; f107ef2c6b6a0156635390ddfae4bfc1/309-414; #=GS A0A0D1LGB7/309-414 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium llatzerense; #=GS A0A0D1LGB7/309-414 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A099FJZ7/336-440 AC A0A099FJZ7 #=GS A0A099FJZ7/336-440 OS Paracoccus versutus #=GS A0A099FJZ7/336-440 DE Adenylyltransferase #=GS A0A099FJZ7/336-440 DR GENE3D; f115e1a1c40e29c0334416013662a1cb/336-440; #=GS A0A099FJZ7/336-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus versutus; #=GS A0A099FJZ7/336-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A127F522/327-430 AC A0A127F522 #=GS A0A127F522/327-430 OS Steroidobacter denitrificans #=GS A0A127F522/327-430 DE Bifunctional enzyme CysN/CysC #=GS A0A127F522/327-430 DR GENE3D; f1282089af3c1f0e5fcad09edfe16013/327-430; #=GS A0A127F522/327-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Nevskiales; Sinobacteraceae; Steroidobacter; Steroidobacter denitrificans; #=GS A0A127F522/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P0EU51/313-417 AC A0A0P0EU51 #=GS A0A0P0EU51/313-417 OS Azospirillum brasilense #=GS A0A0P0EU51/313-417 DE Adenylyltransferase #=GS A0A0P0EU51/313-417 DR GENE3D; f14e69fd6baee683b79864d2949d4d7c/313-417; #=GS A0A0P0EU51/313-417 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Azospirillum; Azospirillum brasilense; #=GS A0A0P0EU51/313-417 DR EC; 2.7.1.25; 2.7.7.4; #=GS P28604/313-417 AC P28604 #=GS P28604/313-417 OS Azospirillum brasilense #=GS P28604/313-417 DE Bifunctional enzyme NodQ #=GS P28604/313-417 DR GENE3D; f14e69fd6baee683b79864d2949d4d7c/313-417; #=GS P28604/313-417 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Azospirillum; Azospirillum brasilense; #=GS P28604/313-417 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0L6E3/329-432 AC A0L6E3 #=GS A0L6E3/329-432 OS Magnetococcus marinus MC-1 #=GS A0L6E3/329-432 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS A0L6E3/329-432 DR GENE3D; f286ba67b912a7daa3601e655e029237/329-432; #=GS A0L6E3/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Magnetococcales; Magnetococcaceae; Magnetococcus; Magnetococcus marinus; #=GS A0L6E3/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0P7Z147/340-444 AC A0A0P7Z147 #=GS A0A0P7Z147/340-444 OS Erythrobacteraceae bacterium HL-111 #=GS A0A0P7Z147/340-444 DE Bifunctional sulfate adenyltransferase subunit 1 / adenylsulfate kinase CysN-CysC #=GS A0A0P7Z147/340-444 DR GENE3D; f2bb464e1ef4fcf70f495357928e49d8/340-444; #=GS A0A0P7Z147/340-444 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacteraceae bacterium HL-111; #=GS A0A0P7Z147/340-444 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1H1U5D2/340-444 AC A0A1H1U5D2 #=GS A0A1H1U5D2/340-444 OS Erythrobacter sp. HL-111 #=GS A0A1H1U5D2/340-444 DE Adenylylsulfate kinase /sulfate adenylyltransferase subunit 1 #=GS A0A1H1U5D2/340-444 DR GENE3D; f2bb464e1ef4fcf70f495357928e49d8/340-444; #=GS A0A1H1U5D2/340-444 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. HL-111; #=GS A0A1H1U5D2/340-444 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8FRN1/336-438 AC A0A0Q8FRN1 #=GS A0A0Q8FRN1/336-438 OS Caulobacter sp. Root655 #=GS A0A0Q8FRN1/336-438 DE Adenylyltransferase #=GS A0A0Q8FRN1/336-438 DR GENE3D; f2be0afb853fb2fa93fd00ea8f835c64/336-438; #=GS A0A0Q8FRN1/336-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter sp. Root655; #=GS A0A0Q8FRN1/336-438 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q7ZS98/327-431 AC A0A0Q7ZS98 #=GS A0A0Q7ZS98/327-431 OS Nocardioides sp. Root151 #=GS A0A0Q7ZS98/327-431 DE Adenylyltransferase #=GS A0A0Q7ZS98/327-431 DR GENE3D; f48de005edea2731c0a7be52031ec739/327-431; #=GS A0A0Q7ZS98/327-431 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Nocardioides; Nocardioides sp. Root151; #=GS A0A0Q7ZS98/327-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS S9RQX3/340-443 AC S9RQX3 #=GS S9RQX3/340-443 OS Ralstonia sp. AU12-08 #=GS S9RQX3/340-443 DE Adenylylsulfate kinase #=GS S9RQX3/340-443 DR GENE3D; f4f9cb9bd8577785fb7a27cb709e552d/340-443; #=GS S9RQX3/340-443 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Ralstonia; Ralstonia sp. AU12-08; #=GS S9RQX3/340-443 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A192A3R3/340-443 AC A0A192A3R3 #=GS A0A192A3R3/340-443 OS Ralstonia insidiosa #=GS A0A192A3R3/340-443 DE Adenylyl-sulfate kinase #=GS A0A192A3R3/340-443 DR GENE3D; f4f9cb9bd8577785fb7a27cb709e552d/340-443; #=GS A0A192A3R3/340-443 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Ralstonia; Ralstonia insidiosa; #=GS A0A192A3R3/340-443 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0W1ERE6/332-440 AC A0A0W1ERE6 #=GS A0A0W1ERE6/332-440 OS Sphingopyxis sp. H038 #=GS A0A0W1ERE6/332-440 DE Adenylyltransferase #=GS A0A0W1ERE6/332-440 DR GENE3D; f5012958c9ac88c98bf50d4c76a79c52/332-440; #=GS A0A0W1ERE6/332-440 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. H038; #=GS A0A0W1ERE6/332-440 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4KZZ4/336-439 AC A0A0Q4KZZ4 #=GS A0A0Q4KZZ4/336-439 OS Sphingomonas sp. Leaf34 #=GS A0A0Q4KZZ4/336-439 DE Adenylyltransferase #=GS A0A0Q4KZZ4/336-439 DR GENE3D; f5907286e3fd8e2e1f50ac27c5dfcc8d/336-439; #=GS A0A0Q4KZZ4/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf34; #=GS A0A0Q4KZZ4/336-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A062TQD5/328-431 AC A0A062TQD5 #=GS A0A062TQD5/328-431 OS Hyphomonas sp. T16B2 #=GS A0A062TQD5/328-431 DE Adenylylsulfate kinase #=GS A0A062TQD5/328-431 DR GENE3D; f5b0fec236420c3ab396f655e68a5044/328-431; #=GS A0A062TQD5/328-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas sp. T16B2; #=GS A0A062TQD5/328-431 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0J5ZLF0/333-436 AC A0A0J5ZLF0 #=GS A0A0J5ZLF0/333-436 OS Burkholderia cepacia #=GS A0A0J5ZLF0/333-436 DE Adenylyltransferase #=GS A0A0J5ZLF0/333-436 DR GENE3D; f5cc001148b1cd87c5463d8a2dabdc24/333-436; #=GS A0A0J5ZLF0/333-436 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS A0A0J5ZLF0/333-436 DR EC; 2.7.1.25; 2.7.7.4; #=GS G8B1F6/333-437 AC G8B1F6 #=GS G8B1F6/333-437 OS Azospirillum brasilense Sp245 #=GS G8B1F6/333-437 DE Putative CysN/CysC bifunctional enzyme: Sulfate adenylyltransferase (SAT) subunit 1 (N-terminal) Adenylyl-sulfate kinase (APS kinase)(C-terminal) #=GS G8B1F6/333-437 DR GENE3D; f5f179277bbb7104c8ff825cde3a2575/333-437; #=GS G8B1F6/333-437 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Azospirillum; Azospirillum brasilense; #=GS G8B1F6/333-437 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0L7GF70/355-458 AC A0A0L7GF70 #=GS A0A0L7GF70/355-458 OS Xanthomonas campestris #=GS A0A0L7GF70/355-458 DE Adenylyltransferase #=GS A0A0L7GF70/355-458 DR GENE3D; f6644cd1aa0f337f501c3c52c8927b0b/355-458; #=GS A0A0L7GF70/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas campestris; #=GS A0A0L7GF70/355-458 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4PE77/323-426 AC A0A0Q4PE77 #=GS A0A0Q4PE77/323-426 OS Devosia sp. Leaf64 #=GS A0A0Q4PE77/323-426 DE Adenylyltransferase #=GS A0A0Q4PE77/323-426 DR GENE3D; f6859466cd25a12a17d4ef7a3540e396/323-426; #=GS A0A0Q4PE77/323-426 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. Leaf64; #=GS A0A0Q4PE77/323-426 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q39EM6/335-438 AC Q39EM6 #=GS Q39EM6/335-438 OS Burkholderia lata #=GS Q39EM6/335-438 DE Sulfate adenylyltransferase subunit 1 / adenylylsulfate kinase #=GS Q39EM6/335-438 DR GENE3D; f762b7691509e85b31cf38c13ce36b6f/335-438; #=GS Q39EM6/335-438 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia lata; #=GS Q39EM6/335-438 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A1K0IAN1/341-444 AC A0A1K0IAN1 #=GS A0A1K0IAN1/341-444 OS Cupriavidus necator #=GS A0A1K0IAN1/341-444 DE Bifunctional enzyme NodQ #=GS A0A1K0IAN1/341-444 DR GENE3D; f77ffe6131425ff9cd6ab4d54d19b9e6/341-444; #=GS A0A1K0IAN1/341-444 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Cupriavidus; Cupriavidus necator; #=GS A0A1K0IAN1/341-444 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A090FDJ3/330-434 AC A0A090FDJ3 #=GS A0A090FDJ3/330-434 OS Mesorhizobium sp. SOD10 #=GS A0A090FDJ3/330-434 DE Bifunctional enzyme NodQ #=GS A0A090FDJ3/330-434 DR GENE3D; f82719e3df962bf6576d79f59a1ef263/330-434; #=GS A0A090FDJ3/330-434 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. SOD10; #=GS A0A090FDJ3/330-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS M5A5D5/327-430 AC M5A5D5 #=GS M5A5D5/327-430 OS Ilumatobacter coccineus YM16-304 #=GS M5A5D5/327-430 DE Sulfate adenylyltransferase subunit 1/adenylyl-sulfate kinase #=GS M5A5D5/327-430 DR GENE3D; f8434dd415f96496c71a06027046d530/327-430; #=GS M5A5D5/327-430 DR ORG; Bacteria; Actinobacteria; Acidimicrobiia; Acidimicrobiales; Acidimicrobiaceae; Ilumatobacter; Ilumatobacter coccineus; #=GS M5A5D5/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q8XRS0/330-433 AC A0A0Q8XRS0 #=GS A0A0Q8XRS0/330-433 OS Sphingomonas sp. Root241 #=GS A0A0Q8XRS0/330-433 DE Adenylyltransferase #=GS A0A0Q8XRS0/330-433 DR GENE3D; f854cecebb573214b4dd4f90288ff9b5/330-433; #=GS A0A0Q8XRS0/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Root241; #=GS A0A0Q8XRS0/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS N8NDE2/329-432 AC N8NDE2 #=GS N8NDE2/329-432 OS Brucella ovis IntaBari-2002-82-58 #=GS N8NDE2/329-432 DE Adenylylsulfate kinase #=GS N8NDE2/329-432 DR GENE3D; f8f884646f3123ffe9e04f16fe18bd47/329-432; #=GS N8NDE2/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella ovis; #=GS N8NDE2/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0H3AS38/329-432 AC A0A0H3AS38 #=GS A0A0H3AS38/329-432 OS Brucella ovis ATCC 25840 #=GS A0A0H3AS38/329-432 DE Sulfate adenylate transferase, subunit 1/adenylylsulfate kinase #=GS A0A0H3AS38/329-432 DR GENE3D; f8f884646f3123ffe9e04f16fe18bd47/329-432; #=GS A0A0H3AS38/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella ovis; #=GS A0A0H3AS38/329-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS V5XH81/312-417 AC V5XH81 #=GS V5XH81/312-417 OS Mycobacterium neoaurum VKM Ac-1815D #=GS V5XH81/312-417 DE Adenylylsulfate kinase #=GS V5XH81/312-417 DR GENE3D; fbc6bde1fa3ba9007a032be0cc4bbec3/312-417; #=GS V5XH81/312-417 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium neoaurum; #=GS V5XH81/312-417 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A074MB02/335-439 AC A0A074MB02 #=GS A0A074MB02/335-439 OS Erythrobacter litoralis #=GS A0A074MB02/335-439 DE Adenylyltransferase #=GS A0A074MB02/335-439 DR GENE3D; fc6a0961ff10ca14ee078283f5255576/335-439; #=GS A0A074MB02/335-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter litoralis; #=GS A0A074MB02/335-439 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0N0JAS5/327-430 AC A0A0N0JAS5 #=GS A0A0N0JAS5/327-430 OS Rhizobium sp. AAP43 #=GS A0A0N0JAS5/327-430 DE Adenylyltransferase #=GS A0A0N0JAS5/327-430 DR GENE3D; fd78d63168fff740bf19fef4d534bf73/327-430; #=GS A0A0N0JAS5/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. AAP43; #=GS A0A0N0JAS5/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0Q4K8Y1/330-433 AC A0A0Q4K8Y1 #=GS A0A0Q4K8Y1/330-433 OS Sphingomonas sp. Leaf30 #=GS A0A0Q4K8Y1/330-433 DE Adenylyltransferase #=GS A0A0Q4K8Y1/330-433 DR GENE3D; fe26360d0f502261be53b58943f87c50/330-433; #=GS A0A0Q4K8Y1/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf30; #=GS A0A0Q4K8Y1/330-433 DR EC; 2.7.1.25; 2.7.7.4; #=GS I3X7A2/327-430 AC I3X7A2 #=GS I3X7A2/327-430 OS Sinorhizobium fredii USDA 257 #=GS I3X7A2/327-430 DE Bifunctional enzyme NodQ #=GS I3X7A2/327-430 DR GENE3D; fe70c7b37ad7fe2ca4835c77e427bbe6/327-430; #=GS I3X7A2/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium fredii; #=GS I3X7A2/327-430 DR EC; 2.7.1.25; 2.7.7.4; #=GS A0A0D8DTH1/332-435 AC A0A0D8DTH1 #=GS A0A0D8DTH1/332-435 OS Burkholderia sp. USM B20 #=GS A0A0D8DTH1/332-435 DE Adenylyltransferase #=GS A0A0D8DTH1/332-435 DR GENE3D; fec469d1317681bd3544d4987cccf0a5/332-435; #=GS A0A0D8DTH1/332-435 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. USM B20; #=GS A0A0D8DTH1/332-435 DR EC; 2.7.1.25; 2.7.7.4; #=GS W6K333/346-450 AC W6K333 #=GS W6K333/346-450 OS Tetrasphaera australiensis Ben110 #=GS W6K333/346-450 DE Bifunctional enzyme nodQ #=GS W6K333/346-450 DR GENE3D; ff15a5817390ac13b1742bb2b9f9701a/346-450; #=GS W6K333/346-450 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Micrococcales; Intrasporangiaceae; Tetrasphaera; Tetrasphaera australiensis; #=GS W6K333/346-450 DR EC; 2.7.1.25; 2.7.7.4; #=GS W4HWE8/312-418 AC W4HWE8 #=GS W4HWE8/312-418 OS Mycobacterium gastri 'Wayne' #=GS W4HWE8/312-418 DE Adenylylsulfate kinase #=GS W4HWE8/312-418 DR GENE3D; ff2bb40274d565537ebadc31d5c83b7a/312-418; #=GS W4HWE8/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium gastri; #=GS W4HWE8/312-418 DR EC; 2.7.1.25; 2.7.7.4; #=GS V8D1F6/326-432 AC V8D1F6 #=GS V8D1F6/326-432 OS Williamsia sp. D3 #=GS V8D1F6/326-432 DE Adenylylsulfate kinase #=GS V8D1F6/326-432 DR GENE3D; ff74a4248ba03c062863d48a67df1dc6/326-432; #=GS V8D1F6/326-432 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Williamsiaceae; Williamsia; Williamsia sp. D3; #=GS V8D1F6/326-432 DR EC; 2.7.1.25; 2.7.7.4; #=GS U3HQM4/329-434 AC U3HQM4 #=GS U3HQM4/329-434 OS Pseudomonas stutzeri MF28 #=GS U3HQM4/329-434 DE Adenylylsulfate kinase #=GS U3HQM4/329-434 DR GENE3D; ffca24520ed10fcb74488ec41068cafa/329-434; #=GS U3HQM4/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS U3HQM4/329-434 DR EC; 2.7.1.25; 2.7.7.4; #=GS Q604B8/327-431 AC Q604B8 #=GS Q604B8/327-431 OS Methylococcus capsulatus str. Bath #=GS Q604B8/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS Q604B8/327-431 DR GENE3D; ae8709ed189411de2caf2bbd36edcae0/327-431; #=GS Q604B8/327-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Methylococcales; Methylococcaceae; Methylococcus; Methylococcus capsulatus; #=GS Q604B8/327-431 DR GO; GO:0004020; GO:0004781; GO:0006790; #=GS Q604B8/327-431 DR EC; 2.7.7.4; #=GS Q87WW1/329-434 AC Q87WW1 #=GS Q87WW1/329-434 OS [Pseudomonas syringae] pv. tomato str. DC3000 #=GS Q87WW1/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS Q87WW1/329-434 DR GENE3D; fe18cf55cfde15a0770abceac1d43de4/329-434; #=GS Q87WW1/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 3; #=GS Q87WW1/329-434 DR GO; GO:0004020; GO:0004781; GO:0006790; #=GS Q87WW1/329-434 DR EC; 2.7.7.4; #=GS A0A162RN84/334-434 AC A0A162RN84 #=GS A0A162RN84/334-434 OS Enterobacter cloacae complex sp. GN06232 #=GS A0A162RN84/334-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A162RN84/334-434 DR GENE3D; 000cfc4d13822fc09971a939ec0a85e6/334-434; #=GS A0A162RN84/334-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae complex sp. GN06232; #=GS A0A162RN84/334-434 DR EC; 2.7.7.4; #=GS A0A126PXU1/327-432 AC A0A126PXU1 #=GS A0A126PXU1/327-432 OS Alteromonas macleodii #=GS A0A126PXU1/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A126PXU1/327-432 DR GENE3D; 001b6e0c41c0c2a2b46a133ee76de427/327-432; #=GS A0A126PXU1/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas macleodii; #=GS A0A126PXU1/327-432 DR EC; 2.7.7.4; #=GS A0A0E0Y9T1/327-432 AC A0A0E0Y9T1 #=GS A0A0E0Y9T1/327-432 OS Alteromonas macleodii str. 'English Channel 673' #=GS A0A0E0Y9T1/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0E0Y9T1/327-432 DR GENE3D; 001b6e0c41c0c2a2b46a133ee76de427/327-432; #=GS A0A0E0Y9T1/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas macleodii; #=GS A0A0E0Y9T1/327-432 DR EC; 2.7.7.4; #=GS K0EGL4/327-432 AC K0EGL4 #=GS K0EGL4/327-432 OS Alteromonas macleodii str. 'Balearic Sea AD45' #=GS K0EGL4/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS K0EGL4/327-432 DR GENE3D; 001b6e0c41c0c2a2b46a133ee76de427/327-432; #=GS K0EGL4/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas macleodii; #=GS K0EGL4/327-432 DR EC; 2.7.7.4; #=GS A0A1E7X7V6/333-436 AC A0A1E7X7V6 #=GS A0A1E7X7V6/333-436 OS Duganella phyllosphaerae #=GS A0A1E7X7V6/333-436 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1E7X7V6/333-436 DR GENE3D; 0038521dae6816e68e894de45589bb34/333-436; #=GS A0A1E7X7V6/333-436 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Duganella; Duganella phyllosphaerae; #=GS A0A1E7X7V6/333-436 DR EC; 2.7.7.4; #=GS R5REM8/306-408 AC R5REM8 #=GS R5REM8/306-408 OS Clostridium sp. CAG:122 #=GS R5REM8/306-408 DE Sulfate adenylyltransferase subunit 1 #=GS R5REM8/306-408 DR GENE3D; 00505530571056ebabf8f4179bef2001/306-408; #=GS R5REM8/306-408 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium sp. CAG:122; #=GS R5REM8/306-408 DR EC; 2.7.7.4; #=GS M5DK45/320-424 AC M5DK45 #=GS M5DK45/320-424 OS Nitrosospira lacus #=GS M5DK45/320-424 DE Sulfate adenylyltransferase subunit 1 #=GS M5DK45/320-424 DR GENE3D; 00517ed2eef636ea57665715058ed561/320-424; #=GS M5DK45/320-424 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Nitrosomonadales; Nitrosomonadaceae; Nitrosospira; Nitrosospira lacus; #=GS M5DK45/320-424 DR EC; 2.7.7.4; #=GS A0A0F5SHC9/333-434 AC A0A0F5SHC9 #=GS A0A0F5SHC9/333-434 OS Citrobacter amalonaticus #=GS A0A0F5SHC9/333-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0F5SHC9/333-434 DR GENE3D; 0068ee9f77bde5504b360341c6887e0b/333-434; #=GS A0A0F5SHC9/333-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter amalonaticus; #=GS A0A0F5SHC9/333-434 DR EC; 2.7.7.4; #=GS A0A010IPP4/330-434 AC A0A010IPP4 #=GS A0A010IPP4/330-434 OS Acinetobacter sp. 1542444 #=GS A0A010IPP4/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A010IPP4/330-434 DR GENE3D; 00755949be11b3034d02c715e5afbcd7/330-434; #=GS A0A010IPP4/330-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter calcoaceticus/baumannii complex; Acinetobacter sp. 1542444; #=GS A0A010IPP4/330-434 DR EC; 2.7.7.4; #=GS A0A1C2ZEE7/330-434 AC A0A1C2ZEE7 #=GS A0A1C2ZEE7/330-434 OS Acinetobacter pittii #=GS A0A1C2ZEE7/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1C2ZEE7/330-434 DR GENE3D; 00755949be11b3034d02c715e5afbcd7/330-434; #=GS A0A1C2ZEE7/330-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter calcoaceticus/baumannii complex; Acinetobacter pittii; #=GS A0A1C2ZEE7/330-434 DR EC; 2.7.7.4; #=GS A0A0V2CPY0/332-435 AC A0A0V2CPY0 #=GS A0A0V2CPY0/332-435 OS Salmonella enterica subsp. salamae serovar 56:z10:e,n,x str. 1369-73 #=GS A0A0V2CPY0/332-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0V2CPY0/332-435 DR GENE3D; 008882a5db9f79743c0dfc1a0712e366/332-435; #=GS A0A0V2CPY0/332-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. salamae; #=GS A0A0V2CPY0/332-435 DR EC; 2.7.7.4; #=GS A0A0R3A759/329-434 AC A0A0R3A759 #=GS A0A0R3A759/329-434 OS Pseudomonas veronii #=GS A0A0R3A759/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0R3A759/329-434 DR GENE3D; 00902d4cbffaa81e2771ff0768294785/329-434; #=GS A0A0R3A759/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas veronii; #=GS A0A0R3A759/329-434 DR EC; 2.7.7.4; #=GS A0A120FLS0/330-433 AC A0A120FLS0 #=GS A0A120FLS0/330-433 OS Rhizobium sp. BR10423 #=GS A0A120FLS0/330-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A120FLS0/330-433 DR GENE3D; 0094d20bcdb0866e27ced35148724422/330-433; #=GS A0A120FLS0/330-433 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. BR10423; #=GS A0A120FLS0/330-433 DR EC; 2.7.7.4; #=GS A0A0X7ADD3/331-435 AC A0A0X7ADD3 #=GS A0A0X7ADD3/331-435 OS Agrobacterium sp. LY4 #=GS A0A0X7ADD3/331-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0X7ADD3/331-435 DR GENE3D; 009a0cc5330b1f9572c9759053e5f9bb/331-435; #=GS A0A0X7ADD3/331-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium sp. LY4; #=GS A0A0X7ADD3/331-435 DR EC; 2.7.7.4; #=GS A0A135I4C0/331-434 AC A0A135I4C0 #=GS A0A135I4C0/331-434 OS Enterovibrio coralii #=GS A0A135I4C0/331-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A135I4C0/331-434 DR GENE3D; 00a2b10b12c0e3b4cfa9f983f351f1d1/331-434; #=GS A0A135I4C0/331-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Enterovibrio; Enterovibrio coralii; #=GS A0A135I4C0/331-434 DR EC; 2.7.7.4; #=GS M6VYX6/307-412 AC M6VYX6 #=GS M6VYX6/307-412 OS Leptospira borgpetersenii serovar Pomona str. 200901868 #=GS M6VYX6/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS M6VYX6/307-412 DR GENE3D; 00f05c78a1512bbffb99273d4a08df0b/307-412; #=GS M6VYX6/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira borgpetersenii; #=GS M6VYX6/307-412 DR EC; 2.7.7.4; #=GS L9M5A1/330-434 AC L9M5A1 #=GS L9M5A1/330-434 OS Acinetobacter sp. WC-743 #=GS L9M5A1/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS L9M5A1/330-434 DR GENE3D; 0152950ee2fd440170a6d81a956564ad/330-434; #=GS L9M5A1/330-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter sp. WC-743; #=GS L9M5A1/330-434 DR EC; 2.7.7.4; #=GS A0A0M3AEK3/330-434 AC A0A0M3AEK3 #=GS A0A0M3AEK3/330-434 OS Acinetobacter sp. Ag2 #=GS A0A0M3AEK3/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0M3AEK3/330-434 DR GENE3D; 0152950ee2fd440170a6d81a956564ad/330-434; #=GS A0A0M3AEK3/330-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter sp. Ag2; #=GS A0A0M3AEK3/330-434 DR EC; 2.7.7.4; #=GS A0A1F0UG16/323-427 AC A0A1F0UG16 #=GS A0A1F0UG16/323-427 OS Haemophilus sp. HMSC073C03 #=GS A0A1F0UG16/323-427 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1F0UG16/323-427 DR GENE3D; 0153d8efcd61840457ca8587cd227643/323-427; #=GS A0A1F0UG16/323-427 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus sp. HMSC073C03; #=GS A0A1F0UG16/323-427 DR EC; 2.7.7.4; #=GS A0A197ZWZ1/306-409 AC A0A197ZWZ1 #=GS A0A197ZWZ1/306-409 OS Paenibacillus sp. 1ZS3-15 #=GS A0A197ZWZ1/306-409 DE Sulfate adenylyltransferase subunit 1 #=GS A0A197ZWZ1/306-409 DR GENE3D; 018206b64d653803896773be8241e834/306-409; #=GS A0A197ZWZ1/306-409 DR ORG; Bacteria; Firmicutes; Bacilli; Bacillales; Paenibacillaceae; Paenibacillus; Paenibacillus sp. 1ZS3-15; #=GS A0A197ZWZ1/306-409 DR EC; 2.7.7.4; #=GS A0A0E2MGE0/334-434 AC A0A0E2MGE0 #=GS A0A0E2MGE0/334-434 OS Enterobacter sp. MGH 14 #=GS A0A0E2MGE0/334-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0E2MGE0/334-434 DR GENE3D; 018230bbdcf6b7b2732db80d3eaf1491/334-434; #=GS A0A0E2MGE0/334-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter sp. MGH 14; #=GS A0A0E2MGE0/334-434 DR EC; 2.7.7.4; #=GS A0A0J0GWJ7/334-434 AC A0A0J0GWJ7 #=GS A0A0J0GWJ7/334-434 OS Enterobacter cloacae #=GS A0A0J0GWJ7/334-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0J0GWJ7/334-434 DR GENE3D; 018230bbdcf6b7b2732db80d3eaf1491/334-434; #=GS A0A0J0GWJ7/334-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; #=GS A0A0J0GWJ7/334-434 DR EC; 2.7.7.4; #=GS A0A0R3FFL2/331-437 AC A0A0R3FFL2 #=GS A0A0R3FFL2/331-437 OS Mycobacterium sp. H092 #=GS A0A0R3FFL2/331-437 DE Adenylyl-sulfate kinase #=GS A0A0R3FFL2/331-437 DR GENE3D; 018d2cf358f3fe8912f3f61af70a0993/331-437; #=GS A0A0R3FFL2/331-437 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium chelonae group; Mycobacterium sp. H092; #=GS A0A0R3FFL2/331-437 DR EC; 2.7.1.25; #=GS B9JT87/349-452 AC B9JT87 #=GS B9JT87/349-452 OS Agrobacterium vitis S4 #=GS B9JT87/349-452 DE Sulfate adenylyltransferase subunit 1 #=GS B9JT87/349-452 DR GENE3D; 018f11ebe0f553a3996d258788b66c44/349-452; #=GS B9JT87/349-452 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium vitis; #=GS B9JT87/349-452 DR EC; 2.7.7.4; #=GS U3B348/327-431 AC U3B348 #=GS U3B348/327-431 OS Vibrio ezurae NBRC 102218 #=GS U3B348/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS U3B348/327-431 DR GENE3D; 01927624e120bc3c7e26e1fa8dc2ead5/327-431; #=GS U3B348/327-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio ezurae; #=GS U3B348/327-431 DR EC; 2.7.7.4; #=GS A0A1E5C324/331-434 AC A0A1E5C324 #=GS A0A1E5C324/331-434 OS Enterovibrio calviensis FF-85 #=GS A0A1E5C324/331-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1E5C324/331-434 DR GENE3D; 019f17eacc17bb3bd6ff7e53a10d9862/331-434; #=GS A0A1E5C324/331-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Enterovibrio; Enterovibrio calviensis; #=GS A0A1E5C324/331-434 DR EC; 2.7.7.4; #=GS R0FY29/355-458 AC R0FY29 #=GS R0FY29/355-458 OS Xanthomonas fragariae LMG 25863 #=GS R0FY29/355-458 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS R0FY29/355-458 DR GENE3D; 01ee997fb787e414a10c626c7d34919d/355-458; #=GS R0FY29/355-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas fragariae; #=GS R0FY29/355-458 DR EC; 2.7.1.25; #=GS A0A0E4A8Y3/313-419 AC A0A0E4A8Y3 #=GS A0A0E4A8Y3/313-419 OS Rhodococcus erythropolis #=GS A0A0E4A8Y3/313-419 DE Adenylyl-sulfate kinase #=GS A0A0E4A8Y3/313-419 DR GENE3D; 0229de4285e81d40329f410615cafeee/313-419; #=GS A0A0E4A8Y3/313-419 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus erythropolis; #=GS A0A0E4A8Y3/313-419 DR EC; 2.7.1.25; #=GS U0FCP5/313-419 AC U0FCP5 #=GS U0FCP5/313-419 OS Rhodococcus sp. P27 #=GS U0FCP5/313-419 DE Adenylyl-sulfate kinase #=GS U0FCP5/313-419 DR GENE3D; 0229de4285e81d40329f410615cafeee/313-419; #=GS U0FCP5/313-419 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus sp. P27; #=GS U0FCP5/313-419 DR EC; 2.7.1.25; #=GS C1A209/313-419 AC C1A209 #=GS C1A209/313-419 OS Rhodococcus erythropolis PR4 #=GS C1A209/313-419 DE Adenylyl-sulfate kinase #=GS C1A209/313-419 DR GENE3D; 0229de4285e81d40329f410615cafeee/313-419; #=GS C1A209/313-419 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus erythropolis; #=GS C1A209/313-419 DR EC; 2.7.1.25; #=GS T5I1B3/313-419 AC T5I1B3 #=GS T5I1B3/313-419 OS Rhodococcus erythropolis DN1 #=GS T5I1B3/313-419 DE Adenylyl-sulfate kinase #=GS T5I1B3/313-419 DR GENE3D; 0229de4285e81d40329f410615cafeee/313-419; #=GS T5I1B3/313-419 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Rhodococcus; Rhodococcus erythropolis; #=GS T5I1B3/313-419 DR EC; 2.7.1.25; #=GS A0A1J5J2J6/322-426 AC A0A1J5J2J6 #=GS A0A1J5J2J6/322-426 OS Zetaproteobacteria bacterium CG2_30_59_37 #=GS A0A1J5J2J6/322-426 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1J5J2J6/322-426 DR GENE3D; 0244106023ed37cd9fe33ed11f6b9316/322-426; #=GS A0A1J5J2J6/322-426 DR ORG; Bacteria; Proteobacteria; Zetaproteobacteria; Zetaproteobacteria bacterium CG2_30_59_37; #=GS A0A1J5J2J6/322-426 DR EC; 2.7.7.4; #=GS A0A0V2E5Q0/333-435 AC A0A0V2E5Q0 #=GS A0A0V2E5Q0/333-435 OS Salmonella enterica subsp. arizonae serovar 63:g,z51:- str. So 20/20 #=GS A0A0V2E5Q0/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0V2E5Q0/333-435 DR GENE3D; 0249d60712553008c347506e981e0871/333-435; #=GS A0A0V2E5Q0/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A0V2E5Q0/333-435 DR EC; 2.7.7.4; #=GS A0A011PDU7/325-429 AC A0A011PDU7 #=GS A0A011PDU7/325-429 OS Candidatus Accumulibacter sp. SK-11 #=GS A0A011PDU7/325-429 DE Sulfate adenylyltransferase subunit 1 #=GS A0A011PDU7/325-429 DR GENE3D; 0260edd25b966bf13634216ff3fbf5ee/325-429; #=GS A0A011PDU7/325-429 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Candidatus Accumulibacter; Candidatus Accumulibacter sp. SK-11; #=GS A0A011PDU7/325-429 DR EC; 2.7.7.4; #=GS A0A137XYM0/329-434 AC A0A137XYM0 #=GS A0A137XYM0/329-434 OS Pseudomonas stutzeri #=GS A0A137XYM0/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A137XYM0/329-434 DR GENE3D; 026d3cd2df01abbdaf501e1cd7d815d5/329-434; #=GS A0A137XYM0/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS A0A137XYM0/329-434 DR EC; 2.7.7.4; #=GS N9LI33/330-434 AC N9LI33 #=GS N9LI33/330-434 OS Acinetobacter sp. ANC 3929 #=GS N9LI33/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS N9LI33/330-434 DR GENE3D; 026e98fc1464ebad9c5d0a3bc3b193f6/330-434; #=GS N9LI33/330-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter sp. ANC 3929; #=GS N9LI33/330-434 DR EC; 2.7.7.4; #=GS A0A078PWD5/323-437 AC A0A078PWD5 #=GS A0A078PWD5/323-437 OS Bacteroides ovatus str. 3725 D1 iv #=GS A0A078PWD5/323-437 DE Sulfate adenylyltransferase subunit 1 #=GS A0A078PWD5/323-437 DR GENE3D; 026f05ddf5c074c017a208a824a9783e/323-437; #=GS A0A078PWD5/323-437 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides ovatus; #=GS A0A078PWD5/323-437 DR EC; 2.7.7.4; #=GS A0A1F0IDK1/323-437 AC A0A1F0IDK1 #=GS A0A1F0IDK1/323-437 OS Bacteroides sp. HMSC073E02 #=GS A0A1F0IDK1/323-437 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1F0IDK1/323-437 DR GENE3D; 026f05ddf5c074c017a208a824a9783e/323-437; #=GS A0A1F0IDK1/323-437 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides sp. HMSC073E02; #=GS A0A1F0IDK1/323-437 DR EC; 2.7.7.4; #=GS A0A078QBQ3/323-437 AC A0A078QBQ3 #=GS A0A078QBQ3/323-437 OS Bacteroides fragilis str. 3725 D9 ii #=GS A0A078QBQ3/323-437 DE Sulfate adenylyltransferase subunit 1 #=GS A0A078QBQ3/323-437 DR GENE3D; 026f05ddf5c074c017a208a824a9783e/323-437; #=GS A0A078QBQ3/323-437 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides fragilis; #=GS A0A078QBQ3/323-437 DR EC; 2.7.7.4; #=GS A0A1M4B9H0/333-435 AC A0A1M4B9H0 #=GS A0A1M4B9H0/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM 32457 #=GS A0A1M4B9H0/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M4B9H0/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M4B9H0/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M4B9H0/333-435 DR EC; 2.7.7.4; #=GS A0A1M3YHT3/333-435 AC A0A1M3YHT3 #=GS A0A1M3YHT3/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N6509 #=GS A0A1M3YHT3/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3YHT3/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3YHT3/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3YHT3/333-435 DR EC; 2.7.7.4; #=GS A0A0W5W1N1/333-435 AC A0A0W5W1N1 #=GS A0A0W5W1N1/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- #=GS A0A0W5W1N1/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0W5W1N1/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A0W5W1N1/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A0W5W1N1/333-435 DR EC; 2.7.7.4; #=GS A0A1M3YJY5/333-435 AC A0A1M3YJY5 #=GS A0A1M3YJY5/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N5 #=GS A0A1M3YJY5/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3YJY5/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3YJY5/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3YJY5/333-435 DR EC; 2.7.7.4; #=GS A0A1M3VE13/333-435 AC A0A1M3VE13 #=GS A0A1M3VE13/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N26625 #=GS A0A1M3VE13/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3VE13/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3VE13/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3VE13/333-435 DR EC; 2.7.7.4; #=GS A0A1M3W950/333-435 AC A0A1M3W950 #=GS A0A1M3W950/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N18554 #=GS A0A1M3W950/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3W950/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3W950/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3W950/333-435 DR EC; 2.7.7.4; #=GS A0A1M3WS01/333-435 AC A0A1M3WS01 #=GS A0A1M3WS01/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N18383 #=GS A0A1M3WS01/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3WS01/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3WS01/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3WS01/333-435 DR EC; 2.7.7.4; #=GS A0A1M3VV50/333-435 AC A0A1M3VV50 #=GS A0A1M3VV50/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N25373 #=GS A0A1M3VV50/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3VV50/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3VV50/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3VV50/333-435 DR EC; 2.7.7.4; #=GS A0A1M4ATC2/333-435 AC A0A1M4ATC2 #=GS A0A1M4ATC2/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N31597 #=GS A0A1M4ATC2/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M4ATC2/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M4ATC2/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M4ATC2/333-435 DR EC; 2.7.7.4; #=GS A0A1M4B754/333-435 AC A0A1M4B754 #=GS A0A1M4B754/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N29354 #=GS A0A1M4B754/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M4B754/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M4B754/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M4B754/333-435 DR EC; 2.7.7.4; #=GS A0A1M3WX11/333-435 AC A0A1M3WX11 #=GS A0A1M3WX11/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N9135 #=GS A0A1M3WX11/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3WX11/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3WX11/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3WX11/333-435 DR EC; 2.7.7.4; #=GS A0A1M3YPF4/333-435 AC A0A1M3YPF4 #=GS A0A1M3YPF4/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N27 #=GS A0A1M3YPF4/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3YPF4/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3YPF4/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3YPF4/333-435 DR EC; 2.7.7.4; #=GS A0A1M3Y3C6/333-435 AC A0A1M3Y3C6 #=GS A0A1M3Y3C6/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N4410 #=GS A0A1M3Y3C6/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3Y3C6/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3Y3C6/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3Y3C6/333-435 DR EC; 2.7.7.4; #=GS A0A1M3VA73/333-435 AC A0A1M3VA73 #=GS A0A1M3VA73/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N26624 #=GS A0A1M3VA73/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3VA73/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3VA73/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3VA73/333-435 DR EC; 2.7.7.4; #=GS A0A1M3WFX1/333-435 AC A0A1M3WFX1 #=GS A0A1M3WFX1/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N20028 #=GS A0A1M3WFX1/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3WFX1/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3WFX1/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3WFX1/333-435 DR EC; 2.7.7.4; #=GS A0A1M3WS18/333-435 AC A0A1M3WS18 #=GS A0A1M3WS18/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N18503 #=GS A0A1M3WS18/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3WS18/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3WS18/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3WS18/333-435 DR EC; 2.7.7.4; #=GS A0A1M3V7X8/333-435 AC A0A1M3V7X8 #=GS A0A1M3V7X8/333-435 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N26626 #=GS A0A1M3V7X8/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3V7X8/333-435 DR GENE3D; 027b63104dd41270957473e6daaa39d0/333-435; #=GS A0A1M3V7X8/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3V7X8/333-435 DR EC; 2.7.7.4; #=GS W5TCP9/310-417 AC W5TCP9 #=GS W5TCP9/310-417 OS Nocardia nova SH22a #=GS W5TCP9/310-417 DE Adenylyl-sulfate kinase #=GS W5TCP9/310-417 DR GENE3D; 02804e553cb88f34aa627da641f57364/310-417; #=GS W5TCP9/310-417 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Nocardia; Nocardia nova; #=GS W5TCP9/310-417 DR EC; 2.7.1.25; #=GS A0A136HXU6/327-432 AC A0A136HXU6 #=GS A0A136HXU6/327-432 OS Alteromonas sp. Nap_26 #=GS A0A136HXU6/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A136HXU6/327-432 DR GENE3D; 028288952e1d3215287b99b8792713dc/327-432; #=GS A0A136HXU6/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas sp. Nap_26; #=GS A0A136HXU6/327-432 DR EC; 2.7.7.4; #=GS A0A0B9GT68/331-433 AC A0A0B9GT68 #=GS A0A0B9GT68/331-433 OS Photobacterium gaetbulicola #=GS A0A0B9GT68/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0B9GT68/331-433 DR GENE3D; 02903add6fdc3f3f33069e8d19febabc/331-433; #=GS A0A0B9GT68/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium gaetbulicola; #=GS A0A0B9GT68/331-433 DR EC; 2.7.7.4; #=GS A0A168JEC2/325-429 AC A0A168JEC2 #=GS A0A168JEC2/325-429 OS Pandoraea pnomenusa #=GS A0A168JEC2/325-429 DE Sulfate adenylyltransferase subunit 1 #=GS A0A168JEC2/325-429 DR GENE3D; 02a63e459c1868e63475db17a56e4632/325-429; #=GS A0A168JEC2/325-429 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Pandoraea; Pandoraea pnomenusa; #=GS A0A168JEC2/325-429 DR EC; 2.7.7.4; #=GS A0A0Q0B5Q2/329-434 AC A0A0Q0B5Q2 #=GS A0A0Q0B5Q2/329-434 OS Pseudomonas syringae pv. primulae #=GS A0A0Q0B5Q2/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q0B5Q2/329-434 DR GENE3D; 033e44c10c580690fc516ba7b299c17e/329-434; #=GS A0A0Q0B5Q2/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 3; #=GS A0A0Q0B5Q2/329-434 DR EC; 2.7.7.4; #=GS K0V1D4/312-418 AC K0V1D4 #=GS K0V1D4/312-418 OS Mycobacterium vaccae ATCC 25954 #=GS K0V1D4/312-418 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS K0V1D4/312-418 DR GENE3D; 0343b87243c9d9003c6376cbece7785d/312-418; #=GS K0V1D4/312-418 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium vaccae; #=GS K0V1D4/312-418 DR EC; 2.7.7.4; #=GS J7LJ08/313-420 AC J7LJ08 #=GS J7LJ08/313-420 OS Nocardiopsis alba ATCC BAA-2165 #=GS J7LJ08/313-420 DE Sulfate adenylyltransferase subunit 1 #=GS J7LJ08/313-420 DR GENE3D; 0355626ece5be6c8b504f0141003c159/313-420; #=GS J7LJ08/313-420 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptosporangiales; Nocardiopsaceae; Nocardiopsis; Nocardiopsis alba; #=GS J7LJ08/313-420 DR EC; 2.7.7.4; #=GS A0A0X6Z745/334-434 AC A0A0X6Z745 #=GS A0A0X6Z745/334-434 OS Enterobacter cloacae complex sp. GN02468 #=GS A0A0X6Z745/334-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0X6Z745/334-434 DR GENE3D; 036325ef36a4bfb6bb23e7cf4809d5b0/334-434; #=GS A0A0X6Z745/334-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae complex sp. GN02468; #=GS A0A0X6Z745/334-434 DR EC; 2.7.7.4; #=GS A0A0D8KXN6/331-435 AC A0A0D8KXN6 #=GS A0A0D8KXN6/331-435 OS Agrobacterium arsenijevicii #=GS A0A0D8KXN6/331-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0D8KXN6/331-435 DR GENE3D; 03693f17ad02d6e0b42ef26e9e8de9da/331-435; #=GS A0A0D8KXN6/331-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium arsenijevicii; #=GS A0A0D8KXN6/331-435 DR EC; 2.7.7.4; #=GS R7A5T6/189-294 AC R7A5T6 #=GS R7A5T6/189-294 OS Bacteroides fragilis CAG:47 #=GS R7A5T6/189-294 DE Sulfate adenylyltransferase subunit 1 #=GS R7A5T6/189-294 DR GENE3D; 03763e46c8303065ef953473f6027d0c/189-294; #=GS R7A5T6/189-294 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides fragilis CAG:47; #=GS R7A5T6/189-294 DR EC; 2.7.7.4; #=GS A0A0E2ZW70/327-431 AC A0A0E2ZW70 #=GS A0A0E2ZW70/327-431 OS Francisella philomiragia #=GS A0A0E2ZW70/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0E2ZW70/327-431 DR GENE3D; 03819ba94b03f5bb1aa7eea004e2ca7c/327-431; #=GS A0A0E2ZW70/327-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Francisellaceae; Francisella; Francisella philomiragia; #=GS A0A0E2ZW70/327-431 DR EC; 2.7.7.4; #=GS D2S4R0/321-426 AC D2S4R0 #=GS D2S4R0/321-426 OS Geodermatophilus obscurus DSM 43160 #=GS D2S4R0/321-426 DE Sulfate adenylyltransferase subunit 1 #=GS D2S4R0/321-426 DR GENE3D; 0398be39fa4f5e2ba2f1cfbeed519f11/321-426; #=GS D2S4R0/321-426 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Geodermatophilales; Geodermatophilaceae; Geodermatophilus; Geodermatophilus obscurus; #=GS D2S4R0/321-426 DR EC; 2.7.7.4; #=GS L0DHX8/327-431 AC L0DHX8 #=GS L0DHX8/327-431 OS Singulisphaera acidiphila DSM 18658 #=GS L0DHX8/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS L0DHX8/327-431 DR GENE3D; 03cc7143e78f56ae339cf1ad0b85c2a1/327-431; #=GS L0DHX8/327-431 DR ORG; Bacteria; Planctomycetes; Planctomycetia; Planctomycetales; Isosphaeraceae; Singulisphaera; Singulisphaera acidiphila; #=GS L0DHX8/327-431 DR EC; 2.7.7.4; #=GS A0A1F3DK54/317-422 AC A0A1F3DK54 #=GS A0A1F3DK54/317-422 OS Bacteroidetes bacterium GWA2_40_15 #=GS A0A1F3DK54/317-422 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1F3DK54/317-422 DR GENE3D; 03da7ded84730369d5ac1c0ec29ad1ad/317-422; #=GS A0A1F3DK54/317-422 DR ORG; Bacteria; Bacteroidetes; Bacteroidetes bacterium GWA2_40_15; #=GS A0A1F3DK54/317-422 DR EC; 2.7.7.4; #=GS A0A1G0MDX9/327-432 AC A0A1G0MDX9 #=GS A0A1G0MDX9/327-432 OS Geobacteraceae bacterium GWC2_58_44 #=GS A0A1G0MDX9/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1G0MDX9/327-432 DR GENE3D; 0402bc199fdb65466c5297531e2d47bc/327-432; #=GS A0A1G0MDX9/327-432 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Geobacteraceae; Geobacteraceae bacterium GWC2_58_44; #=GS A0A1G0MDX9/327-432 DR EC; 2.7.7.4; #=GS A0A023WNL8/329-434 AC A0A023WNL8 #=GS A0A023WNL8/329-434 OS Pseudomonas stutzeri #=GS A0A023WNL8/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A023WNL8/329-434 DR GENE3D; 04041c1c2decfcb616d7bfe0900790af/329-434; #=GS A0A023WNL8/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS A0A023WNL8/329-434 DR EC; 2.7.7.4; #=GS U7UB88/326-430 AC U7UB88 #=GS U7UB88/326-430 OS Alcaligenes sp. EGD-AK7 #=GS U7UB88/326-430 DE Sulfate adenylyltransferase subunit 1 #=GS U7UB88/326-430 DR GENE3D; 0420ca398f4de7bb927bce7823f43e87/326-430; #=GS U7UB88/326-430 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Alcaligenes; Alcaligenes sp. EGD-AK7; #=GS U7UB88/326-430 DR EC; 2.7.7.4; #=GS A0A0P9KQG2/351-456 AC A0A0P9KQG2 #=GS A0A0P9KQG2/351-456 OS Pseudomonas syringae pv. broussonetiae #=GS A0A0P9KQG2/351-456 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0P9KQG2/351-456 DR GENE3D; 04220f059880f1e16b16e74d6d4bdde1/351-456; #=GS A0A0P9KQG2/351-456 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; #=GS A0A0P9KQG2/351-456 DR EC; 2.7.7.4; #=GS A0A0P9UZ72/351-456 AC A0A0P9UZ72 #=GS A0A0P9UZ72/351-456 OS Pseudomonas amygdali pv. mori #=GS A0A0P9UZ72/351-456 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0P9UZ72/351-456 DR GENE3D; 04220f059880f1e16b16e74d6d4bdde1/351-456; #=GS A0A0P9UZ72/351-456 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 2; Pseudomonas amygdali; #=GS A0A0P9UZ72/351-456 DR EC; 2.7.7.4; #=GS A0A0W0M054/329-434 AC A0A0W0M054 #=GS A0A0W0M054/329-434 OS Pseudomonas marginalis ICMP 11289 #=GS A0A0W0M054/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0W0M054/329-434 DR GENE3D; 0425c3e2fc64a45a4f443cda3e5ecdaa/329-434; #=GS A0A0W0M054/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas marginalis; #=GS A0A0W0M054/329-434 DR EC; 2.7.7.4; #=GS A6D498/331-433 AC A6D498 #=GS A6D498/331-433 OS Vibrio shilonii AK1 #=GS A6D498/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A6D498/331-433 DR GENE3D; 0427e769691db65c9f7d36181d5b34bf/331-433; #=GS A6D498/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio shilonii; #=GS A6D498/331-433 DR EC; 2.7.7.4; #=GS A0A1H2L4M5/329-434 AC A0A1H2L4M5 #=GS A0A1H2L4M5/329-434 OS Pseudomonas mediterranea #=GS A0A1H2L4M5/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1H2L4M5/329-434 DR GENE3D; 042ab03f4fad50001bc1623f39305e5f/329-434; #=GS A0A1H2L4M5/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas mediterranea; #=GS A0A1H2L4M5/329-434 DR EC; 2.7.7.4; #=GS A0A0A4GP91/329-434 AC A0A0A4GP91 #=GS A0A0A4GP91/329-434 OS Pseudomonas mediterranea CFBP 5447 #=GS A0A0A4GP91/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0A4GP91/329-434 DR GENE3D; 042ab03f4fad50001bc1623f39305e5f/329-434; #=GS A0A0A4GP91/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas mediterranea; #=GS A0A0A4GP91/329-434 DR EC; 2.7.7.4; #=GS W8U9J7/356-458 AC W8U9J7 #=GS W8U9J7/356-458 OS Yersinia enterocolitica LC20 #=GS W8U9J7/356-458 DE Sulfate adenylyltransferase subunit 1 #=GS W8U9J7/356-458 DR GENE3D; 043084e80c9f7061165b3b9c37024c82/356-458; #=GS W8U9J7/356-458 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia enterocolitica; #=GS W8U9J7/356-458 DR EC; 2.7.7.4; #=GS K5ZWQ3/321-435 AC K5ZWQ3 #=GS K5ZWQ3/321-435 OS Parabacteroides merdae CL03T12C32 #=GS K5ZWQ3/321-435 DE Sulfate adenylyltransferase subunit 1 #=GS K5ZWQ3/321-435 DR GENE3D; 04497025244ed2a6facc9f3517b56495/321-435; #=GS K5ZWQ3/321-435 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Porphyromonadaceae; Parabacteroides; Parabacteroides merdae; #=GS K5ZWQ3/321-435 DR EC; 2.7.7.4; #=GS A0A1H1WMH5/330-435 AC A0A1H1WMH5 #=GS A0A1H1WMH5/330-435 OS Pseudomonas sabulinigri #=GS A0A1H1WMH5/330-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1H1WMH5/330-435 DR GENE3D; 04587ef67c3c0f439a75928d00b87490/330-435; #=GS A0A1H1WMH5/330-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sabulinigri; #=GS A0A1H1WMH5/330-435 DR EC; 2.7.7.4; #=GS A0A1C4GRT6/331-434 AC A0A1C4GRT6 #=GS A0A1C4GRT6/331-434 OS Acinetobacter albensis #=GS A0A1C4GRT6/331-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1C4GRT6/331-434 DR GENE3D; 0459be431b60a7fd05c0f0b801279bbc/331-434; #=GS A0A1C4GRT6/331-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter albensis; #=GS A0A1C4GRT6/331-434 DR EC; 2.7.7.4; #=GS A1ST27/326-430 AC A1ST27 #=GS A1ST27/326-430 OS Psychromonas ingrahamii 37 #=GS A1ST27/326-430 DE Sulfate adenylyltransferase subunit 1 #=GS A1ST27/326-430 DR GENE3D; 0466af0609192d1a44dfaa3619b35c93/326-430; #=GS A1ST27/326-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Psychromonadaceae; Psychromonas; Psychromonas ingrahamii; #=GS A1ST27/326-430 DR EC; 2.7.7.4; #=GS A0A154U952/322-426 AC A0A154U952 #=GS A0A154U952/322-426 OS Neisseria flavescens #=GS A0A154U952/322-426 DE Sulfate adenylyltransferase subunit 1 #=GS A0A154U952/322-426 DR GENE3D; 04a8642e40c6b60656eb29061197643b/322-426; #=GS A0A154U952/322-426 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria flavescens; #=GS A0A154U952/322-426 DR EC; 2.7.7.4; #=GS E5B298/334-435 AC E5B298 #=GS E5B298/334-435 OS Erwinia amylovora ATCC BAA-2158 #=GS E5B298/334-435 DE Sulfate adenylyltransferase subunit 1 #=GS E5B298/334-435 DR GENE3D; 04c4404abe447d02f04edcd192d715b0/334-435; #=GS E5B298/334-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Erwinia; Erwinia amylovora; #=GS E5B298/334-435 DR EC; 2.7.7.4; #=GS D4HWM8/334-435 AC D4HWM8 #=GS D4HWM8/334-435 OS Erwinia amylovora CFBP1430 #=GS D4HWM8/334-435 DE Sulfate adenylyltransferase subunit 1 #=GS D4HWM8/334-435 DR GENE3D; 04c4404abe447d02f04edcd192d715b0/334-435; #=GS D4HWM8/334-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Erwinia; Erwinia amylovora; #=GS D4HWM8/334-435 DR EC; 2.7.7.4; #=GS A0A0K0HTG9/337-438 AC A0A0K0HTG9 #=GS A0A0K0HTG9/337-438 OS Hafnia alvei #=GS A0A0K0HTG9/337-438 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0K0HTG9/337-438 DR GENE3D; 04d1238a04f2a89fd5bc85d5dc040435/337-438; #=GS A0A0K0HTG9/337-438 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Hafnia; Hafnia alvei; #=GS A0A0K0HTG9/337-438 DR EC; 2.7.7.4; #=GS M7CQU5/327-432 AC M7CQU5 #=GS M7CQU5/327-432 OS Marinobacter santoriniensis NKSG1 #=GS M7CQU5/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS M7CQU5/327-432 DR GENE3D; 04ec52d51fbf17883763859c4bacd7fd/327-432; #=GS M7CQU5/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter santoriniensis; #=GS M7CQU5/327-432 DR EC; 2.7.7.4; #=GS A0A175VHS6/329-434 AC A0A175VHS6 #=GS A0A175VHS6/329-434 OS Aeromonas enteropelogenes #=GS A0A175VHS6/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A175VHS6/329-434 DR GENE3D; 050257aa894c52ecbe61f092372404a3/329-434; #=GS A0A175VHS6/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas enteropelogenes; #=GS A0A175VHS6/329-434 DR EC; 2.7.7.4; #=GS A1U491/327-432 AC A1U491 #=GS A1U491/327-432 OS Marinobacter hydrocarbonoclasticus VT8 #=GS A1U491/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS A1U491/327-432 DR GENE3D; 051ae2423b79c96ca733262a1c111670/327-432; #=GS A1U491/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter hydrocarbonoclasticus; #=GS A1U491/327-432 DR EC; 2.7.7.4; #=GS U7HHX8/327-432 AC U7HHX8 #=GS U7HHX8/327-432 OS Marinobacter sp. EN3 #=GS U7HHX8/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS U7HHX8/327-432 DR GENE3D; 051ae2423b79c96ca733262a1c111670/327-432; #=GS U7HHX8/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter sp. EN3; #=GS U7HHX8/327-432 DR EC; 2.7.7.4; #=GS A0A095FYE2/321-425 AC A0A095FYE2 #=GS A0A095FYE2/321-425 OS Burkholderia gladioli #=GS A0A095FYE2/321-425 DE Sulfate adenylyltransferase subunit 1 #=GS A0A095FYE2/321-425 DR GENE3D; 051b1dcecab6e8bad4c7dfa64befefc4/321-425; #=GS A0A095FYE2/321-425 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia gladioli; #=GS A0A095FYE2/321-425 DR EC; 2.7.7.4; #=GS N1UDR5/307-412 AC N1UDR5 #=GS N1UDR5/307-412 OS Leptospira weilii str. Ecochallenge #=GS N1UDR5/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS N1UDR5/307-412 DR GENE3D; 051b416d1d8c9add5a822e31b445caed/307-412; #=GS N1UDR5/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira weilii; #=GS N1UDR5/307-412 DR EC; 2.7.7.4; #=GS N6UVK9/54-157 AC N6UVK9 #=GS N6UVK9/54-157 OS Rhizobium freirei PRF 81 #=GS N6UVK9/54-157 DE Adenylyl-sulfate kinase #=GS N6UVK9/54-157 DR GENE3D; 0536fc3223e731da27fca4318f0a8aeb/54-157; #=GS N6UVK9/54-157 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium freirei; #=GS N6UVK9/54-157 DR EC; 2.7.1.25; #=GS L0LQD2/54-157 AC L0LQD2 #=GS L0LQD2/54-157 OS Rhizobium tropici CIAT 899 #=GS L0LQD2/54-157 DE Adenylyl-sulfate kinase #=GS L0LQD2/54-157 DR GENE3D; 0536fc3223e731da27fca4318f0a8aeb/54-157; #=GS L0LQD2/54-157 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium tropici; #=GS L0LQD2/54-157 DR EC; 2.7.1.25; #=GS J7Q4U3/326-430 AC J7Q4U3 #=GS J7Q4U3/326-430 OS Methylocystis sp. SC2 #=GS J7Q4U3/326-430 DE Sulfate adenylyltransferase, large subunit #=GS J7Q4U3/326-430 DR GENE3D; 05525c7a6502e40b16518457a74053c5/326-430; #=GS J7Q4U3/326-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylocystaceae; Methylocystis; Methylocystis sp. SC2; #=GS J7Q4U3/326-430 DR EC; 2.7.7.4; #=GS H7ESH2/329-434 AC H7ESH2 #=GS H7ESH2/329-434 OS Pseudomonas stutzeri ATCC 14405 = CCUG 16156 #=GS H7ESH2/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS H7ESH2/329-434 DR GENE3D; 055b7f374b162224f6cf2c882bb52fa1/329-434; #=GS H7ESH2/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS H7ESH2/329-434 DR EC; 2.7.7.4; #=GS E3DHK5/334-435 AC E3DHK5 #=GS E3DHK5/334-435 OS Erwinia sp. Ejp617 #=GS E3DHK5/334-435 DE Sulfate adenylyltransferase subunit 1 #=GS E3DHK5/334-435 DR GENE3D; 057944552e2f3ae2eb54b2a92a9a963e/334-435; #=GS E3DHK5/334-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Erwinia; Erwinia sp. Ejp617; #=GS E3DHK5/334-435 DR EC; 2.7.7.4; #=GS A0A177JSM6/329-434 AC A0A177JSM6 #=GS A0A177JSM6/329-434 OS Pseudomonas monteilii #=GS A0A177JSM6/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A177JSM6/329-434 DR GENE3D; 0583967ec589b2ffc5a6ff5b04240847/329-434; #=GS A0A177JSM6/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas monteilii; #=GS A0A177JSM6/329-434 DR EC; 2.7.7.4; #=GS A0A1E7Z4T9/334-435 AC A0A1E7Z4T9 #=GS A0A1E7Z4T9/334-435 OS Candidatus Erwinia dacicola #=GS A0A1E7Z4T9/334-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1E7Z4T9/334-435 DR GENE3D; 05ad746f5231710fc1de1f20dc8573b0/334-435; #=GS A0A1E7Z4T9/334-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Erwinia; Candidatus Erwinia dacicola; #=GS A0A1E7Z4T9/334-435 DR EC; 2.7.7.4; #=GS A0A174SWL1/305-407 AC A0A174SWL1 #=GS A0A174SWL1/305-407 OS Blautia wexlerae #=GS A0A174SWL1/305-407 DE Sulfate adenylyltransferase subunit 1 #=GS A0A174SWL1/305-407 DR GENE3D; 05b4318c34b0ab79f717e010ec6d1729/305-407; #=GS A0A174SWL1/305-407 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Blautia; Blautia wexlerae; #=GS A0A174SWL1/305-407 DR EC; 2.7.7.4; #=GS J0VA86/333-436 AC J0VA86 #=GS J0VA86/333-436 OS Rhizobium leguminosarum bv. viciae WSM1455 #=GS J0VA86/333-436 DE Sulfate adenylyltransferase subunit 1 #=GS J0VA86/333-436 DR GENE3D; 05b9dc61009f5b02a2fcb2d5f2ed10d0/333-436; #=GS J0VA86/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium leguminosarum; #=GS J0VA86/333-436 DR EC; 2.7.7.4; #=GS S5TUS1/333-437 AC S5TUS1 #=GS S5TUS1/333-437 OS Cycloclasticus zancles 78-ME #=GS S5TUS1/333-437 DE Sulfate adenylyltransferase subunit 1 #=GS S5TUS1/333-437 DR GENE3D; 05cd58f4d78d8b4cd4daf19c220bbbe0/333-437; #=GS S5TUS1/333-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Cycloclasticus; Cycloclasticus zancles; #=GS S5TUS1/333-437 DR EC; 2.7.7.4; #=GS R5M0I6/324-438 AC R5M0I6 #=GS R5M0I6/324-438 OS Bacteroides intestinalis CAG:564 #=GS R5M0I6/324-438 DE Sulfate adenylyltransferase subunit 1 #=GS R5M0I6/324-438 DR GENE3D; 05d68c413aaa03cb76b2ed37d48fa8e4/324-438; #=GS R5M0I6/324-438 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides intestinalis CAG:564; #=GS R5M0I6/324-438 DR EC; 2.7.7.4; #=GS B3CFS9/324-438 AC B3CFS9 #=GS B3CFS9/324-438 OS Bacteroides intestinalis DSM 17393 #=GS B3CFS9/324-438 DE Sulfate adenylyltransferase subunit 1 #=GS B3CFS9/324-438 DR GENE3D; 05d68c413aaa03cb76b2ed37d48fa8e4/324-438; #=GS B3CFS9/324-438 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides intestinalis; #=GS B3CFS9/324-438 DR EC; 2.7.7.4; #=GS F7V7R5/306-409 AC F7V7R5 #=GS F7V7R5/306-409 OS Clostridium sp. SY8519 #=GS F7V7R5/306-409 DE Adenylyl-sulfate kinase #=GS F7V7R5/306-409 DR GENE3D; 0601f0d3d02383d5fe1e04739b5abdd7/306-409; #=GS F7V7R5/306-409 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Clostridiaceae; Clostridium; Clostridium sp. SY8519; #=GS F7V7R5/306-409 DR EC; 2.7.1.25; #=GS A0A1E3MXZ5/333-435 AC A0A1E3MXZ5 #=GS A0A1E3MXZ5/333-435 OS Shigella sp. FC569 #=GS A0A1E3MXZ5/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1E3MXZ5/333-435 DR GENE3D; 064ec8598c68093be01da886c50bc177/333-435; #=GS A0A1E3MXZ5/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella sp. FC569; #=GS A0A1E3MXZ5/333-435 DR EC; 2.7.7.4; #=GS Q3ILR1/333-436 AC Q3ILR1 #=GS Q3ILR1/333-436 OS Pseudoalteromonas haloplanktis TAC125 #=GS Q3ILR1/333-436 DE Sulfate adenylyltransferase subunit 1 #=GS Q3ILR1/333-436 DR GENE3D; 064fed1657b6d255b7782e50671a0313/333-436; #=GS Q3ILR1/333-436 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas haloplanktis; #=GS Q3ILR1/333-436 DR EC; 2.7.7.4; #=GS U7P4M7/327-432 AC U7P4M7 #=GS U7P4M7/327-432 OS Marinobacter sp. C1S70 #=GS U7P4M7/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS U7P4M7/327-432 DR GENE3D; 064ff4b95d904f89b97a51485ef97254/327-432; #=GS U7P4M7/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter sp. C1S70; #=GS U7P4M7/327-432 DR EC; 2.7.7.4; #=GS D7DHP9/321-424 AC D7DHP9 #=GS D7DHP9/321-424 OS Methylotenera versatilis 301 #=GS D7DHP9/321-424 DE Sulfate adenylyltransferase subunit 1 #=GS D7DHP9/321-424 DR GENE3D; 0655e430b7d68a35d2ea569566fe6105/321-424; #=GS D7DHP9/321-424 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Methylophilales; Methylophilaceae; Methylotenera; Methylotenera versatilis; #=GS D7DHP9/321-424 DR EC; 2.7.7.4; #=GS C6E752/327-432 AC C6E752 #=GS C6E752/327-432 OS Geobacter sp. M21 #=GS C6E752/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS C6E752/327-432 DR GENE3D; 065a427a0ecbdc9cabab37524678a849/327-432; #=GS C6E752/327-432 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Geobacteraceae; Geobacter; Geobacter sp. M21; #=GS C6E752/327-432 DR EC; 2.7.7.4; #=GS E7SPA3/333-435 AC E7SPA3 #=GS E7SPA3/333-435 OS Shigella dysenteriae CDC 74-1112 #=GS E7SPA3/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS E7SPA3/333-435 DR GENE3D; 065f240dbd68b89afcb1a5e48b79165e/333-435; #=GS E7SPA3/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella dysenteriae; #=GS E7SPA3/333-435 DR EC; 2.7.7.4; #=GS A0A142JNF2/327-431 AC A0A142JNF2 #=GS A0A142JNF2/327-431 OS Cupriavidus nantongensis #=GS A0A142JNF2/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS A0A142JNF2/327-431 DR GENE3D; 066b5317c47a03b902e0776a5aec21e9/327-431; #=GS A0A142JNF2/327-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Cupriavidus; Cupriavidus nantongensis; #=GS A0A142JNF2/327-431 DR EC; 2.7.7.4; #=GS A0A1J6Y4X8/332-435 AC A0A1J6Y4X8 #=GS A0A1J6Y4X8/332-435 OS Salmonella enterica subsp. enterica serovar Oranienburg #=GS A0A1J6Y4X8/332-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1J6Y4X8/332-435 DR GENE3D; 067d804e7f2b51e580799b88788adb8b/332-435; #=GS A0A1J6Y4X8/332-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS A0A1J6Y4X8/332-435 DR EC; 2.7.7.4; #=GS M1F7L9/327-431 AC M1F7L9 #=GS M1F7L9/327-431 OS Marinobacter sp. BSs20148 #=GS M1F7L9/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS M1F7L9/327-431 DR GENE3D; 06aabcb18e745e8861238ef6079a1f2c/327-431; #=GS M1F7L9/327-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter sp. BSs20148; #=GS M1F7L9/327-431 DR EC; 2.7.7.4; #=GS A0A0P9QJQ7/329-434 AC A0A0P9QJQ7 #=GS A0A0P9QJQ7/329-434 OS Pseudomonas amygdali pv. eriobotryae #=GS A0A0P9QJQ7/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0P9QJQ7/329-434 DR GENE3D; 06bf7787027b2d2c6d36aa338d213eac/329-434; #=GS A0A0P9QJQ7/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 2; Pseudomonas amygdali; #=GS A0A0P9QJQ7/329-434 DR EC; 2.7.7.4; #=GS A0A0N0EY90/329-434 AC A0A0N0EY90 #=GS A0A0N0EY90/329-434 OS Pseudomonas amygdali pv. myricae #=GS A0A0N0EY90/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0N0EY90/329-434 DR GENE3D; 06bf7787027b2d2c6d36aa338d213eac/329-434; #=GS A0A0N0EY90/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 2; Pseudomonas amygdali; #=GS A0A0N0EY90/329-434 DR EC; 2.7.7.4; #=GS A0A0P9Y9F9/329-434 AC A0A0P9Y9F9 #=GS A0A0P9Y9F9/329-434 OS Pseudomonas syringae pv. rhaphiolepidis #=GS A0A0P9Y9F9/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0P9Y9F9/329-434 DR GENE3D; 06bf7787027b2d2c6d36aa338d213eac/329-434; #=GS A0A0P9Y9F9/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; #=GS A0A0P9Y9F9/329-434 DR EC; 2.7.7.4; #=GS A0A176HLG3/327-432 AC A0A176HLG3 #=GS A0A176HLG3/327-432 OS Oceanobacter sp. HI0075 #=GS A0A176HLG3/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A176HLG3/327-432 DR GENE3D; 06f51104232524fde87941b7c286e9e0/327-432; #=GS A0A176HLG3/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Oceanobacter; Oceanobacter sp. HI0075; #=GS A0A176HLG3/327-432 DR EC; 2.7.7.4; #=GS C9LEY2/345-451 AC C9LEY2 #=GS C9LEY2/345-451 OS Alloprevotella tannerae ATCC 51259 #=GS C9LEY2/345-451 DE Sulfate adenylyltransferase subunit 1 #=GS C9LEY2/345-451 DR GENE3D; 07083eed949c9c85c18ee17947062892/345-451; #=GS C9LEY2/345-451 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Prevotellaceae; Alloprevotella; Alloprevotella tannerae; #=GS C9LEY2/345-451 DR EC; 2.7.7.4; #=GS A0A158GWY3/332-436 AC A0A158GWY3 #=GS A0A158GWY3/332-436 OS Caballeronia sordidicola #=GS A0A158GWY3/332-436 DE Sulfate adenylyltransferase subunit 1 #=GS A0A158GWY3/332-436 DR GENE3D; 07090aebc0e6b486b265f74ae732a2d3/332-436; #=GS A0A158GWY3/332-436 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Caballeronia; Caballeronia sordidicola; #=GS A0A158GWY3/332-436 DR EC; 2.7.7.4; #=GS C5BID7/328-431 AC C5BID7 #=GS C5BID7/328-431 OS Teredinibacter turnerae T7901 #=GS C5BID7/328-431 DE Sulfate adenylyltransferase, large subunit #=GS C5BID7/328-431 DR GENE3D; 07158b09962bc02f1da7c541104b1fe8/328-431; #=GS C5BID7/328-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Cellvibrionaceae; Teredinibacter; Teredinibacter turnerae; #=GS C5BID7/328-431 DR EC; 2.7.7.4; #=GS A0A0D8JE90/326-431 AC A0A0D8JE90 #=GS A0A0D8JE90/326-431 OS Draconibacterium sediminis #=GS A0A0D8JE90/326-431 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0D8JE90/326-431 DR GENE3D; 0740ab0d29f8507990e0feb0cd70f215/326-431; #=GS A0A0D8JE90/326-431 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Marinilabiliales; Prolixibacteraceae; Draconibacterium; Draconibacterium sediminis; #=GS A0A0D8JE90/326-431 DR EC; 2.7.7.4; #=GS A0A0Q0Q176/331-433 AC A0A0Q0Q176 #=GS A0A0Q0Q176/331-433 OS Vibrio metoecus #=GS A0A0Q0Q176/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q0Q176/331-433 DR GENE3D; 07569aa07f0c7cf720d84e37af7c6d85/331-433; #=GS A0A0Q0Q176/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio metoecus; #=GS A0A0Q0Q176/331-433 DR EC; 2.7.7.4; #=GS B8D7V3/326-430 AC B8D7V3 #=GS B8D7V3/326-430 OS Buchnera aphidicola str. Tuc7 (Acyrthosiphon pisum) #=GS B8D7V3/326-430 DE Sulfate adenylyltransferase subunit 1 #=GS B8D7V3/326-430 DR GENE3D; 0758c82f6eb81cd867f62bd0f86a144e/326-430; #=GS B8D7V3/326-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Buchnera; Buchnera aphidicola; #=GS B8D7V3/326-430 DR EC; 2.7.7.4; #=GS A0A1J7M6T4/332-434 AC A0A1J7M6T4 #=GS A0A1J7M6T4/332-434 OS Salmonella enterica subsp. enterica serovar Oranienburg #=GS A0A1J7M6T4/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1J7M6T4/332-434 DR GENE3D; 075ce147766d37e6853540a5794e2c09/332-434; #=GS A0A1J7M6T4/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS A0A1J7M6T4/332-434 DR EC; 2.7.7.4; #=GS A0A1J7QSX8/332-434 AC A0A1J7QSX8 #=GS A0A1J7QSX8/332-434 OS Salmonella enterica #=GS A0A1J7QSX8/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1J7QSX8/332-434 DR GENE3D; 075ce147766d37e6853540a5794e2c09/332-434; #=GS A0A1J7QSX8/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; #=GS A0A1J7QSX8/332-434 DR EC; 2.7.7.4; #=GS A0A068R8G6/337-440 AC A0A068R8G6 #=GS A0A068R8G6/337-440 OS Xenorhabdus poinarii G6 #=GS A0A068R8G6/337-440 DE Sulfate adenylyltransferase subunit 1 #=GS A0A068R8G6/337-440 DR GENE3D; 07761836a3c8f6749ef99058f362c6b7/337-440; #=GS A0A068R8G6/337-440 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus poinarii; #=GS A0A068R8G6/337-440 DR EC; 2.7.7.4; #=GS A9N2D8/332-434 AC A9N2D8 #=GS A9N2D8/332-434 OS Salmonella enterica subsp. enterica serovar Paratyphi B str. SPB7 #=GS A9N2D8/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A9N2D8/332-434 DR GENE3D; 077c1ed021b7c24a4b304918cfaab7f3/332-434; #=GS A9N2D8/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS A9N2D8/332-434 DR EC; 2.7.7.4; #=GS A0A1C2GZK7/329-434 AC A0A1C2GZK7 #=GS A0A1C2GZK7/329-434 OS Pseudomonas stutzeri #=GS A0A1C2GZK7/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1C2GZK7/329-434 DR GENE3D; 07b0bbfd8db7ed7e95998363ada4e094/329-434; #=GS A0A1C2GZK7/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; #=GS A0A1C2GZK7/329-434 DR EC; 2.7.7.4; #=GS A0A0B4Y1Z8/327-431 AC A0A0B4Y1Z8 #=GS A0A0B4Y1Z8/327-431 OS Thalassospira xiamenensis M-5 = DSM 17429 #=GS A0A0B4Y1Z8/327-431 DE Adenylylsulfate kinase /sulfate adenylyltransferase subunit 1 #=GS A0A0B4Y1Z8/327-431 DR GENE3D; 07b3a343e047fad0e8abe33f58ffa5bd/327-431; #=GS A0A0B4Y1Z8/327-431 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira xiamenensis; #=GS A0A0B4Y1Z8/327-431 DR EC; 2.7.7.4; #=GS C9QCT6/331-433 AC C9QCT6 #=GS C9QCT6/331-433 OS Vibrio orientalis CIP 102891 = ATCC 33934 #=GS C9QCT6/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS C9QCT6/331-433 DR GENE3D; 07dae49b58c9d8e4bdfe3453dc2bb6c2/331-433; #=GS C9QCT6/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio orientalis; #=GS C9QCT6/331-433 DR EC; 2.7.7.4; #=GS A0A178J9V4/331-433 AC A0A178J9V4 #=GS A0A178J9V4/331-433 OS Vibrio europaeus #=GS A0A178J9V4/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A178J9V4/331-433 DR GENE3D; 07f794c9902cb7eadb48b5ea9800fb31/331-433; #=GS A0A178J9V4/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio europaeus; #=GS A0A178J9V4/331-433 DR EC; 2.7.7.4; #=GS A0A090RF96/141-247 AC A0A090RF96 #=GS A0A090RF96/141-247 OS Vibrio sp. C7 #=GS A0A090RF96/141-247 DE Sulfate adenylyltransferase subunit 1 #=GS A0A090RF96/141-247 DR GENE3D; 08263ba03bc15c7ebc62446eeb9fbfd4/141-247; #=GS A0A090RF96/141-247 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. C7; #=GS A0A090RF96/141-247 DR EC; 2.7.7.4; #=GS A0A0F4NPY3/327-433 AC A0A0F4NPY3 #=GS A0A0F4NPY3/327-433 OS Vibrio galatheae #=GS A0A0F4NPY3/327-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0F4NPY3/327-433 DR GENE3D; 082cee0f7aff105702087c7d234357b0/327-433; #=GS A0A0F4NPY3/327-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio galatheae; #=GS A0A0F4NPY3/327-433 DR EC; 2.7.7.4; #=GS W6R656/329-432 AC W6R656 #=GS W6R656/329-432 OS Rhizobium favelukesii #=GS W6R656/329-432 DE Sulfate adenylyltransferase subunit 1 #=GS W6R656/329-432 DR GENE3D; 0845d2badcdc59ae1f46f697ed62b471/329-432; #=GS W6R656/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium favelukesii; #=GS W6R656/329-432 DR EC; 2.7.7.4; #=GS A0A0Q7XPY3/336-443 AC A0A0Q7XPY3 #=GS A0A0Q7XPY3/336-443 OS Massilia sp. Root1485 #=GS A0A0Q7XPY3/336-443 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q7XPY3/336-443 DR GENE3D; 08763e16271bbe7a72be49995ae8cf71/336-443; #=GS A0A0Q7XPY3/336-443 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Massilia; Massilia sp. Root1485; #=GS A0A0Q7XPY3/336-443 DR EC; 2.7.7.4; #=GS F2BCP8/341-444 AC F2BCP8 #=GS F2BCP8/341-444 OS Neisseria bacilliformis ATCC BAA-1200 #=GS F2BCP8/341-444 DE Sulfate adenylyltransferase subunit 1 #=GS F2BCP8/341-444 DR GENE3D; 087ee87247a47a8f0abbbf3b69e7843b/341-444; #=GS F2BCP8/341-444 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Neisseriales; Neisseriaceae; Neisseria; Neisseria bacilliformis; #=GS F2BCP8/341-444 DR EC; 2.7.7.4; #=GS D8AGU9/333-435 AC D8AGU9 #=GS D8AGU9/333-435 OS Escherichia coli MS 21-1 #=GS D8AGU9/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS D8AGU9/333-435 DR GENE3D; 08a0d482fd983ec671f69b4c2cee0311/333-435; #=GS D8AGU9/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS D8AGU9/333-435 DR EC; 2.7.7.4; #=GS N3NNP3/333-435 AC N3NNP3 #=GS N3NNP3/333-435 OS Escherichia coli P0301867.13 #=GS N3NNP3/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS N3NNP3/333-435 DR GENE3D; 08a0d482fd983ec671f69b4c2cee0311/333-435; #=GS N3NNP3/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS N3NNP3/333-435 DR EC; 2.7.7.4; #=GS A0A069XFG4/333-435 AC A0A069XFG4 #=GS A0A069XFG4/333-435 OS Escherichia coli 3-373-03_S4_C2 #=GS A0A069XFG4/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A069XFG4/333-435 DR GENE3D; 08a0d482fd983ec671f69b4c2cee0311/333-435; #=GS A0A069XFG4/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS A0A069XFG4/333-435 DR EC; 2.7.7.4; #=GS A0A125WZF9/333-435 AC A0A125WZF9 #=GS A0A125WZF9/333-435 OS Escherichia coli 1-110-08_S3_C1 #=GS A0A125WZF9/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A125WZF9/333-435 DR GENE3D; 08a0d482fd983ec671f69b4c2cee0311/333-435; #=GS A0A125WZF9/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS A0A125WZF9/333-435 DR EC; 2.7.7.4; #=GS A0A0A8BKT3/325-429 AC A0A0A8BKT3 #=GS A0A0A8BKT3/325-429 OS Pandoraea sputorum #=GS A0A0A8BKT3/325-429 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0A8BKT3/325-429 DR GENE3D; 08a7cb41a6a2732eb8ab24d079a3cc27/325-429; #=GS A0A0A8BKT3/325-429 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Pandoraea; Pandoraea sputorum; #=GS A0A0A8BKT3/325-429 DR EC; 2.7.7.4; #=GS U5WB22/323-430 AC U5WB22 #=GS U5WB22/323-430 OS Actinoplanes friuliensis DSM 7358 #=GS U5WB22/323-430 DE Sulfate adenylyltransferase subunit 1 #=GS U5WB22/323-430 DR GENE3D; 08d84d12215cb6d6572f22fcc357e755/323-430; #=GS U5WB22/323-430 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Micromonosporales; Micromonosporaceae; Actinoplanes; Actinoplanes friuliensis; #=GS U5WB22/323-430 DR EC; 2.7.7.4; #=GS A0A1D8RVE1/326-430 AC A0A1D8RVE1 #=GS A0A1D8RVE1/326-430 OS Colwellia sp. PAMC 20917 #=GS A0A1D8RVE1/326-430 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1D8RVE1/326-430 DR GENE3D; 08e4439bb478ba36cb9a321964c1be14/326-430; #=GS A0A1D8RVE1/326-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Colwelliaceae; Colwellia; Colwellia sp. PAMC 20917; #=GS A0A1D8RVE1/326-430 DR EC; 2.7.7.4; #=GS A0A099P9S8/327-431 AC A0A099P9S8 #=GS A0A099P9S8/327-431 OS Nitrincola sp. A-D6 #=GS A0A099P9S8/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS A0A099P9S8/327-431 DR GENE3D; 0903e0f95b2742c2985ed528911bc637/327-431; #=GS A0A099P9S8/327-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Nitrincola; Nitrincola sp. A-D6; #=GS A0A099P9S8/327-431 DR EC; 2.7.7.4; #=GS G4M584/329-433 AC G4M584 #=GS G4M584/329-433 OS Candidatus Paraburkholderia kirkii UZHbot1 #=GS G4M584/329-433 DE Sulfate adenylyltransferase subunit 1 #=GS G4M584/329-433 DR GENE3D; 0908220be36ccab2ff84c08ee89071b4/329-433; #=GS G4M584/329-433 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Paraburkholderia; Candidatus Paraburkholderia kirkii; #=GS G4M584/329-433 DR EC; 2.7.7.4; #=GS A0A0F5B9P0/332-435 AC A0A0F5B9P0 #=GS A0A0F5B9P0/332-435 OS Salmonella enterica subsp. salamae #=GS A0A0F5B9P0/332-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0F5B9P0/332-435 DR GENE3D; 09094d2ca8c70e9847a084eb831bc685/332-435; #=GS A0A0F5B9P0/332-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. salamae; #=GS A0A0F5B9P0/332-435 DR EC; 2.7.7.4; #=GS A0A0H7HRP6/331-433 AC A0A0H7HRP6 #=GS A0A0H7HRP6/331-433 OS Vibrio cholerae #=GS A0A0H7HRP6/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0H7HRP6/331-433 DR GENE3D; 0931a907da174d7e2725f0c603ef94d4/331-433; #=GS A0A0H7HRP6/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; #=GS A0A0H7HRP6/331-433 DR EC; 2.7.7.4; #=GS H0G9X1/335-438 AC H0G9X1 #=GS H0G9X1/335-438 OS Sinorhizobium meliloti CCNWSX0020 #=GS H0G9X1/335-438 DE Sulfate adenylyltransferase subunit 1 #=GS H0G9X1/335-438 DR GENE3D; 09528d5ff57239aecf12e4e0d6e3cb7a/335-438; #=GS H0G9X1/335-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; #=GS H0G9X1/335-438 DR EC; 2.7.7.4; #=GS A0A0F6QA39/335-438 AC A0A0F6QA39 #=GS A0A0F6QA39/335-438 OS Sinorhizobium meliloti #=GS A0A0F6QA39/335-438 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0F6QA39/335-438 DR GENE3D; 09528d5ff57239aecf12e4e0d6e3cb7a/335-438; #=GS A0A0F6QA39/335-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; #=GS A0A0F6QA39/335-438 DR EC; 2.7.7.4; #=GS C6CAX3/333-434 AC C6CAX3 #=GS C6CAX3/333-434 OS Dickeya paradisiaca Ech703 #=GS C6CAX3/333-434 DE Sulfate adenylyltransferase subunit 1 #=GS C6CAX3/333-434 DR GENE3D; 09544495389555c40a1ee57d274a1006/333-434; #=GS C6CAX3/333-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Dickeya; Dickeya paradisiaca; #=GS C6CAX3/333-434 DR EC; 2.7.7.4; #=GS A0A0F3USG1/333-435 AC A0A0F3USG1 #=GS A0A0F3USG1/333-435 OS Escherichia coli #=GS A0A0F3USG1/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0F3USG1/333-435 DR GENE3D; 097d6870c52017186b8739d0959c870b/333-435; #=GS A0A0F3USG1/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS A0A0F3USG1/333-435 DR EC; 2.7.7.4; #=GS A0A023Z2H3/333-435 AC A0A023Z2H3 #=GS A0A023Z2H3/333-435 OS Escherichia coli O145:H28 str. RM12581 #=GS A0A023Z2H3/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A023Z2H3/333-435 DR GENE3D; 097d6870c52017186b8739d0959c870b/333-435; #=GS A0A023Z2H3/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS A0A023Z2H3/333-435 DR EC; 2.7.7.4; #=GS E2X9S8/333-435 AC E2X9S8 #=GS E2X9S8/333-435 OS Shigella dysenteriae 1617 #=GS E2X9S8/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS E2X9S8/333-435 DR GENE3D; 097d6870c52017186b8739d0959c870b/333-435; #=GS E2X9S8/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella dysenteriae; #=GS E2X9S8/333-435 DR EC; 2.7.7.4; #=GS A0A025CYQ8/333-435 AC A0A025CYQ8 #=GS A0A025CYQ8/333-435 OS Escherichia coli O145:NM str. 2010C-3526 #=GS A0A025CYQ8/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A025CYQ8/333-435 DR GENE3D; 097d6870c52017186b8739d0959c870b/333-435; #=GS A0A025CYQ8/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS A0A025CYQ8/333-435 DR EC; 2.7.7.4; #=GS A0A090NL69/333-435 AC A0A090NL69 #=GS A0A090NL69/333-435 OS Shigella dysenteriae WRSd3 #=GS A0A090NL69/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A090NL69/333-435 DR GENE3D; 097d6870c52017186b8739d0959c870b/333-435; #=GS A0A090NL69/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella dysenteriae; #=GS A0A090NL69/333-435 DR EC; 2.7.7.4; #=GS A0A014NMB4/333-435 AC A0A014NMB4 #=GS A0A014NMB4/333-435 OS Erwinia mallotivora #=GS A0A014NMB4/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A014NMB4/333-435 DR GENE3D; 09c98b4feaf75c0acb1d90b7973a36e1/333-435; #=GS A0A014NMB4/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Erwinia; Erwinia mallotivora; #=GS A0A014NMB4/333-435 DR EC; 2.7.7.4; #=GS N8QHK0/331-434 AC N8QHK0 #=GS N8QHK0/331-434 OS Acinetobacter bohemicus ANC 3994 #=GS N8QHK0/331-434 DE Sulfate adenylyltransferase subunit 1 #=GS N8QHK0/331-434 DR GENE3D; 09d0ff8e0f84eb62ad76bc5d2cca3ab0/331-434; #=GS N8QHK0/331-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter bohemicus; #=GS N8QHK0/331-434 DR EC; 2.7.7.4; #=GS G4F5N5/333-436 AC G4F5N5 #=GS G4F5N5/333-436 OS Halomonas sp. HAL1 #=GS G4F5N5/333-436 DE Sulfate adenylyltransferase subunit 1 #=GS G4F5N5/333-436 DR GENE3D; 09d7854fdd0a8d4e1278d5b80fe94c9a/333-436; #=GS G4F5N5/333-436 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas sp. HAL1; #=GS G4F5N5/333-436 DR EC; 2.7.7.4; #=GS W2E0W6/329-434 AC W2E0W6 #=GS W2E0W6/329-434 OS Pseudomonas sp. FH1 #=GS W2E0W6/329-434 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS W2E0W6/329-434 DR GENE3D; 09ea194ad9a61f386d6892d1b25db95a/329-434; #=GS W2E0W6/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas sp. FH1; #=GS W2E0W6/329-434 DR EC; 2.7.7.4; #=GS A0A177X2Q9/329-434 AC A0A177X2Q9 #=GS A0A177X2Q9/329-434 OS Pseudomonas marginalis #=GS A0A177X2Q9/329-434 DE Adenylylsulfate kinase #=GS A0A177X2Q9/329-434 DR GENE3D; 09ea194ad9a61f386d6892d1b25db95a/329-434; #=GS A0A177X2Q9/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas marginalis; #=GS A0A177X2Q9/329-434 DR EC; 2.7.7.4; #=GS C3KDP2/329-434 AC C3KDP2 #=GS C3KDP2/329-434 OS Pseudomonas fluorescens SBW25 #=GS C3KDP2/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS C3KDP2/329-434 DR GENE3D; 09ea194ad9a61f386d6892d1b25db95a/329-434; #=GS C3KDP2/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; #=GS C3KDP2/329-434 DR EC; 2.7.7.4; #=GS X7E315/330-433 AC X7E315 #=GS X7E315/330-433 OS Marinomonas ushuaiensis DSM 15871 #=GS X7E315/330-433 DE Sulfate adenylyltransferase subunit 1 #=GS X7E315/330-433 DR GENE3D; 0a0c828cbd3b097757073dce911d0ebf/330-433; #=GS X7E315/330-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Marinomonas; Marinomonas ushuaiensis; #=GS X7E315/330-433 DR EC; 2.7.7.4; #=GS A0A072N1M7/327-432 AC A0A072N1M7 #=GS A0A072N1M7/327-432 OS Marinobacter nitratireducens #=GS A0A072N1M7/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A072N1M7/327-432 DR GENE3D; 0a21ea656106ef76d5d8011d258e1525/327-432; #=GS A0A072N1M7/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter nitratireducens; #=GS A0A072N1M7/327-432 DR EC; 2.7.7.4; #=GS A0A0Q8EI29/308-413 AC A0A0Q8EI29 #=GS A0A0Q8EI29/308-413 OS Nocardioides sp. Root614 #=GS A0A0Q8EI29/308-413 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q8EI29/308-413 DR GENE3D; 0a537ce1554d7935212daed824d86eb1/308-413; #=GS A0A0Q8EI29/308-413 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Nocardioides; Nocardioides sp. Root614; #=GS A0A0Q8EI29/308-413 DR EC; 2.7.7.4; #=GS A0A0Q8HZI0/308-413 AC A0A0Q8HZI0 #=GS A0A0Q8HZI0/308-413 OS Nocardioides sp. Root682 #=GS A0A0Q8HZI0/308-413 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q8HZI0/308-413 DR GENE3D; 0a537ce1554d7935212daed824d86eb1/308-413; #=GS A0A0Q8HZI0/308-413 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Nocardioides; Nocardioides sp. Root682; #=GS A0A0Q8HZI0/308-413 DR EC; 2.7.7.4; #=GS N9MVH0/330-434 AC N9MVH0 #=GS N9MVH0/330-434 OS Acinetobacter sp. CIP 64.2 #=GS N9MVH0/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS N9MVH0/330-434 DR GENE3D; 0a5ed7b7b8a99c7877631ac837e47a48/330-434; #=GS N9MVH0/330-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter sp. CIP 64.2; #=GS N9MVH0/330-434 DR EC; 2.7.7.4; #=GS A0A109I6Z7/307-412 AC A0A109I6Z7 #=GS A0A109I6Z7/307-412 OS Leptospira interrogans #=GS A0A109I6Z7/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS A0A109I6Z7/307-412 DR GENE3D; 0a6650803da0891dbcc44e5487e31afb/307-412; #=GS A0A109I6Z7/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira interrogans; #=GS A0A109I6Z7/307-412 DR EC; 2.7.7.4; #=GS M3CQW9/307-412 AC M3CQW9 #=GS M3CQW9/307-412 OS Leptospira interrogans serovar Lora str. TE 1992 #=GS M3CQW9/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS M3CQW9/307-412 DR GENE3D; 0a6650803da0891dbcc44e5487e31afb/307-412; #=GS M3CQW9/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira interrogans; #=GS M3CQW9/307-412 DR EC; 2.7.7.4; #=GS A0A0J9DSX4/328-432 AC A0A0J9DSX4 #=GS A0A0J9DSX4/328-432 OS Ralstonia sp. MD27 #=GS A0A0J9DSX4/328-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0J9DSX4/328-432 DR GENE3D; 0a85df686885767207d62745d0f4a0cf/328-432; #=GS A0A0J9DSX4/328-432 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Ralstonia; Ralstonia sp. MD27; #=GS A0A0J9DSX4/328-432 DR EC; 2.7.7.4; #=GS A0A0E3XU64/329-435 AC A0A0E3XU64 #=GS A0A0E3XU64/329-435 OS Mycobacterium chelonae #=GS A0A0E3XU64/329-435 DE Adenylyl-sulfate kinase #=GS A0A0E3XU64/329-435 DR GENE3D; 0ab20ded6434dbfd7af020a120c4985c/329-435; #=GS A0A0E3XU64/329-435 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium chelonae group; Mycobacterium chelonae; #=GS A0A0E3XU64/329-435 DR EC; 2.7.1.25; #=GS A0A0J9BH38/333-435 AC A0A0J9BH38 #=GS A0A0J9BH38/333-435 OS bacteria symbiont BFo2 of Frankliniella occidentalis #=GS A0A0J9BH38/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0J9BH38/333-435 DR GENE3D; 0ab79ab5ad661543e63d95636b4fd0cd/333-435; #=GS A0A0J9BH38/333-435 DR ORG; Bacteria; bacteria symbiont BFo2 of Frankliniella occidentalis; #=GS A0A0J9BH38/333-435 DR EC; 2.7.7.4; #=GS A0A0Q5WYT4/321-426 AC A0A0Q5WYT4 #=GS A0A0Q5WYT4/321-426 OS Modestobacter sp. Leaf380 #=GS A0A0Q5WYT4/321-426 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q5WYT4/321-426 DR GENE3D; 0acbed95bdcd13e49b1eeb164e64e658/321-426; #=GS A0A0Q5WYT4/321-426 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Geodermatophilales; Geodermatophilaceae; Modestobacter; Modestobacter sp. Leaf380; #=GS A0A0Q5WYT4/321-426 DR EC; 2.7.7.4; #=GS N9BQU7/330-434 AC N9BQU7 #=GS N9BQU7/330-434 OS Acinetobacter ursingii DSM 16037 = CIP 107286 #=GS N9BQU7/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS N9BQU7/330-434 DR GENE3D; 0b0619cf33eb9a0bffbac43ebe11ac2a/330-434; #=GS N9BQU7/330-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter ursingii; #=GS N9BQU7/330-434 DR EC; 2.7.7.4; #=GS A0A085VJD4/329-434 AC A0A085VJD4 #=GS A0A085VJD4/329-434 OS Pseudomonas syringae #=GS A0A085VJD4/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A085VJD4/329-434 DR GENE3D; 0b1a208471fecca7c6753e766a8b2e9b/329-434; #=GS A0A085VJD4/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; #=GS A0A085VJD4/329-434 DR EC; 2.7.7.4; #=GS A0A0Q0G8C9/329-434 AC A0A0Q0G8C9 #=GS A0A0Q0G8C9/329-434 OS Pseudomonas syringae pv. theae #=GS A0A0Q0G8C9/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q0G8C9/329-434 DR GENE3D; 0b3d1fe589cce1c4ebf90fc40d1e3d1d/329-434; #=GS A0A0Q0G8C9/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; #=GS A0A0Q0G8C9/329-434 DR EC; 2.7.7.4; #=GS A0A177M8E6/335-440 AC A0A177M8E6 #=GS A0A177M8E6/335-440 OS Methylomonas methanica #=GS A0A177M8E6/335-440 DE Sulfate adenylyltransferase subunit 1 #=GS A0A177M8E6/335-440 DR GENE3D; 0b3e2ea74b812cbb863f542db2f657af/335-440; #=GS A0A177M8E6/335-440 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Methylococcales; Methylococcaceae; Methylomonas; Methylomonas methanica; #=GS A0A177M8E6/335-440 DR EC; 2.7.7.4; #=GS C6XDZ1/327-431 AC C6XDZ1 #=GS C6XDZ1/327-431 OS Methylovorus glucosetrophus SIP3-4 #=GS C6XDZ1/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS C6XDZ1/327-431 DR GENE3D; 0b3f6f69f93aaf72311c65513cf697a2/327-431; #=GS C6XDZ1/327-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Methylophilales; Methylophilaceae; Methylovorus; Methylovorus glucosotrophus; #=GS C6XDZ1/327-431 DR EC; 2.7.7.4; #=GS A0A0P7ENJ5/327-433 AC A0A0P7ENJ5 #=GS A0A0P7ENJ5/327-433 OS Vibrio alginolyticus #=GS A0A0P7ENJ5/327-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0P7ENJ5/327-433 DR GENE3D; 0b49760320f5d6ee23df889e9398a2d9/327-433; #=GS A0A0P7ENJ5/327-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio alginolyticus; #=GS A0A0P7ENJ5/327-433 DR EC; 2.7.7.4; #=GS A0A063XYT0/327-431 AC A0A063XYT0 #=GS A0A063XYT0/327-431 OS Nitrincola lacisaponensis #=GS A0A063XYT0/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS A0A063XYT0/327-431 DR GENE3D; 0b5643e1b9ec85a3cf333fed360c73df/327-431; #=GS A0A063XYT0/327-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Nitrincola; Nitrincola lacisaponensis; #=GS A0A063XYT0/327-431 DR EC; 2.7.7.4; #=GS A0A1F9ACC7/23-127 AC A0A1F9ACC7 #=GS A0A1F9ACC7/23-127 OS Deltaproteobacteria bacterium RBG_13_52_11 #=GS A0A1F9ACC7/23-127 DE Adenylyl-sulfate kinase #=GS A0A1F9ACC7/23-127 DR GENE3D; 0bb4cae4d239ec62fe121e1a376e4062/23-127; #=GS A0A1F9ACC7/23-127 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium RBG_13_52_11; #=GS A0A1F9ACC7/23-127 DR EC; 2.7.1.25; #=GS E7SWY3/333-435 AC E7SWY3 #=GS E7SWY3/333-435 OS Shigella boydii ATCC 9905 #=GS E7SWY3/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS E7SWY3/333-435 DR GENE3D; 0bde7ef37e66972d38be22a0b185be96/333-435; #=GS E7SWY3/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella sp. SF-2015; #=GS E7SWY3/333-435 DR EC; 2.7.7.4; #=GS F3VA41/333-435 AC F3VA41 #=GS F3VA41/333-435 OS Shigella dysenteriae 155-74 #=GS F3VA41/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS F3VA41/333-435 DR GENE3D; 0bde7ef37e66972d38be22a0b185be96/333-435; #=GS F3VA41/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella dysenteriae; #=GS F3VA41/333-435 DR EC; 2.7.7.4; #=GS B3WWY0/333-435 AC B3WWY0 #=GS B3WWY0/333-435 OS Shigella dysenteriae 1012 #=GS B3WWY0/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS B3WWY0/333-435 DR GENE3D; 0bde7ef37e66972d38be22a0b185be96/333-435; #=GS B3WWY0/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella sp. SF-2015; #=GS B3WWY0/333-435 DR EC; 2.7.7.4; #=GS A0A1F2KMI3/342-445 AC A0A1F2KMI3 #=GS A0A1F2KMI3/342-445 OS Proteus sp. HMSC14B05 #=GS A0A1F2KMI3/342-445 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1F2KMI3/342-445 DR GENE3D; 0befbaffc4236302585d88df2bd33799/342-445; #=GS A0A1F2KMI3/342-445 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus; Proteus sp. HMSC14B05; #=GS A0A1F2KMI3/342-445 DR EC; 2.7.7.4; #=GS A0A176WX96/331-435 AC A0A176WX96 #=GS A0A176WX96/331-435 OS Agrobacterium tumefaciens #=GS A0A176WX96/331-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A176WX96/331-435 DR GENE3D; 0c02c0da3a92843cfc0eb808e3b5e782/331-435; #=GS A0A176WX96/331-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium tumefaciens complex; Agrobacterium tumefaciens; #=GS A0A176WX96/331-435 DR EC; 2.7.7.4; #=GS A0A085HLC3/344-442 AC A0A085HLC3 #=GS A0A085HLC3/344-442 OS Leminorella grimontii ATCC 33999 = DSM 5078 #=GS A0A085HLC3/344-442 DE Sulfate adenylyltransferase subunit 1 #=GS A0A085HLC3/344-442 DR GENE3D; 0c0c0e2dfec69a3f148509475900d1ab/344-442; #=GS A0A085HLC3/344-442 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Budviciaceae; Leminorella; Leminorella grimontii; #=GS A0A085HLC3/344-442 DR EC; 2.7.7.4; #=GS V5F247/331-433 AC V5F247 #=GS V5F247/331-433 OS Photobacterium leiognathi lrivu.4.1 #=GS V5F247/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS V5F247/331-433 DR GENE3D; 0c155bf489f8b7927145f72566a2ee7f/331-433; #=GS V5F247/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium leiognathi; #=GS V5F247/331-433 DR EC; 2.7.7.4; #=GS A0A0L6HVV9/308-413 AC A0A0L6HVV9 #=GS A0A0L6HVV9/308-413 OS Microbacterium sp. GCS4 #=GS A0A0L6HVV9/308-413 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0L6HVV9/308-413 DR GENE3D; 0c1872d4eae0242213449ff9c5ef2813/308-413; #=GS A0A0L6HVV9/308-413 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Micrococcales; Microbacteriaceae; Microbacterium; Microbacterium sp. GCS4; #=GS A0A0L6HVV9/308-413 DR EC; 2.7.7.4; #=GS A0A142LKG3/341-446 AC A0A142LKG3 #=GS A0A142LKG3/341-446 OS Betaproteobacteria bacterium UKL13-2 #=GS A0A142LKG3/341-446 DE Sulfate adenylyltransferase subunit 1 #=GS A0A142LKG3/341-446 DR GENE3D; 0c1c11cdd49b76ff9bbc5c4a575fe787/341-446; #=GS A0A142LKG3/341-446 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Betaproteobacteria bacterium UKL13-2; #=GS A0A142LKG3/341-446 DR EC; 2.7.7.4; #=GS A0A0Q0E6Y2/329-434 AC A0A0Q0E6Y2 #=GS A0A0Q0E6Y2/329-434 OS Pseudomonas syringae pv. tagetis #=GS A0A0Q0E6Y2/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q0E6Y2/329-434 DR GENE3D; 0c235b3ec44885a34f00fb9ad2ea947a/329-434; #=GS A0A0Q0E6Y2/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 7; #=GS A0A0Q0E6Y2/329-434 DR EC; 2.7.7.4; #=GS W8G231/327-432 AC W8G231 #=GS W8G231/327-432 OS Thalassolituus oleivorans R6-15 #=GS W8G231/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS W8G231/327-432 DR GENE3D; 0c4b563e3216a7e923269439497fcefd/327-432; #=GS W8G231/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Thalassolituus; Thalassolituus oleivorans; #=GS W8G231/327-432 DR EC; 2.7.7.4; #=GS A0A1L6KEN9/327-432 AC A0A1L6KEN9 #=GS A0A1L6KEN9/327-432 OS Thalassolituus oleivorans #=GS A0A1L6KEN9/327-432 DE Sulfate adenylyltransferase #=GS A0A1L6KEN9/327-432 DR GENE3D; 0c4b563e3216a7e923269439497fcefd/327-432; #=GS A0A1L6KEN9/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Thalassolituus; Thalassolituus oleivorans; #=GS A0A1L6KEN9/327-432 DR EC; 2.7.7.4; #=GS M5DP47/327-432 AC M5DP47 #=GS M5DP47/327-432 OS Thalassolituus oleivorans MIL-1 #=GS M5DP47/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS M5DP47/327-432 DR GENE3D; 0c4b563e3216a7e923269439497fcefd/327-432; #=GS M5DP47/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Thalassolituus; Thalassolituus oleivorans; #=GS M5DP47/327-432 DR EC; 2.7.7.4; #=GS A0A0D5M4A2/333-436 AC A0A0D5M4A2 #=GS A0A0D5M4A2/333-436 OS Halomonas sp. KO116 #=GS A0A0D5M4A2/333-436 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0D5M4A2/333-436 DR GENE3D; 0c56ae4797ae27b2d7a157e1fe8e3f0b/333-436; #=GS A0A0D5M4A2/333-436 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas sp. KO116; #=GS A0A0D5M4A2/333-436 DR EC; 2.7.7.4; #=GS A0A0B8YL51/308-411 AC A0A0B8YL51 #=GS A0A0B8YL51/308-411 OS Pedobacter glucosidilyticus #=GS A0A0B8YL51/308-411 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0B8YL51/308-411 DR GENE3D; 0c5791fe8a0483e057cee0776f517feb/308-411; #=GS A0A0B8YL51/308-411 DR ORG; Bacteria; Bacteroidetes; Sphingobacteriia; Sphingobacteriales; Sphingobacteriaceae; Pedobacter; Pedobacter glucosidilyticus; #=GS A0A0B8YL51/308-411 DR EC; 2.7.7.4; #=GS A0A0Q8WP40/308-413 AC A0A0Q8WP40 #=GS A0A0Q8WP40/308-413 OS Nocardioides sp. Root240 #=GS A0A0Q8WP40/308-413 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q8WP40/308-413 DR GENE3D; 0c58de879720ab85b4a639177eeb785f/308-413; #=GS A0A0Q8WP40/308-413 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Nocardioides; Nocardioides sp. Root240; #=GS A0A0Q8WP40/308-413 DR EC; 2.7.7.4; #=GS A0A0Q8VDX9/308-413 AC A0A0Q8VDX9 #=GS A0A0Q8VDX9/308-413 OS Nocardioides sp. Root79 #=GS A0A0Q8VDX9/308-413 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q8VDX9/308-413 DR GENE3D; 0c58de879720ab85b4a639177eeb785f/308-413; #=GS A0A0Q8VDX9/308-413 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Nocardioides; Nocardioides sp. Root79; #=GS A0A0Q8VDX9/308-413 DR EC; 2.7.7.4; #=GS A0A0S2KF71/327-431 AC A0A0S2KF71 #=GS A0A0S2KF71/327-431 OS Pseudohongiella spirulinae #=GS A0A0S2KF71/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0S2KF71/327-431 DR GENE3D; 0c6039c616822e609bd69fd6f2f7a3a5/327-431; #=GS A0A0S2KF71/327-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudohongiella; Pseudohongiella spirulinae; #=GS A0A0S2KF71/327-431 DR EC; 2.7.7.4; #=GS A0A0B8NBA5/309-415 AC A0A0B8NBA5 #=GS A0A0B8NBA5/309-415 OS Nocardia seriolae #=GS A0A0B8NBA5/309-415 DE Adenylyl-sulfate kinase #=GS A0A0B8NBA5/309-415 DR GENE3D; 0c652bf8e35162bc1b4df11d78e9e5c6/309-415; #=GS A0A0B8NBA5/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Nocardia; Nocardia seriolae; #=GS A0A0B8NBA5/309-415 DR EC; 2.7.1.25; #=GS A0A0M1UQY2/328-432 AC A0A0M1UQY2 #=GS A0A0M1UQY2/328-432 OS Arcobacter butzleri ED-1 #=GS A0A0M1UQY2/328-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0M1UQY2/328-432 DR GENE3D; 0c72fd1a5605ebccbd7892db187d6418/328-432; #=GS A0A0M1UQY2/328-432 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Epsilonproteobacteria; Campylobacterales; Campylobacteraceae; Arcobacter; Arcobacter butzleri; #=GS A0A0M1UQY2/328-432 DR EC; 2.7.7.4; #=GS A0A023EA68/329-434 AC A0A023EA68 #=GS A0A023EA68/329-434 OS Aeromonas salmonicida subsp. masoucida NBRC 13784 #=GS A0A023EA68/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A023EA68/329-434 DR GENE3D; 0c7bb67dab8addf69cc6b0aeafdca518/329-434; #=GS A0A023EA68/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas salmonicida; Aeromonas salmonicida subsp. masoucida; #=GS A0A023EA68/329-434 DR EC; 2.7.7.4; #=GS A4SRG8/329-434 AC A4SRG8 #=GS A4SRG8/329-434 OS Aeromonas salmonicida subsp. salmonicida A449 #=GS A4SRG8/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A4SRG8/329-434 DR GENE3D; 0c7bb67dab8addf69cc6b0aeafdca518/329-434; #=GS A4SRG8/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas salmonicida; Aeromonas salmonicida subsp. salmonicida; #=GS A4SRG8/329-434 DR EC; 2.7.7.4; #=GS A0A192W6H0/332-435 AC A0A192W6H0 #=GS A0A192W6H0/332-435 OS Rhizobium sp. N941 #=GS A0A192W6H0/332-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A192W6H0/332-435 DR GENE3D; 0c884dd37579d99fea85bdafa3635d9a/332-435; #=GS A0A192W6H0/332-435 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. N941; #=GS A0A192W6H0/332-435 DR EC; 2.7.7.4; #=GS A0A1I9Y0Q8/334-437 AC A0A1I9Y0Q8 #=GS A0A1I9Y0Q8/334-437 OS Janthinobacterium sp. 1_2014MBL_MicDiv #=GS A0A1I9Y0Q8/334-437 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1I9Y0Q8/334-437 DR GENE3D; 0c8e9082026af65054c5f97cdeeec0e4/334-437; #=GS A0A1I9Y0Q8/334-437 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium sp. 1_2014MBL_MicDiv; #=GS A0A1I9Y0Q8/334-437 DR EC; 2.7.7.4; #=GS K8Y2V0/307-412 AC K8Y2V0 #=GS K8Y2V0/307-412 OS Leptospira santarosai serovar Shermani str. LT 821 #=GS K8Y2V0/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS K8Y2V0/307-412 DR GENE3D; 0c8f484c44be21e721ad6d56ffb2f5b8/307-412; #=GS K8Y2V0/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira santarosai; #=GS K8Y2V0/307-412 DR EC; 2.7.7.4; #=GS K6IWN0/307-412 AC K6IWN0 #=GS K6IWN0/307-412 OS Leptospira sp. Fiocruz LV3954 #=GS K6IWN0/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS K6IWN0/307-412 DR GENE3D; 0c8f484c44be21e721ad6d56ffb2f5b8/307-412; #=GS K6IWN0/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira sp. Fiocruz LV3954; #=GS K6IWN0/307-412 DR EC; 2.7.7.4; #=GS A0A0E2DWK5/307-412 AC A0A0E2DWK5 #=GS A0A0E2DWK5/307-412 OS Leptospira santarosai str. JET #=GS A0A0E2DWK5/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0E2DWK5/307-412 DR GENE3D; 0c8f484c44be21e721ad6d56ffb2f5b8/307-412; #=GS A0A0E2DWK5/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira santarosai; #=GS A0A0E2DWK5/307-412 DR EC; 2.7.7.4; #=GS A0A0M1YSB2/307-412 AC A0A0M1YSB2 #=GS A0A0M1YSB2/307-412 OS Leptospira santarosai str. AIM #=GS A0A0M1YSB2/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0M1YSB2/307-412 DR GENE3D; 0c8f484c44be21e721ad6d56ffb2f5b8/307-412; #=GS A0A0M1YSB2/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira santarosai; #=GS A0A0M1YSB2/307-412 DR EC; 2.7.7.4; #=GS M6VK23/307-412 AC M6VK23 #=GS M6VK23/307-412 OS Leptospira santarosai str. CBC1416 #=GS M6VK23/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS M6VK23/307-412 DR GENE3D; 0c8f484c44be21e721ad6d56ffb2f5b8/307-412; #=GS M6VK23/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira santarosai; #=GS M6VK23/307-412 DR EC; 2.7.7.4; #=GS M5V0D9/307-412 AC M5V0D9 #=GS M5V0D9/307-412 OS Leptospira sp. Fiocruz LV4135 #=GS M5V0D9/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS M5V0D9/307-412 DR GENE3D; 0c8f484c44be21e721ad6d56ffb2f5b8/307-412; #=GS M5V0D9/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira sp. Fiocruz LV4135; #=GS M5V0D9/307-412 DR EC; 2.7.7.4; #=GS D0L3P6/324-430 AC D0L3P6 #=GS D0L3P6/324-430 OS Gordonia bronchialis DSM 43247 #=GS D0L3P6/324-430 DE Adenylyl-sulfate kinase #=GS D0L3P6/324-430 DR GENE3D; 0c9a16cd2b15999fb8c9cf71cd139b47/324-430; #=GS D0L3P6/324-430 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Gordoniaceae; Gordonia; Gordonia bronchialis; #=GS D0L3P6/324-430 DR EC; 2.7.1.25; #=GS K2PMX8/313-418 AC K2PMX8 #=GS K2PMX8/313-418 OS Galbibacter marinus #=GS K2PMX8/313-418 DE Sulfate adenylyltransferase subunit 1 #=GS K2PMX8/313-418 DR GENE3D; 0c9e8f7f99f258c36bf54afe503a72e8/313-418; #=GS K2PMX8/313-418 DR ORG; Bacteria; Bacteroidetes; Flavobacteriia; Flavobacteriales; Flavobacteriaceae; Galbibacter; Galbibacter marinus; #=GS K2PMX8/313-418 DR EC; 2.7.7.4; #=GS A0A1A6LCG2/331-433 AC A0A1A6LCG2 #=GS A0A1A6LCG2/331-433 OS Vibrio splendidus #=GS A0A1A6LCG2/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1A6LCG2/331-433 DR GENE3D; 0cf69ace80f4dae8bd91273e0434fb1c/331-433; #=GS A0A1A6LCG2/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio splendidus; #=GS A0A1A6LCG2/331-433 DR EC; 2.7.7.4; #=GS A0A1D2XY21/331-433 AC A0A1D2XY21 #=GS A0A1D2XY21/331-433 OS Vibrio crassostreae 9ZC88 #=GS A0A1D2XY21/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1D2XY21/331-433 DR GENE3D; 0cf69ace80f4dae8bd91273e0434fb1c/331-433; #=GS A0A1D2XY21/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio crassostreae; #=GS A0A1D2XY21/331-433 DR EC; 2.7.7.4; #=GS A3UTC2/331-433 AC A3UTC2 #=GS A3UTC2/331-433 OS Vibrio splendidus 12B01 #=GS A3UTC2/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A3UTC2/331-433 DR GENE3D; 0cf69ace80f4dae8bd91273e0434fb1c/331-433; #=GS A3UTC2/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio splendidus; #=GS A3UTC2/331-433 DR EC; 2.7.7.4; #=GS A0A1B9QPJ9/331-433 AC A0A1B9QPJ9 #=GS A0A1B9QPJ9/331-433 OS Vibrio lentus #=GS A0A1B9QPJ9/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1B9QPJ9/331-433 DR GENE3D; 0cf69ace80f4dae8bd91273e0434fb1c/331-433; #=GS A0A1B9QPJ9/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio lentus; #=GS A0A1B9QPJ9/331-433 DR EC; 2.7.7.4; #=GS A0A0I9RM79/322-427 AC A0A0I9RM79 #=GS A0A0I9RM79/322-427 OS Bacteroides fragilis #=GS A0A0I9RM79/322-427 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0I9RM79/322-427 DR GENE3D; 0cf74fddd72a4c7819021537cd2697df/322-427; #=GS A0A0I9RM79/322-427 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides fragilis; #=GS A0A0I9RM79/322-427 DR EC; 2.7.7.4; #=GS A0A1A7PXI5/322-426 AC A0A1A7PXI5 #=GS A0A1A7PXI5/322-426 OS Gallibacterium salpingitidis #=GS A0A1A7PXI5/322-426 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1A7PXI5/322-426 DR GENE3D; 0cfaa9843e77147d5442d90a32571e64/322-426; #=GS A0A1A7PXI5/322-426 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Gallibacterium; Gallibacterium salpingitidis; #=GS A0A1A7PXI5/322-426 DR EC; 2.7.7.4; #=GS A0A1J8ZQS5/330-434 AC A0A1J8ZQS5 #=GS A0A1J8ZQS5/330-434 OS Burkholderia ubonensis #=GS A0A1J8ZQS5/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1J8ZQS5/330-434 DR GENE3D; 0d0ba1a5a27c5d6c8e4095c230fed81a/330-434; #=GS A0A1J8ZQS5/330-434 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia ubonensis; #=GS A0A1J8ZQS5/330-434 DR EC; 2.7.7.4; #=GS A0A1B9PA24/332-435 AC A0A1B9PA24 #=GS A0A1B9PA24/332-435 OS Aliivibrio sp. 1S175 #=GS A0A1B9PA24/332-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1B9PA24/332-435 DR GENE3D; 0d2bc3cf4039a5a5580a187a57f8ee5c/332-435; #=GS A0A1B9PA24/332-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Aliivibrio; Aliivibrio sp. 1S175; #=GS A0A1B9PA24/332-435 DR EC; 2.7.7.4; #=GS A0A0J6G680/329-434 AC A0A0J6G680 #=GS A0A0J6G680/329-434 OS Pseudomonas deceptionensis #=GS A0A0J6G680/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0J6G680/329-434 DR GENE3D; 0d4f118eb5b41caeb5f944cc266106ad/329-434; #=GS A0A0J6G680/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas deceptionensis; #=GS A0A0J6G680/329-434 DR EC; 2.7.7.4; #=GS A0A0D5WY17/332-434 AC A0A0D5WY17 #=GS A0A0D5WY17/332-434 OS Klebsiella michiganensis #=GS A0A0D5WY17/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0D5WY17/332-434 DR GENE3D; 0d63bd17dc1ffbc53c7dddaee019a3bc/332-434; #=GS A0A0D5WY17/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella michiganensis; #=GS A0A0D5WY17/332-434 DR EC; 2.7.7.4; #=GS A0A166M9P1/329-434 AC A0A166M9P1 #=GS A0A166M9P1/329-434 OS Pseudomonas putida #=GS A0A166M9P1/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A166M9P1/329-434 DR GENE3D; 0d8623bd528c357c4883ba408249f93e/329-434; #=GS A0A166M9P1/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; #=GS A0A166M9P1/329-434 DR EC; 2.7.7.4; #=GS Q6LM69/331-434 AC Q6LM69 #=GS Q6LM69/331-434 OS Photobacterium profundum SS9 #=GS Q6LM69/331-434 DE Sulfate adenylyltransferase subunit 1 #=GS Q6LM69/331-434 DR GENE3D; 0d8e84e5a2825277d35eb0c072b98345/331-434; #=GS Q6LM69/331-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium profundum; #=GS Q6LM69/331-434 DR EC; 2.7.7.4; #=GS G9AH93/327-430 AC G9AH93 #=GS G9AH93/327-430 OS Sinorhizobium fredii HH103 #=GS G9AH93/327-430 DE Putative ATP-sulfurylase large subunit/adenylylsulfate kinase #=GS G9AH93/327-430 DR GENE3D; 0dbc9d37c07c5c6e989bfff572b1b4ac/327-430; #=GS G9AH93/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium fredii; #=GS G9AH93/327-430 DR EC; 2.7.1.25; #=GS A0A0Q4EHQ0/329-434 AC A0A0Q4EHQ0 #=GS A0A0Q4EHQ0/329-434 OS Pseudomonas sp. Leaf15 #=GS A0A0Q4EHQ0/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q4EHQ0/329-434 DR GENE3D; 0dc4a024fe855813d944164b4d2f9b35/329-434; #=GS A0A0Q4EHQ0/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. Leaf15; #=GS A0A0Q4EHQ0/329-434 DR EC; 2.7.7.4; #=GS H4IEZ5/333-435 AC H4IEZ5 #=GS H4IEZ5/333-435 OS Escherichia coli DEC1B #=GS H4IEZ5/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS H4IEZ5/333-435 DR GENE3D; 0dd6594496607d17811ee7b416fba836/333-435; #=GS H4IEZ5/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS H4IEZ5/333-435 DR EC; 2.7.7.4; #=GS H4LG03/333-435 AC H4LG03 #=GS H4LG03/333-435 OS Escherichia coli DEC2E #=GS H4LG03/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS H4LG03/333-435 DR GENE3D; 0dd6594496607d17811ee7b416fba836/333-435; #=GS H4LG03/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS H4LG03/333-435 DR EC; 2.7.7.4; #=GS E3XII9/333-435 AC E3XII9 #=GS E3XII9/333-435 OS Escherichia coli 2362-75 #=GS E3XII9/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS E3XII9/333-435 DR GENE3D; 0dd6594496607d17811ee7b416fba836/333-435; #=GS E3XII9/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS E3XII9/333-435 DR EC; 2.7.7.4; #=GS H4JBW4/333-435 AC H4JBW4 #=GS H4JBW4/333-435 OS Escherichia coli DEC1D #=GS H4JBW4/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS H4JBW4/333-435 DR GENE3D; 0dd6594496607d17811ee7b416fba836/333-435; #=GS H4JBW4/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS H4JBW4/333-435 DR EC; 2.7.7.4; #=GS H4KL13/333-435 AC H4KL13 #=GS H4KL13/333-435 OS Escherichia coli DEC2C #=GS H4KL13/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS H4KL13/333-435 DR GENE3D; 0dd6594496607d17811ee7b416fba836/333-435; #=GS H4KL13/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS H4KL13/333-435 DR EC; 2.7.7.4; #=GS H4IWW1/333-435 AC H4IWW1 #=GS H4IWW1/333-435 OS Escherichia coli DEC1C #=GS H4IWW1/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS H4IWW1/333-435 DR GENE3D; 0dd6594496607d17811ee7b416fba836/333-435; #=GS H4IWW1/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS H4IWW1/333-435 DR EC; 2.7.7.4; #=GS A0A139DH45/327-431 AC A0A139DH45 #=GS A0A139DH45/327-431 OS Marinobacter sp. T13-3 #=GS A0A139DH45/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS A0A139DH45/327-431 DR GENE3D; 0dff6bd0c8e1f137faad3ebe35562d8a/327-431; #=GS A0A139DH45/327-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter sp. T13-3; #=GS A0A139DH45/327-431 DR EC; 2.7.7.4; #=GS E8X8L3/332-434 AC E8X8L3 #=GS E8X8L3/332-434 OS Salmonella enterica subsp. enterica serovar Typhimurium str. ST4/74 #=GS E8X8L3/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS E8X8L3/332-434 DR GENE3D; 0e0c8448338b1a3d4bcc7497b09a76a8/332-434; #=GS E8X8L3/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS E8X8L3/332-434 DR EC; 2.7.7.4; #=GS A0A0H3NR47/332-434 AC A0A0H3NR47 #=GS A0A0H3NR47/332-434 OS Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344 #=GS A0A0H3NR47/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0H3NR47/332-434 DR GENE3D; 0e0c8448338b1a3d4bcc7497b09a76a8/332-434; #=GS A0A0H3NR47/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS A0A0H3NR47/332-434 DR EC; 2.7.7.4; #=GS A0A1M3ZEI2/332-434 AC A0A1M3ZEI2 #=GS A0A1M3ZEI2/332-434 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N7307 #=GS A0A1M3ZEI2/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3ZEI2/332-434 DR GENE3D; 0e0c8448338b1a3d4bcc7497b09a76a8/332-434; #=GS A0A1M3ZEI2/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3ZEI2/332-434 DR EC; 2.7.7.4; #=GS A0A0U1IPL2/332-434 AC A0A0U1IPL2 #=GS A0A0U1IPL2/332-434 OS Salmonella enterica subsp. enterica serovar Typhimurium str. DT104 #=GS A0A0U1IPL2/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0U1IPL2/332-434 DR GENE3D; 0e0c8448338b1a3d4bcc7497b09a76a8/332-434; #=GS A0A0U1IPL2/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS A0A0U1IPL2/332-434 DR EC; 2.7.7.4; #=GS A0A0W3RBF6/332-434 AC A0A0W3RBF6 #=GS A0A0W3RBF6/332-434 OS Salmonella enterica #=GS A0A0W3RBF6/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0W3RBF6/332-434 DR GENE3D; 0e0c8448338b1a3d4bcc7497b09a76a8/332-434; #=GS A0A0W3RBF6/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; #=GS A0A0W3RBF6/332-434 DR EC; 2.7.7.4; #=GS A0A1C0ZJ34/332-434 AC A0A1C0ZJ34 #=GS A0A1C0ZJ34/332-434 OS Salmonella enterica subsp. enterica #=GS A0A1C0ZJ34/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1C0ZJ34/332-434 DR GENE3D; 0e0c8448338b1a3d4bcc7497b09a76a8/332-434; #=GS A0A1C0ZJ34/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS A0A1C0ZJ34/332-434 DR EC; 2.7.7.4; #=GS A0A0F6B604/332-434 AC A0A0F6B604 #=GS A0A0F6B604/332-434 OS Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S #=GS A0A0F6B604/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0F6B604/332-434 DR GENE3D; 0e0c8448338b1a3d4bcc7497b09a76a8/332-434; #=GS A0A0F6B604/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS A0A0F6B604/332-434 DR EC; 2.7.7.4; #=GS A0A1M3YY45/332-434 AC A0A1M3YY45 #=GS A0A1M3YY45/332-434 OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N23850 #=GS A0A1M3YY45/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1M3YY45/332-434 DR GENE3D; 0e0c8448338b1a3d4bcc7497b09a76a8/332-434; #=GS A0A1M3YY45/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; #=GS A0A1M3YY45/332-434 DR EC; 2.7.7.4; #=GS A0A1K0G638/332-434 AC A0A1K0G638 #=GS A0A1K0G638/332-434 OS Salmonella enterica subsp. enterica serovar Typhimurium #=GS A0A1K0G638/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1K0G638/332-434 DR GENE3D; 0e0c8448338b1a3d4bcc7497b09a76a8/332-434; #=GS A0A1K0G638/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; #=GS A0A1K0G638/332-434 DR EC; 2.7.7.4; #=GS A0A1E5DLB8/327-433 AC A0A1E5DLB8 #=GS A0A1E5DLB8/327-433 OS Vibrio cyclitrophicus FF160 #=GS A0A1E5DLB8/327-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1E5DLB8/327-433 DR GENE3D; 0e10020fbd9bdb933c3b21a6abc3cc23/327-433; #=GS A0A1E5DLB8/327-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cyclitrophicus; #=GS A0A1E5DLB8/327-433 DR EC; 2.7.7.4; #=GS A7LVC0/323-437 AC A7LVC0 #=GS A7LVC0/323-437 OS Bacteroides ovatus ATCC 8483 #=GS A7LVC0/323-437 DE Sulfate adenylyltransferase subunit 1 #=GS A7LVC0/323-437 DR GENE3D; 0e16d0d0f5a0c28e07086dc99533830d/323-437; #=GS A7LVC0/323-437 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides ovatus; #=GS A7LVC0/323-437 DR EC; 2.7.7.4; #=GS F3ZTU5/322-427 AC F3ZTU5 #=GS F3ZTU5/322-427 OS Bacteroides coprosuis DSM 18011 #=GS F3ZTU5/322-427 DE Sulfate adenylyltransferase subunit 1 #=GS F3ZTU5/322-427 DR GENE3D; 0e1f3e479a82f12a0d89f1d1800b4877/322-427; #=GS F3ZTU5/322-427 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides coprosuis; #=GS F3ZTU5/322-427 DR EC; 2.7.7.4; #=GS C6AS02/333-436 AC C6AS02 #=GS C6AS02/333-436 OS Rhizobium leguminosarum bv. trifolii WSM1325 #=GS C6AS02/333-436 DE Sulfate adenylyltransferase subunit 1 #=GS C6AS02/333-436 DR GENE3D; 0e4322ca258e77ac4d8ee5208843ffc4/333-436; #=GS C6AS02/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium leguminosarum; #=GS C6AS02/333-436 DR EC; 2.7.7.4; #=GS T0H2B3/307-412 AC T0H2B3 #=GS T0H2B3/307-412 OS Leptospira noguchii serovar Panama str. CZ214 #=GS T0H2B3/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS T0H2B3/307-412 DR GENE3D; 0e88c881d5b98afcb81432ed0c482dd7/307-412; #=GS T0H2B3/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira noguchii; #=GS T0H2B3/307-412 DR EC; 2.7.7.4; #=GS M6VZU0/307-412 AC M6VZU0 #=GS M6VZU0/307-412 OS Leptospira interrogans str. HAI1536 #=GS M6VZU0/307-412 DE Sulfate adenylyltransferase subunit 1 #=GS M6VZU0/307-412 DR GENE3D; 0e88c881d5b98afcb81432ed0c482dd7/307-412; #=GS M6VZU0/307-412 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira interrogans; #=GS M6VZU0/307-412 DR EC; 2.7.7.4; #=GS A0KTI3/335-440 AC A0KTI3 #=GS A0KTI3/335-440 OS Shewanella sp. ANA-3 #=GS A0KTI3/335-440 DE Sulfate adenylyltransferase subunit 1 #=GS A0KTI3/335-440 DR GENE3D; 0e999cd015b83d0af35443072fea9109/335-440; #=GS A0KTI3/335-440 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella sp. ANA-3; #=GS A0KTI3/335-440 DR EC; 2.7.7.4; #=GS N9RQU9/330-434 AC N9RQU9 #=GS N9RQU9/330-434 OS Acinetobacter sp. NIPH 2100 #=GS N9RQU9/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS N9RQU9/330-434 DR GENE3D; 0ed3594e710c94fcdd4f626d0694e39a/330-434; #=GS N9RQU9/330-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter sp. NIPH 2100; #=GS N9RQU9/330-434 DR EC; 2.7.7.4; #=GS K0W007/335-438 AC K0W007 #=GS K0W007/335-438 OS Rhizobium sp. Pop5 #=GS K0W007/335-438 DE Sulfate adenylyltransferase subunit 1 #=GS K0W007/335-438 DR GENE3D; 0ed822ea00d01f68c2e531b995a97621/335-438; #=GS K0W007/335-438 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Pop5; #=GS K0W007/335-438 DR EC; 2.7.7.4; #=GS R9VAS0/329-434 AC R9VAS0 #=GS R9VAS0/329-434 OS Pseudomonas putida H8234 #=GS R9VAS0/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS R9VAS0/329-434 DR GENE3D; 0ef3b33fc0809556ca7968a693295102/329-434; #=GS R9VAS0/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; #=GS R9VAS0/329-434 DR EC; 2.7.7.4; #=GS A0A1E7ZFL8/327-432 AC A0A1E7ZFL8 #=GS A0A1E7ZFL8/327-432 OS Alteromonas confluentis #=GS A0A1E7ZFL8/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1E7ZFL8/327-432 DR GENE3D; 0f094604a6ecf9c2e86d1a51c507bd4e/327-432; #=GS A0A1E7ZFL8/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas confluentis; #=GS A0A1E7ZFL8/327-432 DR EC; 2.7.7.4; #=GS N8VGZ6/330-434 AC N8VGZ6 #=GS N8VGZ6/330-434 OS Acinetobacter sp. NIPH 899 #=GS N8VGZ6/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS N8VGZ6/330-434 DR GENE3D; 0f0aa475af7056ee8b389e4e458a8a5b/330-434; #=GS N8VGZ6/330-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter sp. NIPH 899; #=GS N8VGZ6/330-434 DR EC; 2.7.7.4; #=GS A0A0M9CWT1/337-440 AC A0A0M9CWT1 #=GS A0A0M9CWT1/337-440 OS Photorhabdus heterorhabditis #=GS A0A0M9CWT1/337-440 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0M9CWT1/337-440 DR GENE3D; 0f3750afc539d58302da1c2ced70472b/337-440; #=GS A0A0M9CWT1/337-440 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Photorhabdus; Photorhabdus heterorhabditis; #=GS A0A0M9CWT1/337-440 DR EC; 2.7.7.4; #=GS A0A0H2QGI8/337-440 AC A0A0H2QGI8 #=GS A0A0H2QGI8/337-440 OS Moellerella wisconsensis #=GS A0A0H2QGI8/337-440 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0H2QGI8/337-440 DR GENE3D; 0f3ebe7a0c5545c420ba3b40f606de5a/337-440; #=GS A0A0H2QGI8/337-440 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Moellerella; Moellerella wisconsensis; #=GS A0A0H2QGI8/337-440 DR EC; 2.7.7.4; #=GS V2TFM4/333-435 AC V2TFM4 #=GS V2TFM4/333-435 OS Escherichia coli UMEA 3323-1 #=GS V2TFM4/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS V2TFM4/333-435 DR GENE3D; 0f44df3a5e0e50eb6892e7d51269085c/333-435; #=GS V2TFM4/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS V2TFM4/333-435 DR EC; 2.7.7.4; #=GS A0A1G1XU38/314-417 AC A0A1G1XU38 #=GS A0A1G1XU38/314-417 OS Candidatus Buchananbacteria bacterium RIFCSPHIGHO2_01_FULL_39_14 #=GS A0A1G1XU38/314-417 DE Adenylyl-sulfate kinase #=GS A0A1G1XU38/314-417 DR GENE3D; 0f470c4e89ea229462b3004a935d29b6/314-417; #=GS A0A1G1XU38/314-417 DR ORG; Bacteria; Candidatus Buchananbacteria; Candidatus Buchananbacteria bacterium RIFCSPHIGHO2_01_FULL_39_14; #=GS A0A1G1XU38/314-417 DR EC; 2.7.1.25; #=GS A4X321/326-433 AC A4X321 #=GS A4X321/326-433 OS Salinispora tropica CNB-440 #=GS A4X321/326-433 DE Sulfate adenylyltransferase subunit 1 #=GS A4X321/326-433 DR GENE3D; 0f501d1aa684b7dd6118f76374035b4c/326-433; #=GS A4X321/326-433 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Micromonosporales; Micromonosporaceae; Salinispora; Salinispora tropica; #=GS A4X321/326-433 DR EC; 2.7.7.4; #=GS D6JE90/333-435 AC D6JE90 #=GS D6JE90/333-435 OS Escherichia coli B354 #=GS D6JE90/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS D6JE90/333-435 DR GENE3D; 0f7225e22e2b193cc88b7a1095f1f857/333-435; #=GS D6JE90/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS D6JE90/333-435 DR EC; 2.7.7.4; #=GS S3VCB0/306-411 AC S3VCB0 #=GS S3VCB0/306-411 OS Leptospira fainei serovar Hurstbridge str. BUT 6 #=GS S3VCB0/306-411 DE Sulfate adenylyltransferase subunit 1 #=GS S3VCB0/306-411 DR GENE3D; 0f8f05bec0046de8af4df849c5209eca/306-411; #=GS S3VCB0/306-411 DR ORG; Bacteria; Spirochaetes; Spirochaetia; Leptospiraceae; Leptospira; Leptospira fainei; #=GS S3VCB0/306-411 DR EC; 2.7.7.4; #=GS A0A011Q858/331-435 AC A0A011Q858 #=GS A0A011Q858/331-435 OS Candidatus Accumulibacter sp. BA-93 #=GS A0A011Q858/331-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A011Q858/331-435 DR GENE3D; 0f973a3637388bd7d8d02840ec6c7a13/331-435; #=GS A0A011Q858/331-435 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Candidatus Accumulibacter; Candidatus Accumulibacter sp. BA-93; #=GS A0A011Q858/331-435 DR EC; 2.7.7.4; #=GS W2DNM3/329-434 AC W2DNM3 #=GS W2DNM3/329-434 OS Pseudomonas sp. FH4 #=GS W2DNM3/329-434 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS W2DNM3/329-434 DR GENE3D; 0faa771a1d2fac0eef5ddfcafb3da37d/329-434; #=GS W2DNM3/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas sp. FH4; #=GS W2DNM3/329-434 DR EC; 2.7.7.4; #=GS A0A1H2P6A9/329-434 AC A0A1H2P6A9 #=GS A0A1H2P6A9/329-434 OS Pseudomonas brenneri #=GS A0A1H2P6A9/329-434 DE Adenylylsulfate kinase /sulfate adenylyltransferase subunit 1 #=GS A0A1H2P6A9/329-434 DR GENE3D; 0faa771a1d2fac0eef5ddfcafb3da37d/329-434; #=GS A0A1H2P6A9/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas brenneri; #=GS A0A1H2P6A9/329-434 DR EC; 2.7.7.4; #=GS A0A147KJR1/313-419 AC A0A147KJR1 #=GS A0A147KJR1/313-419 OS Thermobifida cellulosilytica TB100 #=GS A0A147KJR1/313-419 DE Sulfate adenylyltransferase subunit 1 #=GS A0A147KJR1/313-419 DR GENE3D; 0fc4608bbc5a63d27827cf609e8cfb4f/313-419; #=GS A0A147KJR1/313-419 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptosporangiales; Nocardiopsaceae; Thermobifida; Thermobifida cellulosilytica; #=GS A0A147KJR1/313-419 DR EC; 2.7.7.4; #=GS A0A0T5XZZ8/309-415 AC A0A0T5XZZ8 #=GS A0A0T5XZZ8/309-415 OS Mycobacterium tuberculosis #=GS A0A0T5XZZ8/309-415 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase #=GS A0A0T5XZZ8/309-415 DR GENE3D; 0fe4aff4418e17071cd1a2f6e66a1adb/309-415; #=GS A0A0T5XZZ8/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium tuberculosis; #=GS A0A0T5XZZ8/309-415 DR EC; 2.7.1.25; #=GS B0NR79/323-437 AC B0NR79 #=GS B0NR79/323-437 OS Bacteroides stercoris ATCC 43183 #=GS B0NR79/323-437 DE Sulfate adenylyltransferase subunit 1 #=GS B0NR79/323-437 DR GENE3D; 103b258e1f1e74b44c1ca508e3e2970a/323-437; #=GS B0NR79/323-437 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides stercoris; #=GS B0NR79/323-437 DR EC; 2.7.7.4; #=GS R6B0C8/323-437 AC R6B0C8 #=GS R6B0C8/323-437 OS Bacteroides stercoris CAG:120 #=GS R6B0C8/323-437 DE Sulfate adenylyltransferase subunit 1 #=GS R6B0C8/323-437 DR GENE3D; 103b258e1f1e74b44c1ca508e3e2970a/323-437; #=GS R6B0C8/323-437 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides stercoris CAG:120; #=GS R6B0C8/323-437 DR EC; 2.7.7.4; #=GS S3YHQ3/323-437 AC S3YHQ3 #=GS S3YHQ3/323-437 OS Bacteroides stercoris CC31F #=GS S3YHQ3/323-437 DE Sulfate adenylyltransferase subunit 1 #=GS S3YHQ3/323-437 DR GENE3D; 103b258e1f1e74b44c1ca508e3e2970a/323-437; #=GS S3YHQ3/323-437 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides stercoris; #=GS S3YHQ3/323-437 DR EC; 2.7.7.4; #=GS A0A108TBM7/323-437 AC A0A108TBM7 #=GS A0A108TBM7/323-437 OS Bacteroides stercoris #=GS A0A108TBM7/323-437 DE Sulfate adenylyltransferase subunit 1 #=GS A0A108TBM7/323-437 DR GENE3D; 103b258e1f1e74b44c1ca508e3e2970a/323-437; #=GS A0A108TBM7/323-437 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides stercoris; #=GS A0A108TBM7/323-437 DR EC; 2.7.7.4; #=GS I9QHU8/324-438 AC I9QHU8 #=GS I9QHU8/324-438 OS Bacteroides cellulosilyticus CL02T12C19 #=GS I9QHU8/324-438 DE Sulfate adenylyltransferase subunit 1 #=GS I9QHU8/324-438 DR GENE3D; 1077b09207fa005a4e851a9ae2d99b60/324-438; #=GS I9QHU8/324-438 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides cellulosilyticus; #=GS I9QHU8/324-438 DR EC; 2.7.7.4; #=GS A0A108TAK8/324-438 AC A0A108TAK8 #=GS A0A108TAK8/324-438 OS Bacteroides cellulosilyticus #=GS A0A108TAK8/324-438 DE Sulfate adenylyltransferase subunit 1 #=GS A0A108TAK8/324-438 DR GENE3D; 1077b09207fa005a4e851a9ae2d99b60/324-438; #=GS A0A108TAK8/324-438 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides cellulosilyticus; #=GS A0A108TAK8/324-438 DR EC; 2.7.7.4; #=GS A0A1G4EXZ5/329-432 AC A0A1G4EXZ5 #=GS A0A1G4EXZ5/329-432 OS Brucella sp. 141012304 #=GS A0A1G4EXZ5/329-432 DE Bifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein #=GS A0A1G4EXZ5/329-432 DR GENE3D; 107b20f7d573835ce6965a789759467e/329-432; #=GS A0A1G4EXZ5/329-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella sp. 141012304; #=GS A0A1G4EXZ5/329-432 DR EC; 2.7.7.4; #=GS J3BG81/329-434 AC J3BG81 #=GS J3BG81/329-434 OS Pseudomonas sp. GM60 #=GS J3BG81/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS J3BG81/329-434 DR GENE3D; 10ab777f68ff99481494d8285c3b30a4/329-434; #=GS J3BG81/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM60; #=GS J3BG81/329-434 DR EC; 2.7.7.4; #=GS A0A090UGL5/333-435 AC A0A090UGL5 #=GS A0A090UGL5/333-435 OS Citrobacter farmeri GTC 1319 #=GS A0A090UGL5/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A090UGL5/333-435 DR GENE3D; 10b60e63c8e60e5b6effc1f70b3a69de/333-435; #=GS A0A090UGL5/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter farmeri; #=GS A0A090UGL5/333-435 DR EC; 2.7.7.4; #=GS A0A191ZZ35/328-432 AC A0A191ZZ35 #=GS A0A191ZZ35/328-432 OS Ralstonia insidiosa #=GS A0A191ZZ35/328-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A191ZZ35/328-432 DR GENE3D; 10f3cdd652b8a889d6376f1289befb92/328-432; #=GS A0A191ZZ35/328-432 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Ralstonia; Ralstonia insidiosa; #=GS A0A191ZZ35/328-432 DR EC; 2.7.7.4; #=GS S3H4P6/285-390 AC S3H4P6 #=GS S3H4P6/285-390 OS Rhizobium grahamii CCGE 502 #=GS S3H4P6/285-390 DE Adenylyl-sulfate kinase #=GS S3H4P6/285-390 DR GENE3D; 111d0ced9daa93df7e6c411f24be3415/285-390; #=GS S3H4P6/285-390 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium grahamii; #=GS S3H4P6/285-390 DR EC; 2.7.1.25; #=GS A0A1K1R0D8/313-418 AC A0A1K1R0D8 #=GS A0A1K1R0D8/313-418 OS Sinomicrobium oceani #=GS A0A1K1R0D8/313-418 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1K1R0D8/313-418 DR GENE3D; 112152b0d3d7860a58cb9fe0c4d1b831/313-418; #=GS A0A1K1R0D8/313-418 DR ORG; Bacteria; Bacteroidetes; Flavobacteriia; Flavobacteriales; Flavobacteriaceae; Sinomicrobium; Sinomicrobium oceani; #=GS A0A1K1R0D8/313-418 DR EC; 2.7.7.4; #=GS A0A0H5NLG6/309-415 AC A0A0H5NLG6 #=GS A0A0H5NLG6/309-415 OS Nocardia farcinica #=GS A0A0H5NLG6/309-415 DE Adenylyl-sulfate kinase #=GS A0A0H5NLG6/309-415 DR GENE3D; 113407110c6af861fa80b5174f82804b/309-415; #=GS A0A0H5NLG6/309-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Nocardiaceae; Nocardia; Nocardia farcinica; #=GS A0A0H5NLG6/309-415 DR EC; 2.7.1.25; #=GS A0A0M3B9M8/335-439 AC A0A0M3B9M8 #=GS A0A0M3B9M8/335-439 OS Rhizobium sp. LC145 #=GS A0A0M3B9M8/335-439 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0M3B9M8/335-439 DR GENE3D; 114fd09827c05d7eddeacf788de42db3/335-439; #=GS A0A0M3B9M8/335-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. LC145; #=GS A0A0M3B9M8/335-439 DR EC; 2.7.7.4; #=GS A0A0D1PL69/329-434 AC A0A0D1PL69 #=GS A0A0D1PL69/329-434 OS Pseudomonas putida #=GS A0A0D1PL69/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0D1PL69/329-434 DR GENE3D; 1175e004a1af874cf9ec31828081bfd7/329-434; #=GS A0A0D1PL69/329-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; #=GS A0A0D1PL69/329-434 DR EC; 2.7.7.4; #=GS E2DQH8/327-430 AC E2DQH8 #=GS E2DQH8/327-430 OS Rhizobium favelukesii #=GS E2DQH8/327-430 DE Bifunctional enzyme NodQ #=GS E2DQH8/327-430 DR GENE3D; 1199bc8ceca5da12dfad97e413375c83/327-430; #=GS E2DQH8/327-430 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium favelukesii; #=GS E2DQH8/327-430 DR EC; 2.7.7.4; #=GS A0A0Q5EQJ3/328-432 AC A0A0Q5EQJ3 #=GS A0A0Q5EQJ3/328-432 OS Rhizobium sp. Leaf311 #=GS A0A0Q5EQJ3/328-432 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q5EQJ3/328-432 DR GENE3D; 11a2d6949cfe714e8f22808c7e034d30/328-432; #=GS A0A0Q5EQJ3/328-432 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Leaf311; #=GS A0A0Q5EQJ3/328-432 DR EC; 2.7.7.4; #=GS R8B5H3/327-432 AC R8B5H3 #=GS R8B5H3/327-432 OS Marinobacter lipolyticus SM19 #=GS R8B5H3/327-432 DE Sulfate adenylyltransferase subunit 1 #=GS R8B5H3/327-432 DR GENE3D; 11d2e2a4073a7a33b080f06763608919/327-432; #=GS R8B5H3/327-432 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Marinobacter; Marinobacter lipolyticus; #=GS R8B5H3/327-432 DR EC; 2.7.7.4; #=GS A0A173X003/306-409 AC A0A173X003 #=GS A0A173X003/306-409 OS Anaerostipes hadrus #=GS A0A173X003/306-409 DE Sulfate adenylyltransferase subunit 1 #=GS A0A173X003/306-409 DR GENE3D; 11e57977e39a9e4bfb3bfe3fe9f11d0d/306-409; #=GS A0A173X003/306-409 DR ORG; Bacteria; Firmicutes; Clostridia; Clostridiales; Lachnospiraceae; Anaerostipes; Anaerostipes hadrus; #=GS A0A173X003/306-409 DR EC; 2.7.7.4; #=GS A0A179DBA2/308-411 AC A0A179DBA2 #=GS A0A179DBA2/308-411 OS Pedobacter sp. CCM 8644 #=GS A0A179DBA2/308-411 DE Sulfate adenylyltransferase subunit 1 #=GS A0A179DBA2/308-411 DR GENE3D; 120cbdfc3a5578f052391af8c531742c/308-411; #=GS A0A179DBA2/308-411 DR ORG; Bacteria; Bacteroidetes; Sphingobacteriia; Sphingobacteriales; Sphingobacteriaceae; Pedobacter; Pedobacter sp. CCM 8644; #=GS A0A179DBA2/308-411 DR EC; 2.7.7.4; #=GS A0A0G3Z324/330-434 AC A0A0G3Z324 #=GS A0A0G3Z324/330-434 OS Burkholderia contaminans #=GS A0A0G3Z324/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0G3Z324/330-434 DR GENE3D; 120fc70b4c6b3174bdcc883eddaf50ee/330-434; #=GS A0A0G3Z324/330-434 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia contaminans; #=GS A0A0G3Z324/330-434 DR EC; 2.7.7.4; #=GS A0A0B2AZ12/330-434 AC A0A0B2AZ12 #=GS A0A0B2AZ12/330-434 OS Mumia flava #=GS A0A0B2AZ12/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0B2AZ12/330-434 DR GENE3D; 120fc70b4c6b3174bdcc883eddaf50ee/330-434; #=GS A0A0B2AZ12/330-434 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Mumia; Mumia flava; #=GS A0A0B2AZ12/330-434 DR EC; 2.7.7.4; #=GS A0A0A8GD00/333-436 AC A0A0A8GD00 #=GS A0A0A8GD00/333-436 OS Rhizobium etli bv. phaseoli str. IE4803 #=GS A0A0A8GD00/333-436 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0A8GD00/333-436 DR GENE3D; 12195e251896dd5c60333fe8424b902e/333-436; #=GS A0A0A8GD00/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium etli; #=GS A0A0A8GD00/333-436 DR EC; 2.7.7.4; #=GS D5W4H9/329-434 AC D5W4H9 #=GS D5W4H9/329-434 OS Burkholderia sp. CCGE1002 #=GS D5W4H9/329-434 DE Sulfate adenylyltransferase subunit 1 #=GS D5W4H9/329-434 DR GENE3D; 121a17efbebe72b500f7bf7083fdc7fa/329-434; #=GS D5W4H9/329-434 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia sp. CCGE1002; #=GS D5W4H9/329-434 DR EC; 2.7.7.4; #=GS C6IER6/322-436 AC C6IER6 #=GS C6IER6/322-436 OS Bacteroides sp. 1_1_6 #=GS C6IER6/322-436 DE Sulfate adenylyltransferase subunit 1 #=GS C6IER6/322-436 DR GENE3D; 1266752d4db9868e08d00181a7d544ff/322-436; #=GS C6IER6/322-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides sp. 1_1_6; #=GS C6IER6/322-436 DR EC; 2.7.7.4; #=GS A0A174QPD1/322-436 AC A0A174QPD1 #=GS A0A174QPD1/322-436 OS Bacteroides thetaiotaomicron #=GS A0A174QPD1/322-436 DE Sulfate adenylyltransferase subunit 1 #=GS A0A174QPD1/322-436 DR GENE3D; 1266752d4db9868e08d00181a7d544ff/322-436; #=GS A0A174QPD1/322-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides thetaiotaomicron; #=GS A0A174QPD1/322-436 DR EC; 2.7.7.4; #=GS A0A1H1QA35/310-415 AC A0A1H1QA35 #=GS A0A1H1QA35/310-415 OS Paraoerskovia marina #=GS A0A1H1QA35/310-415 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1H1QA35/310-415 DR GENE3D; 129586bd30107dc78631a505891f0430/310-415; #=GS A0A1H1QA35/310-415 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Micrococcales; Cellulomonadaceae; Paraoerskovia; Paraoerskovia marina; #=GS A0A1H1QA35/310-415 DR EC; 2.7.7.4; #=GS K8A5F7/333-434 AC K8A5F7 #=GS K8A5F7/333-434 OS Cronobacter condimenti 1330 #=GS K8A5F7/333-434 DE Sulfate adenylyltransferase subunit 1 #=GS K8A5F7/333-434 DR GENE3D; 129649d7d1c1f3e57011bfb1afaa4621/333-434; #=GS K8A5F7/333-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Cronobacter; Cronobacter condimenti; #=GS K8A5F7/333-434 DR EC; 2.7.7.4; #=GS A0A031JLG4/336-439 AC A0A031JLG4 #=GS A0A031JLG4/336-439 OS Sphingomonas paucimobilis #=GS A0A031JLG4/336-439 DE Adenylylsulfate kinase #=GS A0A031JLG4/336-439 DR GENE3D; 12ada2894b0532d1544689236861482f/336-439; #=GS A0A031JLG4/336-439 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas paucimobilis; #=GS A0A031JLG4/336-439 DR EC; 2.7.1.25; #=GS A0A0T5PN23/326-430 AC A0A0T5PN23 #=GS A0A0T5PN23/326-430 OS Alishewanella sp. WH16-1 #=GS A0A0T5PN23/326-430 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0T5PN23/326-430 DR GENE3D; 12d6e8a0a7bfb94a6dc1bc2998d49d64/326-430; #=GS A0A0T5PN23/326-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alishewanella; Alishewanella sp. WH16-1; #=GS A0A0T5PN23/326-430 DR EC; 2.7.7.4; #=GS A0A174TWK8/322-436 AC A0A174TWK8 #=GS A0A174TWK8/322-436 OS Bacteroides thetaiotaomicron #=GS A0A174TWK8/322-436 DE Sulfate adenylyltransferase subunit 1 #=GS A0A174TWK8/322-436 DR GENE3D; 12dc7aa787b5cf0eeda2158fcc3879d8/322-436; #=GS A0A174TWK8/322-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides thetaiotaomicron; #=GS A0A174TWK8/322-436 DR EC; 2.7.7.4; #=GS R6VDX8/322-436 AC R6VDX8 #=GS R6VDX8/322-436 OS Bacteroides faecis CAG:32 #=GS R6VDX8/322-436 DE Sulfate adenylyltransferase subunit 1 #=GS R6VDX8/322-436 DR GENE3D; 12dc7aa787b5cf0eeda2158fcc3879d8/322-436; #=GS R6VDX8/322-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides faecis CAG:32; #=GS R6VDX8/322-436 DR EC; 2.7.7.4; #=GS A0A1E9C1J3/322-436 AC A0A1E9C1J3 #=GS A0A1E9C1J3/322-436 OS Bacteroides sp. HMSC067B03 #=GS A0A1E9C1J3/322-436 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1E9C1J3/322-436 DR GENE3D; 12dc7aa787b5cf0eeda2158fcc3879d8/322-436; #=GS A0A1E9C1J3/322-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides sp. HMSC067B03; #=GS A0A1E9C1J3/322-436 DR EC; 2.7.7.4; #=GS A0A1E4X2G3/326-428 AC A0A1E4X2G3 #=GS A0A1E4X2G3/326-428 OS Aeromonas sp. ANP5 #=GS A0A1E4X2G3/326-428 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1E4X2G3/326-428 DR GENE3D; 12f3d08932695e96cdcb8e68c91ff897/326-428; #=GS A0A1E4X2G3/326-428 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas sp. ANP5; #=GS A0A1E4X2G3/326-428 DR EC; 2.7.7.4; #=GS A0A0B7JGC1/331-433 AC A0A0B7JGC1 #=GS A0A0B7JGC1/331-433 OS Photobacterium phosphoreum ANT-2200 #=GS A0A0B7JGC1/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0B7JGC1/331-433 DR GENE3D; 1340e9f64a1331745b262b60a9e0ffcf/331-433; #=GS A0A0B7JGC1/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium phosphoreum; #=GS A0A0B7JGC1/331-433 DR EC; 2.7.7.4; #=GS A0A0Q4NP40/332-434 AC A0A0Q4NP40 #=GS A0A0Q4NP40/332-434 OS Serratia sp. Leaf51 #=GS A0A0Q4NP40/332-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0Q4NP40/332-434 DR GENE3D; 1349d6ca2c0dadde0c061dc62eb4c99a/332-434; #=GS A0A0Q4NP40/332-434 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia sp. Leaf51; #=GS A0A0Q4NP40/332-434 DR EC; 2.7.7.4; #=GS A0A066URD0/331-433 AC A0A066URD0 #=GS A0A066URD0/331-433 OS Vibrio fortis #=GS A0A066URD0/331-433 DE Sulfate adenylyltransferase subunit 1 #=GS A0A066URD0/331-433 DR GENE3D; 1391da2d29cb46994c7d6bd9a7695d76/331-433; #=GS A0A066URD0/331-433 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fortis; #=GS A0A066URD0/331-433 DR EC; 2.7.7.4; #=GS A0A1C6RN64/327-434 AC A0A1C6RN64 #=GS A0A1C6RN64/327-434 OS Micromonospora rhizosphaerae #=GS A0A1C6RN64/327-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1C6RN64/327-434 DR GENE3D; 13dc4e121dcc773d08d33c8c199a99f1/327-434; #=GS A0A1C6RN64/327-434 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Micromonosporales; Micromonosporaceae; Micromonospora; Micromonospora rhizosphaerae; #=GS A0A1C6RN64/327-434 DR EC; 2.7.7.4; #=GS E2SEP8/310-416 AC E2SEP8 #=GS E2SEP8/310-416 OS Aeromicrobium marinum DSM 15272 #=GS E2SEP8/310-416 DE Adenylyl-sulfate kinase #=GS E2SEP8/310-416 DR GENE3D; 13e2666478989ac460a948293f310607/310-416; #=GS E2SEP8/310-416 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Propionibacteriales; Nocardioidaceae; Aeromicrobium; Aeromicrobium marinum; #=GS E2SEP8/310-416 DR EC; 2.7.1.25; #=GS B2PZ75/337-439 AC B2PZ75 #=GS B2PZ75/337-439 OS Providencia stuartii ATCC 25827 #=GS B2PZ75/337-439 DE Sulfate adenylyltransferase subunit 1 #=GS B2PZ75/337-439 DR GENE3D; 13e999619adc9a7143b14702401f7a63/337-439; #=GS B2PZ75/337-439 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Providencia; Providencia stuartii; #=GS B2PZ75/337-439 DR EC; 2.7.7.4; #=GS A4G7P0/338-441 AC A4G7P0 #=GS A4G7P0/338-441 OS Herminiimonas arsenicoxydans #=GS A4G7P0/338-441 DE Sulfate adenylyltransferase subunit 1 #=GS A4G7P0/338-441 DR GENE3D; 13eb3d4f97de3455bf8893b3596b8faa/338-441; #=GS A4G7P0/338-441 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Herminiimonas; Herminiimonas arsenicoxydans; #=GS A4G7P0/338-441 DR EC; 2.7.7.4; #=GS A6GJE6/361-464 AC A6GJE6 #=GS A6GJE6/361-464 OS Plesiocystis pacifica SIR-1 #=GS A6GJE6/361-464 DE Sulfate adenylyltransferase subunit 1 #=GS A6GJE6/361-464 DR GENE3D; 13f1235dd7ada445806c68ea2cc7fc32/361-464; #=GS A6GJE6/361-464 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Myxococcales; Nannocystineae; Nannocystaceae; Plesiocystis; Plesiocystis pacifica; #=GS A6GJE6/361-464 DR EC; 2.7.7.4; #=GS A0A1E5IVF1/326-430 AC A0A1E5IVF1 #=GS A0A1E5IVF1/326-430 OS Shewanella colwelliana #=GS A0A1E5IVF1/326-430 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1E5IVF1/326-430 DR GENE3D; 14072f467148d9cfeeb834cc1f7b731f/326-430; #=GS A0A1E5IVF1/326-430 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella colwelliana; #=GS A0A1E5IVF1/326-430 DR EC; 2.7.7.4; #=GS A0A081V2L3/330-434 AC A0A081V2L3 #=GS A0A081V2L3/330-434 OS Burkholderia cepacia #=GS A0A081V2L3/330-434 DE Sulfate adenylyltransferase subunit 1 #=GS A0A081V2L3/330-434 DR GENE3D; 141ccb0a6699458da8f5c25ec70d58ba/330-434; #=GS A0A081V2L3/330-434 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Burkholderiaceae; Burkholderia; Burkholderia cepacia complex; Burkholderia cepacia; #=GS A0A081V2L3/330-434 DR EC; 2.7.7.4; #=GS D7I9C8/322-436 AC D7I9C8 #=GS D7I9C8/322-436 OS Bacteroides sp. 1_1_14 #=GS D7I9C8/322-436 DE Sulfate adenylyltransferase subunit 1 #=GS D7I9C8/322-436 DR GENE3D; 146a9b431cae37902e765d35d6682148/322-436; #=GS D7I9C8/322-436 DR ORG; Bacteria; Bacteroidetes; Bacteroidia; Bacteroidales; Bacteroidaceae; Bacteroides; Bacteroides sp. 1_1_14; #=GS D7I9C8/322-436 DR EC; 2.7.7.4; #=GS D5V7W8/342-447 AC D5V7W8 #=GS D5V7W8/342-447 OS Arcobacter nitrofigilis DSM 7299 #=GS D5V7W8/342-447 DE Sulfate adenylyltransferase subunit 1 #=GS D5V7W8/342-447 DR GENE3D; 1491a7c2bbb12916f903b2060d6db629/342-447; #=GS D5V7W8/342-447 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Epsilonproteobacteria; Campylobacterales; Campylobacteraceae; Arcobacter; Arcobacter nitrofigilis; #=GS D5V7W8/342-447 DR EC; 2.7.7.4; #=GS L8JRZ8/321-426 AC L8JRZ8 #=GS L8JRZ8/321-426 OS Fulvivirga imtechensis AK7 #=GS L8JRZ8/321-426 DE Sulfate adenylyltransferase subunit 1 #=GS L8JRZ8/321-426 DR GENE3D; 149e9ae65b524b4506468e0cea175231/321-426; #=GS L8JRZ8/321-426 DR ORG; Bacteria; Bacteroidetes; Cytophagia; Cytophagales; Flammeovirgaceae; Fulvivirga; Fulvivirga imtechensis; #=GS L8JRZ8/321-426 DR EC; 2.7.7.4; #=GS A0A0B4XP18/327-431 AC A0A0B4XP18 #=GS A0A0B4XP18/327-431 OS Alcanivorax pacificus W11-5 #=GS A0A0B4XP18/327-431 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0B4XP18/327-431 DR GENE3D; 14a4a8704b57a190a8281af9e94ef1a4/327-431; #=GS A0A0B4XP18/327-431 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Alcanivoracaceae; Alcanivorax; Alcanivorax pacificus; #=GS A0A0B4XP18/327-431 DR EC; 2.7.7.4; #=GS E0M4M6/333-435 AC E0M4M6 #=GS E0M4M6/333-435 OS Pantoea sp. aB #=GS E0M4M6/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS E0M4M6/333-435 DR GENE3D; 14b195c4516f505a7663a18b883230a5/333-435; #=GS E0M4M6/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea sp. aB; #=GS E0M4M6/333-435 DR EC; 2.7.7.4; #=GS A0A1C3Y8K5/333-436 AC A0A1C3Y8K5 #=GS A0A1C3Y8K5/333-436 OS Rhizobium sp. HBR26 #=GS A0A1C3Y8K5/333-436 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1C3Y8K5/333-436 DR GENE3D; 14c27f5d63fbcd46f2c33a8cbaae57cb/333-436; #=GS A0A1C3Y8K5/333-436 DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. HBR26; #=GS A0A1C3Y8K5/333-436 DR EC; 2.7.7.4; #=GS W4SFR3/54-157 AC W4SFR3 #=GS W4SFR3/54-157 OS Xanthomonas arboricola pv. pruni MAFF 301420 #=GS W4SFR3/54-157 DE Adenylyl-sulfate kinase #=GS W4SFR3/54-157 DR GENE3D; 14e3b02eafe6f9471980fd2fb0517348/54-157; #=GS W4SFR3/54-157 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas arboricola; #=GS W4SFR3/54-157 DR EC; 2.7.1.25; #=GS W4S798/54-157 AC W4S798 #=GS W4S798/54-157 OS Xanthomonas arboricola pv. pruni str. MAFF 311562 #=GS W4S798/54-157 DE Adenylyl-sulfate kinase #=GS W4S798/54-157 DR GENE3D; 14e3b02eafe6f9471980fd2fb0517348/54-157; #=GS W4S798/54-157 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Xanthomonadales; Xanthomonadaceae; Xanthomonas; Xanthomonas arboricola; #=GS W4S798/54-157 DR EC; 2.7.1.25; #=GS A0A1C0B4V0/324-428 AC A0A1C0B4V0 #=GS A0A1C0B4V0/324-428 OS Arcobacter thereius #=GS A0A1C0B4V0/324-428 DE Sulfate adenylyltransferase subunit 1 #=GS A0A1C0B4V0/324-428 DR GENE3D; 14ef49e7c282f7768323e37d98af721a/324-428; #=GS A0A1C0B4V0/324-428 DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Epsilonproteobacteria; Campylobacterales; Campylobacteraceae; Arcobacter; Arcobacter thereius; #=GS A0A1C0B4V0/324-428 DR EC; 2.7.7.4; #=GS Q1H0P5/326-431 AC Q1H0P5 #=GS Q1H0P5/326-431 OS Methylobacillus flagellatus KT #=GS Q1H0P5/326-431 DE Sulfate adenylyltransferase subunit 1 #=GS Q1H0P5/326-431 DR GENE3D; 150d80c4b3f26953bcdf967881db1291/326-431; #=GS Q1H0P5/326-431 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Methylophilales; Methylophilaceae; Methylobacillus; Methylobacillus flagellatus; #=GS Q1H0P5/326-431 DR EC; 2.7.7.4; #=GS A0A0B8PAE0/272-378 AC A0A0B8PAE0 #=GS A0A0B8PAE0/272-378 OS Vibrio ishigakensis #=GS A0A0B8PAE0/272-378 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0B8PAE0/272-378 DR GENE3D; 151cc8c0478971697d8690613da56da4/272-378; #=GS A0A0B8PAE0/272-378 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio ishigakensis; #=GS A0A0B8PAE0/272-378 DR EC; 2.7.7.4; #=GS C0N8C1/333-437 AC C0N8C1 #=GS C0N8C1/333-437 OS Methylophaga thiooxydans DMS010 #=GS C0N8C1/333-437 DE Sulfate adenylyltransferase subunit 1 #=GS C0N8C1/333-437 DR GENE3D; 15421f8ec28ccbd47c80bdc58e24fdfd/333-437; #=GS C0N8C1/333-437 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Methylophaga; Methylophaga thiooxydans; #=GS C0N8C1/333-437 DR EC; 2.7.7.4; #=GS A0A0U0QXU2/52-158 AC A0A0U0QXU2 #=GS A0A0U0QXU2/52-158 OS Mycobacterium tuberculosis #=GS A0A0U0QXU2/52-158 DE Adenylyl-sulfate kinase #=GS A0A0U0QXU2/52-158 DR GENE3D; 154a80b3436193ed31ced0f588b4853e/52-158; #=GS A0A0U0QXU2/52-158 DR ORG; Bacteria; Actinobacteria; Actinobacteria; Corynebacteriales; Mycobacteriaceae; Mycobacterium; Mycobacterium tuberculosis complex; Mycobacterium tuberculosis; #=GS A0A0U0QXU2/52-158 DR EC; 2.7.1.25; #=GS A0A127PGJ6/338-442 AC A0A127PGJ6 #=GS A0A127PGJ6/338-442 OS Collimonas fungivorans #=GS A0A127PGJ6/338-442 DE Sulfate adenylyltransferase subunit 1 #=GS A0A127PGJ6/338-442 DR GENE3D; 1553d917048f4917bbce705e32a2e95a/338-442; #=GS A0A127PGJ6/338-442 DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Collimonas; Collimonas fungivorans; #=GS A0A127PGJ6/338-442 DR EC; 2.7.7.4; #=GS A0A0H3EKC4/333-435 AC A0A0H3EKC4 #=GS A0A0H3EKC4/333-435 OS Escherichia coli O83:H1 str. NRG 857C #=GS A0A0H3EKC4/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0H3EKC4/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS A0A0H3EKC4/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS A0A0H3EKC4/333-435 DR EC; 2.7.7.4; #=GS A0A0W3CRU7/333-435 AC A0A0W3CRU7 #=GS A0A0W3CRU7/333-435 OS Escherichia fergusonii #=GS A0A0W3CRU7/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0W3CRU7/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS A0A0W3CRU7/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia fergusonii; #=GS A0A0W3CRU7/333-435 DR EC; 2.7.7.4; #=GS B7MKM5/333-435 AC B7MKM5 #=GS B7MKM5/333-435 OS Escherichia coli S88 #=GS B7MKM5/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS B7MKM5/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS B7MKM5/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS B7MKM5/333-435 DR EC; 2.7.7.4; #=GS A0A0D8W064/333-435 AC A0A0D8W064 #=GS A0A0D8W064/333-435 OS Escherichia coli #=GS A0A0D8W064/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0D8W064/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS A0A0D8W064/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS A0A0D8W064/333-435 DR EC; 2.7.7.4; #=GS A0A0G3J148/333-435 AC A0A0G3J148 #=GS A0A0G3J148/333-435 OS Escherichia coli APEC O18 #=GS A0A0G3J148/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0G3J148/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS A0A0G3J148/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS A0A0G3J148/333-435 DR EC; 2.7.7.4; #=GS A0A0E2L114/333-435 AC A0A0E2L114 #=GS A0A0E2L114/333-435 OS Escherichia coli UMEA 3162-1 #=GS A0A0E2L114/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A0A0E2L114/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS A0A0E2L114/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS A0A0E2L114/333-435 DR EC; 2.7.7.4; #=GS V0VLT3/333-435 AC V0VLT3 #=GS V0VLT3/333-435 OS Escherichia coli 908519 #=GS V0VLT3/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS V0VLT3/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS V0VLT3/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS V0VLT3/333-435 DR EC; 2.7.7.4; #=GS A1AEU5/333-435 AC A1AEU5 #=GS A1AEU5/333-435 OS Escherichia coli APEC O1 #=GS A1AEU5/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS A1AEU5/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS A1AEU5/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS A1AEU5/333-435 DR EC; 2.7.7.4; #=GS Q1R7U0/333-435 AC Q1R7U0 #=GS Q1R7U0/333-435 OS Escherichia coli UTI89 #=GS Q1R7U0/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS Q1R7U0/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS Q1R7U0/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS Q1R7U0/333-435 DR EC; 2.7.7.4; #=GS T6GSF3/333-435 AC T6GSF3 #=GS T6GSF3/333-435 OS Escherichia coli HVH 70 (4-2963531) #=GS T6GSF3/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS T6GSF3/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS T6GSF3/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS T6GSF3/333-435 DR EC; 2.7.7.4; #=GS Q8FEJ1/333-435 AC Q8FEJ1 #=GS Q8FEJ1/333-435 OS Escherichia coli CFT073 #=GS Q8FEJ1/333-435 DE Sulfate adenylyltransferase subunit 1 #=GS Q8FEJ1/333-435 DR GENE3D; 1567e6e72667499e0ec34d7b33be9289/333-435; #=GS Q8FEJ1/333-435 DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; #=GS Q8FEJ1/333-435 DR EC; 2.7.7.4; #=GF TC 97.2 7.0E-29 #=GF SQ 1000 1zunB03/329-434 PQVSDAFDAXLVWXAE-EPX-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLEE----GP--ASS---------LQLNEIGRVKVSLDAPIALDGYSS-----NRT-----TGAFIVIDRLTNGTVAAGXIIA P9WNM5/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- Q57FI4/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- C0RGP6/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- A0A0E2W7D6/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0R241/312-418 PRVTQDFDATVCWMADDASL-EPGREYLIKHTTRT-TRAKVVDLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTRTPLLLDEYSR-----NPA-----TGSFILIDPHTNGTVGAGMVL- A0A1M9Z3R8/309-414 PHTTQEFDATVCWMSDDAAL-EPGRDYIIKHTTRT-TRVRVTDLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVTLRTQQPLLLDEYSR-----NAV-----TGSFILIDPDTNGTVAAGMV-- C0G3W4/325-428 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- P23845/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A1BAB6/336-440 CEVADQFEATLVWMAE-QEM-LPGRPYLLKIGTQT-VTATVTEPKYEVNVN-----TLEH----LA--SKT---------LGLNAIGVVNISTDRPIPFEAYAQ-----NPD-----LGGFILIDRMTNATVAAGMIH- Q8P611/355-458 PEVADQFAAHVLWMDD-AAL-LPGRPYWLKIGTRT-VAASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLSLDEPIAFAPYAR-----NRV-----LGGFILIDRQTNATVAAGAL-- P13442/327-430 PFVADQFQAHVIWFDA-NPM-MPGRSYILRTETDS-VSATVTTLKHQVNIN-----SFIR----EA--AKS---------LQMNEVGVCNISTQAPIAFDAYND-----NRA-----TGNFIIVDRVTNATVGAGLI-- I6YA54/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- Q7UMW2/329-433 PRSESDVEAMLVWMNE-EAM-VPGKTYLVKHSTQT-VPGNVETLAYKVDVN-----DLHR----MP--APT---------LELNEIGRVRLSLSAPIHHDPYRR-----NRT-----TGAIILVDRITNATVAAGMIL- Q2RS05/327-431 PAQADHFAAHLLWMDA-KAL-MPGRDYLVRMGPLQ-MRGQITAIKHKIDVN-----TMEE----RP--APT---------LELNDVGSVNLQVDRAVPFDPYDQ-----NRD-----TGSFILIDRLTNATVGAGMIR- Q9KP20/331-433 -DSTNHLLADVVWMTE-QPL-QVGRDYDIKIAGKK-TVGQVKAVRHQYDIN-----NLST----YH--AES---------LPLNGIGLCEWTFTQTVALDKYLD-----CAD-----TGGFIIIDRLTNVTVGAGLV-- Q8EB10/335-445 PQVANQIIADLVWMDE-KPL-QLGQLYDIKVAGKK-TQASVTAIDYVVDVN-----TLAR----SS--AASV----EGEGLGLNAIARVTLELTEDIVFDAYSL-----VRD-----TGGMILIDRLSNATVAAVMVVS A0KP35/329-434 PLVTQNLLAHIVWMGE-ESL-QPGRVYDVKLATKK-SRGQVEAIRHRIEIN-----KLDE----LD--ASE---------LKLNEIGLCELSLTDPVAFDPYQE-----IRD-----TGSFILIDRLTNVTVGAGMIVE Q32CH9/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- Q8ZMF5/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- Q1ITG6/328-432 PTVAKRFEASLVWMDS-AEF-RPAKRYLLKHTAQV-VPTTAITIKNRVNVQ-----TFET----EQ--SFV---------LHMNDIAIVEIETKRPLVGDSYRD-----NRT-----TGSFILIDPETNSTVAAGMIR- Q92VH6/327-430 PFVADQFQAHVIWFDA-NPM-MPGRSYILRTETDS-VSATVTTLKHQVNIN-----SFIR----EA--AKS---------LQMNEVGVCNISTQAPIAFDAYKD-----NRA-----TGNFIIVDRVTNATVGAGLI-- A6TD43/333-435 --AVQSASIDVVWMAE-QPL-TPGQSYDIKIAGKK-TRARVDAIRYQVDIN-----NLTQ----RE--VES---------LPLNGIGLVELTFDEPLVLDPYQQ-----NPV-----TGGLIFIDRLTNVTVGAGMVN- Q2S507/313-417 PDVTRQLDADLCWMNQ-EAM-RQDRPYVLQHTTRR-TQAYVSKIVYRTNVE-----TFHR----EE--AST---------FELNDIGRVEIETADPLFVDPYKL-----NRA-----TGSFILIDPDTNDTVAAGMIR- A3N3E0/136-241 -TATKRLTATVCWFDQ-RAL-NPARKYLLKHTTQT-VFAKVTAVDHVLDVK-----TLSN---SAE--ADS---------LKLNDIGELQLSLQKPITATTYAQ-----NLS-----TGSFILIDEATYHTVAAGMILA Q1D9W7/340-444 PLSLHQLDAMLVWFGE-QPL-DCSRRYLVKQASRT-APAHIERVLWRKELA-----DLSE----QP--AES---------LSLNDIGRVRVVCRRPLLTDPYRD-----NRR-----TGAFIVIDALTHDTVAAGMVL- A0A0R4J6Q6/330-434 PLISRSVRASVVWMNE-HPL-VKGKLYNIKIGTQT-VPAKVTNINYRVNVN-----TLEH----TQ--VEE---------LELNAIADVVVEFDAPVVFDRYQD-----SRY-----TGSFIFIDRLSNVTVGAGMVE- Q8AAP9/322-436 PIVDRNFEAMMVWMDE-EPM-DINKSFFIKQTTNL-SRTRIDAIKYKVDVN-----TMEH----LS--IDNGQLTKDNLPLQLNQIARVVLTTAKELFFDPYKK-----NKS-----CGSFILIDPITNNTSAVGMIID Q5E830/332-435 -QATDQFKAEIVWMTE-KGL-EPGRQYDIKIAGKK-TVGQIDAIHHQVNIN-----SLEK----FD--TQE---------LPLNGIGLCDVSLTETVSLDRYQD-----CAD-----TGGFIFIDRLTNVTVGAGMIQ- A0A0H3CPV3/334-434 ---VQGAAVDVVWMAE-QPL-TAGQSYDIKIAGKK-TRARVDGIHFQVDIN-----NLTQ----RE--VSE---------LPLNGIGLVDLTFDEPLVLDKYQQ-----NPV-----TGGLIFIDRLTNVTVGAGMV-- P56893/335-438 PTTGLAFDAQLVALQP-EGI-QPGKRYWLKSGSRR----------QRVQVQPVSQLELKS-GKWNH--ADE---------LPMNAIGKVHLAFDEQAIFDTYEQ-----NRT-----TGAFILIDPDTNNTVAGGMIT- Q1MJV4/333-436 PQVGLAFDAQIVALQP-EGI-EPGKRYWLKSGSRR----------QRVQVQPLSQLELKT-GTWNA--AQR---------LYMNAIGKVRLVFDEAAIFDPYEQ-----NRL-----SGSFILIDPETNNTVAGGMVT- Q3JV22/330-434 -EPAKKLEADLCWFDE-TPL-SSQRKYLLKQTTNT-VFTKIGAVKQVLDVH-----TLSH---ATD--RHE---------LKMNDIGRVALTLQKPIVCDTYDA-----HPG-----TGAFVLIDEATHHTVAAGMIR- Q8UH69/332-436 PLTGLAFDAQIVALQP-GGI-EAGKRYWLKSASRR----------QRVSVQPVSQLNLRE-GEWQA-HETS---------LPMNAIGKVRLSFDETAIFDPYEQ-----NRA-----TGSFILIDPDTNNTVAGGMIS- P57498/326-430 -QPSQEAIIDIVWMTD-NIL-LAGESYNVKLSGKK-IRVYIKEILFKLDVN-----TLKK----VK--SHS---------LVLNSIGRVKIYFSKPVIFDNYSE-----NRM-----TGNMIFIDLLTNITVGAGMIVN Q8EYJ5/307-412 PIVSQDLEANICWMDS-KAL-LSGNKYILRQTTNT-VKAIVKEIEFKVAPD-----THEK---LDA--SKG---------LTLNEIGKIKIRTAKPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- Q9A882/328-431 -PVANQFEATLVWMDD-EPL-PPGRTYLLKLGART-VGASITDIKHRVNVN-----TLEK----TA--AKR---------LELNEIGVCNLSLDQAIPFEAYAE-----NRH-----MGGFILIDRLSNRTVGAGLIN- B4F230/342-445 -NVSNHALVDIVWMSE-QPL-VQGQTLDIKVAGKK-SRAKIENIHYQVDVD-----KLTQ----QV--TES---------LALNAIGHVEVLFEEPLVLDNYQL-----NAQ-----TGGLIFIDRLSNVTVGAGLIR- A0A1B3RWL6/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- Q8YEX3/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- V7L8L2/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- V7P7T6/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- V7JDI7/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0A049E1A2/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0A1L6WN95/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0A0H2ZV28/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0A0E2X114/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0A0E2XA79/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- O50274/329-434 PLVTDGFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIPSIVHKVDVN-----TLER----TP--GSE---------LKLNEIARVKVSLDAPIALDGYEQ-----NRT-----TGAFIVIDRLTNGTVGAGMIVS A0A0Q9R5P5/327-431 PDVADQFEAHVVWMGE-EEM-LPERPYLCQIGTMT-VQARITKPKHKVNVN-----TLEK----TA--TNT---------LALNEIGVCNLSFDRPVPFDPYAA-----NRD-----TGGFILIDRLTNSTVGAGMIA- X5PQM8/330-434 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAH----EA--AKS---------LEMNEVGICNISTRSPIAFDPFAE-----NRT-----TGAFILIDRITNATVGAGMIL- A0A139VI72/323-429 PRVTTEFDATVCWMADDSAL-EPGRDYLIKHTTRT-TRVRVTALDYRLDVN-----TLHR---DKD--VTA---------LKLNELGRISLRSQQPLLLDEYSR-----NQA-----TGSFILIDPNTNGTVAAGMVL- A0A095VM46/329-433 PHVSDQFQANIIWFDK-EPM-FPGRSYILKTETDS-VDATITSLRYQIDVA-----DLGH----VA--SKT---------LRMNEIGTCNVATQAPIVFDSYGD-----NRL-----VGNFILIDRLTNRTVGAGMIN- A0A1C3RG07/327-431 PDYADQFEGEVIWMHD-EAL-LPGRSYLIKFGTQS-AAAQISELKYKVNVN-----TLEH----AA--AKT---------LDLNEVGICNIVLDRNVAFDPYAD-----SQG-----TGRFILIDRYSNATVGVGMIS- A0A0R0CHW1/325-428 PEVADQFAAHVLWMDD-AAL-LPGRPYWLQIGSRT-VAANISEIKHRVDVN-----TQER----LA--AKR---------LELNEVGYCNLSLDEPVAFAPYAQ-----NRA-----LGGFILIDRQTNATVAAGTL-- A0A0U3PCM7/328-432 PDVADQFSAHVIWMAE-DAL-LPGRSYLMKIGART-LAASVTDIRHKINVN-----TFEQ----TA--AKT---------LALNEIGLCNLALSGAVAFDAYKD-----NRT-----TGAFILIDRMTNATVGAGMVA- O07309/327-430 PFVADQFQAHVIWFDA-NPM-LPGRSYILRTETDS-VSATVTALKHQVNIN-----SFAR----EA--AKS---------LQMNEVGVCNISTQAPIVFDAYKE-----SRA-----TGNFVFVDRVTNATVGAGMI-- T5I2K5/327-431 PAVADQFEACIVWMGE-APM-LPERPFLCQIGTVT-VTARITKPKHKINVN-----TLEK----TA--TTT---------LALNEIGVCNLSFDRPVPFDPYVG-----NRD-----TGSFILIDRLTNGTVGAGMIT- A0A0Q7KRA4/327-430 PHVADQFMAHVIWLHP-DAM-LPGRSYILRTEVDS-VSATITSLKHQIDVN-----TFAE----EA--AKS---------LRMNEIGVCNLSTQAPIVFDSYKD-----NRT-----TGNFVLIDRFTNATVGAGMI-- A0A0A3XD31/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSISDIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0N0E693/329-434 PPVTDSFEAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASIVHRVDVN-----TLEE----GS--ASA---------LQLNEIGKVKIALDAPIALDGYDS-----NRT-----TGAFIVIDRLTNGTVGAGMIVA A0A0H1RE97/312-415 PSVADQFSAHLLWMSE-DAL-LPGRQYLLRVGMRL-VPATITSIKHKLDIE-----RFEH----LA--ATQ---------LSMNEIAVCNLSTASPIAFDAYKD-----NPE-----TGGFILIDRFTNATVAVGMI-- W5IUB9/329-434 PLVTDGFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIPSIAHKVDVN-----TLEE----TA--ASE---------LKLNEIARVKVSLDAPIALDGYAQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A1A5DC78/329-434 PLVTDGFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIPSIAHKVDVN-----TLEE----TA--ASE---------LKLNEIARVKVSLDAPIALDGYAQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A0V8T185/329-434 PLVTDGFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIPSIAHKVDVN-----TLEE----TA--ASE---------LKLNEIARVKVSLDAPIALDGYAQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A0Q6KRL7/325-428 PDVADQFAAHIIWMHE-EAL-LPGRPLLLKCASKT-VLASVTEIKHRIDAD-----NFQK----LA--AKQ---------LALNDIAVANISTHEPLAFDPYAV-----NRT-----TGSFILIDRMTNQTVGAGMI-- A0A0S7Z322/327-430 PAVADQFQVTLIWMHE-EPM-LPGRPYLMKLGPRT-VTASITDLRHKVNVN-----TLEH----VA--AKQ---------LELNEIGLCNLSTDRPIAFDSYEE-----NRD-----TGGFIFIDKLSNDTVGAGLI-- A0A0L8ASU9/325-427 -EVAEQFEARLLWMHE-HAM-TLGRQYWLKLASKE-VTATVTDIKYRVDVN-----TGAQ----LA--AKS---------LGLNEIACVNLSTSAPLVFEPYGI-----NRV-----LGSFILIDKLSFETVGAGIL-- A0A090DCQ4/330-434 PQVADQFTANIVWFDE-QAL-LPGRSYILRTETDQ-VSATVTDLKYRVNVN-----DFAH----EA--AKS---------LDLNEVGVCNLSTRAPIAFDPFAE-----NRT-----TGAFILIDRITNATVGAGMIL- A0A142N9I4/329-434 PPVTDSFEAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASIVNKVDVN-----TLEE----GP--ASA---------LQLNEIGKVKIALDAPIALDGYES-----NRT-----TGAFIVIDRLTNGTVGAGMIVA V8RA49/329-434 PPVTDSFEAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASIVNKVDVN-----TLEE----GP--ASA---------LQLNEIGKVKIALDAPIALDGYES-----NRT-----TGAFIVIDRLTNGTVGAGMIVA Q8PHD1/355-458 PEVADQFAAHLLWMDD-AAS-LPGRPYWLKIGTRT-VAVSVSDIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- M4UEF9/355-458 PEVADQFAAHLLWMDD-AAS-LPGRPYWLKIGTRT-VAVSVSDIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0D5SE40/355-458 PEVADQFAAHLLWMDD-AAS-LPGRPYWLKIGTRT-VAVSVSDIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0U5FHV4/355-458 PEVADQFAAHLLWMDD-AAS-LPGRPYWLKIGTRT-VAVSVSDIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- K0PUH2/325-430 PYVDDHFQACLIWFDP-DPM-RPGRSYLLRTENDS-VEATITALRHRVDVD-----SLLC----QP--AST---------LEMNEVGVCNILAQRPLAFDAYEQ-----NRS-----TGNFLLVDRASGATVGAGMMVS A0A109JE38/325-430 PYVDDHFQACLIWFDP-DPM-RPGRSYLLRTENDS-VEATITALRHRVDVD-----SLLC----QP--AST---------LEMNEVGVCNILAQRPLAFDAYEQ-----NRS-----TGNFLLVDRASGATVGAGMMVS A0A085JYR3/337-440 PEVSSQFEATIVWMDD-EAM-LPGRPYWLKIGTQS-VSATVQAPKYVVNVN-----TMEH----LA--AKT---------LDLNAIGVVELATDKPITFEPYAD-----NRT-----LGGFILIDKISNRTVAAGML-- A0A0R0CKE7/349-452 AEVADQFAAHLLWMDE-AAL-LPGRPYLLKIGTRT-VSATISEIKHRVDVN-----TREH----LA--AKR---------LELNEVGYCNLSLDEPVAFAAYAS-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0E3UMB7/322-425 PAVADQFAAHVLWMSD-APL-LPGRPYWLKVGART-VAASVSEIKHRVDVN-----TQEH----LA--AKR---------LELNEVGYCNLSLEEPVAFAPYAQ-----NRA-----LGGFVLIDRQSNDTVAAGTL-- A0A0F2RMW6/328-431 AEVSDQFQARILWMSD-TPL-LPGRRYLLKIGAKT-VTATINAPKYGIDVN-----TLND----VP--AKT---------LELNQIGVTTLSLDQAIAFDPYDD-----NRE-----MGGFILIDRQTNDTVGLGLI-- A0A0S3EXB4/337-440 -QTADQFEATVVWMDE-NEL-LPSRPYWLKIGTQT-VTATIQQPKYQVNVN-----TMEH----LA--AKT---------LDLNAIGVANLSTDRPIPFEPYTQ-----NRD-----LGGFILIDKMTNATVAAGMIH- A0A0Q5JBH1/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSVSEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFAPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A059G0T4/328-431 AEVSDQFQVHLLWMSE-QAL-LPGRRYILKAGAKT-VTATVNAPKHGIDVN-----TLAE----TP--ARA---------AELNQIVVTTLSLDQPIPFDPYKD-----NRE-----TGGFILIDRQSNDTVALGLI-- Q0C439/328-431 AEVSDQFQVHLLWMSE-QAL-LPGRRYILKAGAKT-VTATVNAPKHGIDVN-----TLAE----TP--ARA---------AELNQIVVTTLSLDQPIPFDPYKD-----NRE-----TGGFILIDRQSNDTVALGLI-- A0A0N8TPX4/334-437 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- V7E3E0/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLEE----GP--ASA---------LQLNEIGRVKVSLDTVIALDGYAS-----NRT-----TGSFIVIDRLTNGTVAAGMIIA A0A0V8H388/319-425 PYVGRDLDAMVCWFADDAEL-RPGNRYQLLCGTRL-TRAQVNGLNYRLDVN-----SLHR---DED--AEG---------LSLNEIGRVTLHTQEPVTFDSYRR-----NRD-----TGSFILIDEATNRTVGAGMIT- A0A1C4EFQ8/319-425 PYVGRDLDAMVCWFADDAEL-RPGNRYQLLCGTRL-TRAQVNGLNYRLDVN-----SLHR---DED--AEG---------LSLNEIGRVTLHTQEPVTFDSYRR-----NRD-----TGSFILIDEATNRTVGAGMIT- A0A0H1ABT3/330-434 PQVADQFAANLVWFDE-HPL-MPGRSYILRTETDQ-AHARVTELKHRVNIN-----NFAH----EA--AKS---------LELNEVGVCNISVQSPVAFDNFAD-----NRQ-----TGAFVLIDRVTNATVGAGMIL- A0A0Q8J1L4/350-453 PEVADQFAAHLLWMDS-KPL-LPGRFYWLKIGART-VSASITEIKHKIDVN-----TQAQ----LA--AKQ---------LELNEVAYCNLGLDQPIAFEAYRD-----NRE-----LGSFILIDRQTNATVAAGTL-- A0A0V0Q230/336-440 CEVADQFEATLVWMAE-QEM-LPGRPYLLKIGTQT-VTATVTEPKYEVNVN-----TLEH----LA--SKT---------LGLNAIGVVNISTDRPIPFEAYAQ-----NPD-----LGGFILIDRMTNATVAAGMIH- A0A0Q4FZV4/330-434 PEAADQFLATLVWMAD-TPL-VPGRSYQLKIGTQL-VGATVQPPRHVVDVN-----TQAE----LS--APT---------LSLNDIGVAEVYTDRAIVFEPYDA-----GAE-----LGGFILIDRATNATVAAGMIQ- A0A0W1QH69/330-433 PQAADQFKATLVWMDQ-AEL-LPGRAYWLKLGTKT-VSAVVRAPEYAIDVN-----TMAR----GA--VKT---------LALNDIGIAEIATDRPIVFEPYAE-----SHD-----LGGFILIDKLTNATVGAGML-- A0A0D0S754/345-447 A-VADQFAANLLWMDQ-QPL-LPGRPYWLKIGART-VGATITELKYQIDVN-----TQTH----LA--AKT---------LECNQVGYCNLYLNEPIGFQAFSD-----NRN-----LGGFILIDRQSNATVGAGTL-- U4UZM8/333-436 -EVADQFETTLIWMDE-EAL-IPGRSYYLKIGAQT-VSATVAEPKYQINVN-----TMEH----AA--AKT---------LELNAIGVANITTDRDIPFAPYAE-----NRT-----LGGFILIDKMTNATVGAGLIN- A0A0T0PYM0/329-433 PEAADQFEATIVWMAD-EAM-LPGRAYVFQLATQN-ASATLRTPKYQVNVN-----TLEQ----TA--ART---------LELNAIGVATLSLDRPVVFEPYDK-----SRE-----LGGFILIDKATNATVAAGMIR- A0A0N1LRN3/334-437 PQAADQFEATFVWLND-EAM-IPGRAYWLKLATQT-VSATVQAPKYVVNVN-----TMEQ----LA--AKT---------LELNAIGVAELATDKPIVFEPYAQ-----SRT-----LGGFVLVDKITNATVAAGML-- A0A069J852/327-431 PAVADQFEACIVWMGE-APM-LPERPFLCQIGTVT-VTARITKPKHKINVN-----TLEK----TA--TTT---------LALNEIGVCNLSFDRPVPFDPYVG-----NRD-----TGSFILIDRLTNGTVGAGMIT- A0A0Q8DFK5/327-429 P-VADQFTCHLLWMGD-TTL-LPNRTYWMKIGTRT-VNARVMSIKHKVDVN-----SQAK----LA--ARH---------LDLNEVGYCTVGLDDAIAFEAYTA-----NRT-----LGGFILIDRQTNATVACGML-- A0A0Q5HE81/313-416 PEVSDQFAAHMIWMHA-DPL-IAGRPYLVKIGTRT-LTASVTDIRHKVDVN-----TLQK----LA--ART---------LELNEVGFVNLSTHEPIAYDPFSR-----IKE-----TGAFIVIDRMTNLTVGAGLI-- A1TDE8/312-418 PRVAQDFDATVCWMADAESL-EPGRDYVIKHTTRT-TRVKVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRSQVPLLLDEYSR-----NSA-----TGSFILIDPNTNGTVAAGMIL- A0A0Q8HCN7/328-431 ARVADQFESTIIWMSD-EPM-LPGRPYLLKIGTKT-VTATSATPKYKVNVN-----TLEH----LA--AKT---------LELNEIGVCNLSFDQPIAFDPYKE-----NRD-----TGGFIMIDRLTNNTVGAGLL-- A0A0Q8PK49/328-431 ARVADQFESTIIWMSD-EPM-LPGRPYLLKIGTKT-VTATSATPKYKVNVN-----TLEH----LA--AKT---------LELNEIGVCNLSFDQPIAFDPYKE-----NRD-----TGGFIMIDRLTNNTVGAGLL-- A0A1L3L9M7/321-424 PYVADQFQAHVIWLDE-SPM-FPGRSYILRTETDS-VNATVTTLKHQVNIN-----SLVR----EA--AKS---------LQMNEIGVCNISTQSPIAFDAYKD-----NRA-----TGNFIFVDRVTNATVGAGMI-- X6CCE7/334-437 PEVSDQFAAHLLWMHD-EPL-IPGRPYLIKLATSV-VGASVTHIKHRLDIN-----NFAK----LA--TKT---------LEKNEVGVINLMTQAPLAFDPFSR-----VHE-----TGAFIVIDRMTNHTVGAGMI-- J8VWB0/337-440 PQTADQFESTIVWLAD-EAL-IPGRAYWLKLGTQQ-VSATVAEPKYTVNVN-----TMEH----MA--AKT---------LDLNAIGVAELTTDKQVVFEPYAE-----NRT-----LGGFILIDKMTNATVAAGML-- A0A031K292/337-440 PQTADQFESTIVWLAD-EAL-IPGRAYWLKLGTQQ-VSATVAEPKYTVNVN-----TMEH----MA--AKT---------LDLNAIGVAELTTDKQVVFEPYAE-----NRT-----LGGFILIDKMTNATVAAGML-- A0A096FIS3/328-431 SDVADQFQVTLIWMHE-QPM-LGGRPYLMKIGGKT-IPVTFAAPKYKINVN-----TLEH----LA--AKE---------LALNEIGVCNLSSSQPIAFDAYKD-----NRE-----TGSFILIDRLSNATVGAGLI-- A0A0J8XA46/312-418 PRAAREFDATVCWMADDAAL-EPGREYLIKHTTRT-TRAKVKELAYRLDVN-----TLHR---DKS--ATA---------LTLNELGRVTLRTQEPLLLDEYTR-----NTS-----TGSFILIDPYTNGTVAAGMVL- A0A0H2X6B5/355-458 PEVADQFAAHVLWMDD-AAL-LPGRPYWLKIGTRT-VAASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLSLDEPIAFAPYAR-----NRV-----LGGFILIDRQTNATVAAGAL-- B0RPG9/355-458 PEVADQFAAHVLWMDD-AAL-LPGRPYWLKIGTRT-VAASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLSLDEPIAFAPYAR-----NRV-----LGGFILIDRQTNATVAAGAL-- X6HB04/330-434 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRTPIAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIL- A0A0Q8CLZ0/349-452 AQVADQFAAHLLWMGE-NPL-LPGRPYWLKIGTRT-VSATVTEIKHKIDVN-----TQAQ----LA--AKH---------LELNEVAYCNLNLDQPVAFEAYRD-----NRA-----LGGFILIDREDNATVAAGTL-- A0A074K0V6/327-431 PEFADQFEARIIWMHE-DHL-LPGRPYIIKMGAQV-TNAQISDLKYKVNVN-----TLEH----IA--GKT---------LELNEVGIANIATDKALAFDPYDD-----NRH-----SGRFIIIDRYSNATVGAGMVN- X7Y4G4/312-418 PRVAQSFDATVCWMADSSVL-EPGRDYIIKHTTRT-TRARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQMPLLLDEYTR-----NAA-----TGSFILIDPDTNGTVAAGMVL- U5WPH9/312-418 PRVAQSFDATVCWMADSSVL-EPGRDYIIKHTTRT-TRARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQMPLLLDEYTR-----NAA-----TGSFILIDPDTNGTVAAGMVL- X7ZKS3/312-418 PRVAQSFDATVCWMADSSVL-EPGRDYIIKHTTRT-TRARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQMPLLLDEYTR-----NAA-----TGSFILIDPDTNGTVAAGMVL- A0A1A0TUJ7/312-418 PHVSNEFDATVCWMADASAL-EPGREYLIKHTTRV-TRARVASLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVTLRTQQPLLLDEYSR-----NAA-----TGSFILIDPDTNGTVAAGMVR- A1UK26/312-418 PHVSNEFDATVCWMADASAL-EPGREYLIKHTTRV-TRARVASLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVTLRTQQPLLLDEYSR-----NAA-----TGSFILIDPDTNGTVAAGMVR- A0A0Q4JRV7/334-437 PQVADQFRSTIVWMDG-EPL-LPGRAYWLKTGSGT-VSATIQPPRHAIDVN-----TLAE----LS--VKT---------LQLNDIGVADVFTDRGIAFEPYAE-----SRD-----LGGFILIDKITNATVAAGMI-- A0A0Q4FCW9/334-437 PQVADQFRSTIVWMDG-EPL-LPGRAYWLKTGSGT-VSATIQPPRHAIDVN-----TLAE----LS--VKT---------LQLNDIGVADVFTDRGIAFEPYAE-----SRD-----LGGFILIDKITNATVAAGMI-- A0A0Q4K7B1/334-437 PQVADQFRSTIVWMDG-EPL-LPGRAYWLKTGSGT-VSATIQPPRHAIDVN-----TLAE----LS--VKT---------LQLNDIGVADVFTDRGIAFEPYAE-----SRD-----LGGFILIDKITNATVAAGMI-- V4P0B6/329-432 PELSDQFQAHLIWMSD-QEL-IPGRTLLIKIGAKT-VSASVTEIKHKTDVN-----TFAN----LA--AKT---------LKLNEVAVVNVALQEPVAFDTYAD-----NHA-----MGAFIVIDRVTNLTLGAGMI-- A0A132PD75/312-418 PHVSTEFDATVCWMADGSAL-EPGREYLVKHTTRT-TRARVASLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRITLRSQQPLMLDEYSR-----NAA-----TGAFILIDPDTNGTVAAGMVR- A0A0B1ZJP8/337-440 PQTADQFEATLVWMAD-EAM-VPGRAYWLKLGTQM-VSATVAEPKYEINVN-----TMDE----LA--AKT---------LELNAIGVAEITTDKQVVFEPYVE-----NRA-----LGGFILIDKMTNATVAAGML-- A0A060BBZ5/328-431 AHTADQFETTLVWMHE-APL-LPGRPYLMKLGTQM-VSATVTDIKYQVNVN-----TLEH----TA--GKQ---------LDLNGIGICTISLNRAVAFDAYQD-----NHD-----TGGFILIDRMTNNTVGAGML-- A0A0Q0IH77/334-437 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSVSEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0Q8IKV1/327-431 PEFSNQFQARLVWMND-EPA-YQGRSYLLKVGSQT-VPATITDIKFRTNVN-----TLEH----VA--ANK---------LDLNEVGTVTIATDRAIAFDPYAD-----NPL-----TGGFILIDRLSNATLAAGTIS- A0A060DSB6/327-430 PEVADQFAAHILWMGE-QPL-LPGRLYVLRLGTAT-AGAQVTELKHAVNVN-----SLEH----SA--ARQ---------LGLNEIGLCNLALDRPVAFDPYRE-----NPQ-----TGGFILIDRMTNATVGCGMI-- L0GR40/329-434 PRIADSFDAMLVWMGE-EPM-LPGKKYDIKRATSY-VPGSIASIAHKIDVN-----TLEQ----GA--ASS---------LQLNEIGKVKVSLDAPIALDGYAQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A0Q4KP60/331-433 -EAADQFETTIVWMDE-TAL-LPGRAYWLKTGATT-VSATVRPPEHAIDVN-----SLAH----LS--VKT---------LGLNDIGVAHVQADRAIPFAPYAD-----SRD-----LGGFILIDKLTNATVAAGMI-- L7VBI5/312-418 PRVAQDFDATVCWMADSGVL-EPGRDYVIKHTTRT-TRARVTALDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NSS-----TGSFILIDPDTNGTVAAGMVL- A0A0M1KJN1/355-458 PEVADQFAGHLLWMDD-AAL-LPGRPYWLKIGTRT-VTANISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALHEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A090GRL9/330-434 PQVADQFAANIVWFDE-QAL-LPGRSYILRTETDQ-VSATVTELKYRVNVN-----DFAH----EA--AKS---------LDINEVGVCNLSTRAPIAFDPFAE-----NRT-----TGAFILIDRITNATVGAGMIL- A0A099CZK2/325-428 PQVADQFAAHLLWMND-HAL-LPGRPYWLKIGTRT-VSAQVTEIKHKIDVN-----TQDA----LA--AKR---------LELNEVGVVNVSLDHAIPFEAYAD-----CHE-----LGGFILIDRQSNATVAAGTL-- A0A0A1FVG3/309-415 PRVTQEFDATVCWMADGSSL-EPGREYLIKHTTRT-TRAKVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVSLRTQAPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVGAGMVL- A0A100WPG7/309-415 PRVTQEFDATVCWMADGSSL-EPGREYLIKHTTRT-TRAKVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVSLRTQAPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVGAGMVL- K0UHF4/309-415 PRVTQEFDATVCWMADGSSL-EPGREYLIKHTTRT-TRAKVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVSLRTQAPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVGAGMVL- A0A0N9YA19/309-415 PRVTQEFDATVCWMADGSSL-EPGREYLIKHTTRT-TRAKVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVSLRTQAPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVGAGMVL- A0A0G9GZ28/320-422 P-VADQFAAHVLWMGD-ESL-LPNRAYWLKIGSRT-VNARITSIKHKVDVN-----TQAE----LA--ARR---------LELNEVGYCNIDLDHAIAFESYQD-----NRT-----LGSFILIDRTTNATVACGML-- H0SN53/326-429 PDVTDHIVAHLIWFDD-EAM-RTGRRYLLKSGTSS-IGAVVSAMKHRVCID-----TMAH----EA--APA---------LEANEIGCVEIALDRPLVCDAYRD-----NRD-----LGSFILIDPFSRHTVAAGLI-- A0A0C5XGY3/336-439 PQAADQFEATIVWMAD-EEM-LPGRPYWLKIGTQT-VTATIQQPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLSTDRQIVFEPYET-----NRT-----LGGFILIDKITNATVAAGML-- A0A059L0R7/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATTY-VPGSITSIVNRVDVN-----TLEE----GP--ASS---------LNLNEIGRVKISLDAAIALDGYAS-----NRT-----TGSFIVIDRLTNGTVAAGMIIA A4JIU7/347-450 -EMSDQFEARMVWMHD-EPG-HVGRTYDLKLANQW-ASASITSLKYRVEVN-----TQAH----ES--CKQ---------LELNDIAAANLALSKPVVFAAYAE-----NPT-----LGGFILVDKFTHATVAAGMIR- A0A0Q7V290/330-434 PQVADQFAANIVWFDE-QAL-LPGRSYILRTETDQ-ASATVTDLKYRVNIN-----DFAQ----EA--AKS---------LGLNEVGVVNISTRSPIAFDPFAE-----NRS-----TGAFILIDRITNATVGAGMIQ- V7LJZ6/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0A178XVK7/327-430 PFVADQFQAHIIWFDA-NPM-LPGRSYILRTETDS-VGATVTALKHQVNIN-----SFGR----EA--AKS---------LQMNEVGVCNISTQAPIVFDAYKD-----NRA-----TGNFVFVDRASNATVGAGMI-- A0A0D1MRJ6/330-434 PEAANQFEATIVWLSD-TAL-VPGRGYWLKIGPRT-VGASVQAPGYVVDVN-----TQAH----LS--AKT---------LALNDIGVAEVFTDEGIVFEPYAQ-----SAT-----LGGFILIDRETNATVAAGLIH- G2IHZ5/332-435 SQVADQFEATIVWMAD-EAL-KPGRAYWLKLGTQM-VSATVQAPKYEINVN-----TMEH----LA--AKT---------LDLNAIGVAELATDRPVVFEPYAE-----NRT-----LGGFILVDKISNATVAAGML-- A0A167BGH1/328-431 AETADQFETTLVWMHD-QPL-LPGRPYLLKLGTQT-VSATVSQVKYQVNVN-----TLEH----TA--AKQ---------LDLNGIGVCTLSLSRPVAFDPYKE-----NAD-----TGGYILIDRMSNNTVGAGML-- A0A0W1IET2/332-435 PETADQFEATLVWMAD-EAM-IPGRAYWLKLATQS-VSATVQAPKYEINVN-----TLDR----LA--AKT---------LDLNGIGVVEVSTDKPITFEAYAD-----NKT-----LGGFILIDKLTNATVAAGML-- A0A0Q7RAL4/326-429 PFVADQLQAHVIWFDA-NPL-LPGRSYILRTETDS-VNATITKLKHRVNVN-----SFAR----EA--AKS---------LTMNEIGVCNISTQAPIAFDAYKD-----NKA-----TGNFVIVDRLTNDTVGAGMI-- A0A0M3ANV7/339-442 PQAADQFEATIVWMAD-EEM-LPGRPYWLKIGTQT-VTATVQQPKYQVNVN-----TMEH----LA--AKT---------LDLNAIGIANLSTDKQIVFEPYDT-----NRT-----LGGFILIDKLTNATVAAGML-- A0A074MJX0/334-437 PEASDQFRATIVWMDE-TAM-KPGRGYWLKIGSQM-VTATIQPPEYEIDVN-----SLDR----LA--AKT---------LDLNAIGVAEFATDRPIVFEPYAS-----SRQ-----LGGFILIDKFTNATVGAGMI-- C0ZUW7/327-431 PAVADQFEACIVWMGE-APM-LPERPFLCQIGTVT-VTARITKPKHKINVN-----TLEK----TA--TTT---------LALNEIGVCNLSFDRPVPFDPYVG-----NRD-----TGSFILIDRLTNGTVGAGMIT- B6QY69/328-432 PDVSDQFAAHLIWMSE-NAM-LPGRPYLLKCGTKT-VGASVTEIKHKVDVN-----TFDH----HA--AKE---------LYLNEIAFCNLALSEAIAFDPYEA-----NRD-----TGSFILIDRMTNETVAAGLIW- X6CVY9/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRAPIAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIVH A0A090GA44/330-434 PQVADQFAANIVWFDE-QAL-LPGRSYILRTETDQ-VSATVTELKYRVNVN-----DFAH----EA--AKS---------LDINEVGVCNLSTRAPIAFDPFAE-----NRT-----TGAFILIDRITNATVGAGMIL- A0A0B1Y302/342-445 PAVADQFEATLVWMNE-EAM-LPGRPYLLKLGTRT-VGATVAQPKYKVNVN-----TLEH----LA--ART---------LELNEIGVCNLHLDQPVVFEAYAK-----NRD-----LGGFIMIDRLTNNTVGTGML-- A0A0A1HR87/329-434 PPVTDSFEAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASIVNRVDVN-----TLEE----GP--ASA---------LQLNEIGKVKIALDAPIALDGYES-----NRT-----TGAFIVIDRLTNGTVGAGMIVA A0A0Q8J0Q1/328-431 PAVADQFEATLVWMDE-QPL-LPGRPYLMKIGYRT-VGMSCANLKHRVDVN-----SLEH----LA--AKT---------LELNGIGVCNLHLDRPIAFDAYAD-----NRD-----TGGFIVIDRLSNRTVGAGML-- A0A0Q8PGF7/328-431 PAVADQFEATLVWMDE-QPL-LPGRPYLMKIGYRT-VGMSCANLKHRVDVN-----SLEH----LA--AKT---------LELNGIGVCNLHLDRPIAFDAYAD-----NRD-----TGGFIVIDRLSNRTVGAGML-- A0A163V3K2/329-433 PDVADQFAAHLIWMSD-EPL-LPGRPYMLKIGART-VTATVSEIKHKINVN-----TFEH----MA--GKT---------LELNEIAFCNFSLSSAVPFDPYEA-----NRT-----TGAFILIDRISNATVGAGMVW- T0J909/342-446 PQTADQFEATFVWMAD-EAM-VPGRAYWLKVGTQM-VSATVQEPKYEVNVN-----TMEK----LA--AKT---------LELNAIGVAELTTDKQIVFEAYAD-----NRT-----LGGFILIDKMTNATVAAGMIH- A0A0H1RCC2/320-424 PEVADQFAAYLIWTDH-NPL-VAGRNYILRIGTRT-VPGSITAVKHRIDVN-----TREH----LA--AKT---------LRLNEIGFCNFATALPTAFDPYEV-----NRK-----TGSFIVIDRYTNRTLGAGMIA- A0A1L8CQT7/324-426 --DSKELTANVCWIGD-EPL-TERKKYLLKHTTNT-VKAMVASIDFRRDIH-----TLNK----DE--SDE---------LAMNEIGQITFKLMKPLHYDAYVD-----NRT-----TGSFILIDTFTNNTVGAGMIV- A0A0W1GCI7/332-435 PEAADQFEATLVWMAD-EAM-IAGRAYWLKLATQT-VSATIQQPKYEINVN-----TLDH----LA--AKT---------LDLNGIGVVELSTDKPIVFEAYAD-----NHT-----LGGFILIDKLTNATVAAGML-- A0A0Q8F854/322-425 PEVADQFAAHLLWMSD-APL-LPGRPYLLKIGART-VSATVTEIKHRIDVN-----TQEH----LA--AKR---------LELNEVGYCNLSLDEPIAFEPYVR-----NRA-----LGGFILIDRYDNATAGAGTL-- F7YBB5/334-437 PEVSDQFAAHLLWMHD-EPL-IPGRPYLIKLATSV-VGASVTHIKHRLDIN-----NFAK----LA--TKT---------LEKNEVGVINLMTQAPLAFDPFSR-----VHE-----TGAFIVIDRMTNHTVGAGMI-- A0A0F5L4K3/328-431 PEFSNQFQARIVWMSE-ESA-FPGRSYLLKLGSQI-VPATITDLKFRTNVN-----TLEH----TA--ATK---------VDLNEVATVTIATDKPIAFDPYAS-----NAL-----TGGFILIDRISNATLGAGTI-- A0A0D0LL92/355-458 PEVADQFAAHVLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLSLDEPIAFAPYAR-----NRV-----LGGFILIDRQTNATVAAGAL-- A0A0Q8M8G5/312-415 AQVADQFACHLLWVGD-APL-LPNRDYWLKLGTRT-VSARVMSIRHKVDVN-----SQAK----LA--ARQ---------LLLNEVGSCTLGLDEEIAFETYAD-----NRT-----LGGFILIDRQNNATVACGML-- A0A0E3C273/328-431 SDVADQFQVTLIWMHE-QPM-LGGRPYLMKIGGKT-IPVTFAAPKYKINVN-----TLEH----LA--AKE---------LALNEIGVCNLSSSQPIAFDAYKD-----NRE-----TGSFILIDRLSNATVGAGLI-- D5BU28/326-430 AEISDQFEIELMWMDH-EPG-YSGRSYFLKLGTSL-VSAQITDIKHKININ-----TYEK----LS--ANK---------LELNDLSVVTLRTDHPIPFEKYED-----CAG-----LGGLILIDRISNQTVAAGMIK- A0A0N0K3B8/339-442 PELADQFEATIVWMTD-EPL-VPGRSYWLKTGAVT-VPASLAAPKYAIDVN-----TLEH----LA--AKS---------LELNHIGVATVTTHRPIPFAPYAE-----DRA-----LGGFILIDRDSNATVAAGTL-- A0A0R0EBZ2/325-428 PEVADQFAAHVLWMDD-AAL-LPGRPYWLQIGSRT-VAVSVSEIKHRVDVN-----TQEK----LA--AKR---------LELNEVGYCNLSLDEPIAFEPYVR-----NRA-----LGGFILIDRQSNATVAAGTL-- A0A0I9U8Z8/312-418 PRVAREFDATVCWMADTAAL-AAGRDYLIKHTTRT-TRAKVTALDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A0Q4U343/330-433 PEVADQFVATIVWMAD-AAL-VPGRSYSLKLGTQL-VGATVQPPRHVVDVN-----SQEQ----RP--ADT---------LALNDIGLAEVYADRPIVFEPYAR-----GSA-----LGGFILIDRATNATVAAGMI-- A0A178Y3B9/327-430 PFVADQFQAHVIWFDA-SPM-LPGRSYILRTETDS-VSATVTALKHQVNIN-----SFLR----EA--AKS---------LQMNEVGVCNFSTQTPIAFDAYKD-----NRA-----TGNFIIVDRVTNATVGAGMI-- B5WJ41/328-431 AQVADQFEATLVWMSD-QPM-LRGRSYLLKIGTRT-VTATILPLKYKLNVD-----TLAH----MA--SET---------LALNEIGVAEFEFDRAIAFDPYEQ-----NRE-----TGGFIVIDRMTNSTVGAGML-- A0A0D5M5H6/328-431 AHTADQFEATLVWMHE-SPL-LAGRPYLMKLGTQT-VSATVTDIKYQINVN-----TLEH----MA--SKQ---------LDLNGIGICTLSLNRAVAFDAYKD-----NQD-----TGGFILIDRMTHNTVGAGML-- A0A0N2S9X6/334-437 PEVADQFAAYLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- M4MP11/327-430 PFVADQFQAHVIWFDA-NPM-MPGRSYILRTETDS-VSATVTTLKHQVNIN-----SFIR----EA--AKS---------LQMNEVGVCNISTQAPIAFDAYND-----NRA-----TGNFIIVDRVTNATVGAGLI-- A0A0Q5GEJ1/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLSLDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0C5VVM2/328-432 AAVAKQFETTVIWMHE-EPM-LPGRTYLMKIGTKT-VSASLTDIKYQVNVN-----TMEH----MA--AKK---------LELNGIGVCTISLDQAIAFDPYSE-----NQD-----TGGFILIDRISNNTMGAGLVN- V7FDN3/330-434 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAH----EA--AKS---------LEMNEVGICNISTRSPIAFDPFAE-----NRT-----TGAFILIDRITNATVGAGMIL- Q471N7/336-439 AEVADQFEATLVWMNE-DAM-LPGRPYLLKLGTRT-VGVTVAQPKYKVNVN-----TLEH----LA--ART---------LELNEIGVCNLHLDQPVAFAPYTR-----NRD-----LGGFIMIDRLTNNTVGAGML-- A0A0R0E805/325-428 PEVADQFAAHVLWMDD-AAL-LPGRPYWLQIGSRT-VAASISEIKHRIDVN-----TQDK----LA--AKR---------LELNEVGYCNLSLDEPIAFEPYAR-----NRA-----LGGFILIDRQSNATVAAGTL-- B8ELU5/330-434 PEVSDQFAAHLIWMSE-DKL-MPGRSYLLKSGAKT-VPVTVTELKHRIDVN-----TLGE----LP--ART---------LSLNEVGVCNLATATPIAFDPYTD-----NHT-----TGSFILIDRATNATAAAGLIS- A0A1C3TKN2/373-476 PEVADQFAAHVLWMDD-AAL-LPGRPYWLKIGTRT-VSASVSEIKHRIDVN-----TQER----LA--AKR---------LELNEVGYCNLSLDEAIVFAPYAR-----NRA-----LGGFILIDRQSNATVAAGTL-- A0A0Q9JP18/309-415 PRVTQEFDATVCWMADEASL-EPGRDYLIKHTTRT-TRVRVTALDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRSQVPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVAAGMIL- A0A0A3F4G4/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNVTVAAGTL-- A0A0H0XQ96/338-441 PETADQFEATLVWLND-EDL-HVGRGYWLKLGTQT-VSATVQQPKHRVDVN-----TMDE----LA--AKT---------LSLNDIGVAEVYADKALVFESYAD-----NRT-----LGGFILVDKITNATVAAGML-- A0A117V4H3/338-441 PQVADQFEATLVWLND-EAL-IPGRAYWLKLGTQT-VSATVQHPKYVVNIN-----TMEH----MA--AKT---------LDLNAIGVVEVTADKPVVFEPYVD-----NRT-----LGGFILIDKITNATVAAGML-- A0A0P7CES8/328-431 PGIADQFECHLVWMSE-EPM-LPGRPYLLKIGSRT-TSVTIAQPKYKVNVN-----TLER----TA--ART---------LELNEIGVANINLDRQIPFDPYTA-----NRD-----TGGFILVDRFTRATVAAGLL-- A0A0J9FHN9/337-440 PEVSSQFEATIVWMDD-EAM-LPGRPYWLKIGTQS-VSATVQAPKYVVNVN-----TMEH----LA--AKT---------LDLNAIGVAELATDKPITFEPYAD-----NRT-----LGGFILIDKISNRTVAAGML-- B6IP68/339-442 PGVADRFEATLVWMAE-EAL-APGRPYLLKLGTRT-VTATVDTIRHGIDVN-----SGTL----RP--AAT---------LELNGIGLCELSLDQPVAFDPYTR-----NRT-----TGGFILIDRFSNDTVGVGLL-- A0A0Q5YVB9/327-430 -PVSDQLAAHLVWFDE-EPM-VAGRRYSLKCGTAS-TGAVITTLKHRIAID-----TMAK----EG--ATR---------LDVNEIGYVHIDLDRPLVFESYRD-----DRD-----IGSFILIDPISHRTAAAGMID- A0A0M2R6V1/327-430 PELSDQLRAHILWMQE-DAL-LPGRPYLLKTAATT-VPVVISDLHHKVNVN-----TLEE----QA--GKT---------LELNEVGVCNLALDRAIPFDAYKD-----NRE-----TGSFILIDRYTNATVGAGMI-- A0A098FSR0/329-434 PRIADSFDAMLVWMGE-EPM-LPGKKYDIKRATSY-VPASIASITHKVDVN-----TLEQ----GA--ASS---------LQLNEIGKVKVSLDAPIALDGYAQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA U3HEY9/329-434 PQVTDGFDAMLVWMSE-EPM-LPGKKYDIKRATSY-VPGSIASIAHKVDVN-----TLEE----GA--GSD---------LQLNEIAKVKISLDAPIALDGYES-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A0Q8MYK2/327-430 PPVADQFEATVVWMDD-EAM-LPGRPYLLKLGTRT-VSAQITEPKYKINVN-----TLEH----LA--AKR---------LELNEIGVCNLSLDAPIAFDAYTD-----NHD-----LGGFILVDRISNRTVGAGML-- A0A0Q7YTV4/340-443 PEVADRFEATLVWMAD-EAM-IAGRAYWLKLATQT-VSATVQAPKYEINVN-----TLDH----LA--AKT---------LELNGIGVVEVATDKPLVFEAYGD-----NRT-----LGGFILIDKLTNATVAAGML-- G4I5G8/309-414 PTPTQEFDATVCWMADDSSL-EPGRDYIIKQTTRT-TRARVGALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVTLRTQVPLLLDEYSR-----NAA-----TGSFILIDPDTNVTVAAGMV-- A0A0U3A5V9/327-431 PAVADQFEACIVWMGE-APM-LPERPFLCQIGTVT-VTARITKPKHKINVN-----TLEK----TA--TTT---------LALNEIGVCNLSFDRPVPFDPYVG-----NRD-----TGSFILIDRLTNGTVGAGMIT- A0A0E4A4A4/327-431 PAVADQFEACIVWMGE-APM-LPERPFLCQIGTVT-VTARITKPKHKINVN-----TLEK----TA--TTT---------LALNEIGVCNLSFDRPVPFDPYVG-----NRD-----TGSFILIDRLTNGTVGAGMIT- V4P4M5/329-432 PEVSDQFQAHLIWMNE-EPL-LPGRPYILKIGAKT-VSATVTAIKHKIDVN-----SFSE----LA--AKN---------LPLNEVAVVNLMTQEPVAFDAYDD-----DHA-----MGSFIVIDRVSNLTLGAGMI-- A0A0S9NK70/327-430 PEAADQFEATVVWMDD-EPL-LPGRPYLLKIGAKL-VGATITEPKHKVNVN-----TLEQ----QP--AKR---------LELNEIGVCNLSLDAPVAFAPYVQ-----NKD-----LGGFILIDRISNRTVGAGLL-- A0A0N0E6D9/329-431 -EIGNQFEAKLIWMSD-EKM-FPGRTYIMKCGATN-AQATLATPKYKIDVN-----TMAH----EA--TRN---------LALNEIGICNISLDRNIAFDPYSA-----NRE-----TGGFILIDKLSNATVGMGML-- H6SQR4/331-433 P-VSDQVSAHVVWMDP-APL-LPGRPYLARIGTAE-TGAKVTALKHRLDVS-----TLTP----LA--ART---------LDMNEVGVCTLSFDRAVAFDPYRE-----NRD-----MGGFILIDRLSNATVGCGMI-- A0A0S9CH76/333-436 PQAADQFEATLVWLAD-DAL-RVGRSYWLKLGTQT-VSVTVQQPKYVVNVN-----TLEQ----LA--AKT---------LDLNAIGVVELTTDRAIVFEPYAD-----NRT-----LGGFILIDKLTNATVAAGML-- A0A0F3L9R5/327-430 PEAADQFEATVVWMDD-EPL-LPGRPYLLKIGAKL-VGATITEPKHKVNVN-----TLEQ----QP--AKR---------LELNEIGVCNLSLDAPVAFTPYAQ-----NKD-----LGGFILIDRISNRTVGAGLL-- E8RMR0/327-430 PEVGDQFQATLIWMNE-DEL-LPGRPYLLKIGAKT-VSATITDIKHKTDVN-----SFEK----LA--AKT---------LKLNEVATVNIATQSPIAFDPYED-----NRA-----TGAFILIDRISNLTLGAGLI-- W1S2F0/336-439 PQAADQFEATIVWMAD-DEM-LPGRSYWLKIGTQT-VTATIQQPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLSTDKQIVFEPYAD-----NRT-----LGGFILIDKISNATVAAGML-- A0A0B4X9F0/324-427 PFVADQFQAHVIWFGA-NPM-LPGRRYILRTETDS-VSATVTALKHQVNIN-----SFAR----EA--AKS---------LQMNEVGVCNISTQAPIAFDAYKD-----NRS-----TGNFILVDRATNATVGAGMI-- B2AIS0/337-440 PAVADQFEATLVWMNE-DAM-LPGRPYLLKLGTRT-VGVTVAQPKYKVNVN-----TLEH----LA--ART---------LELNEIGVCNLHLDQPVAFDPYTR-----NRE-----LGGFILIDRLTNNTVGAGML-- A0A0P7C1T8/330-433 AEVADQFECHLVWMAG-EPM-LPGRPYLLKLGTRT-VTATIAQPKYKVNVN-----TLEQ----SA--TKT---------LELNEIGVANLSLDRPVPFDPYTA-----NRN-----TGGFVLIDRFTHATVAAGLL-- A4YYA8/317-421 PEINDQFAAHIIWMSD-RPL-ISGRSYLARIGTRT-ISMSVTAIRHKMDVN-----TGER----LA--ASV---------LALNEIGLCNVATVRPIAFDPYAA-----NRA-----TGSFIVIDRLTNETVGAGMIL- A0A0B2YCD3/312-418 PRVTQEFDATVCWMADEASL-EPGREYLVKHTTRT-TRAKVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTQAPLLLDEYSR-----NAS-----TGSFILIDPNTNGTVGAGMVL- A0A0Q4QJY5/325-428 PEVADQFAAHVLWMDD-AAL-LPGRPYWLQIGSRT-VAASISEIKHRIDVN-----TQDK----LA--AKR---------LELNEVGYCNLSLDEPIAFEPYAR-----NRA-----LGGFILIDRQSNATVAAGTL-- A0A0R2TRX1/334-438 CEVADQFETTLIWMDE-DEM-LPGRPYIMQIGTQS-VTATLQTPKYEVNVN-----TLEH----LA--ART---------LKLNAIGICNLSVNKPIVFESYTK-----LPT-----LGGFILIDRVSNRTVAAGLIH- A0A0Q6P9G9/334-437 PEVSDQFAAHVLWMHD-DPL-IPGRPYVIKLATSV-VGASVTDIKHRLDIN-----NFAK----LA--TKT---------LEKNEVGFINLMTQAPLAFDPYSQ-----VHE-----TGAFIIIDRMTNHTVGAGMI-- A0A059EEF2/328-431 SEVSDQFQARLLWMSE-TPL-LPGRRYLLKMGAKT-VTATVNAPKYGIDVN-----TLND----VP--AKT---------LELNQIGVTTLSLDQAIPYDPYDV-----NRE-----MGGFILIDRMTNDTVGLGLV-- U1T425/329-434 PQVTDSFEAMLVWMGE-EPM-LPGKKYDIKRATSY-VPGSIPSIVHRVDVN-----TLEQ----GA--ASE---------LRLNEIGRVKVALDAPIALDGYEY-----NRT-----TGAFIIIDRLTNGTVGAGMIIA A0A0F3G729/329-434 PQVTDSFEAMLVWMGE-EPM-LPGKKYDIKRATSY-VPGSIPSIVHRVDVN-----TLEQ----GA--ASE---------LRLNEIGRVKVALDAPIALDGYEY-----NRT-----TGAFIIIDRLTNGTVGAGMIIA B0T3J2/336-438 -AVAGQFEATVVWMDD-EPL-PPGRSYLLKIGART-VGASVTEIKHRVNVN-----TLEH----LA--AKR---------LELNEIGLVNLSLDQAIPFEPYAK-----NRD-----LGGFILIDRISNRTVGAGLL-- A0A0D6JKF7/334-437 -EVADQFAADIVWMSE-RPL-MRGRPYILRCGQQS-TVCQISELKHKINVE-----TLEH----TA--GRE---------MELNAIGLCNLSLSKPIVFDTYAD-----NRE-----AGGFILIDRLTNETVGAGMIR- A0A087M1S0/327-431 PEFSNQFQARLVWMND-EPA-YQGRSYLLKVGAQI-VPATITDIKFRTNVN-----TLEH----VA--ANK---------LDLNEVGTVTIATDRAIAFDPYAD-----NPL-----TGGFILIDRLSNATLAAGTIS- A0A1B8SE14/312-418 PRVVQDFDATVCWMADGAAL-RPGNDYVIKHTTRT-TRCKVMALDYRLDVN-----TLHR---DKE--ADS---------LRLNELGRVSLRAQVPLMLDEFSH-----NDA-----TGSFILIDAASNGTVAAGMVL- H0RYB9/326-429 PRVTDHIIAHLIWFDD-ETM-RQGRRYLLKSGTSS-IGATVSTMTHRVDID-----TMAH----EA--AQA---------LEANEIGCVEIALDRPLVCDPYRD-----NRD-----LGSFILIDPFSRHTVAAGLI-- A0A173L030/336-439 PQSADQFEATIVWMAD-EEM-LPGRPYWLKVGTQT-VTATVQQPKYQVNVN-----TMEH----LA--AKT---------LDLNAIGVANLSTDKQIVFESYEQ-----NRT-----LGGFILIDKITNATVAAGML-- A0A0C5KWC2/331-434 PEAADQFRATIVWMDA-AEL-LPGRAYWLKLGTQM-VSAVVREPEHTIDVN-----TLAK----TS--AKT---------LRLNDIGVAEVATDRPLVFEPYAD-----SHD-----LGGFILIDKATNATVAAGML-- A0A150UEV1/326-429 PQVSDQLAAHLVWFDD-EAM-VAGRRYLLKCGTAS-TGAVITTLEHRIAID-----TMAH----ED--AAT---------LDANQIGYAHLSLDRPLVFEAYRD-----NRD-----MGSFILVDPISHRTAAAGMI-- A0A1L3LF05/327-430 PFVADQFQAHVIWFDS-NPM-LPGRSYILRTETDS-VGATVTALKHQVNIN-----SFGR----EA--AKA---------LQMNEVGVCNISTQAPIVFDAYKE-----SRT-----TGNFVFVDRVTNATVGAGMI-- A0A081MKQ4/327-430 PEVADQFQARVIWFDA-NPL-IPGRSYILRTECES-VTANITSLKHSIDVH-----TFAH----TA--AKS---------LAMNEFGVCNLSLQAPIAFDAYKD-----NRI-----TGNFILIDRFTNATVGAGMI-- A0A064CN77/309-415 PVATREFDATVCWMADESSL-EPGRDYIIKHTTRT-TRARVGALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVTLRTQVPLLLDEYSR-----NAA-----TGSFILIDPDTNVTVAAGMVR- A0A0Q4CJS2/337-440 PQVADQFRTTIVWMDG-EAL-LPGRAYWLKTGSGT-VSATVQPPRHAIDVN-----TLAE----LS--VKT---------LQLNDIGVADVFTDRGIAFEPYAD-----NRD-----LGGFILIDKITNATVAAGMI-- A0A0K0TV54/323-426 PEYSNQFQARVVWMQE-EPA-FHGRSYLIKVGSQL-VPGTITGIKYRTNVN-----TLER----TA--ATK---------LELNEVGTVTIATDKPIAFDPYAD-----NNQ-----TGAFILIDRLTNTTLGAGVI-- A0A1L3RLM5/320-424 PPSADRLEADLVWMQE-APL-LPGAAFLVKIGTLT-LGGRVAAIRAKIDVD-----TLEE----EP--GER---------LMQNEVAKIELVLDRPVPFESYDV-----TRH-----LGGFILIDRITNATAGAGMVR- A0A0Q9P1K5/313-415 P-VADQFACHLLWVGD-AAL-LPNRTYWLKLGTRT-VNARVMSIKYKVDVN-----SQAK----LA--ARQ---------LALNEVGYCTLGLDDEVAFEAYAD-----NRT-----LGGFILIDRLSNATVACGML-- A0A098PXR5/334-437 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSVSEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0W0H776/329-432 -EVTDQFEAVLIWMNE-DAG-LNGRSYDIKLATQW-ASASITNIKYRIDTN-----TLAR----DA--SRH---------LSLNDISVCTLATSKPLVFDSYQQ-----SRT-----LGSFILVDRVTHATVAAGLIN- X6FQN3/330-434 PLVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAH----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAE-----NRT-----TGAFILIDRITNATVGAGMIL- A0A0A0ES88/327-430 AEVADQFAAHLLWLGE-QPL-LPGRPYWLKIGSRT-VGAQVTEIKHKVDVN-----TQEE----LA--AKH---------LELNEVAQVNLYLDQPVAFEKYDD-----NRD-----LGAFILIDRQTNGTVAAGTL-- A0A125PWA3/373-476 PEVADQFAAHVLWMDD-AAL-LPGRPYWLKLGTRT-VSASVSEIKHRIDVN-----TQER----LA--AKR---------LELNEVGYCNLSLDEAIVFAPYAR-----NRA-----LGGFILIDRQSNATVAAGTL-- X6H409/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X6KKE7/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X6JH27/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- V7GAE5/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- V7ETW5/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X5P5D8/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X6ADL0/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- A0A1A5IA65/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNVSTRAPIAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIVH W9E5K0/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNVSTRAPIAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIVH Q985Q4/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNVSTRAPIAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIVH A0A0A2SSC3/332-435 CEVAAQFQSTILWMSN-SPM-IRGRQYILKCATQT-ALCIPNSPKYQLDVN-----TGEH----KA--ADK---------LELNQIGVCDISLNKEITFEPYEK-----NKT-----LGGFILIDRLSNETVACGWL-- A6UI80/327-430 PFVADQFQAHVIWFDA-SPM-MPGRSYILRTETDS-VSATVTALKHQVNIN-----SFVR----EA--AKS---------LQMNEVGVCNISTQTPIAFDAYTD-----NRA-----TGNFIIVDRVTNATVGAGLI-- E3IVF7/328-431 AEVSDQFEAQVVWMHE-EAM-VPGRPYLMKLGTRT-TGISLSQLKYKVNVN-----TLDQ----VA--ART---------LRLNEIGVCTVSADRPVAFDPYVS-----NRD-----MGGFVVVDRLSNATVGAGLL-- A0A0J6LRU7/332-435 PEVADQFEATLVWMHD-APL-LPGRPYLVKLGTQT-VGATCATPKYKVDVN-----TREH----LA--ART---------LALNEIGVCNLSFDRPVAFDPYDR-----NRH-----TGGFIVIDRFTNDTVGAGML-- A0A0J5T1C3/332-435 PEVADQFEATLVWMHD-APL-LPGRPYLVKLGTQT-VGATCATPKYKVDVN-----TREH----LA--ART---------LALNEIGVCNLSFDRPVAFDPYDR-----NRH-----TGGFIVIDRFTNDTVGAGML-- B5EPY5/308-410 -EMAEQFHAHLLWLHE-QAL-IPGRPYWLQLHHRT-VSATVSSIRHRIDPN-----SGAE----LA--ARE---------LQMNDIAEVHLNLDRPLPFAPYAE-----NRP-----LGAFILIDRLSNATVGAGML-- A0A021X7I1/328-431 PTVADQFQAHVIWFDA-NPM-IPGRSYILRTETDS-VETTVTALKYEVDVN-----TFAH----LA--AKA---------LHMNGVAVCNFSTRAPIAFDSYAA-----NRV-----TGNFVLIDRMSNRTVGAGMI-- A0A081N721/327-430 PEVTNSFATDILWMDD-HEM-VLNRPYLIRLENNT-VPGRLTDITYKINVN-----TLEQ----QD--AEV---------LTLNEVARCELALTEDIAFDPYED-----TRS-----MGSFVIVDRITNKTVGCGML-- A0A142BB15/327-430 PEVTNSFATDILWMDD-HEM-VLNRPYLIRLENNT-VPGRLTDITYKINVN-----TLEQ----QD--AEV---------LTLNEVARCELALTEDIAFDPYED-----TRS-----MGSFVIVDRITNKTVGCGML-- A0A0F5FTZ1/332-435 PEFSNQFQARLIWMND-EPA-YPGRSYLLKIGTQL-VPATITGLKFRTNVN-----TLEK----SA--AKT---------LELNEVGTVTVATDKPIAFDPYTE-----NGL-----TGGFILIDRISNRTLGAGTI-- A0A0H2MI75/327-430 PELSDQLKAHILWMQE-DAL-LPGRPYLLKTAATT-VPVVISDLHHKVNVN-----TLEE----QA--GKT---------LELNEVGVCNLALDRAIPFDAYKE-----NRE-----TGSFILIDRYTNSTVGAGMI-- A0A0Q8B9S1/330-434 PQVADQFAANIVWFDE-QAL-LPGRSYILRTETDQ-ASATVTDLKYRINVN-----NFAE----EA--AKS---------LGLNEVGVVNVSTRSPIAFDPFAE-----NRS-----TGAFILIDRITNATVGAGMIL- A0A1B9VMF3/327-431 PEFADQFEARIIWMHE-DHL-LPGRPYIIKMGAQV-TNAQISDLKYKVNVN-----TLEH----IA--GKT---------LELNEVGIANIATDKALAFDPYDD-----NRH-----SGRFIIIDRYSNATVGAGMVN- A0A0Q6EUE2/326-429 PEVTDQFAAHLIWMHD-DAL-IPGRPYLFKIGAKS-VAGSVTEIKHAIDVN-----TFQH----LA--AKS---------LELNAVAVVNVSLREPVAFDPYSE-----NPQ-----TGGFIVIDRLSNLTVGAGMI-- C4ZNJ4/328-431 AEVADQFECTVVWMHD-EPM-LAGRPYLLKIGART-VSATITEIKYQVNVN-----TLEH----VA--AKR---------LELNAIGVCNLSLDRPIAFDPYRI-----NRD-----TGGFILIDRLSNNTVGAGLL-- G2E3D6/324-427 AEVADQFEARLLWMAE-HLM-SPGRQYLMKLACRE-VTATVTEIKYREDVN-----TGVH----LA--AKT---------LGLNEIATVNLSTSAPLVFEPYRL-----NRT-----LGSFILVDKLSFETVGAGMI-- A0A090GDG3/330-434 PQVADQFAANIVWFDE-QAL-LPGRSYILRTETDQ-VSATVTELKYRVNVN-----DFAH----EA--AKS---------LDINEVGVCNLSTRAPIAFDPFAE-----NRT-----TGAFILIDRITNATVGAGMIL- W6WPI0/329-432 PEVADQFQARLIWMSE-QAL-IPGRRLLIKIGTHT-VTASVTGIRYKTDVN-----TFAR----LA--AKT---------LQLNEVAVVNISTSEPVAYDSYRA-----NRP-----MGAFILIDRVTNLTLGAGMI-- W6M4Z0/327-432 PAVADTFDARVVWLAD-TPL-LAGRQYDLKLGTRL-VPAILSLLHHRIDVN-----TLEH----QH--AEE---------LHLNEIGYCRFALNQPVPFDPYEE-----SPG-----TGGFIVIDRVSNATVGAGMIVR A0A022LBA7/341-448 PHQGTELEAMVCWFADDSTL-TPNKRYVVKHTTRD-TKAIVTGLEYRLDVN-----TLHR---DPD--STE---------LGLNEIGRVGLRTQTPLMYDPYRR-----NRD-----TGAFILVDELSGNTVGAGMIIG A0A0Q2QE86/309-415 PRVAQQFDATVCWMADGSAL-EPGRDYVIKHTTRT-TRARITGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYSR-----NAS-----TGSFILIDPDTNGTVAAGMVL- V4Q3V1/334-437 PEVSDQFQAHLIWMNE-EPL-LPGRPYILKLGAKT-VSATVTAIKHKIDVN-----TFNE----LA--AKA---------LPLNEVAVVDIMTQEPVAFDAYSD-----DHA-----MGSFIVIDRVSNLTLGAGMI-- A0A1J1EAB2/368-471 AQVADQFAAHLLWMDA-TPL-LPGRSYWLKIGART-VTASVTEIKHKIDVN-----TQAQ----LA--ARR---------LELNEVAWCNLGLDQPIAFEAYRD-----NRE-----LGSFVLIDRQTNATVAAGTL-- A0A0M2LSH3/339-442 PQVADQFEATIVWMAE-EDM-LPGRAYWLKLGTQT-VSATVQAPKYQVNVN-----TLEQ----LA--AKT---------LDLNAIGVANLSTDKPLVFEPYAD-----SRT-----LGGFILIDKLSNATVAAGML-- D5VG28/328-431 -PVANQFEATLVWMDD-EPL-PPGRTYLLKIGART-VGASVTDIKHRVNVN-----TLEH----TA--AKR---------LELNEIGVCNLSLDQAIPFERYAD-----NRQ-----MGGFILIDRLSNRTVGAGMIN- A0A0C3IN63/328-431 AHTADQFETTLVWMHE-APL-LPGRPYLMKLGTQT-VSATVTDIKYQVNVN-----TLEH----TA--SKQ---------LDLNGIGICTLSLNRAVAFDAYKD-----NHD-----TGGFILIDRMTNNTVGAGML-- A0A0M2K2Q0/312-418 PRVTQEFDATVCWMADEVTL-EPGRDYLIKHTTRT-TRVRVTALDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRSQVPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVAAGMIL- A0A0Q6V5P4/328-430 -PVANQFEATVVWMDD-EPL-PPGRTYLLKLGART-VSASVTDIKHRVNVN-----TLEH----TA--AKR---------LELNEIGVCNLSLDQAIPFEAYAD-----NRQ-----MGGFILIDRLSNRTVGAGML-- A0A0Q6U1Y9/328-430 -PVANQFEATVVWMDD-EPL-PPGRTYLLKLGART-VSASVTDIKHRVNVN-----TLEH----TA--AKR---------LELNEIGVCNLSLDQAIPFEAYAD-----NRQ-----MGGFILIDRLSNRTVGAGML-- Q2YP45/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- D7H1A7/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- A0A0M1WCW2/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- A0A0F6ANU5/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- C4IR31/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- A0A060I820/321-424 PFVADQLQAHVIWFGA-NPM-LPGRSYILRTETDS-VSATVTALKHQVNIN-----SFAR----EA--AKS---------LQMNEVGVCNISTQAPIAFDAYKD-----NRS-----TGNFILVDRATNATVGAGMI-- W1NDD3/328-431 A-LASAFEADIVWMHE-TAL-ETGKLYDIKLATRD-LAGKVTAIDFQVDVN-----TLEH----RH--ADH---------LDLNAIARCQVELTAPVPLDDYRT-----SPG-----TGSFIIIDRLTNITVGAGMIH- A0A0Q7E928/330-433 PDYSNQFQARMVWMSD-EQA-IPGRSYLLKLGAQQ-VPASITALKFRTNVN-----TLEQ----SA--AKT---------LELNEVGTVTIATDKPIAFDSYSD-----NPL-----SGSFILIDRISNATLGAGVI-- A0A0D1CIX3/337-441 PQTADQFEATFVWMAD-EAM-IPGRAYWLKLGTQM-VSATVQEPKYTVNVN-----TMER----MA--AKT---------LDLNAIGVAELTSDKQLVFEPYAE-----NRM-----LGGFILIDKMTNATVAAGMIN- A0A090GK91/330-434 PQVADQFAANIVWFDE-QAL-LPGRSYILRTETDQ-VSATVTDLKYRVNVN-----DFAH----EA--AKS---------LDMNEVGVCNLSTRAPIAFDPFAE-----NRT-----TGAFILIDRITNATVGAGMIL- A0A0Q5RHJ8/337-440 PETADQFETTIVWMDD-DPL-VVGRAYWLKLGTQL-VSATVQEPKYQVNVN-----TMEH----LA--ART---------LELNAIGVAEITTDRAIVFEPYTQ-----NRT-----LGGFILIDKITNATVAAGML-- A0A0G3XDR0/335-443 PQTADQFEATVVWMND-EAM-LPGRSYWLKLATQT-VSASLQAPKYAVDVN-----TMDH----LA--AKT---------LDLNAIGVTELVTDKPLTFMPYREEAGSLNKT-----LGGFILIDKITNQTVAAGML-- A0A0P7CHQ0/330-433 AEVADQFECHLVWMSP-EPM-LPGRPYLLKIGTRT-VSATVAQPKHKVNVN-----TLEH----SA--ART---------LDLNEIGVANISLDRAVPFDPYTS-----NRD-----TGGFILIDRFTQATVAAGLL-- A0A0D1MQ43/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- P9WNM4/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A0K2HUS7/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A0H3M3J7/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A0H3L7Z3/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A197J1Y8/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A109SMK3/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A0G4DYF6/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- G0THW3/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A5U1Y4/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A045JVI2/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- M8CP05/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A0Q4JCI8/336-439 PEAADQFEATIVWMAD-DAM-LPGRPYWLKLATQT-VTATVQQPKYQINVN-----TMER----LA--AKT---------LELNAIGVGNISTDRPLVFEPYAD-----NRQ-----LGGFILVDKITNATVAAGML-- P52978/326-429 PFVSDQFQAHLIWFDA-NPM-LPGRSYLLRTETDS-VSATVTVLKHQLNVD-----SFVR----EP--AKL---------LQMNEVGVCNIMTQRPIVFDAYKE-----NRS-----TGNFIIVDRVSSATVGAGMI-- I2AWL6/326-429 PFVSDQFQAHLIWFDA-NPM-LPGRSYLLRTETDS-VSATVTVLKHQLNVD-----SFVR----EP--AKL---------LQMNEVGVCNIMTQRPIVFDAYKE-----NRS-----TGNFIIVDRVSSATVGAGMI-- A0A0B2BX37/337-440 PEAADQFKASIVWMGE-EAM-IPGRAYWLKLGTQT-VSASVAAPRYEIDVN-----SLEH----LA--APT---------LSLNGIGVAEVTTDRPLVFEPYAD-----SRA-----LGGFILIDKLTNATVAAGLL-- A0A0J7Y6S8/337-441 PQTADQFEATFVWMAD-EAM-IAGRAYWLKLGTQM-VSATVAEPKYTVNVN-----TMER----MA--AKT---------LELNAIGVAELTTDKQVVFEPYGE-----NRT-----LGGFILIDKMTNATVAAGMIN- A0A0Q4FH59/330-434 PQSSDRFNTTIVWMAD-DAL-VPGRAYWLKSGTQT-VSATVQAPRHVVDVN-----TQAE----LS--AKT---------LGLNDIGEAEVYTDTPLAFEPYDD-----NHD-----LGGFILIDRATNATVAAGMIR- A0A0G3WMZ5/334-437 PEVADQFEATLVWMHD-EPL-LPGRPYLVKLGTQT-VGATCATPKYKIDVN-----TREH----LA--ART---------LALNEIGVCNLSFDRPVAFDPYDR-----NRH-----TGGFIVIDRFTNDTVGAGML-- X6DVA9/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRAPIAFDPFGE-----NRT-----TGAFILIDRISNATVGAGMIVH A0A0K2VW69/330-434 PQVADQFAANIVWFDE-QAL-LPGRSYILRTETDQ-VSATVTELKYRVNVN-----DFAH----EA--AKS---------LDINEVGVCNLSTRAPIAFDPFAE-----NRT-----TGAFILIDRITNATVGAGMIL- A0A125MMQ6/346-449 PEVADQFAAHLLWMDS-KPL-LPGRFYWLKIGART-VSASITEIKHKIDVN-----TQAQ----LA--AKQ---------LELNEVAYCNLGLDQPIAFEAYRD-----NRE-----LGSFILIDRQTNATVAAGTL-- A0A199Y4H6/327-431 PDFADQFEARIIWMHE-DHL-LPGRPYLIKMGAQV-ANAQISDLKYKVNVN-----TLEH----EP--GKT---------LELNEVGIANISADKALAFDPYDE-----NRH-----SGRFIIIDRYTNATVGAGMVN- A0A127R8Y9/312-418 PRVTQEFDATVCWMADAASL-EPGRDYVIKHTTRT-TRARITALDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NAS-----TGSFILIDPNTNGTVAAGMVL- A0A0N1BVB2/309-413 PEVTDQFTAHLIWMHD-EPL-LPGRAYLIRMGTAT-ATAQITQIKHRVDVN-----SLDH----LA--SHA---------LGLNDVGLCNLSLDRPLPAEPYVD-----GRA-----CGSFILIDRHSNATLACGMVL- M5FJZ0/330-434 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAH----EA--AKS---------LEMNEVGICNLSTRAPIAFDTFGE-----NRT-----TGAFILIDRITNATVGAGMIL- A8LG97/328-431 PGVADQFECHLVWMAD-EPM-LPGRPYLMKIGART-SSVTIAQPKYKVNVN-----TLEH----TA--ART---------LDLNEIGVCNINVDRQIPFDPYTT-----NRH-----TGGFILIDRFTRATVAAGLL-- A0A0H2ZGI7/329-434 PLVTDGFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIPSIVHKVDVN-----TLER----TP--GSE---------LKLNEIARVKVSLDAPIALDGYEQ-----NRT-----TGAFIVIDRLTNGTVGAGMIVS A0A0E1B3F6/329-434 PLVTDGFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIPSIVHKVDVN-----TLER----TP--GSE---------LKLNEIARVKVSLDAPIALDGYEQ-----NRT-----TGAFIVIDRLTNGTVGAGMIVS A0A157V259/329-434 PLVTDGFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIPSIVHKVDVN-----TLER----TP--GSE---------LKLNEIARVKVSLDAPIALDGYEQ-----NRT-----TGAFIVIDRLTNGTVGAGMIVS A0A0C6F156/329-434 PLVTDGFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIPSIVHKVDVN-----TLER----TP--GSE---------LKLNEIARVKVSLDAPIALDGYEQ-----NRT-----TGAFIVIDRLTNGTVGAGMIVS W1MND5/329-434 PLVTDGFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIPSIVHKVDVN-----TLER----TP--GSE---------LKLNEIARVKVSLDAPIALDGYEQ-----NRT-----TGAFIVIDRLTNGTVGAGMIVS A0A1D5BRD3/329-434 PLVTDGFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIPSIVHKVDVN-----TLER----TP--GSE---------LKLNEIARVKVSLDAPIALDGYEQ-----NRT-----TGAFIVIDRLTNGTVGAGMIVS X6C3T4/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- V7HL51/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X5RUG9/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X6FU92/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X6JJE6/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X5XBF4/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X5YRY7/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X6I1J4/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X5PWV6/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X6J3G4/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- W0E4M2/330-433 PEVADQFAAHLVWMDE-QPL-LPGRPYLLRTATAT-LNAQVTEIKHKVNVN-----TLEQ----TA--AKH---------LALNDVAVCNLALDRAVPFDPYVD-----NRE-----TGAFVLVDRISNATVGCGMI-- A0A0A8E069/361-464 PEVADQFAAHVLWMDD-AAL-LPGRPYWLKIGART-VAASVTEIKHRIDVN-----TQER----LA--AKR---------LELNEVGYCNLALDQPIAFAPYAQ-----DRT-----LGGFILIDRHSNATVAAGTL-- A0A0U5E4Q3/333-436 -EVADQFEATIVWMAQ-EPM-IPGRAYIMKIGTTQ-ATVTVTDEKYQVNVN-----TMAH----EP--GKI---------LALNGIGVCNIATSKAIPFEPYAE-----NPD-----LGGFILIDRLNNATVGAGMIH- A0A066PQN9/314-418 PDVADQFAADLVWMAE-APL-FAGRPYIVKLGTAT-VSGVVSRIKHKVNVN-----NFDE----LA--ADS---------LTLNEVGSVNVALATPVAFDPYTL-----NPR-----TGAFILIDRMTNATVAAGMIR- F7S3I0/314-418 PDVADQFAADLVWMAE-APL-FAGRPYIVKLGTAT-VSGVVSRIKHKVNVN-----NFDE----LA--ADS---------LTLNEVGSVNVALATPVAFDPYTL-----NPR-----TGAFILIDRMTNATVAAGMIR- F0IY52/314-418 PDVADQFAADLVWMAE-APL-FAGRPYIVKLGTAT-VSGVVSRIKHKVNVN-----NFDE----LA--ADS---------LTLNEVGSVNVALATPVAFDPYTL-----NPR-----TGAFILIDRMTNATVAAGMIR- W6KBQ6/327-430 PDFADQFEARVIWMDD-APL-LPSRNYLIKVGTST-TSAKVSKLKYKVNVN-----TMEQ----VA--GKT---------LEFNDVGVCNFSLDKPLPFDAYSD-----NPG-----TGNFILIDRFTNATVGAGMI-- A0A0R2WLS0/334-438 CEVADQFETTLIWMDE-DEM-LPGRPYIMQIGTQS-VTATLQTPKYEVNVN-----TLEH----LA--ART---------LKLNAIGVCNLSVNKPIVFESYTK-----LPT-----LGGFILIDRVSNRTVAAGLIH- A0A0R0ARF8/325-428 PEVADQFAAHVLWMDD-TAL-LPGRPYWLQIGSRT-VAASISEIKHRIDVN-----TQEK----MA--AKR---------LELNEVGYCNLSLDESVAFAPYAH-----NRA-----LGGFILIDRQTNATVAAGTL-- A0A0Q8QBK9/339-441 -DMTDQMEATLIWTDS-DPG-LVGRNYHIKLATQD-ASASITKIKHEVDVN-----TLAH----KA--CKQ---------LELNSISNCTLALSKPLVFDNYEK-----SKP-----LGSFILIDRFSNATVAIGMV-- Q3RHG2/356-459 PDVADQVTAYVLWMDD-TAL-LPGRRYWLKLGARM-VAASVSDIKHRVDVN-----TQEQ----RV--AQR---------LQLNELGYCQLSLDAPVAFVPYAR-----NRV-----LGSFILIDRQSNATVGAGTL-- V4RIN6/322-427 PEVADQFAAQLIWMQDGQDL-MPGRPYLLKCGAKS-VTATVTELKYKVDIN-----NFDH----LA--AKT---------LHLNEVAMVNLSLAEPIPFDPYDE-----NHE-----TGSFVLIDRLTNQTVGAGMIQ- A0A0Q5V2U6/327-430 PEVADQFEATLVWMDE-DPM-LPGRPYLLKVGAKT-VSASITEPKYKVNVN-----TLEQ----QP--AKR---------LELNEIGVCNLSLETATAFEPYGT-----SKD-----LGGFILIDRITNRTVAAGLL-- A0A0Q4Q039/333-436 PQVADQFRATIVWMDG-EPM-LPGRAYWLKTGAGT-VSATVQPPRHAIDVN-----TLAE----LS--VKT---------LLLNDIGVADVFTDRGIAFEPYAD-----NRD-----LGGFILIDKITNATVAAGMI-- A0A062UFE6/328-431 TEVSDQFQARILWMSE-SPL-LPGRRYLLKIGSKT-VTATVNAPKYGIDVN-----TLSD----IP--AKT---------LELNQIGVTTLSLDQAIPYDPYDV-----NRE-----MGGFILIDRMTNDTVGLGLI-- A0A0T1W3X9/309-414 PHVTQDFDATVCWMSDDAAL-EPGRDYVIKHTTRT-TRARVTALDYRLDVN-----TLHR---DKS--ATA---------LKINELGRVTLRTQVPLLLDEYSR-----NAA-----IGSFILIDPDTNGTVAAGMV-- A0A0Q8QKN7/336-440 PQVADQFETTIVWMSD-EAM-LPGRPYWLKLGAQT-VTASVQAPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLSTDRPLVFESYAD-----NRS-----LGGFILIDKITNATVAAGIIH- A0A0Q5UQW0/336-439 PEASDQFEATVVWMAD-EAM-LPGRSYWLKLATQT-VTATIQQPKYAININ-----TMER----LA--AKT---------LELNAIGVANLSTDRPLVFEPYAD-----NRQ-----LGGFILVDKITNATVAAGML-- U4M050/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSISDIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0R3MBY4/319-424 PEVTDQFAAHLIWMDN-DPL-VAGRNYILRIGTRTGVAGSITAIKHRIDVD-----TREH----LA--ARK---------LGLNEIGFCNVATALPVAFDPYEV-----NRK-----TGSFIVIDRFTNRTVGAGMIA- A0A0T6ZAU0/327-430 PFVADQFQAHVIWFDA-SPM-LPGRGYILRTETDS-VSATVTALKHQVNIN-----SFAR----EA--AKS---------LQMNEVGVCNISTQAPIVFDAYKD-----NRA-----TGNFVFVDRATNATVGAGMI-- E3J7U8/330-433 AEVADQFACHLVWMGG-EPM-LPGRPYLLKLGTRT-VNATLAPPKYKVNVN-----TLEQ----TA--AKT---------LELNEIGVANLTLDRPVPFDPYTV-----NRD-----TGGFILIDKYTHATVAAGLL-- A0A0M3CVH2/328-431 ASVADQFQVSLIWMHE-QAM-LAGRPYLMKIGGKT-LPVTLAVPKYKINVN-----TMEH----LA--AKE---------LALNEIGVCNLFTSQPIAFDPYKD-----NRE-----TGSFILIDRLTNATVGAGLI-- A0A0T2MNT4/323-426 PEFSNQFQARLIWMNE-ESA-FPGRSYLLKVGSQL-VPATITDLKFRTNVN-----TLEH----TA--ATK---------IDLNEVATVTIATDKPIAFDPYAA-----NAL-----TGGFILVDRLSNATLGAGTI-- X6EQD7/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRAPIAFDPFGE-----NRT-----TGAFILIDRISNATVGAGMIVH C4WH09/329-432 PEVADRFSANIVWFGE-DAL-HPGRSYLLRTETDQ-TPVTINEIVYRTDVD-----SFTR----KD--ASR---------LDLNEIGLCHLQTVDQIAFDPYVD-----NRV-----TGAFVLIDRLTNATVGAGMI-- M5JRE3/329-432 PEVADRFSANIVWFGE-DAL-HPGRSYLLRTETDQ-TPVTINEIVYRTDVD-----SFTR----KD--ASR---------LDLNEIGLCHLQTVDQIAFDPYVD-----NRV-----TGAFVLIDRLTNATVGAGMI-- U4VCF8/329-432 PEVADRFSANIVWFGE-DAL-HPGRSYLLRTETDQ-TPVTINEIVYRTDVD-----SFTR----KD--ASR---------LDLNEIGLCHLQTVDQIAFDPYVD-----NRV-----TGAFVLIDRLTNATVGAGMI-- U7GM89/329-433 PDVADQFAAHVIWMSD-EPL-LPGRPYLLKIGTRT-VTATVSEIKHKINVN-----TFEH----VA--GKT---------LALNEIAFCNFSLSSAVPFDPYEA-----NHT-----TGSFILIDRMSNSTVGAGMVW- A0A0Q6SPI1/324-427 PHLADQFMAHVIWFHK-EPM-IPGRSYICRTEVDS-IGATVTTLKYTIDIN-----SFAQ----KA--ATA---------LQMNEVGVCNVSTQAPIVFDSYRD-----NRN-----TGNFVLIDRFTNATVGAGMI-- A0A0F5MZ26/312-418 PRVVQDFDATVCWMADGAAL-RPGNDYVIKHTTRT-TRVKVMELDYRLDVN-----TLHR---DKD--ATE---------LKINELGRVSLRAQTPLMLDEFSR-----NGA-----TGSFILIDQATNGTVAAGMVL- A0A147J873/330-433 PEVADQFVATIVWMAD-AAL-VPGRSYSLKLGTQL-VGATVQPPRHVVDVN-----SQEQ----RP--ADT---------LALNDIGLAEVYADRPIVFEPYAK-----GST-----LGGFILIDRATNTTVAAGMI-- A0A0Q0H5C1/334-437 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSISDIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0M1MNC9/355-458 PEVADQFAGHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALHEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A147IYV2/330-433 PEVADQFVATIVWMAD-APL-VPGRSYSLKLGTQL-VGATVQPPRHVVDVN-----SQEQ----RP--ADT---------LALNDIGLAEVYADRPIVFEPYAK-----GSV-----LGGFILIDRATNATVAAGMI-- B1FGT4/332-435 PEVADQFEATLVWMHD-EPL-LPGRPYFVKLGTQT-VGATCATPKYKIDVN-----TREH----LA--ART---------LALNEIGVCNLSFDRPVAFDPYDR-----NRH-----TGGFIVIDRFTNDTVGAGML-- A0A147I3L7/330-433 PEVADQFVATIVWMAD-AAL-VPGRSYSLKLGTQL-VGATVQPPRHVVDVN-----SQEQ----RP--ADT---------LALNDIGLAEVYADRPIVFEPYAK-----GSA-----LGGFILIDRATNATVAAGMI-- A0A0G3IZV1/309-415 PVATREFDATVCWMADESAL-EPGRDYIIKQTTRT-TRARVAALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVTLRTQVPLLLDEYSR-----NAA-----TGSFILIDPDTNVTVAAGMVR- E3JDA8/330-433 AEVADQFACHLVWMGG-EPM-LPGRPYLLKLGTRT-VNATLAPPKYKVNVN-----TLEQ----TA--AKT---------LELNEIGVANLTLDRPVPFDPYTV-----NRD-----TGGFILIDKYTHATVAAGLL-- A0A0Q4IAI2/333-436 PQVADQFRATIVWMDG-EPM-LPGRAYWLKTGAGT-VSATVQPPRHAIDVN-----TLAE----LS--VKT---------LSLNDIGVADVFTDRGIAFEPYAD-----NRD-----LGGFILIDKITNATVAAGMI-- A0A0Q5M3B5/327-430 PEAADQFEATVIWMDD-EPL-LPGRPYLLKIGAKL-VGATITEPKHKVNVN-----TLEQ----QP--AKR---------LELNEIGVCNLSLDAPVAFAPYDE-----NKD-----FGGFILIDRISNRTVGAGLL-- A0A0B2XT79/312-418 PRVTQEFDATVCWMADEASL-EPGREYLVKHTTRT-TRAKVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTQAPLLLDEYSR-----NAS-----TGSFILIDPNTNGTVGAGMVL- A0A0G3Z0R5/335-438 PEVADQFEATLVWMHD-APL-LPGRPYLVKLGTQT-VGATCATPKYKIDVN-----TREH----LA--ART---------LALNEIGVCNLSFDRPVAFDPYDR-----NRH-----TGGFIVIDRVTNDTVGAGML-- A0A0R3DRM8/318-422 PEIADRFAAHLIWMDE-EPM-VPGRSYAFRIGTQSIASGSINRFKYKIDVD-----TCEP----VA--AAT---------LNFNEIGFCEVATVLPASFDPYRV-----NRR-----TGSFIMIDCYTNRTVGAGMI-- A0A0Q7ILH4/327-430 PEFSNQFQARLIWMNE-ESA-FPGRSYLLKVGSQL-VPATITDLKFRTNVN-----TLEQ----TA--ATK---------IDLNEVATVTIATDKPIAFDPYTA-----NAL-----TGGFILVDRLSNATLGAGTI-- A0A0N0K4V1/334-437 PQVADQFEANLVWMAD-EAL-VPGRAYWLKLASQT-VSVTVSQPKCTINVN-----TLER----LA--AKT---------LELNAIGIAEITTDRAIVFEPYGE-----SRT-----LGGFILIDKISNATVAAGML-- A0A0S2DDR5/369-472 AQVADQFAAHLLWMDA-NPL-LPGRSYWLKIGTRT-VTASVTEIKHKIDVN-----TQAQ----LA--ARR---------LELNEVASCNIGLDQPIAFEAYRD-----NRE-----LGSFVLIDRQTHATVAAGTL-- A0A0Q4LMN1/333-436 PQVADQFRTTIVWMDG-EPL-LPGRAYWLKTAAGT-VSATVQAPRHAIDVN-----TLAE----LS--VRT---------LGLNDIGVADVFTDRGIAFEAYGE-----NRE-----LGAFILIDKISNATVAAGMI-- A0A0Q6AAE8/333-436 PQVADQFRTTIVWMDG-EPL-LPGRAYWLKTAAGT-VSATVQAPRHAIDVN-----TLAE----LS--VRT---------LGLNDIGVADVFTDRGIAFEAYGE-----NRE-----LGAFILIDKISNATVAAGMI-- A0A0F2KK91/333-437 PEVADQFAAHVVWMDE-QPL-LPGRSYLLRAGTAT-VGAQVTELKHAINVN-----TQEH----AA--AKH---------LDLNDVGFCNLALDRPIPFDAYAD-----SRE-----TGSFILIDRLTNATAGCGMIR- S9ZJN0/328-431 AETADQFEITLVWMHD-EPL-LPGRPYLLKIGTKT-VTATITDIKYQVNVN-----TLEH----VA--AKT---------LELNAIGVCNLSLDRQIAFDPYQD-----NRD-----TGGFILIDRLSNNTVGAGLL-- A6WVC8/329-432 PEVADRLSANIVWFGE-EAL-HPGRSYILRTETDQ-TPVTINEIVYRTDID-----SFTR----QE--ASR---------LDLNEIGLCHLQTVDQIAFDPYAD-----NRV-----TGAFVLIDRLTNATVGAGMI-- A0A0R3CYD2/327-429 -PVSDQLAAHLVWFDG-EAM-VAGRRYLLRCGTAS-TGAVITELKHRIAID-----TMAR----ES--AAT---------LDVNEIGYVHLDLDRPLVFEAYRD-----NRE-----MGSFILIDPISHRTAAAGMI-- X6DUF5/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRAPIAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIVH A0A0Q8R7J3/333-436 PQVADQFEATIVWMAE-SDL-LPGRPYWLKLGTQT-VTATVQSPKYQVDVN-----SMEH----LA--AKT---------LSLNAIGVANLSTDRPLVFESYAD-----SRT-----LGGFILVDKLTNATVAAGML-- A0A0N1EES5/349-453 PQSADQFEATFVWMAD-EAM-VPGRAYWLKLGTQM-VSATVQEPKYEVNVN-----TMEK----LA--AKT---------LELNSIGVAELTTDKQLVFEAYAD-----NRT-----LGGFILIDKMTNATVAAGMIH- A0A0V2F5Y8/327-430 SAVAGQFEATLVWMDD-EPL-PPGRSYLLKIGARL-VGASVTEIKHRVNVN-----TLEH----TA--AKR---------LELNEIAHVNISLDQAIPFEAYAD-----NRD-----LGGFILIDRISNRTVGAGLL-- A0A0W7XZ68/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSVSEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0I9TGG7/312-418 PRVVQDFDATVCWMADGATL-QPGNDYIIKHTTRT-TRVKVMALDYRLDVN-----TLHR---DKD--ADT---------LKLNELGRVSLRAQVPLMLDEFTR-----NDA-----TGSFILIDHATNGTVAAGMVL- E8TNR2/332-436 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRTPIAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIL- A0A0P6VVT1/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSVSEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATAAAGTL-- A0A160TXW7/328-431 SEVSDQFQARLLWMSE-TPL-LPGRRYLLKMGAKT-VTATVNAPKYGIDVN-----TLND----VP--AKT---------LELNQIGVTTLSLDQAIPYDPYDV-----NRE-----MGGFILIDRMTNDTVGLGLV-- A0A0Q4CR99/333-436 PQVADQFRATIVWMDG-EPL-LPGRAYWLKTGAGT-VSATVQPPRHAIDVN-----TLAE----LS--VKT---------LSLNDIGVADVFTDRSIAFEPYAD-----NRD-----LGGFILIDKITNATVAAGMI-- A0A0L1KFR5/332-439 PEVADQFETTIVWMDD-EPL-VVGRAYWLKLGAQM-VSVTVAEPKYEIDVNNPSG-SGSH----LA--SQT---------LHLNQIGVCEITTDRRIVFDSYAG-----NRA-----LGGFILIDKITHRTVGAGML-- D3D0H9/328-431 PGIADQFECHLVWMSE-EPM-LPGRPYLLKIGSRT-ASVTIAQPKYKVNVN-----TLER----TA--ART---------LELNEIGVANINLDRQIPFDPYTA-----NRD-----TGGFILVDRFTRATVAAGLL-- A0A0Q8F7Y0/334-437 PEVADQFAAHVLWMSD-APL-LPGRPYWLKIGART-VSATVTEIKHRIDVN-----TQEH----LA--AKR---------LELNEVGYCNLSLDEPIAFEAYAR-----NRA-----LGGFILIDRYDNTTAGAGTL-- X6F047/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRAPIAFDPFGE-----NRT-----TGAFILIDRISNATVGAGMIVH A0A0D6SBT7/329-434 PLVSDAFDAMLVWMSE-EPM-LPGKKYDIKRATSY-VPGSIPSITHKVDVN-----TLEQ----AA--ASS---------LQLNEIARVKVSLDAPIALDGYEQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A0G9MZI7/341-444 PEVADQFEATIVWLAD-DDL-SVGRGYWLKLGTQT-VSATVQQPKYRVDVN-----TMDQ----LA--AKT---------LGLNDIGVAEVFADKPLVFEPYDK-----SRT-----LGGFILVDKITNATVAAGML-- H0G9P5/327-430 PFVADQFQAHVIWFDA-NPM-MPGRSYILRTETDS-VSATVTTLKHQVNIN-----SFIR----EA--AKS---------LQMNEVGVCNISTQAPIAFDAYKD-----NRA-----TGNFIIVDRVTNATVGAGLI-- A0A0E0UNR7/327-430 PFVADQFQAHVIWFDA-NPM-MPGRSYILRTETDS-VSATVTTLKHQVNIN-----SFIR----EA--AKS---------LQMNEVGVCNISTQAPIAFDAYKD-----NRA-----TGNFIIVDRVTNATVGAGLI-- A0A0Q7TT59/318-421 PQVADQFAAHIVWMSP-EAL-LPGRSYLMKVNHNS-VLATVTDLKHRVDIQ-----TLAR----LA--AKT---------LSLNEVGVCNLSVARPIAVDAYAD-----NRD-----TGGFVLIDRYSNETVAAGMI-- A0A0Q4RBD1/336-439 PEASDQFEATVVWMAD-EAM-LPGRSYWLKLATQT-VTATIQQPKYAINVN-----TMER----LA--AKT---------LELNAIGVANLSTDRPLVFEPYAD-----NRQ-----LGGFILVDKITNATVAAGML-- A0A0F5FK38/327-430 PEFSNQFQARLIWMND-EPA-FPGRSYLLKIGAQL-VPATITDLKYRTNVN-----TLEQ----SA--ATK---------IDLNEVATVALATDKPIAFDPYAA-----NPL-----TGGFIMIDRLTNATLAAGTI-- B2IB29/338-442 PEVSDQFAAHLIWMSD-EKL-LPGRSYLLKAGTRS-VPVTVTELKYRLDVN-----NLGE----LA--AKT---------LSLNEVGFCNLATTTPLAFDPYQA-----NHT-----TGAFILIDRTTHATVAAGLIA- A0A0N1B0N7/331-435 PQAADQFETTLVWLND-EAL-LVGRSYWLKLGTQM-VSATVQEPKYTINVN-----TMEK----MA--AKT---------LDLNAIGVAEIATDKPVVFEPYSE-----ARA-----LGGFILIDKITNATVAAGMIN- T0GLB9/338-441 -QAADQFEATIVWMDE-NEL-LPGRPYWLKIGTQT-VTATVQQPKYQVNVN-----TLEH----LA--AKT---------LDLNAIGVANLSTDRSIPFEPYAQ-----NRD-----LGGFILIDKMTNATVAAGMIH- A0A0R0C4I6/325-428 PEVADQFAAHVLWMDD-AAL-LPGRPYWLQIGSRT-VSASISEIKHRVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPVAFAPYAQ-----NRA-----LGGFILIDRQTNATVAAGTL-- S2F696/328-431 ASVADQFQVSLIWMHE-QAM-LAGRPYLMKIGGKT-LSVTLAVPKYKINVN-----TMEH----LA--AKE---------LALNEIGVCNLFTSQPIAFDAYKN-----NRE-----TGSFILIDRLTNATVGAGLI-- A0A083ULK0/328-431 ASVADQFQVSLIWMHE-QAM-LAGRPYLMKIGGKT-LSVTLAVPKYKINVN-----TMEH----LA--AKE---------LALNEIGVCNLFTSQPIAFDAYKN-----NRE-----TGSFILIDRLTNATVGAGLI-- A0A096DQF0/328-431 SDVADQFQVTLIWMHE-QPM-LGGRPYLMKIGGKT-IPVTFAAPKYKINVN-----TLEH----LA--AKE---------LALNEIGVCNLSSSQPIAFDAYKD-----NRE-----TGSFILIDRLSNATVGAGLI-- A0A0E3YN89/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- R4MFQ8/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----IGSFILIDPDTNGTVAAGMVL- A0A0U0QM72/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----IGSFILIDPDTNGTVAAGMVL- S2KPR6/327-430 P-LSNVFEADIVWMHD-TAL-ETGKLYDFKLATRD-AAGQISAIDYQIDVN-----TLEH----RV--ADH---------LDLNAIGRCRVELTTSVPLDDYRR-----SPG-----TGSFIVIDRLTNVTVGAGMVH- A0A0K1JAB8/329-432 GS-ADQFETTLVWMHD-EPL-LPGRPYLLKIGAKT-VTATVTHIKYQVNVN-----TLEH----VA--ART---------LELNAIGVCNLSLDRPIAFDPYAE-----NRD-----TGGFILIDRLSNNTVGAGLIH- A0A0Q7TSL3/336-438 -AVAGQFEATVVWMDD-EAL-PPGRSYLLKIGTRM-VGASVTEIKHRVNVN-----TLEH----LA--AKK---------LELNEIGLVNLSLDQAIPFEPYAK-----NRD-----LGGFILIDRISNRTVGAGLL-- A0A0Q6PK59/330-433 PDYSNQFQARMVWMSD-EQA-IPGRSYLLKLGAQQ-VPASITALKFRTNVN-----TLEQ----SA--ATT---------LELNEVGTVTIATDKPIAFDSYSD-----NPL-----SGSFILIDRISNATLGAGVI-- A0A022FRT1/341-444 PAVADQFEATLVWMNE-DAM-LPGRPYLLKLGTRT-VGVTVAQPKYKVNVN-----TLEH----LA--ART---------LELNEIGVCNLHLDQPVAFDPYAR-----NRE-----LGGFIIIDRLSNNTVGAGML-- Q1GSY3/332-435 PEAADRFEATLVWMAD-EAM-IPGRAYWLKLATQS-VSATVQTPKYEINVN-----TLDH----LA--AKT---------LELNGIGVVELSTDKPIVFEAYGD-----NRT-----LGGFILIDKLTNATVAAGML-- A0A0K1M5Q8/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0K2YKR7/327-431 PGVADQFEAQLVWMGE-HDM-LPERPYVCQIGTMT-VQARITKPKYKINVN-----TLEQ----TA--TNT---------LALNEIGVCNISFDRPVPFDAYVD-----NRD-----TGGFILIDRLTNTTVGAGMIA- A0A0F5PHB2/338-442 PQVADQFETTIVWMSD-EAM-LPGRPYWLKLGAQT-VTASVQAPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLSTDRPLVFESYAD-----NRT-----LGGFILIDKITNATVAAGMIH- A0A0N9MZS2/328-434 PHVGRELDAMVCWFSETSQL-APGSTYRMLCGTRE-TRVRVDGLNYRLDVN-----TLHR---DEG--AKG---------LALNEIGRLSLLAQKPVMFDEYRR-----NRA-----TGSFILIDEATNATVAAGMIS- A0A024KHR7/330-433 PEYSNQFQARVVWMQD-EPA-FHGRSYLIKVGSQV-VPGTITGIKYRTNVN-----TLER----TA--ATK---------LELNEVGTVTIATDKPIAFDPYAE-----NGQ-----TGAFILIDRLSNATLGAGVI-- A0A1L5NQR4/324-427 PFVADQFQAHVIWFGA-NPM-LPGRSYILRTETDS-VSATVTALKHQVNIN-----SFAR----EA--AKS---------LQMNEVGVCNISTQAPIAFDAYKD-----NRS-----TGNFIFVDRATNATVGAGMI-- A0A127FAU0/327-431 PGMTDQFQATIIWMHD-DPM-LPGRPYLIKIGTRT-VTGSITAPKYKVHVN-----TLEH----LA--TRQ---------LKLNEIGVCNLSLDQQVVFDPYVE-----NRE-----MGAFILIDKLSNDTVGAGLVN- A0A1A0QNG8/325-431 PRVAQEFDATVCWMADQSSL-EPGRDYVIKHTTRT-TRVKVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTHVPLLLDEYSR-----NAT-----TGSFILIDPVTNGTVAAGMVL- A0A0M2ZBK3/325-431 PRVAQEFDATVCWMADQSSL-EPGRDYVIKHTTRT-TRVKVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTHVPLLLDEYSR-----NAT-----TGSFILIDPVTNGTVAAGMVL- W9BR22/332-435 PEAADQFEATLVWLND-DPM-VVGRAYWLKLGSQT-VSVTVQQPKYAVNVN-----SMEH----LA--VKT---------LDLNAIGVAEIITDRPIVFEPYAD-----NRA-----LGGFILIDKLSNATVAAGML-- A0A178XTT3/324-427 PYVADQFQAHVIWLDE-SPM-FPGRSYILRTETDS-VNATVTTLKHQVNIN-----SLVR----EA--AKS---------LQMNEIGVCNISTQSPIAFDAYKD-----NRA-----TGNFIFVDRVTNATVGAGMI-- A8L8D5/328-431 PAVADQFECHLVWMAE-EPM-LPGRPYLLKIGSRT-VGATVTQPKYKVNVN-----TLEH----TA--ART---------LDLNEIGVCNINLDRQIPFDPYTA-----NRD-----LGGFILIDRFTQATVAAGLL-- A0A0Q7WL83/330-434 PEVADQLAANIVWFDE-QAL-LPGRSYILKTETDQ-VSAVVTDLKYRLDVN-----DFSQ----EA--AKS---------LAMNEVGVCNISLRAPIAFDPFAE-----NRS-----TGAFILIDRITNTTVGAGMIT- V4Q005/330-433 PEVSDQFQARLIWMSE-QDL-IPGRTVLVKIGART-VSASVTEIKYQTDVN-----TFAH----IA--AKT---------LKLNEVAVVNFALQETVAFDPYAE-----NHD-----MGAFIVIDRVSNLTLGAGMV-- A0A0W1ESI9/332-435 PEVADRFEATLVWMAD-EAM-IPGRAYWLKLATQS-VSATVAAPKYEINVN-----TLDH----LA--AKT---------LDLNGIGVVEVATDKPLVFEAYGD-----NRT-----LGGFILIDKLTNATVAAGML-- A0A176U0J5/328-431 SDVADQFQVTLIWMHE-QPM-LGGRPYLMKIGGKT-IPVTFAAPKYKINVN-----TLEH----LA--AKE---------LALNEIGVCNLSSSQPIAFDAYKD-----NRE-----TGSFILIDRLSNATVGAGLI-- A0A0Q4I044/330-433 PEAADQFLATIVWMSD-TPL-VPGRNYQLKLGTQV-VGATVQPPRHVVDVN-----TQAE----LS--AST---------LALNDIGVAEVYADRAIVFEPYAD-----GAD-----LGGFILIDRATNATVAAGMI-- F8E8F3/341-445 PDVSDSFYAMVIWMNE-NPL-VKNRQYDIKRASTY-TSGYVEEILYKVDVN-----TLQK----KD--ADS---------LKLNEIGYCKINLTSQIAYDKYVD-----HKQ-----TGSFIFIDRLTNVTSGAGLIK- R0EPJ4/328-431 -PVANQFEATVVWMDD-EPL-PPGRAYLLKLGART-VGASVTDIKHRVNVN-----TLEH----TA--AKR---------LELNEIGICNLSLDQAIPFEPYAE-----NRQ-----LGGFILIDRLSNRTVGAGMIN- A0A0U3AJ82/355-458 PEVADQFAGHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0M1KR51/355-458 PEVADQFAGHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- G8QBT3/329-434 PPVTDSFEAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASIVNKVDVN-----TLEE----GP--ASA---------LQLNEIGQVKIALDAPIALDGYES-----NRT-----TGAFIVIDRLTNGTVGAGMIVA A0A0T2Q9B0/338-442 PQAADQFEATLVWMSD-DAL-IPGRGYWLKLATQT-VSASVAHPKYEIDVN-----SLEH----LA--AKS---------LSLNSIGVAEVTTDKPIVFEPYAT-----SRQ-----LGGFILVDKLTNATVAAGMIH- A0A0Q4EGH7/337-446 PETADQFETTIVWMDD-EPL-IVGRSYWLKLGTQM-VSATVREPKYQVNVN-----TMER----LA--TKT---------LELNAIGVAEITTDRAIVFEAYAQDNAAPNKV-----LGGFILIDKITNATVAAGMVH- A0A077M9I4/336-439 -EAADHFECHLVWMDD-SEM-LPGRPYWIKIGTTT-VTAQFERPKYAVNVN-----TMEH----VA--AKT---------LGLNAIGVLTFSTDKPVVFEPYAD-----SHD-----LGGFIVVDKMTNATVAAGMIH- W6LYG5/326-429 PEVADQFEARLLWMAE-HPL-LPGRSYTAKLHCKE-VEAIVTEIKYREDVN-----SGAQ----LA--AKS---------LGLNEIAVVNLSLARTVAFDPYAK-----NRT-----LGGFILIDKLTQETVGAGMI-- A0A0G9IBI2/331-434 PEVADQFAAHVLWMDD-AAL-LPGRPYWLKIGTRT-VSASVSEIKHRIDVN-----TQER----LA--AKR---------LELNEVGYCNLSLDESIVFEPYAR-----NRA-----LGGFILIDRQSNATVAAGTL-- A0A0A6Q856/329-431 P-VADQFEANIVWMSD-EPM-LPGRPYLMKLGART-VGLTVSAPKYKVNVN-----TMEH----LA--AKT---------LELNEIGVCNLHLDQAVAFDPYEA-----NRD-----TGGFVVIDRLTNATVGAGML-- M5EJB1/330-434 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAH----EA--AKS---------LEMNEVGICNLSTRAPIAFDTFGE-----NRT-----TGAFILIDRITNATVGAGMLL- P72339/330-434 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRSPIAFDTFAE-----NRT-----TGAFILIDRITNATVGAGMIL- A0A0J6FSJ0/359-462 PEVADQFAAHVLWMDD-AAL-LPGRPYWLKIGART-VAASVTEIKHRIDVN-----TQER----LA--AKR---------LELNEVGYCNLALDQPIAFAPYTQ-----DRA-----LGGFILIDRHSNATVAAGTL-- I0HTX9/328-431 AEVADQFECTIVWMAD-EPM-LPGRPYLLKLGTRT-VSASVTEPKYKVNVN-----TMER----LA--AKQ---------LELNEIGVCNIALDRAVPFDAYQA-----NRD-----TGGFILIDRLTNNTVGAGML-- A0A0Q6P9V1/330-434 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRTPTAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIL- A0A161HFZ8/328-431 AETADQFETTLVWMHD-QPL-LPGRPYLLKLGTQT-VSATVSQVKYQVNVN-----TLEH----TA--AKQ---------LDLNGIGVCTLSLSRPVAFDPYKE-----NAD-----TGGYILIDRMSNNTVGAGML-- A0A0K2YEY7/316-422 PQVGQELDAMVCWLTEQSEL-SPDANYTLLHTTRS-TKARVQRLDYRLDVN-----TLHR---DES--AQS---------LRLNEIGRVQLRTQQPLLFDPYRR-----NRV-----TGSFILVDDATGNTVAAGMIT- A0A0F5QFM5/327-430 PEYSNQFQARVVWMSD-EPA-FPGRSYLLKVGSQV-IPATITDLKFKTNVN-----TLEQ----TA--ATK---------IDLNEVATVTIATDKPIVFDPYTA-----NAA-----TGGFILVDRLTNATLGAGTI-- A0A0Q5R4M6/319-425 PWVGRDIDAMVCWFSDDSTL-RPGNRYVVSATTAS-VRAEITTLNYRLDIN-----TLHR---DET--AEA---------LSVNQIGRVTLHAQQPLMFDAYRR-----NRD-----TGSFILVDEATNTTVAAGMIS- A0A097ECZ5/330-434 PEAANQFEATLVWLAD-TAL-VPGRGYWLKLGTRT-VGATVQPPAHVVDVN-----TQAH----LS--AKT---------LALNDIGVAEVFTDAPLVFQPYAD-----SHE-----LGGFILIDRETNATVAAGMIH- A0A166QW69/328-431 PGIADQFEAHIVWMGE-EPM-LPGRPYLLKIGART-VGVTIAQPKYKVNVN-----TLEH----TA--ART---------LDLNEIGVANINLDRQIPFDPYAA-----NRD-----TGGFIIIDRFTRGTVAAGLL-- A0A087LNN6/330-433 PEYSNQFQARVVWMQD-EPA-FHGRSYLIKVGSQV-VPGTITGIKYRTNVN-----TLER----TA--ATK---------LELNEVGTVTIATDKPIAFDPYAE-----NGQ-----TGAFILIDRLSNATLGAGVI-- V7GZS6/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- A0A0K2DAE1/324-428 PAVASRLAARLVWMSE-DTL-APGRSYLMKLGTRT-VPATVRAIRNAIDVE-----TFDE----RE--AGG---------LALNGIGVVEIDTVTPVAFDPYDE-----NRA-----TGAFVLIDRFTNATVAAGMAV- B3E8Y0/344-448 PAFADQLEACIVWMCE-NAL-MAGRKYLLKSGCST-VPAAVSALKYKINVN-----SLQH----EP--AKR---------LELNEIGVCNLVLDRPITFDPYCE-----NHT-----TGSFILIDRISNATVGAGMIN- A5VBM2/339-442 PQAADQFEATIVWMSD-EEM-LPGRPYWLKLGAQT-VSASIQAPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLSTDRNLVFESYED-----SRS-----LGGFILIDKITNATVAAGML-- A0A0E2N9N8/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDSFAD-----NRD-----TGAFILIDRITNATVGAGMIL- A0A0Q9ERF4/322-425 AQVADQFAAHLLWMGE-SPL-LPGRPYWLKIGTRT-VSATVTEIKHKIDVN-----TQAQ----LA--AKH---------LELNEVAYCNLNLDQPVAFEAYGD-----NRA-----LGGFILIDREDNATVAAGTL-- A0A132SF08/309-415 PRLTQDFDATVCWMADAAAL-EPGRDYLIKHTTRT-TRVKVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRSQVPLLLDEYSR-----NSA-----TGSFILIDPNTNGTVAAGMVL- A0A0G9MMM2/332-435 PEAADQFEATIVWMDD-EDM-IPGRAYWLQLGTQT-VAATVQAPKYEINVN-----TMDQ----LA--AKT---------LSLNSIGVAEVTTDRSIVFEPYTE-----NRT-----LGGFVLIDKLTNRTVAAGML-- A0A0A0ER80/332-435 PEVADQFAAHLLWLDG-QAL-LPGRPYWLKIGVRT-VGATVTEIKYQVDVN-----TQKH----LA--AKS---------IGLNEVAFCNLYLNEPIAFEPYAD-----SHK-----LGAFILIDRQSNATVAAGTL-- F9ZDQ6/328-431 PGVADQFEATIVWMVD-EPM-LPGRPYLMKIGTKT-VTANVSVLKYKVNVN-----TLEH----IA--VTK---------LELNEIGICNLSTDQLIAFDPYKE-----DHD-----IGGFILIDRLTNNTVGAGML-- A0A0E3CBG2/328-431 SDVADQFQVTLIWMHE-QPM-LGGRPYLMKIGGKT-IPVTFAAPKYKINVN-----TLEH----LA--AKE---------LALNEIGVCNLSSSQPIAFDAYKD-----NRE-----TGSFILIDRLSNATVGAGLI-- A0A0E0UKN9/327-430 PFVADQFQAHVIWFDA-NPM-MPGRSYILRTETDS-VSATVTTLKHQVNIN-----SFIR----EA--AKS---------LQMNEVGVCNISTQAPIAFDAYKD-----NRA-----TGNFIIVDRVTNATVGAGLI-- A0A069IT69/327-430 PEAADQFEATVVWMDD-EPL-LPGRPYLLKIGAKL-VGATITEPKHKVNVN-----TLEQ----QP--AKR---------LELNEIGVCNLSLDAPVAFAPYAE-----NKD-----LGGFILIDRISNRTVGAGLL-- A0A1B1VQJ8/335-439 AETADQFESTIIWMDE-AAM-LPGRPYIMKLGTQQ-AAVTITEPKYEVNVN-----TMER----LA--AKT---------LGLNSIGVCNISTDRQITFAPFGD-----NKT-----LGSFILIDRATNATVGAGLIN- E3EY13/335-439 AETADQFESTIIWMDE-AAM-LPGRPYIMKLGTQQ-AAVTITEPKYEVNVN-----TMER----LA--AKT---------LGLNSIGVCNISTDRQITFAPFGD-----NKT-----LGSFILIDRATNATVGAGLIN- F9Y4V4/335-439 AETADQFESTIIWMDE-AAM-LPGRPYIMKLGTQQ-AAVTITEPKYEVNVN-----TMER----LA--AKT---------LGLNSIGVCNISTDRQITFAPFGD-----NKT-----LGSFILIDRATNATVGAGLIN- A0A0F7PV09/328-431 PLVSDQFQAHVIWFDR-HAL-LPGRSYILRSETMS-TPASVTTLKHKIDVN-----SLVL----EA--ATH---------LNRNEIGVCNISTQTPIAFDAYRD-----NRA-----TGNFILIDRMTNATVGAGMI-- A0A0F2QRC2/328-431 AEVSDQFQVRILWMSE-APL-LPGRRYLLKIGAKT-VTATINAPKYGIDVN-----TLSD----MP--AKT---------LELNQIGVTTISIDQPIAFDPYDV-----NRN-----MGGFILIDRMSNDTVGLGLI-- A0A023NMP0/321-423 P-VADQFAAHVLWMGD-EPL-LPNRAYWLKIGTHT-VNARITTIKHKVDVN-----TQAE----LA--ARR---------LELNEVGYCNIDLDHAIAFESYAD-----NRT-----LGGFVLIDRQTNATVGCGML-- A0A199Y5L9/327-431 PDFADQFEARIIWMHE-DHL-LPGRPYLIKMGAQV-ANAQISDLKYKVNVN-----TLEH----VA--GKT---------LELNEVGIANISADKALAFDPYDQ-----NRH-----SGRFIIIDRFTNATVGAGMVN- A0A0R3CMG7/320-424 PNVADQFAAHVIWMDK-EPL-APGRNYVLRIGSQT-ISGSITAIRHRIDVN-----TCEH----LA--SRM---------VSLNEIAFCDVATTMPAVFDPYDV-----NRK-----TGSFIFIDRYTNRTVGAGMIA- A0A0M9UBD1/326-430 PQKSNRLDAIICWMDE-EPL-DPRRTYWLQHTTRT-VKALISNVNYRIDVD-----TMHR----MD--AET---------LHLNDIGRVQLTTTQPLFFDPYDK-----NRA-----TGSFILIDPFTNRTVAGGMIR- F8M6L7/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNEPGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A0K0X6M6/309-415 PRVAQDFDATVCWMADESSL-EPGREYLIKHTTRT-TRAKVVDLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTRTPLLLDEYSR-----NPA-----TGSFILIDPHTNGTVGAGMVL- A0A062UCG2/328-431 AEVSDQFQVRVLWMSD-TPL-LPGRRYLLKIGAKT-VTATINAPKYGIDIN-----TLND----MP--AKT---------LELNQIGVTTLSLDQAIAFDPYDE-----NRE-----MGGFILIDRQTNDTVGLGMI-- T0IIP5/336-439 PQAADQFEATIVWMSD-EEM-LPGRPYWLKIGTQT-VTATVQQPKYQVNVN-----TMEH----LA--AKT---------LDLNAIGLANLSTDKQIVFEPYKE-----NRT-----LGGFILIDKISNATVAAGML-- A0A059DLB5/328-431 TEVSDQFQVRILWMNE-SPL-LPGRRYLLKVGAKT-VTATVNAPKYGIDVN-----TLSD----VP--AKT---------LELNQIGVTTISLDQAITFDPYDA-----NRN-----LGGFILIDRMSNDTVGLGLI-- Q842M2/327-431 PAVADQFEACIVWMGE-APM-LPERPFLCQIGTVT-VTGRITKPKHKINVN-----TLEK----TA--TTT---------LALNEIGVCNLSFDRPVPFDPYVG-----NRD-----TGSFILIDRLTNGTVGAGMIT- A6UMC6/327-430 PFVADQFQAHVIWFDA-SPM-MPGRSYILRTETDS-VSATVTALKHQVNIN-----SFVR----EA--AKS---------LQMNEVGVCNISTQTPIAFDAYTD-----NRA-----TGNFIIVDRVTNATVGAGLI-- A0A160TLQ1/338-442 PEVADQFKATIVWMTE-DQL-LPGRTYWMKIGTQT-VGATVQPPDYAVDVN-----TLAE----LS--VKT---------LGLNDIGVAQLYTDRPIVFEAFSD-----GSD-----LGGFILIDRATNATVAAGMLT- A4XQP3/329-434 PQVTDSFEAMLVWMGE-EPM-LPGKKYDIKRATSY-VPGSIPSIVHRVDVN-----TLEQ----GA--ASE---------LKLNEIGRVKVALDAPIALDGYEY-----NRT-----TGAFIVIDRLTNGTVGAGMIIA U1UTP8/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLAE----GP--ASS---------LQLNEIGRVKVSLDAAIALDGYDS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA W0AEY2/337-440 PQAADQFEATIVWMAD-EEM-LPGRPYWLKLGTQT-VTANIQAPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLSTDRNLVFEPYAD-----NRG-----LGGFILIDKITNATVAAGML-- A0A0N9UE70/336-444 PEAADQFEATLVWMAD-EAM-IPGRAYWLKLATQS-VSATVQAPKYEINVN-----TLDH----LA--AKT---------LDLNGIGVVELSTDKPITFEAYGD-----NRTSPNKVLGGFILIDKLTNATVAAGML-- A0A0M1KQ37/355-458 PEVADQFAGHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALHEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A1B1ALR8/328-431 PEASDQFETTLIWMSE-EPA-LPGRPYWLKIGART-VSATITEIKHKINVN-----TLEH----LA--AKV---------LEPNEIAVCNISLDQAVAFDAYEQ-----NSD-----TGGFILIDRTSNATAGAGLI-- M4ND41/322-424 P-VADQFACHLLWLGD-NAL-LPNRTYWLKLGTRT-VNARVMSIKHKVDVN-----SQAK----LA--ARQ---------LLLNEVGYCTLGLDDEVAFEAYAD-----NRT-----LGGFILIDRQSNATVACGML-- A0A0B4C8Z6/327-430 PEAADQFEATVVWMDD-EPL-LPGRPYLLKIGAKL-VGATITEPKHKVNVN-----TLEQ----QP--AKR---------LELNEIGVCNLSLDAPVAFASYAE-----NKD-----LGGFILIDRISNRTVGAGLL-- A0A087FE05/335-438 -EITDQFEATLVWMHE-EPG-LIGRAYEIKLANQW-ASVSLTTLKHRVDVN-----TQAH----ES--CRQ---------LQLNDIAVANLALSKPLVFDTYAQ-----SHT-----LGGFILVDKYSHATVAAGMIR- A0A0F4U184/328-431 PAVADQFEATLVWMDE-QPL-LPGRPYLMKIGCRT-VGMSCANLKHRVDVN-----SLEH----LA--AKT---------LELNGIGVCNLHLDRPIAFDAYAD-----NRD-----TGGFIVIDRLSNRTVGAGML-- A0A0P6W9T8/331-435 PEVADQFAAHLIWMHD-EPL-FPGRSYLLKCGAKT-VTASVTDLKHKIDVN-----TFEH----LA--AKE---------LRLNEVTFCNLSLSEPIAFDSYDS-----NRE-----TGAFILIDRFTNATVGAGMIS- A0A0Q7D095/327-430 PPTADQFEATIVWMDD-EAM-LPGRPYLLKVGTRV-VSAQITEPKYKVNVN-----TLEH----LA--AKR---------LELNEIGVCNLSLDAPIAFDSYAE-----NHD-----LGGFILIDRISNRTVGAGML-- A0A0Q8ULY6/327-430 PPTADQFEATIVWMDD-EAM-LPGRPYLLKVGTRV-VSAQITEPKYKVNVN-----TLEH----LA--AKR---------LELNEIGVCNLSLDAPIAFDSYAE-----NHD-----LGGFILIDRISNRTVGAGML-- A0A0Q7EG89/327-430 PPTADQFEATIVWMDD-EAM-LPGRPYLLKVGTRV-VSAQITEPKYKVNVN-----TLEH----LA--AKR---------LELNEIGVCNLSLDAPIAFDSYAE-----NHD-----LGGFILIDRISNRTVGAGML-- A0A0Q9AMV2/309-414 PDVTKEFDATVCWMADGAAL-EPGRDYIIKHTTRT-TRARVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVTLRTQVPLLLDEYSR-----NPA-----TGSFILIDPDNNGTVAAGMV-- A0A1L5BUP9/339-442 PQSADQFEATIVWMAD-EDM-LPGRPYWLKIGTQT-VTATVQQPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLSTDRQIVFEPYAQ-----NRA-----LGGFILIDKISNATVAAGML-- A0A0P6WNY9/338-442 PQVADQFEATIVWMND-EAM-IPGRGYWLKLATQT-VSATVAEPKFEINVN-----TMEH----LA--AKT---------LQLNSIGVAEVTTDRPIVFERYSD-----SRT-----LGGFILIDKITNATVAAGMIH- V4P0L6/327-430 PEVCEQFQASLIWMNE-DEL-LPGRPYLLKIGAKT-VSATITEIRYKTDVN-----SFEK----LA--AKT---------LKLNEVATVLIATQSPIAFDPYAD-----NKA-----TGAFILIDRISNLTLGAGMV-- V4PQJ3/329-434 PRIADSFDAMLVWMGE-EPM-LPGKKYDIKRATSY-VPGSIASIAHKVDVN-----TLEE----GA--ASS---------LQLNEIGKVKVSLDAPIALDGYAQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A059E041/328-431 AEVSDQFQARILWMSE-TPL-LPGRRYLLKIGAKT-VTATVNAPKYGIDVN-----TLND----VP--AKT---------LDLNQIGVTTLSLDQAIPYDPYDV-----NRE-----MGGFILIDRMSNDTVGLGLI-- A0A0P0NZ13/331-433 -PVAGQFEATVVWLDE-DPL-PPGRAYLLKIGTRT-VGASVTEIKHRVNVN-----TLER----TA--AKR---------LALNEIGLVNLSLDQPVPFETYAD-----NRE-----LGGFILIDRISNRTVGAGML-- A0A0M2L5C6/328-431 SDVADQFQVTLIWMHE-QPM-LGGRPYLMKIGGKT-IPVTFAAPKYKINVN-----TLEH----LA--AKE---------LALNEIGVCNLSSSQPIAFDSYKD-----NRE-----TGSFILIDRLSNATVGAGLI-- A0A0Q6KVL3/330-433 TAIADQFVATVVWLAD-QPM-VQGRGYWLKLGTQM-VNATVQPPRHVIDVN-----TQAE----LS--ATT---------LELNDIGVAEVYCDRQIVFEPYAN-----GVD-----LGGFILIDRATNATVAAGMI-- A0A0Q4LGH7/336-439 PEAADQFEATIVWMAD-DAM-LPGRPYWLKLATQT-VTATVQQPKYQINVN-----TMER----LA--AKT---------LELNAIGVGNISTDRPLVFEPYAD-----NRQ-----LGGFILVDKITNTTVAAGML-- F6F3G4/336-439 PQSADQFEATIVWMAD-EEM-LPGRPYWLKIGTQT-VTATIQQPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLSTDKQVVFEPYEA-----NRT-----LGGFILIDKITNATVAAGML-- A0A158S572/338-442 PQTADQFESTIVWMAD-EAL-VPGRAYWLKLATQT-VSVTVQEPKYTVNVN-----TMEH----MA--AKT---------LELNEIGVAEITTDKQVVFEPYAD-----NRA-----LGGFILVDKMTNATVAAGMIN- D3DD73/330-433 AEVADQFECHLVWMAG-EPM-LPGRPYLLKLGTRT-VTATVTQPKYKVNVN-----TLEQ----SA--TKT---------LELNEIGVANLNLDRPVPFDPYTA-----NRS-----TGGFILIDRFTHATVAAGLL-- A0A117V1Z5/338-441 PQVADQFETTLVWLND-EAL-IPGRAYWLKLATQT-VSATVQPPKYVVNVN-----TMEH----MA--AKT---------LDLNAIGVVELTTDKPVVFEAYAD-----NRT-----LGGFILIDKITNATVAAGML-- S4Z7V2/309-415 PRVAQEFDATVCWMADGAAL-EPGRDYVIKHTTRT-THAKVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- H8IL40/309-415 PRVAQEFDATVCWMADGAAL-EPGRDYVIKHTTRT-THAKVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- J9WBF5/309-415 PRVAQEFDATVCWMADGAAL-EPGRDYVIKHTTRT-THAKVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- I2AAF6/309-415 PRVAQEFDATVCWMADGAAL-EPGRDYVIKHTTRT-THAKVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- X8CQC8/309-415 PRVAQEFDATVCWMADGAAL-EPGRDYVIKHTTRT-THAKVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0A0P7K8I3/309-415 PRVAQEFDATVCWMADGAAL-EPGRDYVIKHTTRT-THAKVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0A081HZX5/309-415 PRVAQEFDATVCWMADGAAL-EPGRDYVIKHTTRT-THAKVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0A0D8CIE0/327-431 PDFADQFEARIIWMHE-DHL-LPGRPYLIKMGAQL-ANAQISALKYKVNVN-----TLEH----VA--GKT---------LELNEVGIANISADKALAFDPYDK-----NRH-----SGRFIIIDRFTNATVGAGMVN- X6DBM8/334-437 PEVSDQFAAHLLWMHD-EPL-IPGRPYLIKLATSV-VGASVTHIKHRLDIN-----NFAK----LA--TKT---------LEKNEVGVINLMTQAPLAFDPFSR-----VHE-----TGAFIVIDRMTNHTVGAGMI-- A0A0H0SWH5/309-415 PRVTQDFDATVCWMADGSSL-EPGREYLVKHTTRT-TRAKVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVSLRTQAPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVGAGMVL- A0A0J8U6I7/309-415 PRVTQDFDATVCWMADGSSL-EPGREYLVKHTTRT-TRAKVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVSLRTQAPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVGAGMVL- A0A024MA65/309-415 PRVTQDFDATVCWMADGSSL-EPGREYLVKHTTRT-TRAKVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVSLRTQAPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVGAGMVL- T0HL53/352-455 PQAADQFEATIVWMAD-EEM-LPGRAYWLKIGTQT-VTATIQQPKYQVNVN-----TMEH----LA--AKT---------LDLNAIGVANLSTDKQIVFEPYAD-----NRT-----LGGFILIDKISNATVAAGML-- X6IRZ9/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- A0A0Q4ITJ8/337-446 PETADQFETTIVWMDD-EPL-IVGRSYWLKLGTQM-VSATVREPKYQVNVN-----TMER----LA--TKT---------LELNAIGVAEITTDRAIVFEAYAQEGAAPNKV-----LGGFILIDKITNATVAAGMVH- A0A0F2S2L9/328-430 -GVTDQFAAHILWMNE-AAL-MPGRHYLFRLGTGQ-VGGQITELKHKVNVN-----TLEH----QA--AKH---------LDLNEVGFCNVALDHALPFDAYAD-----NRE-----MGAFIIVDRLTNATVGAGMI-- A0A147I6Q9/337-440 PQAADQFEATLVWLAD-DAL-RVGRGYWLKLATQT-VSVTVQQPKYVVNVN-----TLEQ----LA--AKT---------LDLNAIGVAELTTDRPIVFEPYDD-----NRT-----LGGFILIDKLTNATVAAGML-- A0A0Q7PYY2/332-435 PQVSDQFAAHVLWMGE-QPL-LPGRPYWLKVGTRT-VSTSVTEIKHKVDVN-----TQDQ----LA--AKH---------LELNEVGYCNLHLDQAIPFEAYAD-----NRE-----LGGFILIDRQSNATVAAGTI-- A0A150ZK25/318-422 PEIAHQFAAHLIWMDQ-EPM-VPGRSYAFRIGTQSITSGSISCIKYKVDVN-----TRKQ----VA--ATT---------LGLNEIGFCNLATVLPATFDPYRI-----NRR-----TGSLIIIDVSTNRTVGAGMI-- A0A0N0JJF0/332-435 PEAADQFEATLVWMAD-EAL-TPGRAYWLKLGTQT-VSATVRAPEYVVNVN-----TMER----LA--AKT---------LELNAIGVAEVVTDKALVFEPYAQ-----SRT-----LGGFILIDKITNATVGAGML-- A0A1L5N777/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- A9M7D8/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- A0A0H3G5J0/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- A0A099CLM4/310-416 PRVTQEFDATVCWMADEVSL-EPGRDYLIKHTTRT-TRVRVTALDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRSQVPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVAAGMIL- R4Z648/333-436 PTIADQFEAHIVWMQE-EEL-LPGRPYLLKLGATT-VGATLSPPKHTVDVN-----TLQH----LA--AKT---------LGLNEIGVCTITTDRAIPFDPYEV-----NRD-----MGGFILIDRLTNATVGAGML-- A0A0Q4IFV0/332-439 PQAADQFEATIVWMAD-EEM-LPGRSYWLKIGTQM-VTATIQQPKYQVNVNDAGG-SGSH----LA--AKT---------LELNAIGVANLSTDKQIVFEPYAT-----NRT-----LGGFILIDKLTNATVAAGML-- I4BMN4/312-418 PRVTQEFDATVCWMADGTSL-EPGRDYLIKHTTRT-TRVKVTALDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRSQVPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVAAGMIL- A0A0D5LSP1/326-429 PALADQFQAKIIWFDS-TAM-IPGRSYILRTEVDS-TSATITALKYQVNVN-----SFSH----EA--AKT---------LVMNEIGICNVSTQSSIVFDAYKD-----NRT-----TGNFILIDRLSNATVAAGMI-- A0A0H3P843/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVL- A0A147EGZ3/337-440 PQVADQFESTIVWLAD-EEM-LPGRSYWLKLGTQM-VTATVQAPKYQVNVN-----TMEH----LA--AKT---------LDLNAIGVANLSTDKQIVFEPYEK-----NRT-----LGGFILIDKITNATVAAGML-- L0J2B0/309-415 PRVAQDFDATVCWMADETAL-EPGRDYIIKHTTRS-TRVKVTALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRTQVPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVAAGMIL- C6XJE6/340-444 PEVADQFEATIVWMAE-EEM-LSGRPYLLKIGSNT-VSATITEPKYEVNVN-----TAGQ----LP--SKT---------LKLNSIGVCNISTSKPVTFESYSD-----NPD-----MGGFILIDRMTNATVAAGMIH- A0A124JTS8/334-437 PQVADQFEASLVWMAD-EPL-VPGRAYWLKLASQT-VSATVSPPKCTINVN-----TMER----LA--AKT---------LDLNAIGLAEITTDRAIVFEPYAE-----SRT-----LGGFILIDKISNATVAAGML-- F7Y9U0/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRAPIAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIVH F8GJ81/328-431 PSVADQFEATIVWMSD-EPM-LPGRPYLMKIGART-VTANISLLKYKVNIN-----TLEH----VA--VTK---------LELNEIGICNLSSDQLIAFDPYKE-----DRD-----TGGFIMIDRLTNNTVGAGML-- A0A0A6D0M6/330-433 PEAADQFLATIVWMSD-TPL-VPGRGYQLKLGTQV-VGATVQPPRHVVDVN-----TQAE----LS--AST---------LALNDIGVAEVYADRAIVFEPYAD-----GAD-----LGGFILIDRATNATVAAGMI-- A0A0P0CS37/327-430 PEAADQFEATVVWMDD-EPL-LPGRPYLLKIGAKL-VGATITEPKHKVNVN-----TLEQ----QP--AKR---------LELNEIGVCNLSLDAPVAFAPYAQ-----NKD-----LGGFILIDRISNRTVGAGLL-- W6UV58/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATTY-VPGSITSIVNRVDVN-----TLEE----GP--ASS---------LNLNEIGRVKISLDAAIALDGYAS-----NRT-----TGSFIVIDRLTNGTVAAGMIIA A0A0Q4BDT8/336-439 PQVADQFETTIVWMAD-EEM-LPGRAYWLKIGTQT-VSATVQQPKYQINVN-----TMEQ----LA--AKT---------LDLNAIGVANLSTDRQIVFEPYAQ-----NRT-----LGGFILIDKITNATVAAGML-- T0IXZ1/337-440 PQAADQFEATIVWMAD-EEM-LPGRPYWLKIGTQT-VTATIQQPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLATDRQIVFEPYAD-----NRT-----LGGFILIDKLTNATVAAGML-- A0A0J7XQ71/332-435 PQVADQFEATIVWMAD-EEM-LPGRSYWLKIGAQT-VTATVQQPKYQVNVN-----TMEQ----LA--AKT---------LELNAIGVANLSTDRQVVFEPYAD-----NRT-----LGGFILIDKITNATVAAGML-- A0A074JE60/335-438 -EVADQFEATIVWMDE-NEL-VPGRAYWLKIGTQT-VSATVHEPKYEVNVN-----TQEH----LA--TKT---------LDLNAIGVANVTTDREIPFAPYAE-----NRD-----LGGFILIDKMTNQTAAAGMIN- X5ZGU4/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- Q8L364/355-458 PEVADQFAGHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- W1NA39/328-431 P-IASTYEADIVWMHE-TAM-ETGKLYDLKLATRD-MAGKITAINYQVDVN-----NLEQ----RH--ADH---------LDLNAIARCQVELTAPVPVDDYRS-----SPG-----TGSFIIIDRLTNITVGAGMIH- A0A075KAV8/320-422 P-VADQFAAHILWMGD-ESL-LPNRAYWLKIGSRT-VNARITSIKHKVDVN-----TQAE----LA--ARR---------LDLNEVGYCNIDLDHAIAFESYKN-----NHA-----LGGFILIDRTTHATVGCGML-- A0A0Q7VZK1/341-444 -AVSGQFEATVVWMDD-EPL-PPGRAYLLKIGTRM-VGASVTEIKHRVNVN-----TLEH----LA--AKK---------LELNEIGLVNLSLDQAIPFEPYAQ-----NRD-----LGGFILIDRISNRTVGAGLIN- A0A0F5PW65/327-430 PEFSNQFQARVVWMSE-EPA-FPGRSYLLKLGTQL-VPATITDLKFRTNVN-----TLEQ----TA--ATK---------VDLNEVATVTIATDKPIAFDAYAS-----NAL-----TGGFILVDRITNATLGAGTI-- N1MFS8/336-439 PQAADQFEATIVWMAD-EEM-LPSRSYWLKIGTQM-VTATVQQPKYQVNVN-----TMEH----LA--AKT---------LDLNAIGVANLSTDKQIVFEAYAQ-----NRT-----LGGFILIDKISNATVAAGML-- A0A099Q685/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- F0C6A0/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- X5XF45/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- D2R0V5/327-431 PRVEQKFEAMIVWMSE-EPL-VPGKGYLVKQTSRI-TPAQIQTVRYQVDVN-----SLHR----KE--SPT---------LKLNEIGRCSLVTATPLCFDSYRR-----NRS-----TGAFIIIDRLTNGTVGAGMIL- A0A0C5V343/334-437 PEVADQFAGHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALHEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- E6TNZ6/312-418 PRIAQDFDATVCWMADEESL-EPGRDYIIKHTTRT-TRVRVTGLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRISLRSQVPLLLDEYSR-----NAA-----TGSFILIDPNTNRTIAAGMVL- V7KM21/312-418 PRIAQDFDATVCWMADNTTL-EPGRDYVIKHTTRT-THARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELSRISLRTQVPLLLDEYTR-----NPS-----TGSFILIDPHTNGTVAAGMVL- A0A0F5NA77/312-418 PRVTQEFDATVCWMADDAAL-EPGRDYVIKHTTRT-TRARVTGLDYRLDVN-----TLHR---DKS--ATA---------LQLNELGRISLRTQVPLLLDEYTR-----NAS-----TGSFILIDPHTNGTVAAGMVL- A0A0E3MNC0/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLAE----GP--ASS---------LQLNEIGRVKVSLDAAIALDGYDS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA A0A0R3LF81/320-425 PEVADQFAARVIWMDQ-EAM-VPGRSYAFRIGTQSIASGSITAIKYKIDVN-----TGTH----LA--ART---------LNLNEIGFCNITIALPATFDPYEA-----NRR-----TGSFIVIDRYSNRTVGAGMIA- E6WQ78/354-457 PAVADQFAAHVLWMSD-APL-LPGRPYWLKIGTRT-VAASVSEIKHRVDVN-----TQEH----LA--AKR---------LELNEVGYCNLSLEEPIPFASYAE-----NRT-----LGGFILIDRQNNDTVAAGTL-- Z9JIQ5/355-458 PEVADQLAAYVLWMSD-TAL-LPGRRYWLKLATSL-VAASVSEIKHRVDVN-----TQEK----LA--ARR---------LRLNEVGYCNLSLDVPVACVPYVH-----NRV-----LGSFILIDRQSNATVGAGTL-- A0A0Q0ZGY4/334-437 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTVSVSEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A074M9W2/335-438 PEASDQFCSTLVWMDE-TAL-KPGRGYWLKIGSQT-VTATVQPPKYEIDVN-----SLDH----LA--AKT---------LELNAIGVAEFATDKPIVFEPYAQ-----NRG-----LGGFILIDKFTNATVGAGMI-- A0A0Q4IKK7/333-436 PQVADQFRTTIVWMDG-EPL-LPGRAYWLKTAAGT-VSATVQAPRHAIDVN-----TLAE----LS--VRT---------LGLNDIGVADVFTDRGIAFEAYGE-----NRE-----LGAFILIDKISNATVAAGMI-- A0A0G3LPV9/344-447 PEVADQFAAHVLWMDD-AAL-LPGRPYWLKLGTRT-VSASVSEIKHRIDVN-----TQER----LA--AKR---------LELNEVGYCNLSLDEAIVFAPYAR-----NRA-----LGGFILIDRQSNATVAAGTL-- A0A0W1DHV4/332-435 PEAADQFEATLVWMAD-EAM-IPGRAYWLKLATQS-VSATVQAPKYEINVN-----TLDH----LA--AKT---------LELNGIGVVEMSTDKPITFEAYGD-----NRT-----LGGFILIDKLTNATVAAGML-- A0A0Q7PRZ9/327-431 PDVADQFEAHVVWMGE-EEM-LPERPYLCQIGTMT-VQARITKPKHKVNVN-----TLEK----TA--TNT---------LALNEIGVCNLSFDRPVPFDPYAA-----NRD-----TGGFILIDRLTNSTVGAGMIA- A0A0A4E701/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VAVSVSDIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQGNATVAAGTL-- A0A0R3C7Q5/320-424 PELADQFAAHLIWMDE-DQL-AVGRNYILRIGSQT-TAGSITAINYRIDVN-----TREH----LA--ART---------LGLNEIGFCNVSTALPAAFDPYGI-----NRR-----TGSFIVIDRYTNRTVAAGMIA- A0A0W1DVF9/332-435 PEAADQFEATLVWMAD-EAM-IAGRAYWLKLATQT-VSATIQQPKYEINVN-----TLDH----LA--AKT---------LDLNGIGVVELSTDKPIVFEAYAD-----NHA-----LGGFILIDKLTNATVAAGML-- A0A0Q6LSV8/330-434 PHVADQFAANVVWFDE-QAL-LPGRSYILRTETDQ-ASATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGVCNISAQSPVAFDSFAD-----NRT-----TGAFILIDRISNATVGAGMIL- E3JC73/330-433 AEVADQFACHLVWMGG-EPM-LPGRPYLLKLGTRT-VNATLAPPKYKVNVN-----TLEQ----TA--AKT---------LELNEIGVANLTLDRPVPFDPYTV-----NRD-----TGGFILIDKYTHATVAAGLL-- A0A0Q8RUQ2/332-435 PEAADQFEATLVWMAD-EAM-IAGRAYWLKLATQS-VSATIQQPKYEINVN-----TLDH----LA--AKT---------LELNGIGVVELSTDKPIVFETYGD-----NRT-----LGGFILIDKLTNATVAAGML-- F6AEX2/329-434 PQVTDSFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLEQ----GA--ASS---------LQLNEIGKVKIALDAPIALDGYEH-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A0E2NUZ4/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- A0A0N0JY73/331-434 PQVADQFEATIVWMDD-EAM-LVGRSYWLKLGTQT-VSVTVQQPKYTVNVN-----TLEH----LA--CKT---------LELNAIGVAEIATDKPIVFEAYAD-----SRT-----LGGFVLVDKLTNRTVAAGML-- A0A0R0A4U9/340-443 PEVADQFAAHLLWLDD-AAL-LPGRPYWLKIGART-VAASVSEIKHRIDVN-----TQEH----LA--AKR---------LALNEVGYCNLALDEPIAFAPYTR-----EPA-----LGAFILIDRQTNATVGAGTL-- A0A0F5LBS3/327-430 PDYSNQFQARLIWMND-EPA-FQGRSYLLKIGAQV-MPATITDIKFRTNVN-----TLEQ----AA--ANK---------LDLNEVGTVTIATDRPLAFDAYTT-----NPL-----TGGFILIDRLSNATLGAGTI-- A0A0R2TYG3/287-391 CEVSDQFEAELVWMDK-EPG-YIGRRYILQLGTSQ-ANASLSDIKFKYDIN-----TFEQ----LP--GRE---------LSLNEIANVQITLDAEIPFEAYKD-----CPG-----LGAFVLIDRYSNATIAAGMIR- A0A061YK58/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0Q5P7B6/330-434 PQAADQMLATIVWMAD-QPL-VPGRGYWLKLGTQM-VNATVQPPRHTVDVN-----TQAE----VA--ATT---------LALNDIGVAEVYTDRPIVFEPYEE-----GAD-----LGGFILIDRASNATVAAGMVQ- A0A0K8X5M7/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A143GNG0/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLEE----GP--ASA---------LQLNEIGRVKVSLDTVIALDGYAS-----NRT-----TGSFIVIDRLTNGTVAAGMIIA G4E4W7/328-431 AKTADQFETTLVWMHD-QPL-LPGRPYLMKLGTQT-VSASVSRIKYQVNVN-----TLEQ----IA--AKQ---------LDLNGIGVCNLSLSRPVAFDPYQT-----NAD-----TGGYILIDRMTHNTVGAGML-- W1KP98/339-442 PQSADQFEATIVWMAD-EDM-LPGRPYWLKIGTQT-VAATVQQPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLSTDRQIVFEPYAQ-----NRA-----LGGFILIDKISNATVAAGML-- T0GY27/339-442 PQSADQFEATIVWMAD-EDM-LPGRPYWLKIGTQT-VAATVQQPKYQVNVN-----TMEH----LA--AKT---------LELNAIGVANLSTDRQIVFEPYAQ-----NRA-----LGGFILIDKISNATVAAGML-- X5UVF6/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X5V5X3/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- X5R0F9/330-434 PQVADQFAANIVWFDE-AAL-LPGRSYILRTETDQ-TSATVTDLKYRVNVN-----DFAR----EA--AKS---------LEMNEVGICNISTRAPIAFDTFAD-----NRD-----TGAFILIDRITNATVGAGMIL- A0A0E2YQ75/334-437 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0R4CQK1/337-440 -EMTDQFEATLIWMQE-EAG-LTGSNYEIKLANQW-ARAAITSIKYGININ-----TLAH----ES--YRQ---------LGINDIAVCDIALHRPLVLDAYEQ-----SPT-----LGGFILVDRFTQATVAAGLIH- D3V9I3/337-440 -EMTDQFEATLIWMQE-EAG-LTGSNYEIKLANQW-ARAAITSIKYGININ-----TLAH----ES--YRQ---------LGINDIAVCDIALHRPLVLDAYEQ-----SPT-----LGGFILVDRFTQATVAAGLIH- A0A0Q8LI17/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRAPIAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIVH A0A1A5QW50/330-435 PQVADQFAANIVWFDE-HAL-LPGRSYILRTETDQ-TSATVTDLKYRINVN-----DFAH----EA--AKS---------LEMNEVGICNISTRAPIAFDPFAE-----NRT-----TGAFILIDRISNATVGAGMIVH A0A091BD25/325-428 PQVADQFAAHLLWMGD-APL-LPGRPYWLKIGART-LAAQVTEIKHKVDVN-----TQAR----LA--AKS---------LELNEVAYCNLSLEQPIPFEAYAD-----NRT-----LGGFILIDRQSNATVGAGTL-- A0A0D1LGB7/309-414 PHTTQEFDATVCWMSDDATL-EPGRDYIIKHTTRT-TRARVTDLDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVTLRTQQPLLLDEYSR-----NAV-----TGSFILIDPDTNGTVAAGMV-- A0A099FJZ7/336-440 CEVADQFEATVVWMAE-QEM-LPGRPYLLKIGTQT-VTATVTEPKYEVNVN-----TLEH----LA--SKT---------LGLNAIGVVNISTDRPIPFEAYAQ-----NPD-----LGGFILIDRMTNATVAAGMIH- A0A127F522/327-430 PQVADQFEATIVWMHD-EPM-LQGRSYLMKIGTRM-VSATVAPVKHKINVN-----TLEQ----TA--AER---------LELNDIGVCELELDRPIPFEPYAT-----DHT-----LGGFILIDRLSNNTMGAGLL-- A0A0P0EU51/313-417 PEVADQFAAHLLWMAE-EPL-IPGRSYLLRAGARW-VPATVTALRHAVNVE-----TLEH----GA--ASV---------LGLNAVGLCNLSTAAPLAFDPYEA-----SRH-----TGSFILVDRFSNRTVGAGMIR- P28604/313-417 PEVADQFAAHLLWMAE-EPL-IPGRSYLLRAGARW-VPATVTALRHAVNVE-----TLEH----GA--ASV---------LGLNAVGLCNLSTAAPLAFDPYEA-----SRH-----TGSFILVDRFSNRTVGAGMIR- A0L6E3/329-432 PEVADQFAAHLLWMSE-AAL-LPGRAYLLRIGTAQ-VTAQVTKIKHKINVN-----TGEQ----MA--AAH---------LELNDVAVCNLALDRAVPFEPYKV-----NRS-----LGGFILVDRMSHATVGCGMV-- A0A0P7Z147/340-444 PQASDQFRATLVWLSE-EEL-KPGRGYWLKLGTQT-VTATVQAPEYEIDVN-----TLDH----LA--AKT---------LELNSIGVADFSTDRPITFEPYET-----SRQ-----LGGFILIDKFTNATVGAGMIR- A0A1H1U5D2/340-444 PQASDQFRATLVWLSE-EEL-KPGRGYWLKLGTQT-VTATVQAPEYEIDVN-----TLDH----LA--AKT---------LELNSIGVADFSTDRPITFEPYET-----SRQ-----LGGFILIDKFTNATVGAGMIR- A0A0Q8FRN1/336-438 -AVAGQFEATVVWMDD-EPL-PPGRSYLLKIGTRT-VGASVTEIKHRVNVN-----TLEH----LA--AKR---------LELNEIGEVNLSLDQAIPFEPYTV-----NRD-----LGGFILIDRISNRTVGAGLL-- A0A0Q7ZS98/327-431 PDVADQFEAHVVWMGE-EEM-LPERPYLCQIGTMT-VQARITKPKHKVNVN-----TLEK----TA--TNT---------LALNEIGVCNLSFDRPVPFDPYAA-----NRD-----TGGFILIDRLTNSTVGAGMIA- S9RQX3/340-443 PAVADQFEATLVWMNE-EAM-LPGRPYLLKLGTRT-VGVTVAQPKYKVNVN-----TLEH----LA--ART---------LELNEIGVCNLHLDQPVVFEAYAR-----NRD-----LGGFIMIDRLTNNTVGAGML-- A0A192A3R3/340-443 PAVADQFEATLVWMNE-EAM-LPGRPYLLKLGTRT-VGVTVAQPKYKVNVN-----TLEH----LA--ART---------LELNEIGVCNLHLDQPVVFEAYAR-----NRD-----LGGFIMIDRLTNNTVGAGML-- A0A0W1ERE6/332-440 PEAADQFEATLVWMAD-EAM-IAGRAYWLKLATQS-VSATIQQPKYEINVN-----TLDH----LA--AKT---------LDLNGIGVVELSTDKPIVFEAYGD-----NRTSPNKVMGGFILIDKLTNATVAAGML-- A0A0Q4KZZ4/336-439 PEAADQFEATIVWMAD-DAM-LPGRPYWLKLATQT-VTATVQQPKYQINVN-----TMER----LA--AKT---------LELNAIGVGNISTDRPLVFEPYAD-----NRQ-----LGGFILVDKITNTTVAAGML-- A0A062TQD5/328-431 TEVSDQFQARILWMSE-SPL-LPGRRYLLKIGSKT-VTATVNAPKYGIDVN-----TLSD----VP--AKT---------LELNQIGVTTLSLDQAIPYDPYDV-----NRE-----MGGFILIDRMTNDTVGLGLI-- A0A0J5ZLF0/333-436 PEVADQFEATLVWMHD-EPL-LPGRPYLVKLGTQT-VGATSATPKYKIDVN-----TREH----LA--ART---------LALNEIGVCNLSFDRPVAFDPYDR-----NRH-----TGGFIVIDRFTNDTVGAGML-- G8B1F6/333-437 PEVADQFAAHLLWMAE-DPL-MPGRSYLLRAGSRW-VPATVTTLRHALNVE-----TLEH----TA--AQT---------LELNAVGLCNLSTAAPLAFDPYTA-----NRD-----TGSFILVDRYTNRTVGAGMIQ- A0A0L7GF70/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0Q4PE77/323-426 PEFSNQFQAKLVWMND-EPA-YQGRSYLLKIGAQT-VPATITDIKFRTNVN-----TLEH----VA--ANK---------LELNEVGTVTIATDRAIAFDAYAD-----NPL-----TGGFILIDRLSNATLSAGTI-- Q39EM6/335-438 PEVADQFEATLVWMHD-APL-LPGRPYLVKLGTQT-VGATCATPKYKIDVN-----TREH----LA--ART---------LALNEIGVCNLSFDRPVAFDPYDR-----NRH-----TGGFIVIDRVTNDTVGAGML-- A0A1K0IAN1/341-444 PAVADQFEATLVWMNE-DAM-LPGRPYLLKLGTRT-VGVTVAQPKYKVNVN-----TLEH----LA--ART---------LELNEIGVCNLHLDQPVAFDPYAR-----NRE-----LGGFIIIDRLSNNTVGAGML-- A0A090FDJ3/330-434 PQVADQFAANIVWFDE-QAL-LPGRSYILRTETDQ-VSATVTELKYRVNVN-----DFAH----EA--AKS---------LDINEVGVCNLSTRAPIAFDPFAE-----NRN-----TGAFILIDRITNATVGAGMIL- M5A5D5/327-430 AEVADQFEAHIVWMHE-DEM-LPGRPYLMKIGART-VGLTIDNPKYRVDVN-----TLEH----LA--ADT---------LSLNEIGVCNIGLDRAIPFDPYEA-----SRD-----MGGFIIIDKLTQNTVGAGLL-- A0A0Q8XRS0/330-433 PQLADQFKATIVWMDQ-ADL-LPGRAYWLKLGTQT-VSVTVREPEHAIDVN-----TLAH----VS--ART---------LKLNDIGVAEIAADRGIVFEPYAE-----SHD-----LGGFILIDKVTNATVAAGML-- N8NDE2/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- A0A0H3AS38/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- V5XH81/312-417 PDVTSEFDATVCWMADGSAL-EPGRDYIIKHTTRT-TRARVSALDYRLDVN-----TLHR---DKS--ATA---------LKLNELGRVTLRTQVPLLLDEYSR-----NPA-----TGSFILIDPDTNGTVGAGMV-- A0A074MB02/335-439 PEASDQFRATFVWLSE-QAL-KPGRGYWLKLGTQT-VTANVQEPEYEIDVN-----TLDR----LA--AKT---------LELNSIGVADFATDRPITFEAYES-----SRQ-----LGGFILIDKFTNATVGAGMIQ- A0A0N0JAS5/327-430 PQLADQIQAHVVWFDE-KPM-VPGRSYVLRTECDQ-VSASVSSLRHRIDVN-----TLSH----AS--ARS---------LAMNEVGVCNISLQATIAFDAYRE-----NRT-----TGNFILIDRFTNATLGAGMI-- A0A0Q4K8Y1/330-433 PEAADQFLATIVWMSD-TPL-VPGRGYQLKLGTQV-VGATVQPPRHVVDVN-----TQAE----LS--AST---------LALNDIGVAEVYADRAIVFEPYAD-----GAD-----LGGFILIDRATNATVAAGMI-- I3X7A2/327-430 PFVADQFQAHVIWFDA-NPM-LPGRSYILRTETDS-VSATVTALKHQVNIN-----SFTR----EA--AKS---------LQMNEVGVCNISTQAPIAFDAYKD-----NRA-----TGNFIFVDRVTNATVGAGMI-- A0A0D8DTH1/332-435 PEVADQFEATLVWMHD-EPL-LPGRPYLVKLGTQT-VGATCATPKYKIDVN-----TREH----LA--ART---------LALNEIGVCNLSFDRPVAFDPYDL-----NRH-----TGGFIVIDRFTNDTVGAGML-- W6K333/346-450 AETADHFECHLVWMDD-AEM-LPGRSYWLKIGTQT-VSAQFERPKYQVNVN-----TMEH----VA--AKT---------LGLNAIGVVTFSTDKPIVFEPYAQ-----SHD-----LGGFIVVDKMSNATVAAGMVH- W4HWE8/312-418 PRVAQSFDATVCWMADSAVL-EPGRDYVIKHTTRT-TRARVTGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRTQMPLLLDEYTR-----NAA-----TGSFILIDPDTNGTVAAGMVL- V8D1F6/326-432 PYVGRDIDAMVCWFSEDTEL-KPGNRYTIQSSTRE-SKAVIGDLTYRLDVN-----SLHR---EEG--PQE---------LRLNEIGRVRLRTQQPMMFDSYRQ-----HRF-----TGSFILMDEATNKTVGAGMIN- U3HQM4/329-434 PRIADSFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLEH----GP--ASS---------LQLNEIGRVKVALDAPIALDGYAQ-----NRT-----TGAFIIIDRLTNGTVGAGMIIA Q604B8/327-431 PYLDSRFEAHVVWMTE-APL-IPGKQYLLKHATRT-LSGSVAAIRHRIDVN-----TLER----HP--AGQ---------LNLNEIGLCELALSAPLAFDPYAR-----CKG-----TGAFIVIDRLTNVTVGAGMIA- Q87WW1/329-434 PQVSDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLEE----GP--ASS---------LQLNEIGRVKVSLDAPIALDGYSS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA A0A162RN84/334-434 ---VQGASVDVVWMAE-QPL-TAGQSYDMKIAGKK-TRARVDGIQFQVDIN-----NLTQ----RD--VSE---------LPLNGIGLVDLTFDEPLVLDPYQQ-----NPV-----TGGLIFIDRLTNVTVGAGMV-- A0A126PXU1/327-432 PLLNTQFKTHLVWMSE-EPL-MPNKQYLFKFATKS-TPGVVAHIDNQIDVN-----TLEE----TD--AMH---------LNLNEIGVVDVKFTQPVACDPYKR-----NRP-----TGSFIVIDRLTNGTVGAGMIID A0A0E0Y9T1/327-432 PLLNTQFKTHLVWMSE-EPL-MPNKQYLFKFATKS-TPGVVAHIDNQIDVN-----TLEE----TD--AMH---------LNLNEIGVVDVKFTQPVACDPYKR-----NRP-----TGSFIVIDRLTNGTVGAGMIID K0EGL4/327-432 PLLNTQFKTHLVWMSE-EPL-MPNKQYLFKFATKS-TPGVVAHIDNQIDVN-----TLEE----TD--AMH---------LNLNEIGVVDVKFTQPVACDPYKR-----NRP-----TGSFIVIDRLTNGTVGAGMIID A0A1E7X7V6/333-436 -TLLKTLKADVCWMSD-EPL-DQRRKYWIKHGTRQ-TSAKITAIESLLDIN-----TQQR----HA--ADG---------LKLNDIARIGLTVQQPLAADAYAD-----IRA-----TGAFILIDEVTHQTVAAGMIR- R5REM8/306-408 -KVSSSITATLLWMDD-DIL-ENGKNYFVKLGTKM-IPGIVTEIVHTVDVN-----TGEE----KK--ADK---------LSKNEIALCTISLADKIVVDEFKN-----HKT-----LGELILIDRVTNMTSACGVV-- M5DK45/320-424 PWVTKEFEAMLCWLSE-QSL-DPRRKYLVKHTTRV-VKALVTRIDYRVDIN-----TLNH----EV--VET---------LKMNDIGRVALKMHQPLVCDQYQR-----NHA-----TGSFIVIDEVSNNTVAAGMIC- A0A0F5SHC9/333-434 --AVQSAAVDVVWMAE-QPL-SPGQSYDIKVAGKK-TRARVDNVQYQIDIN-----NLTQ----RD--VEA---------LPLNGIGLVNLTFDEPLVLDTYQQ-----NPV-----TGGLIIIDRLTNVTVGAGLV-- A0A010IPP4/330-434 PLISRSVRASVVWMNE-HPL-VKGKLYNVKIGTQT-VPAKVTNIHYRVNVN-----TLEH----TH--VEE---------LELNAIADVVVEFDAPVVFDQYQD-----SRY-----TGSFIFIDRLSNVTVGAGMVE- A0A1C2ZEE7/330-434 PLISRSVRASVVWMNE-HPL-VKGKLYNVKIGTQT-VPAKVTNIHYRVNVN-----TLEH----TH--VEE---------LELNAIADVVVEFDAPVVFDQYQD-----SRY-----TGSFIFIDRLSNVTVGAGMVE- A0A0V2CPY0/332-435 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVR- A0A0R3A759/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLAE----GP--ASS---------LQLNEIGRVKVSLDAAIALDGYAS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA A0A120FLS0/330-433 PQVGLSFDAQIVALQP-EGI-EAGKRYWLKSGSRR----------QRVQVQPLAQLELKT-GAWAP--VDT---------LYMNAIGKVRLAFDEQAIFDPYEQ-----NRA-----TGSFILIDPDTNNTVAGGMVS- A0A0X7ADD3/331-435 PQTGLAFDAQIVALQP-GGI-EAGKRYWLKSGSRR----------QRVSVQPVSQLNLKE-GEWQA-HETS---------LPMNAIGKVRLSFDETAIFDPYEQ-----NRS-----TGSFILIDPDTNNTVAGGMIA- A0A135I4C0/331-434 -EATNQFAARIVWMAE-QPL-EVGRQYDIKVAGKK-TVGAVSKINHQVDIN-----SLDT----FA--TES---------LPLNGIAECEVELTEAVPLDLYTD-----CAD-----TGGFILIDRLTNVTVGAGMIS- M6VYX6/307-412 PVVSQDLEANICWMDS-KVL-LSGNKYLLRQTTNA-VKAIVKEIEFKIAPD-----THEK---QDA--SKG---------LTLNEIGKIKIRTAKPVSFDEYRA-----NRS-----TGSFILVDEGTNSTVGAGMIT- L9M5A1/330-434 PLISRSARATVVWMTD-QPL-VLGKLYNVKFGTQT-IPAKVAKINYRTNVN-----TLEK----IQ--VEQ---------LDLNAIADVTIEFDAPVVFDRYHD-----SRY-----TGSFIFIDRLSNVTVGAGMVE- A0A0M3AEK3/330-434 PLISRSARATVVWMTD-QPL-VLGKLYNVKFGTQT-IPAKVAKINYRTNVN-----TLEK----IQ--VEQ---------LDLNAIADVTIEFDAPVVFDRYHD-----SRY-----TGSFIFIDRLSNVTVGAGMVE- A0A1F0UG16/323-427 -TPKKQLEATICWFDE-RPL-NTARKYLLKHGTQT-VFAKISEIESVLNVN-----TLEQ---ESG--ATA---------LKMNDIARVRLSLQKPIVATTYEE-----NIA-----GGAFILVDEATYNTVAAGMIL- A0A197ZWZ1/306-409 -QEASNFSATILWMDD-SVL-TPGKNYLVKVGTKI-LPGTVTSITHKIEIN-----TGKT----VP--TDH---------IVKNELATCEFSLSDNIVIDSFDE-----NKS-----IGGFILIDRVTNMTSACGVIE- A0A0E2MGE0/334-434 ---VQGASVDVVWMAE-QPL-TAGQSYDIKIAGKK-TRARVDGIQFQVDIN-----NLTH----RD--VSE---------LPLNGIGLVDMTFDEPLVLDPYQQ-----NPV-----TGGLIFIDRLTNVTVGAGMV-- A0A0J0GWJ7/334-434 ---VQGASVDVVWMAE-QPL-TAGQSYDIKIAGKK-TRARVDGIQFQVDIN-----NLTH----RD--VSE---------LPLNGIGLVDMTFDEPLVLDPYQQ-----NPV-----TGGLIFIDRLTNVTVGAGMV-- A0A0R3FFL2/331-437 PLVGGQIDAMVCWFTDVSTL-SEGSRFVMQHANST-VKAAVAGLDYRLDVN-----SLHR---DQE--AKE---------LKLNEIGRVQLRLQRPIMFDPYRR-----NRT-----TGSFILVDEATNNTVAAGMIS- B9JT87/349-452 PQVGLAFDAQLVALQP-DGI-LPNKRYWLKSGSRR----------QRVQVKPVQQLDLKN-GKWGP--AES---------LAMNAIGKVHLAFDEKAVFDPYEQ-----NRS-----TGAFILIDPDTNNTVAGGMIT- U3B348/327-431 PHHSNALDCNIVWMNE-DAL-QLNREYLIKIGTKT-VTGQVSKIAHRVDVN-----SMQK----LP--ATQ---------LNLNEIGQCHLDFNEKVIFDSYDN-----NRI-----TGAFIIIDRFTNATVGAGMVQ- A0A1E5C324/331-434 -KATSKLAASIVWMDE-SPL-EIGRQYDIKVAGKK-TVGSVSKIRHQVDIN-----SLDT----FD--TDS---------LALNGIAECEVELTESVSLDLYQE-----CAD-----TGGFIVIDRLTNVTVGAGMIS- R0FY29/355-458 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-STASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A0E4A8Y3/313-419 PQVGQEIDAMVCWLTEQTTL-SENNRYSLLHTTRS-TKAQIVKLDYRLDVN-----SLHR---DEK--AES---------LSLNEIGRISIKTQQPLMFDPYRR-----NRV-----TGSFILVDETTGNTVAAGMIN- U0FCP5/313-419 PQVGQEIDAMVCWLTEQTTL-SENNRYSLLHTTRS-TKAQIVKLDYRLDVN-----SLHR---DEK--AES---------LSLNEIGRISIKTQQPLMFDPYRR-----NRV-----TGSFILVDETTGNTVAAGMIN- C1A209/313-419 PQVGQEIDAMVCWLTEQTTL-SENNRYSLLHTTRS-TKAQIVKLDYRLDVN-----SLHR---DEK--AES---------LSLNEIGRISIKTQQPLMFDPYRR-----NRV-----TGSFILVDETTGNTVAAGMIN- T5I1B3/313-419 PQVGQEIDAMVCWLTEQTTL-SENNRYSLLHTTRS-TKAQIVKLDYRLDVN-----SLHR---DEK--AES---------LSLNEIGRISIKTQQPLMFDPYRR-----NRV-----TGSFILVDETTGNTVAAGMIN- A0A1J5J2J6/322-426 PSDTKQLVANVCWIGS-EPL-SCRKKYLIKHTTST-VKAMVESIDFRRDIH-----TLDK----ES--ADE---------LAMNEIGQITFKLLKPLFYDAYAE-----NRT-----TGSFIVIDTFTNNTVGAGMIV- A0A0V2E5Q0/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A011PDU7/325-429 PQVSKNIDAMLCWLSE-SPL-DPRRKYLLRHTTRD-SKAMLAAIAFRVDIN-----SMQQ----QP--AER---------LLMNDIARVSFRLAQPIFADPYAE-----SRG-----TGAFIIIDESTNNTVAAGMIV- A0A137XYM0/329-434 PRIADSFEAMLVWMGE-EPM-LPGKKYDIKRATSY-VPGSIASISHKVDVN-----TLEK----GA--ASS---------LQLNEIGKVKVSLDAPIALDGYAQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA N9LI33/330-434 PLISRSVRASVVWMNE-HPL-VKGKLYNVKIGTQT-VPAKVTAINFRVNVN-----TLEH----TQ--VEE---------LELNAIADVVVEFDAPVVFDQYQD-----SRY-----TGSFIFIDRLSNVTVGAGMVE- A0A078PWD5/323-437 PTVDRNFDAMMVWMDE-EPM-DVNKSFFIKQTTNL-SRTRIDTIKYKVDVN-----TMEH----LS--LENGQLTKEMLPLQLNQIARVVLTTAKELFFDPYKK-----NKS-----CGSFILIDPITNNTSAVGMIID A0A1F0IDK1/323-437 PTVDRNFDAMMVWMDE-EPM-DVNKSFFIKQTTNL-SRTRIDTIKYKVDVN-----TMEH----LS--LENGQLTKEMLPLQLNQIARVVLTTAKELFFDPYKK-----NKS-----CGSFILIDPITNNTSAVGMIID A0A078QBQ3/323-437 PTVDRNFDAMMVWMDE-EPM-DVNKSFFIKQTTNL-SRTRIDTIKYKVDVN-----TMEH----LS--LENGQLTKEMLPLQLNQIARVVLTTAKELFFDPYKK-----NKS-----CGSFILIDPITNNTSAVGMIID A0A1M4B9H0/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3YHT3/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A0W5W1N1/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3YJY5/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3VE13/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3W950/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3WS01/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3VV50/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M4ATC2/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M4B754/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3WX11/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3YPF4/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3Y3C6/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3VA73/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3WFX1/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3WS18/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- A0A1M3V7X8/333-435 --PAQYAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARVETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMAFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNITVGAGMVR- W5TCP9/310-417 PHIATEVDAMVCWFSEDTAL-RPDGRYTLRTAAQT-TRVQVHDLGYRLDVN-----TLHR---VTD--ADG---------LALNDIGRLTLRSQRPLMVDSYRD-----NRR-----TGSFILIDDATDQTVAAGMILA A0A136HXU6/327-432 PMLGTQFKTHLVWMSE-EPL-MPNKQYLFKFATKS-TPGVVAHIDNQIDVN-----TLEE----TD--AMH---------LNLNEIGVVDVKFTQPVACDPYKR-----NRP-----TGSFIVIDRLTNGTVGAGMIID A0A0B9GT68/331-433 -SLGNHLLADIVWMAE-VPL-EVGRLYDIKVAGKK-TVGSISAIRHQVDIN-----NLGK----FE--TDS---------LPLNGIGLCEVTLTEYIAVDPYLY-----SPD-----TGGFIVIDRLTNVTVGAGMV-- A0A168JEC2/325-429 -APSRKLSADVCWFDE-DAL-APQRKYLLKQATST-VYVKVGNVDTVLDVS-----TLSH---GTD--KST---------LAMNDIGRVQLSLQKPVAADTYDV-----NPA-----TGAFVLIDEATHHTVAAGMIR- A0A0Q0B5Q2/329-434 PQVSDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLVE----GP--ASS---------LQLNEIGRVKISLDAPIALDGYDS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA K0V1D4/312-418 PRVTQDFDATVCWMADEVAL-EPGRDYLIKHTTRT-TRVKVMGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRISLRSQVPLLLDEYSR-----NAA-----TGSFILIDPNTNGTVAAGMVL- J7LJ08/313-420 PVVSQDIEAMVCWMTDARKL-TPRSKLIVKHTTRT-VKVMVKDLRYRLDVN-----TLHR---DEQ--ADH---------LALNEIGRVRLRSTQPLFVDEYAK-----NRQ-----TGGFILIDEATNVTVGAGMVVK A0A0X6Z745/334-434 ---VQGASVDVVWMAE-QPL-TAGQSYDIKIAGKK-TRARVDGIQFQVDIN-----NLTH----RD--VSE---------LPLNGIGLVDLTFDEPLVLDPYQQ-----NPV-----TGGLIFIDRLTNVTVGAGMV-- A0A0D8KXN6/331-435 PQTGLSFDAQIVALQP-GGI-EAGKRYWLKSGSRR----------QRVSVQPVSQLNLKE-GEWQS-HETS---------LPMNAIGKVRLSFDETAIFDAYEQ-----NRA-----TGSFILIDPDTNNTVAGGMIT- R7A5T6/189-294 PIVDRNFEAMLVWMDE-EPM-DINKSFFIKQTTNV-SRTRIDSIKYKVDVN-----TMEH----SS--VPF---------LSLNEIARVVFTTAKELFFDPYRK-----NKS-----CGSFILIDPITNNTSAVGMIID A0A0E2ZW70/327-431 -HVSSNIKAHIVWMHE-QPL-VENKDYYVKFLTKQ-VTGSVRKFNYKTDIN-----TLKD----ID--CGK---------LDLNEIGAVELKLSEPVCFDDYQK-----NRA-----TGAFIVIDRLSNATVGAGMIIK D2S4R0/321-426 PTATQDLDALVCWMAD-EPL-RPRQRIAVKHTTRT-VRAMVKELAYRLDVN-----TLHR---DRE--ATE---------LGLNDIGRVRLRVTQPLFVDDYTR-----NRS-----TGRFILVDEATNATVGAGMLT- L0DHX8/327-431 PHVSSEIEAMVVWMAE-QPF-VPGRPYTLKQTTQQ-VTAEVASFRYGVDVN-----TLEH----RA--IAR---------LGLNEVGHVQLSLTQPLACDPYRT-----NAA-----TGAFILIDRLTNNTVGAGMIL- A0A1F3DK54/317-422 PAISQDINLMVCWFNE-QPL-RIGAKYLLKINSNE-SGCIVKNVNYRLNID-----TLEK---DIE--NTT---------VRMNDIADITIKTSKPLFFDSYRK-----NNI-----TGSMILIDEGTNETVAAGMII- A0A1G0MDX9/327-432 PLYTRHPEAHLVWFHD-EPL-QPGQLYLVKTATGV-TPGRVTAVQYAVDVN-----TLEQ----KQ--VST---------LKLNEIGLVRLELDRPVSFDPYSQ-----NRD-----TGSFILIDRFSNATVAAGMVIE A0A023WNL8/329-434 PRIADGFEAMLVWMGE-EPM-LPGKKYDIKRATSY-VPGSIASIAHKIDVN-----TLEQ----GA--ASN---------LQLNEIGKVKISLDAPIALDGYAQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA U7UB88/326-430 -STSKHFDAQLCWLDE-QAL-NTTRSYWLKQGTRL-TQAKVQAVHALRDVH-----SLQE---QQA--TGS---------LSLNDIGRVSLVSRDPLVLDDYQD-----HSS-----TGSFILIDPSTNQTVAAGLVQ- A0A0P9KQG2/351-456 PQVSDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLQE----GP--ASS---------LQLNEIGRVKVSLDAPIALDGYDR-----NPT-----TGSFIVIDRLTNGTVAAGMIIA A0A0P9UZ72/351-456 PQVSDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLQE----GP--ASS---------LQLNEIGRVKVSLDAPIALDGYDR-----NPT-----TGSFIVIDRLTNGTVAAGMIIA A0A0W0M054/329-434 PQVSDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLVE----GP--ASS---------LQLNEIGRVKISLDAPIALDGYDS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA A6D498/331-433 -VSSNRLLADVVWMTD-EPL-AAGKSYDIKIAGKK-TQGQLEGVRHQYDIN-----TLKS----FD--TDA---------LPLNGIGLCEWSLTESVAVDSYDA-----VQD-----TGGFIVIDRLTNVTVGAGLV-- A0A1H2L4M5/329-434 PPVTDSFEAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASIVNRVDVN-----TLEE----GP--ASA---------LQLNEIGKVKIALDAPIALDGYES-----NRT-----TGAFIVIDRLTNGTVGAGMIVA A0A0A4GP91/329-434 PPVTDSFEAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASIVNRVDVN-----TLEE----GP--ASA---------LQLNEIGKVKIALDAPIALDGYES-----NRT-----TGAFIVIDRLTNGTVGAGMIVA W8U9J7/356-458 -KSAQNALVDVVWMAE-QPL-VAGQSYDIKIAGKK-TRARVENIQYQVEIN-----SLTQ----RV--VES---------LPLNGIGLVELAFDEPLVLDSYQR-----NRD-----TGGMIFIDRLSNVTVGAGLI-- K5ZWQ3/321-435 PIADRNFEAMLVWMDE-EPM-DASKQFYIKHTTNL-TRARVDSIRYKVNVN-----TMEQ----LS--VDNGKLTTDDLPMKLNEIARVVFTTGKELFFDPYQK-----NKQ-----TGAFILIDPITNNTSAVGMIID A0A1H1WMH5/330-435 PLIGDQFEATLVWMAE-QPM-QPGRKYDIKRATSN-SPGSFTRIQHRIDVN-----TLEE----QS--AAQ---------LALNEIGRVELSLERPIAYDDYQS-----NHT-----SGAFIVIDRMTNGTVGAGMIVA A0A1C4GRT6/331-434 PTISRSVKATVVWMAD-HAL-VLGKLYNIKIGTQT-VPAKVTAINYRTNVN-----TLEQ----MQ--VDH---------LDLNAIANVTVEFDAPVVFDRYQE-----SRY-----TGSFIFIDRLNNVTIGAGMV-- A1ST27/326-430 PTSSKNFVADLVWMTE-EAL-HVDREYIIKAGAHS-TFGSVISINNKVDVN-----TMEK----CE--ANQ---------LVLNEIGSCNFEVAEALHFDRYSE-----NRA-----TGAFIMIDRLTNATVGAGMIS- A0A154U952/322-426 -VPEQQFQAALCWFDD-IPL-NLRRKYLLKHTTQT-TPVKISEIAYVWDVN-----TLSR---VES--AET---------LKLNDIGSISFKTQQPLAAAAYED-----NHA-----QGAFILIDEATNHTVAAGMIR- E5B298/334-435 ---VRAAAVDVVWMSE-QPL-LAGQSFDVKIAGKK-TRARVEKIAHQVEIN-----NLTQ----HS--SAE---------LPLNAIGLVNIIFDEPMVLDSYQQ-----NPV-----TGGMIFIDRLSNVTVGAGMIR- D4HWM8/334-435 ---VRAAAVDVVWMSE-QPL-LAGQSFDVKIAGKK-TRARVEKIAHQVEIN-----NLTQ----HS--SAE---------LPLNAIGLVNIIFDEPMVLDSYQQ-----NPV-----TGGMIFIDRLSNVTVGAGMIR- A0A0K0HTG9/337-438 --AVQGATVDVVWMSE-QPL-SQGQSFDIKLGGKK-TRARVERIDYQVDIN-----TLTQ----RA--VES---------LPLNGIGLVELTFDEPLVIDSYAQ-----NHD-----TGSFIFIDRLTNVTVGAGLI-- M7CQU5/327-432 PEVGNRFNANIVWMTD-APL-ETGRLYDIKLGPTF-TSGTVKSIHHQTDVN-----TLEQ----QA-NPSS---------LQLNEIGLCELTLNQPIAFDAYPR-----NHA-----TGSFIVIDRLTNVTIGAGMVA- A0A175VHS6/329-434 PQVTQNVLAHIVWMGE-ESL-QPGRVYDVKLATKK-SRGQVEAIRHRIEIN-----KLDE----LD--ASE---------LKLNEIGLCELSLTDPVAFDPYQE-----IRD-----TGSFILIDRLTNVTVGAGMIVE A1U491/327-432 PEVHNRFNANIVWMTD-APL-ETGRLYDIKLGPTF-TSGTVKKIHHQTDVN-----TLDQ----QA-NPSQ---------LALNEIGLCELTLNQPVAFDAYQR-----NHA-----TGSFIVIDRLTNVTIGAGMIA- U7HHX8/327-432 PEVHNRFNANIVWMTD-APL-ETGRLYDIKLGPTF-TSGTVKKIHHQTDVN-----TLDQ----QA-NPSQ---------LALNEIGLCELTLNQPVAFDAYQR-----NHA-----TGSFIVIDRLTNVTIGAGMIA- A0A095FYE2/321-425 -EPAKKLEADLCWFDE-TPL-SPQRKYLLKQTTNT-VFTRIGEVKQVLDVH-----TLSH---ASD--RQD---------LKMNDIGRVALTLQKPIVCDTYDA-----HPG-----TGAFVLIDEATHHTIAAGMIR- N1UDR5/307-412 PVVSQDLEANICWMDS-KAL-LSGNKYLLRQTTNS-VKAVVKEIEFKVAPD-----THEK---QDA--SKG---------LTLNEIGKIKIRTAKPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- N6UVK9/54-157 PFVSDQFQAHLIWFDA-NPM-LPGRSYLLRTETDS-VSATVTVLKHQLNVD-----SFVR----EP--AKL---------LQMNEVGVCNIMTQRPIVFDAYKE-----NRS-----TGNFIIVDRVSSATVGAGMI-- L0LQD2/54-157 PFVSDQFQAHLIWFDA-NPM-LPGRSYLLRTETDS-VSATVTVLKHQLNVD-----SFVR----EP--AKL---------LQMNEVGVCNIMTQRPIVFDAYKE-----NRS-----TGNFIIVDRVSSATVGAGMI-- J7Q4U3/326-430 PNVADQFAAHLIWMSD-DAL-LPGRSYLIKINGRC-LAASVTEIKHKLDVD-----TGAK----SA--AKT---------LSLNEIGFCNVATAAPVVFDSYDE-----NRT-----TGAFILIDRFTNATAAAGIIA- H7ESH2/329-434 PRIADGFEAMLVWMGE-EPM-LPGKKYDIKRATSY-VPASIASIAHKVDVN-----TLEK----GA--ASS---------LQLNEIGKVKVSLDAPIALDGYAQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA E3DHK5/334-435 ---VRAAAVDVVWMAE-KPL-TPGQSFDVKIAGKK-TRARVENIQHQVEIN-----HLTQ----HN--SAE---------LPLNAIGLVDIVFDEPMVLDSYQQ-----NPV-----TGGMIFIDRLSNVTVGAGMIR- A0A177JSM6/329-434 PPVTDQFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHKVDVN-----TLEQ----GA--ASA---------LQLNEIGRVKVALDASIALDGYDS-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A1E7Z4T9/334-435 ---VRGASVDVVWMAE-QPL-SPGQSFDIKIAGKK-TRVRIENIQHQVEIN-----NLTQ----HV--AQQ---------LPLNGIGLVDVIFDEPMVLDAYQQ-----NLV-----TGGMIFIDRLSNVTVGAGMIR- A0A174SWL1/305-407 -VLTDSVEADILWMDD-NAL-TDGKNFFVKIGTKM-IPGLVTKINYSVDVN-----TGEK----KS--AYT---------LKKNEIASCTLEFSEKIVVDEFDR-----HRT-----LGELILIDRVTNMTSACGVV-- J0VA86/333-436 PQVGLAFDAQIVALQP-EGI-EPGKRYWLKSGSRR----------QRVQVQPLSQLELKT-GAWHA--AQR---------LYMNAIGKVRLVFDEAAIFDPYEQ-----NRL-----SGSFILIDPETNNTVAGGMVT- S5TUS1/333-437 PDVADQLDVTLVWMNE-TAM-NTGVDYLIKRASNV-VPGRFEQIHHKVDVN-----TLEK----IE--ASE---------LQLNEIARCRLSLKQAIAFDAYAD-----VKG-----TGSFIVIDKYTHATLAAGMIQ- R5M0I6/324-438 PVVDRNFEAMLVWMDE-EPM-DLNKSFFIKQTTNL-SRSRISNIKYKVDVN-----TMEQ----LS--VENGQLTTDSLPMQLNQIARVVLTTAKELFFDPYQK-----NKA-----TGAFILIDPITNNTSAVGMIID B3CFS9/324-438 PVVDRNFEAMLVWMDE-EPM-DLNKSFFIKQTTNL-SRSRISNIKYKVDVN-----TMEQ----LS--VENGQLTTDSLPMQLNQIARVVLTTAKELFFDPYQK-----NKA-----TGAFILIDPITNNTSAVGMIID F7V7R5/306-409 -VVSNLFEAEILWMDD-RPL-VNGRNYLLKLGTQK-TVATVMRIKYRIDVN-----TGQQ----IP--ADV---------IRKNEIAVCDISAARDLVFDSFEH-----NAS-----LGGMILIDRITHMTSACGVIQ- A0A1E3MXZ5/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFGEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- Q3ILR1/333-436 -IVTNQLQAKLVWMHE-TPL-QLGKSYNFKLGSKN-TSAQVTKIDHTIDVN-----TLEH----GS--SDT---------LQLNEIAIVTLELSETILADEYHS-----NHE-----TGSFILIDRLSNLTIAAGMIE- U7P4M7/327-432 PEVHNRFNANIVWMTD-APL-ETGRLYDIKLGPTF-TSGTVKKIHHQTDVN-----TLDQ----QA-NPSQ---------LALNEIGLCELTLNQPVAFDAYQR-----NHA-----TGSFIVIDRLTNVTIGAGMIA- D7DHP9/321-424 -EPVKQIEAFVCWLSE-TPL-SPARTYVIRHTTRE-SKAKVGTIAYKVDVN-----TLEE----QA--TTD---------LKMNDIARITFKLAQPLMVDSYST-----NRA-----TGAFIVIDESTNNTVGAGMIV- C6E752/327-432 PLYTRHPEAQLVWLHD-EPL-QPGQLYLVKTATGV-IPGRVTAVHYATDVN-----TLEQ----KQ--VAT---------LGLNEIGLVRLELDRPVSFDPYRE-----NRD-----TGSFILIDRFTNATVAAGMVVE E7SPA3/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A142JNF2/327-431 -ASAKKLQADLCWFDD-ESL-NPARKYVLKHTTAS-VFARVSAVDRVLDVH-----TLSH---ETG--RHE---------IRLNDIGSVQISLQKPIVCDAYGD-----NPA-----TGAFVLIDEATNHTVAAGMIR- A0A1J6Y4X8/332-435 -APTQHAAIDVVWMAE-QPL-TPGQSYDVKLAGKK-TRARIETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRPSNVTVGAGMVR- M1F7L9/327-431 PQTTDRFDATLVWMAE-QPL-VQGKTYDIKLLTGR-VAGAVTAVRHRVDVN-----SLHK----TE--ANT---------LALNEIGLCELTLEQPVLADNYKE-----FRS-----TGSFIVVDRLTHTTVAAGMIL- A0A0P9QJQ7/329-434 PQVSDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLQE----GP--ASS---------LQLNEIGRVKVSLDAPIALDGYDR-----NPT-----TGSFIVIDRLTNGTVAAGMIIA A0A0N0EY90/329-434 PQVSDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLQE----GP--ASS---------LQLNEIGRVKVSLDAPIALDGYDR-----NPT-----TGSFIVIDRLTNGTVAAGMIIA A0A0P9Y9F9/329-434 PQVSDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLQE----GP--ASS---------LQLNEIGRVKVSLDAPIALDGYDR-----NPT-----TGSFIVIDRLTNGTVAAGMIIA A0A176HLG3/327-432 PEVGSKLNANIVWMTE-GAM-VPGKPYDLKFASSA-TTGTFTQIHHLIDVN-----TLEH----SV--AEQ---------VALNEIALVEVSLDKAIPFDTYGK--------IPG--TGAFIIIDRLTNVTIGAGMIVG C9LEY2/345-451 PFVGRTFSTMLVWMDE-EAMNDPKKSYYLKQTTNT-TRCRIDHIDYKIDVN-----TMEH----SA--VTA---------LHLNEIARVAIQTSKPLFFDAYDS-----NKP-----TGSFILIDPITNSTAAVGMIIA A0A158GWY3/332-436 -EPAKKLDADLCWFDE-EPL-SPQRKYLLKQTTNT-VFARIGAIKEVLDVH-----TLLH---SVD--RRD---------LNMNDIGRVALTLQKPIVCDAYDT-----HQG-----TGAFVLIDEATHHTVAAGMIR- C5BID7/328-431 -QPSNAMVIDLVWMHD-TPL-ELNKNYYIKLGAAE-VTGSISEIEYQIDVN-----TLER----QP--VSS---------VPLNGIARCTLNLTEPVCVDAYQS-----HPH-----TGNLIFIDRLTNVTVGAGMIA- A0A0D8JE90/326-431 PRVERQFEAMLVWMDE-TDM-NLSTQFYIKHANNN-TKARIDEIKYKVDVN-----TLEK----SN--IEK---------FKLNEIGRVVITTTKPLYFDPYKK-----NHQ-----TGSFILIDPVTHNTVAVGMIID A0A0Q0Q176/331-433 -DSTNHLLADVVWMTE-QPL-QVGRDYDIKIAGKK-TVGQVKAVRHQYDIN-----NLST----YH--AES---------LPLNGIGLCEWTLTQTVAIDKYLD-----CAD-----TGGFIIIDRLTNVTVGAGLV-- B8D7V3/326-430 -QPSQEAIIDIVWMTD-NIL-LAGESYNVKLSGKK-IRVYIKEILFRLDVN-----TLKK----VK--SHS---------LVLNSIGRVKIYFSKPVIFDNYSE-----NRM-----TGNMIFIDLLTNITVGAGMIVN A0A1J7M6T4/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A1J7QSX8/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A068R8G6/337-440 -NVARHALVDVVWMSE-QPL-VQGQSLDIKVAGKK-SRGKVDNIQYQLDIN-----KLTQ----KD--AAE---------LPLNAIGLVAFSFDEPLLLDSYAQ-----NAD-----TGGLILIDRLTNVTVGAGLIR- A9N2D8/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A1C2GZK7/329-434 PRIADSFEAMLVWMGE-EPM-LPGKKYDIKRATSY-VPGSIASISHKVDVN-----TLEK----GA--ASS---------LQLNEIGKVKVSLDAPIALDGYAQ-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A0B4Y1Z8/327-431 PEFAGQFEARIIWMHE-DHL-LPGRPYIIKMGAQV-TNAQISDLKYKVNVN-----TLEH----IA--GKT---------LELNEVGIANIATDKALAFDPYDD-----NRH-----SGRFIIIDRYSNATVGAGMVN- C9QCT6/331-433 -ESSNHLLADVVWMTE-QAL-QPGREYDIKIAGKK-TVGRVEAIRHQYDIN-----NLSS----HS--AVE---------LPLNGIGLCEWTLTESVALDNYLA-----SQD-----TGGFIIIDRLTNVTVGAGLV-- A0A178J9V4/331-433 -ESSNHLLADVVWMTE-QPL-QPGRDYDVKIAGKK-TVGHVEAIRHQYDIN-----NLST----HS--AVE---------LPLNGIGLCEWTLTESVALDDYLA-----SQD-----TGGFIIIDRLTNVTVGAGLV-- A0A090RF96/141-247 PNVTNKVDAHVVWMDE-NPM-RTHKEYIFKFATKS-CPGKVSAIAHKVDVN-----TLQQ----HAEHSDS---------LELNEIALSTISLTDKIAVDTYNV--------LPQ--TGAFIVIDRHTNVTVGAGMVS- A0A0F4NPY3/327-433 PKVTNQCQTHLVWMGE-QPM-LTHKEYLFKFATKS-CSGKVASITHKVDVN-----TLDQ----HAENAES---------LELNEIALTNIKLTDYVALDEYHK--------LPQ--TGAFIVIDRINNVTVGAGMVN- W6R656/329-432 PQVGLSFDAQIVALQP-EGI-EAGKRYWLKSGSRR----------QRVQVQPLAQLELKS-GAWVP--VDT---------LYMNAIGKVRLAFDEQAIFDPYEQ-----NRA-----SGSFILIDPDTNNTVAGGMVS- A0A0Q7XPY3/336-443 -TLLKQVKADVCWMSD-EPL-DVRRKYWIKHGTRQ-TMAKVKAIDSVLDVN-----TQTRRAVDNP--AEG---------LTLNDIAQIELTVQQPLAADAYDA-----IRA-----TGAFILIDEVTHQTVAAGMIR- F2BCP8/341-444 -APQQKIEAALCWFDD-APL-NPARRYLLKHTTRT-VPAKIKAVRHVWDVN-----TL-R---AGQ--ADT---------LNINDIGLVEIALQQPIAATAYAE-----NPA-----TGAFILIDEATNHTAAAGMIR- D8AGU9/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VET---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- N3NNP3/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VET---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A069XFG4/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VET---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A125WZF9/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VET---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A0A8BKT3/325-429 -EPSRKLAADICWFDE-DAL-APQRKYLLKQATST-VYVKVGSVDTVLDVS-----TLSH---GTD--KTT---------LAMNDIGRVQLSLQKPVAADTYDA-----NPA-----TGAFVLIDEATHHTVAAGMIR- U5WB22/323-430 PAVAQDVEAMVCWMDETAPL-RVGAKYTIKHTTRT-ARAVVRGLQYRLDVN-----TLHR---DET--APQ---------LGLNEIGRVKLRTTIPLLADEYRR-----NRT-----TGGFILIDEATNRTVGAGMIIE A0A1D8RVE1/326-430 PASSNTFSADVVWMDE-ASL-QIDREYIIKVGTHA-TFGSVDKIEYSVNVN-----TMEK----QD--VQH---------LALNEIGRCNFTLNEPVQFDAYQE-----NRQ-----TGAFIIIDRLTNATVGAGMIA- A0A099P9S8/327-431 PEPRQQFSAHLVWMDE-QPL-NPARDYEIKLATSR-QTGRISRIHHRIDVN-----TLEH----IP--AGS---------LELNEIAKVDLSLERAVVADNYRL-----HKG-----TGAFILVDRFSNRTVAAGMIL- G4M584/329-433 -DPAKKLEADICWFDE-EPL-SPQRKYLLKQTTNT-VFARVGAVNQVLDVH-----TLSH---SVD--RST---------LAMNDIGRVALTLQKPIVADEYDT-----HQG-----TGAFVLIDEATHHTVAAGMIR- A0A0F5B9P0/332-435 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIETIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVR- A0A0H7HRP6/331-433 -DSTNHLLADVVWMTE-QPL-QVGRDYDIKIAGKK-TVGQVKAVRHQYDIN-----NLST----YH--AES---------LPLNGIGLCEWTFTQTVALDKYLD-----CAD-----TGGFIIIDRLTNVTVGAGLV-- H0G9X1/335-438 PMTGLAFDAQLVALQP-EGI-QPGKRYWLKSGSRR----------QRVQVQPVSQLELKS-GKWNH--ADE---------LPMNAIGKVHLAFDEQAIFDTYEQ-----NRT-----TGAFILIDPDTNNTVAGGMIT- A0A0F6QA39/335-438 PMTGLAFDAQLVALQP-EGI-QPGKRYWLKSGSRR----------QRVQVQPVSQLELKS-GKWNH--ADE---------LPMNAIGKVHLAFDEQAIFDTYEQ-----NRT-----TGAFILIDPDTNNTVAGGMIT- C6CAX3/333-434 --AVRGAQVDVVWMAE-QPL-VPGLSYDIKIAGRK-TRARVENIRYQVEIN-----TLTQ----RV--TES---------LPLNGIGLVALTFDEPLVLDRYQQ-----NHV-----SGGMIFIDRLSNVTVGAGLV-- A0A0F3USG1/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A023Z2H3/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- E2X9S8/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A025CYQ8/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A090NL69/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A014NMB4/333-435 --PVQAASVDVVWMAE-QPL-VPGQSFDIKIAGKK-TRARVESIQYQVEIN-----SLTQ----RK--VES---------LPLNGIGLVDLIFDEPMVLDSYQQ-----NPV-----TGGMIFIDRLSNVTVGAGMIR- N8QHK0/331-434 PAISRSVKATVVWMAD-QPL-VIGKLYNLKVGTQT-VPAKVTAINFRTNVN-----TLEQ----MQ--VDH---------LDLNAIANVTVEFDAPVVFDRYQD-----SRY-----TGSFIFIDRLNNVTIGAGMV-- G4F5N5/333-436 P-LSNTFKADIVWMHE-EVL-TPGKLYDFKLATRD-LSGQVSAIDYQIDVN-----TLEK----HT--THS---------LGLNAIARCDVELTAAIPVDNYRT-----SPG-----TGSFIIIDRLTNVTVGAGMIR- W2E0W6/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLAE----GP--ASS---------LQLNEIGRVKVSLDAAIALDGYDS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA A0A177X2Q9/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLAE----GP--ASS---------LQLNEIGRVKVSLDAAIALDGYDS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA C3KDP2/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLAE----GP--ASS---------LQLNEIGRVKVSLDAAIALDGYDS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA X7E315/330-433 PLIASTLRASVVWMAD-QAL-VPGKLYDFKLGTQT-VPGKVHHFNHRIDVN-----TLEQ----TE--ISA---------LELNGIGDCVIQFDAPVAFDEYQN-----SRL-----TGALVIIDRLTNVTVGAGMV-- A0A072N1M7/327-432 PEVANRFNANIVWMTD-APL-ETGRLYDIKLGPTF-TSGTVKAIHHQTDVN-----TLEQ----QA-NPSS---------LQLNEIGLCELTLNQPIAFDAYQR-----NHA-----TGSFIVIDRLTNVTIGAGMIA- A0A0Q8EI29/308-413 PTPTQDIDAMICWMTT-APL-LPRQKLAIKHTTRT-GRALVKYIQYRLDVN-----TLHR---DQE--TKE---------LGVNEIGRVTLRTTVPLLVDPYSK-----NRT-----TGSFILIDEATGITVGAGMIN- A0A0Q8HZI0/308-413 PTPTQDIDAMICWMTT-APL-LPRQKLAIKHTTRT-GRALVKYIQYRLDVN-----TLHR---DQE--TKE---------LGVNEIGRVTLRTTVPLLVDPYSK-----NRT-----TGSFILIDEATGITVGAGMIN- N9MVH0/330-434 PLISRSVRASVVWMNE-HPL-VKGKLYNVKIGTQT-VPAKVTAINFRVNVN-----TLEH----TQ--VEE---------LELNAIADVVVEFDAPVVFDQYQD-----SRY-----TGSFIFIDRLSNVTVGAGMVE- A0A109I6Z7/307-412 PIVSQDLEANICWMDS-KAL-LSGNKYILRQTTNT-VKAIVKEIEFKVAPD-----THEK---LDA--SKG---------LTLNEIGKIKIRTAKPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- M3CQW9/307-412 PIVSQDLEANICWMDS-KAL-LSGNKYILRQTTNT-VKAIVKEIEFKVAPD-----THEK---LDA--SKG---------LTLNEIGKIKIRTAKPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- A0A0J9DSX4/328-432 -NAAKKLHADLCWFDE-HEL-NPARKYVLKHTTAT-VFARVSEVERVLDVH-----TLSH---ETG--RKQ---------IALNDIGTVNISLQKPIVCDAYGD-----NPA-----TGAFILVDEATHHTVAAGMIR- A0A0E3XU64/329-435 PLVGGQIDAMVCWFTDVSTL-SEGSRFVMQHANST-VKAAVAGLDYRLDVN-----SLHR---DQE--AKE---------LKLNEIGRVQLRLQRPIMFDPYRR-----NRT-----TGSFILVDEATNNTVAAGMIS- A0A0J9BH38/333-435 P--THVAEVDVVWMGE-NAL-QPGQSYQIKVAGKT-ARAVVDEIIHQVNIN-----TLAT----SE--AES---------LPLNAIGRVALTFDEPLMLDPYAE-----NPV-----TGGLIFIDRLSNVTVGAGMVY- A0A0Q5WYT4/321-426 PTVTQDLEAVVCWMTD-EPL-RARQKLAVKHTTRS-VRAVVKALHHRLDVN-----TLEP---DAE--ATE---------LGLNDIGRVTLRTTQPLFVDDYRH-----NRA-----TGRFILVDEATNATVAAGMIT- N9BQU7/330-434 PLISRSVRASVVWMTE-HPL-VKGKLYNVKIGTQT-VPAKVTEIHYRVNVN-----TLEH----TQ--VEE---------LELNAIADVTVEFDAPVVFDRYQD-----SRY-----TGSFIFIDRLSNVTVGAGMVE- A0A085VJD4/329-434 PQVADAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLEE----GA--ASS---------LQLNEIGRVKVSLDSPIALDGYDS-----NRT-----TGSFIVIDRLTNGTVAAGMIIA A0A0Q0G8C9/329-434 PQVSDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLEE----GP--ASS---------LQLNEIGRVKVSLDAPIALDGYSS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA A0A177M8E6/335-440 PRVVKTLNADICWLSE-QPL-QARGKYLVKHTTRT-VNALFEELSYRVDVN-----TLAH----QA--APET--------AIMNDILRVKLKLQQPLLVDAYVD-----NRT-----TGSFIVIDPLSLHTVAAGVII- C6XDZ1/327-431 PEPVKQIDAFVCWLSE-TPL-SAARTYIIRHTTRE-SKAKVGEIAYKVDVN-----TLEE----LP--TQG---------LAMNDIARISFRLAQPLMVDPYSR-----NRA-----TGAFIVIDESTNNTVGAGMIT- A0A0P7ENJ5/327-433 PEVVDAYQAHIVWMDE-SPM-QTHKEYLFKFATKT-CTGKVSQIEHKVDVN-----TLKQ----HDHKNTR---------LELNEIALASIKLTDKVAMDVYQQ--------LPQ--TGAFIIIDRISNVTVGAGMVS- A0A063XYT0/327-431 PQTRLTFAAHLVWMDE-QPL-NPARDYEVKLATSR-QTGRVSRIHHRIDVN-----TLQQ----SP--AGV---------LELNEIAQVDITLERPVVADDYTQ-----HKG-----TGAFILVDRLTNRTVAAGMIQ- A0A1F9ACC7/23-127 PQVGTNFEGMICWMDD-VPL-SLNKPYLLQHTTRI-VKAFVSRIVYQVDVN-----NLHR----HK--TES---------LALNDIGRVELQVTAPIFCDPYRI-----NRG-----TGSFILIDPLTHHTVAAGMIR- E7SWY3/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- F3VA41/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- B3WWY0/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A1F2KMI3/342-445 -NVSNHALVDIVWMSE-QPL-VQGQTLDIKVAGKK-SRAKIENIHYQVDVD-----KLTQ----QV--TES---------LALNAIGHVEVLFEEPLVLDNYQL-----NAQ-----TGGLIFIDRLSNVTVGAGLIR- A0A176WX96/331-435 PQTGLAFDAQIVALQP-GGI-EAGKRYWLKSGSRR----------QRVSVQPVSQLNLKE-GEWQA-HETS---------LPMNAIGKVRLSFDETAIFDSYEQ-----NRA-----TGSFILIDPDTNNTVAGGMIS- A0A085HLC3/344-442 -----GAEVDVVWMTE-APL-TPGHRYDIKLAGKK-SRAHVERIAYQYDIN-----TLEQ----RD--SRA---------LALNAIGTVSVAFDEPLLLDRYET-----CRE-----TGSFIFIDPLTNVTVGAGLV-- V5F247/331-433 -PLSNNVLADIVWMDE-SPL-ETGRQYDIKVAGKK-TVGTVDVIRHQVDIN-----NLET----FE--TEA---------LPLNGIGLCEVSLNEAIAVDSYQA-----CKD-----TGGFIVIDRLTNVTVGAGMV-- A0A0L6HVV9/308-413 PTVTQDIDAMVCWMDS-TPL-RPGAKYAVKHTTRT-VRAMVKEINYSLDID-----TLRR---DVA--PGE---------LPLNGIGRVRLRTTQPLLTDPYRR-----NRH-----TGSFIIIDESTNRTVGAGFIT- A0A142LKG3/341-446 PMIADKFTADLCWFDT-TPL-ELNRRYWIKHTTRS-TRAVVESIDYRLNVE-----TLDE---TVD--ASLK--------VQINDIARVTLACQQPLVFDAYAD-----NRA-----TGCFILIDDTTNRTVAAGMI-- A0A0Q0E6Y2/329-434 PQVSDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHRVDVN-----TLEE----GP--ASS---------LQLNEIGRVKVSLDAPIALDGYSS-----NRT-----TGSFIVIDRLTNGTVAAGMIIA W8G231/327-432 PIVSNKLNANIVWMTE-KPM-TVGKPYDLKFASSA-TAGTFTHVHHLIDVN-----TLEQ----RS--AEE---------IQMNEIGLVQVSLDKAVPFDSYAR--------IPG--TGAFIVIDRLTNVTIGAGMIVG A0A1L6KEN9/327-432 PIVSNKLNANIVWMTE-KPM-TVGKPYDLKFASSA-TAGTFTHVHHLIDVN-----TLEQ----RS--AEE---------IQMNEIGLVQVSLDKAVPFDSYAR--------IPG--TGAFIVIDRLTNVTIGAGMIVG M5DP47/327-432 PIVSNKLNANIVWMTE-KPM-TVGKPYDLKFASSA-TAGTFTHVHHLIDVN-----TLEQ----RS--AEE---------IQMNEIGLVQVSLDKAVPFDSYAR--------IPG--TGAFIVIDRLTNVTIGAGMIVG A0A0D5M4A2/333-436 P-LANTFKADIVWMQE-EAL-TPGKLYDFKLATRD-LSGQVSAIDYQIDVN-----TLEK----HA--THS---------LGLNAIARCDVELTAAIPVDDYRT-----SPG-----TGSFIIIDRLTNVTVGAGMIR- A0A0B8YL51/308-411 PIVSNLIEADICWMDT-REL-DTSATYFIQHNSKL-TRCKIQEILYKVNIN-----TLEK----VN--ADA---------FGLNDIGRVEIKTADELAFDAYDV-----NKR-----NGGAIIIDSRTNVTVGALML-- A0A0Q8WP40/308-413 PTPSQDIDAMVCWMTN-APL-QPRQKLAIKHTTRT-GRALVKDIQYRLDVN-----TLHR---DQE--TKE---------LGVNEIGRVTLRTTVPLLADPYSK-----NRT-----TGSFILIDEATGVTVGAGMIN- A0A0Q8VDX9/308-413 PTPSQDIDAMVCWMTN-APL-QPRQKLAIKHTTRT-GRALVKDIQYRLDVN-----TLHR---DQE--TKE---------LGVNEIGRVTLRTTVPLLADPYSK-----NRT-----TGSFILIDEATGVTVGAGMIN- A0A0S2KF71/327-431 PVVAEEFEAALVWMTE-DQL-LPGKMYDFKLGTKT-VSGRVNAIKHQIDVN-----TLQE----NP--APA---------LELNEIALCEISVDEPVCIDSYDK-----NRS-----TGAFIVIDRLSNVTVGAGMIT- A0A0B8NBA5/309-415 PHTDRELDAMVCWFSDDTEL-RAGNSYSIRTATQT-SKVEVSELDYRLDVN-----TLHR---QSD--ADC---------LGLNDIGRVTLKSRQALLFDPYRE-----NRA-----TGSFILIDEATNQTVAAGMIT- A0A0M1UQY2/328-432 PDHASNLDVDIVWMSE-EPL-IKGKQYFIKRATTV-TVGSIDHFYYKTDVN-----TLEQ----SE--ANV---------LNLNEISRAKLDLEQVIAFDSYDK-----NKV-----MGSFIIIDRITNNTVGAGMIR- A0A023EA68/329-434 PQVTQNVLAHIVWMGE-ESL-QPGRVYDVKLATKK-TRGQVEVIRHRIEIN-----KLDQ----LD--ASE---------LHLNEIGLCEVSLTDPVAFDPYTD-----IRD-----TGSFILIDRLTNVTVGAGMIVE A4SRG8/329-434 PQVTQNVLAHIVWMGE-ESL-QPGRVYDVKLATKK-TRGQVEVIRHRIEIN-----KLDQ----LD--ASE---------LHLNEIGLCEVSLTDPVAFDPYTD-----IRD-----TGSFILIDRLTNVTVGAGMIVE A0A192W6H0/332-435 PQVGLAFDAQIVALQP-EGI-EPGKRYWLKSGSRR----------QRVQVQPLSQLELKT-GSWTA--AQR---------LYMNAIGKVRLVFDEAAIFDPYEQ-----NRL-----SGSFILIDPETNNTVAGGMVT- A0A1I9Y0Q8/334-437 -TLLKQVVADVCWLSE-DAL-DLRRKYWIKHGTKQ-TAAKVTAIDTLLDIN-----TQQR----HP--ADG---------LKLNDIARISLTVQQPLAADSYAD-----IRA-----TGAFILIDEVTHQTVAAGMVR- K8Y2V0/307-412 PVVSQDLEANICWMDS-KVL-LSGNKYLLRQTTNS-VKAIVKEVEFKVAPD-----THEK---LDA--SKG---------LSLNEIGKIKIRTARPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- K6IWN0/307-412 PVVSQDLEANICWMDS-KVL-LSGNKYLLRQTTNS-VKAIVKEVEFKVAPD-----THEK---LDA--SKG---------LSLNEIGKIKIRTARPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- A0A0E2DWK5/307-412 PVVSQDLEANICWMDS-KVL-LSGNKYLLRQTTNS-VKAIVKEVEFKVAPD-----THEK---LDA--SKG---------LSLNEIGKIKIRTARPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- A0A0M1YSB2/307-412 PVVSQDLEANICWMDS-KVL-LSGNKYLLRQTTNS-VKAIVKEVEFKVAPD-----THEK---LDA--SKG---------LSLNEIGKIKIRTARPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- M6VK23/307-412 PVVSQDLEANICWMDS-KVL-LSGNKYLLRQTTNS-VKAIVKEVEFKVAPD-----THEK---LDA--SKG---------LSLNEIGKIKIRTARPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- M5V0D9/307-412 PVVSQDLEANICWMDS-KVL-LSGNKYLLRQTTNS-VKAIVKEVEFKVAPD-----THEK---LDA--SKG---------LSLNEIGKIKIRTARPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- D0L3P6/324-430 PFVGRDLDAMVCWFADDTEL-RVGNRYQLLCGTRM-TRAQISGFNYRLDVN-----TLHR---DES--AET---------LQLNEIARVAVHTQEPVMFDAYAR-----NRE-----TGSFILIDEATNKTVGAGMIT- K2PMX8/313-418 PESSQEVEVMLCWLNN-ESA-KPRTKYLVRHTTNE-QTAMIKEVVYKIDIN-----NLTR---SSE--DTE---------LHANDICKVKLKTTKPLHFDSYRE-----NRN-----TGSLILIDPTTNQTVAAGMVI- A0A1A6LCG2/331-433 -ESTNHVLADIVWMTE-QPL-QPGKAYDIKIAGKK-TVGQVETVRHQYDIN-----NLST----HA--VDE---------LPLNGIGLCEWSLNETVALDKYRE-----SAD-----TGGFIVIDRLTNVTVGAGLI-- A0A1D2XY21/331-433 -ESTNHVLADIVWMTE-QPL-QPGKAYDIKIAGKK-TVGQVETVRHQYDIN-----NLST----HA--VDE---------LPLNGIGLCEWSLNETVALDKYRE-----SAD-----TGGFIVIDRLTNVTVGAGLI-- A3UTC2/331-433 -ESTNHVLADIVWMTE-QPL-QPGKAYDIKIAGKK-TVGQVETVRHQYDIN-----NLST----HA--VDE---------LPLNGIGLCEWSLNETVALDKYRE-----SAD-----TGGFIVIDRLTNVTVGAGLI-- A0A1B9QPJ9/331-433 -ESTNHVLADIVWMTE-QPL-QPGKAYDIKIAGKK-TVGQVETVRHQYDIN-----NLST----HA--VDE---------LPLNGIGLCEWSLNETVALDKYRE-----SAD-----TGGFIVIDRLTNVTVGAGLI-- A0A0I9RM79/322-427 PIVDRNFEAMLVWMDE-EPM-DVNKSFFIKQTTNV-SRTRIDSIKYKVDVN-----TMEH----SS--VPF---------LSLNEIARVVFTTAKELFFDPYQK-----NKS-----CGSFILIDPITNNTSAVGMIID A0A1A7PXI5/322-426 -QSQQQLTATLCWFDQ-RPL-NTARKYWLKHTTQN-VFARIKHIDHLLDVK-----TLSK---QQS--AET---------FQLNDLGQVQISLQKPICATTYQQ-----NIG-----TGSFILIDEATYHTVAAGMIL- A0A1J8ZQS5/330-434 -APAKKLEADLCWFDE-APL-SPQRKYLLKQTTST-VFAKIGAVKQVLDVH-----TLSH---ATD--RHE---------LKMNDIGRVALTLQKPIVCDTYDA-----HQG-----TGAFVLIDEATHHTVAAGMIR- A0A1B9PA24/332-435 -TATDQFKAEIVWMTE-KGL-EPGRQYDIKIAGKK-TVGQIDAIHHQVNIN-----SLDT----FD--TTE---------LPLNGIGLCDVSLTETVSLDRYQD-----CAN-----TGGFIFIDRLTNVTVGAGMIQ- A0A0J6G680/329-434 PLVTDNFEAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASIVNKVDVN-----TLEE----GP--ASA---------LQLNEIGKVKISLDAPIALDGYDS-----NRT-----TGSFIIIDRLTNGTVGAGMIVA A0A0D5WY17/332-434 -AAVQSAKVDVVWMAE-QPL-VPGQSFDIKIAGKK-TRARVDNIQYQVEIN-----SLTQ----RV--VES---------LPLNGIGLVDLTFDEPLVLDKYQA-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A166M9P1/329-434 PPVTDQFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHKVDVN-----TLEK----DA--ASA---------LQLNEIGRVKVSLDSAIALDGYDS-----NRT-----TGAFIVIDRLTNGTVGAGMIIA Q6LM69/331-434 -PLSHNLLADIVWMAE-APL-EVGRQYDIKVAGKK-TVGSVQGIRHQVDIN-----NLET----FT--TET---------LPLNGIGLCEVVLNEAIAVDAYQN-----SID-----TGGFIIIDRLTNVTVGAGMVR- G9AH93/327-430 PFVADQFQAHVIWFDA-SPM-LPGRSYVLRTESDS-VSATVTALKHQVNIN-----SFAR----EA--AKS---------LQMNEVGVCNISTQAPIVFDAYKD-----NRA-----TGNFVFVDRATNATVGAGMI-- A0A0Q4EHQ0/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLAE----GP--ASS---------LQLNEIGRVKVSLDAAIALDGYDS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA H4IEZ5/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLILIDRLSNVTVGAGMVH- H4LG03/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLILIDRLSNVTVGAGMVH- E3XII9/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLILIDRLSNVTVGAGMVH- H4JBW4/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLILIDRLSNVTVGAGMVH- H4KL13/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLILIDRLSNVTVGAGMVH- H4IWW1/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLILIDRLSNVTVGAGMVH- A0A139DH45/327-431 PEVHNRFNANIVWMTD-APL-ETGRLYDIKLGPTF-TSGTVKTIHHQTDVN-----TLEQ----QA-NPER---------LQLNEIGLCELTLNQPIAFDAYQR-----NHA-----TGSFIVIDRLTNVTIGAGMI-- E8X8L3/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A0H3NR47/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A1M3ZEI2/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A0U1IPL2/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A0W3RBF6/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A1C0ZJ34/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A0F6B604/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A1M3YY45/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A1K0G638/332-434 -APARHAAIDVVWMAE-QPL-APGQSYDVKLAGKK-TRARIEAIRYQIDIN-----NLTQ----RD--VES---------LPLNGIGLVEMTFDEPLALDIYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A1E5DLB8/327-433 PKVANKVNAHVVWMGE-DPM-RTHKEYIFKFSTKS-CVGKVTGIPHKIDVN-----TLEQ----HAEESET---------LDLNEIALSEIVLTDKIAVDTYQT--------LPQ--TGSFIVIDRHNNVTVGAGMVA- A7LVC0/323-437 PTVDRNFDAMMVWMDE-EPM-DVNKSFFIKQTTNL-SRTRIDTIKYKVDVN-----TMEH----LS--LENGQLTKETLPLQLNQIARVVLTTAKELFFDPYKK-----NKS-----CGSFILIDPITNNTSAVGMIID F3ZTU5/322-427 PKVSRNFESMLVWMDE-EPM-DTDKQFFIKHTTNT-SRIRIDNIKYKVDVN-----TMEH----SK--VQN---------LVLNEIGRVVFTAAKELFFDSYQD-----NKS-----CGAFILIDPITNNTCAVGMIID C6AS02/333-436 PQVGLAFDAQIVALQP-EGI-EPGKRYWLKSGSRR----------QRVQVQPLSQLELKT-GAWNA--AQR---------LYMNAIGKVRLVFDEAAIFDPYEQ-----NRL-----SGSFILIDPETNNTVAGGMVT- T0H2B3/307-412 PIVSQELEANICWMDS-KAL-LSGNKYILRQTTNV-VKAIVKEVEFKIAPD-----THEK---QDA--SKG---------LTLNEIGKIKIRTAKPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- M6VZU0/307-412 PIVSQELEANICWMDS-KAL-LSGNKYILRQTTNV-VKAIVKEVEFKIAPD-----THEK---QDA--SKG---------LTLNEIGKIKIRTAKPVSFDEYRI-----NRS-----TGSFILVDEGTNSTVGAGMIT- A0KTI3/335-440 PQVANQIVADLVWMDE-KPL-QLGQLYDIKVAGKK-TQASVTAIEYVVDVN-----TLAR----SS--ADT---------LGLNAIARVTLELTEDIVFDAYSL-----VRD-----TGGMILIDRLSNATVAAVMVVS N9RQU9/330-434 PLISRSVRASVVWMNE-HPL-VKGKLYNVKIGTQT-VPAKVTAINFRVNVN-----TLEH----TQ--VEE---------LELNAIADVVVEFDAPVVFDQYQD-----SRY-----TGSFIFIDRLSNVTVGAGMVE- K0W007/335-438 PQTGIAFDAQVVALQP-EGI-EAGKRYWLKSGSRR----------QRVQVEPVSQLELKT-GTWNS--AQR---------LYMNAIGKVRLVFDEAAIFDPYEQ-----NRA-----TGSFILIDPETNNTIAGGMVT- R9VAS0/329-434 PPVTDQFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASITHKVDVN-----TLEQ----GA--ASA---------LQLNEIGRVKVALDTSIALDGYDS-----NRT-----TGAFIVIDRLTNGTVGAGMIIA A0A1E7ZFL8/327-432 PLLSSQFKSHLVWMSE-EPM-MPHKQYLFKFATKS-TSGSVSEVEYQIDVN-----TMEH----KP--GAH---------LNLNEIGVVDLKFTQPVACDSYER-----NRA-----TGAFIVIDRLTNGTVGAGMIID N8VGZ6/330-434 PLISRSARASVVWMND-QPL-VVGKLYNVKFGTQT-IPAKVAKINYRTNVN-----TLEK----LQ--VEQ---------LDLNAIADVTIEFDAPVVFDRYQD-----SRY-----TGSFIFIDRLSNVTVGAGMVE- A0A0M9CWT1/337-440 -IVTRHALVDVVWMSE-QPL-VQGQNLDIKVAGKK-SRGKVENIQYQVDIT-----SLTQ----RV--TVN---------LPLNAIGSVEFSFEEPLMLDSYQQ-----NSD-----TGGIIFVDRLTNVTVGAGLVR- A0A0H2QGI8/337-440 -QATHNALVDIVWMSE-QPL-AQGQSIEVKVAGKK-SRARVENIRYQVDVN-----NLVQ----KV--ATE---------LPLNAIGSVELSFDEPLLLESYQL-----NAD-----TGGMILIDRLTNVTVGAGLVR- V2TFM4/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A1G1XU38/314-417 -EISQEFEAMVFWLAK-KPA-RKNQRFLIKQTTKT-TTGFFDQVIYQIEIN-----TLHR----KQ--SQG---------LAENQVGKVIIKTLEPLLFDPYQK-----NKA-----TGSFIMIDEETNNTVGAGIIL- A4X321/326-433 PAVAQDIEAMVCWMDETRPL-QLGGRYVIKHTTRS-ARAIVRGLHYRLDIN-----SLHR---DES--AGE---------LKLNEIGRVRFRTMVPLLVDEYRR-----NRT-----TGGFVVIDETTNRTVGAGMIVE D6JE90/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIRYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- S3VCB0/306-411 PLISQDLDADVCWMDT-KAL-LPGNKYLLRQTTGS-VKAAVKEISFRIETQ-----THEK---LDA--SQ----------LGLNEIGRIRIRTAKQIAFDEYSE-----NRG-----TGSFILVDEGTNNTVGAGMIVG A0A011Q858/331-435 PTVSKQIDAMLCWLAE-APL-DPRRKYLIRHTTRD-SKAMLAGIDYRIDIN-----TMER----QA--SER---------LAMNDIARVRFKLAQPIFADPYAE-----SRG-----TGAFIVIDESSNNTIGAGMIV- W2DNM3/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLEE----GP--ASA---------LQLNEIGRVKVSLDAAIALDGYAS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA A0A1H2P6A9/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSITSIVHRVDVN-----TLEE----GP--ASA---------LQLNEIGRVKVSLDAAIALDGYAS-----NRT-----TGAFIVIDRLTNGTVAAGMIIA A0A147KJR1/313-419 PNVTQDLDAMVCWMAEGRSL-TPRTKLLIKHTTRT-AKVMVRDLLYRLDVN-----TLHR---DES--ATS---------LSLNEIGRVALRVTQPLFVDDYQR-----NRL-----TGGFILIDEGTNATVGAGMVL- A0A0T5XZZ8/309-415 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVS- B0NR79/323-437 PMMERNFEAMVVWMDE-EPM-DVNKSFFIKQTTNL-SRTRIDNIKYKVDVN-----TMEK----LS--LDNGRLTKETLPMQLNQIARVVLTTAKELFFDPYQT-----NKA-----TGSFILIDPITNNTSAVGMIID R6B0C8/323-437 PMMERNFEAMVVWMDE-EPM-DVNKSFFIKQTTNL-SRTRIDNIKYKVDVN-----TMEK----LS--LDNGRLTKETLPMQLNQIARVVLTTAKELFFDPYQT-----NKA-----TGSFILIDPITNNTSAVGMIID S3YHQ3/323-437 PMMERNFEAMVVWMDE-EPM-DVNKSFFIKQTTNL-SRTRIDNIKYKVDVN-----TMEK----LS--LDNGRLTKETLPMQLNQIARVVLTTAKELFFDPYQT-----NKA-----TGSFILIDPITNNTSAVGMIID A0A108TBM7/323-437 PMMERNFEAMVVWMDE-EPM-DVNKSFFIKQTTNL-SRTRIDNIKYKVDVN-----TMEK----LS--LDNGRLTKETLPMQLNQIARVVLTTAKELFFDPYQT-----NKA-----TGSFILIDPITNNTSAVGMIID I9QHU8/324-438 PVVDRNFEAMLVWMDE-EPM-DLNKSFFIKQTTNL-SRSRISNIRYKVDVN-----TMDQ----LS--VDNGRLTPDDLPMQLNQIARVVLTTAKELFFDPYQK-----NKA-----TGAFILIDPITNNTSAVGMIID A0A108TAK8/324-438 PVVDRNFEAMLVWMDE-EPM-DLNKSFFIKQTTNL-SRSRISNIRYKVDVN-----TMDQ----LS--VDNGRLTPDDLPMQLNQIARVVLTTAKELFFDPYQK-----NKA-----TGAFILIDPITNNTSAVGMIID A0A1G4EXZ5/329-432 PEVADRFAADIVWFGE-DPL-LPGRSYLLRTETDQ-TPVTVNAIRHRTDVN-----TFIQ----EE--TAR---------LDLNEIGRCHLQTVDPIAFDPYGE-----NRA-----TGAFVLIDRLTNATVGAGMI-- J3BG81/329-434 PQVTDAFDAMLVWMAE-EPM-LPGKKYDIKRATTY-VPGSITSIVNRVDVN-----TLEE----GP--ASA---------LQLNEIGRVKISLDAAIALDGYAS-----NRT-----TGSFIVIDRLTNGTVAAGMIIA A0A090UGL5/333-435 --AVQHAAVDVVWMAE-QPL-APGQSYEIKIAGKK-TRARVDNVQYQVDIN-----NLTQ----RE--VDN---------LPLNGIGLVNLTFDEPLVLDTYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVR- A0A191ZZ35/328-432 -NAAKKLHADLCWFDE-HEL-NPARKYVLKHTTAT-VFARVSEVERVLDVH-----TLSH---ETG--RKQ---------IALNDIGTVNISLQKPIVCDAYGD-----NPA-----TGAFILVDEATHHTVAAGMIR- S3H4P6/285-390 PYVDDHFQACLIWFDP-DPM-RPGRGYLLRTENDS-VEVTITALKHRVDVD-----SLLC----QP--AST---------LEMNEIGVCNILAQRPLAFDAYEQ-----NRS-----TGNFVLVDRASGATVGAGMMVS A0A1K1R0D8/313-418 PESSQDIEVMLCWLNN-SPA-KPRAKYSVRHTTND-QKAMIKEILYKIDIN-----TLDR---SPN--GED---------LNMNDICKVKLRTTKPLLFDSYRD-----NRT-----TGSLILIDEDTNETVAAGMIL- A0A0H5NLG6/309-415 PQVGRDIDAMVCWFAEDTQL-TPGARYTLQHTTRS-VTAEIRRLDYRLDIN-----TLHR---DDS--AQS---------LSLNEIGRIQLHTRQPLLFDPYRR-----NRT-----TGSFILVDDATGNTVAAGMIS- A0A0M3B9M8/335-439 PMTGFHFEAQLVSLQP-GGI-EPGKRYWLKSGSRR----------QRVSVEPVSQLELST-GKWQP-HAST---------LSMNAIGKVRLSFEEQAVFDTYEQ-----NRA-----TGAFILIDPDTNNTVAGGMIT- A0A0D1PL69/329-434 PPVTDQFDAMLVWMAE-EPM-LPGKKYDIKRATSY-VPGSIASIAHKVDVN-----TLEQ----GA--ASA---------LQLNEIGKVKVSLDAPIALDGYDS-----NRT-----TGAFIIIDRLTNGTVGAGMIIA E2DQH8/327-430 PFVADQFQAHVIWFDA-SPM-MPGRSYILRTETDS-VSATVTALKHQVNIN-----SFVR----EA--AKS---------LQMNEVGVCNISTQTPIAFDAYKD-----NRA-----TGNFIIVDRVTNATVGAGLI-- A0A0Q5EQJ3/328-432 PQTGHAFDAQIVALQP-GGI-EPGKRYWLKSGSRR----------QRVTVQPTTQLDLKN-GQWLP-HAET---------LSMNAIGKVRLSFDETAIFDPYDQ-----NRS-----TGSFILIDPDTNNTVAGGMIL- R8B5H3/327-432 PEVGNRFNANIVWMTD-APL-ETGRLYDIKLGPTF-TSGTVKTIHHQTDVN-----TLEQ----KN-NPTE---------LQLNEIGLCELTLSQPIAFDAYPR-----NHA-----TGSFIVIDRLTNVTVGAGMIA- A0A173X003/306-409 -PVSKSFTATVLWMDD-GEL-LPGKEYFVKIGTKE-IPGIVTNIQYKIDVN-----TGEY----IP--ANN---------LRKNEIAVCDVILQEEIVLDEFDD-----HKA-----LGELILIDRITNMTSACGVIK- A0A179DBA2/308-411 PLVSNQIEADICWMDT-REL-DTTATYFIQHQSKV-TRCKIKEVLYKVNIN-----TLEK----VN--ADT---------FGLNDIGRVEIKTADELAFDPYES-----NKR-----NGGAIIIDSRTNVTVGALML-- A0A0G3Z324/330-434 -EPAKKLEADLCWFDE-TPL-SPQRKYLLKQTTST-VFAKIGGVKQVLDVH-----TLSH---ATD--RHD---------LKMNDIGRVALTLQKPIVCDTYDA-----HPG-----TGAFVLIDEATHHTVAAGMIR- A0A0B2AZ12/330-434 -EPAKKLEADLCWFDE-TPL-SPQRKYLLKQTTST-VFAKIGGVKQVLDVH-----TLSH---ATD--RHD---------LKMNDIGRVALTLQKPIVCDTYDA-----HPG-----TGAFVLIDEATHHTVAAGMIR- A0A0A8GD00/333-436 PQVGLAFDAQIVALQP-EGI-EPGKRYWLKSGSRR----------QRVQVQPLSQLELKT-GTWNA--AQR---------LYMNAIGKVRLSFDEAAIFDPYEQ-----NRQ-----SGSFILIDPETNNTVAGGMVT- D5W4H9/329-434 PEPAKKLEADLCWFDD-TPL-STQRKYLLKQTTNT-VFAKIGAIKEVLDVH-----TLSQ---ATD--RKE---------LAMNDIGRVALTLQKPLVCDAYDA-----HQG-----TGAFVLIDEATNHTVAAGMIR- C6IER6/322-436 PIVDRNFEAMMVWMDE-EPM-DINKSFFIKQTTNL-SRTRIDAIKYKVDVN-----TMEH----LS--IDNGQLTKDNLPLQLNQIARVVLTTAKELFFDPYKK-----NKS-----CGSFILIDPITNNTSAVGMIID A0A174QPD1/322-436 PIVDRNFEAMMVWMDE-EPM-DINKSFFIKQTTNL-SRTRIDAIKYKVDVN-----TMEH----LS--IDNGQLTKDNLPLQLNQIARVVLTTAKELFFDPYKK-----NKS-----CGSFILIDPITNNTSAVGMIID A0A1H1QA35/310-415 PAAVQDVDAMICWMDESAAF-VPGKKYAIKHTTNW-ARAVVKGINYRVDVN-----TLHR---DEE--ATQ---------IGLNEIGRVQLRVTKPLFVDSYQQ-----NPQ-----TGSFILVDESTNKTVAAGMI-- K8A5F7/333-434 --AVQSAAVDVVWMAE-QPL-VPGQSYDIKIAGKK-TRARVDNIQYQVDIN-----NLTQ----RV--VEN---------LPLNGIGLVDLTFDEPLNLDKYQE-----NPV-----TGGLIFIDRLSNVTVGAGMV-- A0A031JLG4/336-439 PQAADQFEATIVWMSD-EEM-LPGRPYWLKIGTQT-VTATVQQPKYQVNVN-----TMEH----LA--AKT---------LDLNAIGLANLSTDKQIVFEPYKE-----NRT-----LGGFILIDKISNATVAAGML-- A0A0T5PN23/326-430 PHVSSRLRARLIWMHE-NAM-KPERQYYIKFACKT-TSGEIEKLHHRIDVN-----TLAE----KN--AEV---------LAMNEIGLVDVKLTEPMAFDAYSK-----NKQ-----TGAFIIIDRLSNLTLGAGMIE- A0A174TWK8/322-436 PVIDRNFEAMMVWMDE-EPM-DINKSFFIKQTTNL-SRTRIDAIKYKVDVN-----TMEH----LS--IDNGQLTKDNLPLQLNQIARVVLTTAKELFFDPYQK-----NKS-----CGSFILIDPITNNTSAVGMIID R6VDX8/322-436 PVIDRNFEAMMVWMDE-EPM-DINKSFFIKQTTNL-SRTRIDAIKYKVDVN-----TMEH----LS--IDNGQLTKDNLPLQLNQIARVVLTTAKELFFDPYQK-----NKS-----CGSFILIDPITNNTSAVGMIID A0A1E9C1J3/322-436 PVIDRNFEAMMVWMDE-EPM-DINKSFFIKQTTNL-SRTRIDAIKYKVDVN-----TMEH----LS--IDNGQLTKDNLPLQLNQIARVVLTTAKELFFDPYQK-----NKS-----CGSFILIDPITNNTSAVGMIID A0A1E4X2G3/326-428 --NVSHVNCMLVWLHE-QPL-QPHQQYEIRIGTRV-LTGSVEAIDYRIDVN-----DFSH----HA--AAH---------LRLNEIAQCKVKFTQSITVDLYQE-----SHK-----TGSFIVVDRISNATLGAGMIS- A0A0B7JGC1/331-433 -PLSNNVLADIVWMGE-TAL-AAGRQYDIKVAGKK-TLGSVSAIRHQVDIN-----SLDT----FA--TET---------LPLNGIGLCEVNLHDAIAVDSYQT-----CKD-----TGGFIIIDRLTNVTVGAGLV-- A0A0Q4NP40/332-434 -KSVQNAKVDVVWMAE-QPL-SVGQSYDIKVGGKK-ARARVENIDYQVEIN-----SLTQ----RV--VET---------LPLNGIGLVELAFDEPLVLDNYQS-----NAV-----TGGIIFIDRLTNVTVGAGLV-- A0A066URD0/331-433 -ASTNHILADVVWMTE-QAL-QPGREYDIKIAGKK-TVGQVTAVRHQYDIN-----NLAT----HE--ASE---------LPLNGIGLCEWSLNETVALDKYRD-----SAD-----TGGFIVIDRLTNVTVGAGLI-- A0A1C6RN64/327-434 PAVAQDIEAMVCWMDETRPL-QVGGKYAIKHTTRA-ARAIVRGLHYRLDIN-----SLHR---DET--AGE---------LKLNEIGRVRLRTTVPLLADEYRR-----NRT-----TGGFVIIDETTNRTVGAGMIVE E2SEP8/310-416 PTSTQDVEAMVCWMDGDLSL-SPDSTYTILHTTRE-TRASVKDLEYRLDIN-----TLHR---DQE--ATA---------LGLNEIGRVRLRTQKPLHLDAYRR-----NRD-----TGSFILIDEATHRTVAAGMIL- B2PZ75/337-439 -QSTHHALIDVVWMSE-QPL-VQGQQLDIKIAGKR-SRAKVENIHYQVDVN-----NLTQ----KV--ATE---------LPLNGIGLVEFSFDEPLLLDNYQH-----NAD-----TGGMILIDRLTNVTAGAGLV-- A4G7P0/338-441 -ELLKTVHADLCWLSE-EPL-DLRRKYWLKHTTRQ-VGARVTKIESLLDIN-----TQEK----RA--ADE---------VKLNGIASVTINVQQPLAADAYDA-----IRS-----TGAFILIDEVTHQTVAAGMIR- A6GJE6/361-464 -HVSRRLTATLVWMHD-IPL-EPNRQYLIKHMTTL-VSGTITAVHHRLDMD-----SLEP----VD--ADT---------LSLNDVGDVTLSLNRPLILDEYEA-----DKT-----AGSFVIIDRVSNVTIAAGMIR- A0A1E5IVF1/326-430 PNSSAHFEADVVWMTE-EAL-CVDREYAIKHGSKA-VYGYADAINYKVDIN-----HLTQ----HP--AQQ---------LALNEMGNCHFSVTEPLQFDPYDN-----NRD-----TGAFIIIDRLTNVTVGAGMIR- A0A081V2L3/330-434 -EPAKKLEADLCWFDE-TPL-SPQRKYLLKQTTST-VFAKIGGVKQVLDVH-----TLSH---ATD--RHE---------LKMNDIGRVALTLQKPIVCDTYDA-----HPG-----TGAFVLIDEATHHTVAAGMIR- D7I9C8/322-436 PIVDRNFEAMMVWMDE-EPM-DINKSFFIKQTTNL-SRTRIDAIKYKVDVN-----TMEH----LS--IDNGQLTKDNLPLQLNQIARVVLTTAKELFFDPYKK-----NKS-----CGSFILIDPITNNTSAVGMIID D5V7W8/342-447 PQVSNKLEVMVVWMDE-KKL-ELNNNYIIKRATSV-INGAFKSIEYKKDIN-----TFDE----VK--ANH---------LELNDIAKCTLAIDRQIAVDPYNK-----NRY-----TGSFIIIDRYSNTTVGAGMIIS L8JRZ8/321-426 PNIGQDIDVMLCWMNA-KPL-VASGKYGIRHTTSD-ARCMVKNIHYKMDIN-----TLHR---IED--DKN---------IGMNDIARVSLRVTKPLFYDRYSR-----NRI-----TGSVILIDESTNETVAAGMII- A0A0B4XP18/327-431 -TLGHAFMAHVVWMHD-QPL-QTGKTYDFKLGTTF-TSGQVTEIVHQIDVN-----TLAQ----HA--AED---------LPLNGIALCRVQLTRAVAFDPYDV-----CKA-----TGSLIVVDRLSNVTVGAGMVVS E0M4M6/333-435 --AVQSASVDVVWMAE-QPL-QAGQSYDLKIAGKK-TRGRVEKVLHQVEIN-----SLET----RQ--VDA---------LPLNGIGRIELTFDEPMVLDSYQQ-----NPV-----TGGMIFIDRLTNVTVGAGMIH- A0A1C3Y8K5/333-436 PQVGLAFDAQIVALQP-EGI-EPGKRYWLKSGSRR----------QRVQVQPLSQLELKT-GIWNP--AQR---------LYMNAIGKVRLVFDEAAIFDPYEQ-----NRQ-----SGSFILIDPETNNTVAGGMVT- W4SFR3/54-157 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- W4S798/54-157 PEVADQFAAHLLWMDD-AAL-LPGRPYWLKIGTRT-VTASISEIKHKVDVN-----TQER----LA--AKR---------LELNEVGYCNLALDEPIAFSPYAR-----NRV-----LGGFILIDRQSNATVAAGTL-- A0A1C0B4V0/324-428 -DEASSFDVDLVWLSE-NAL-VKGKQYFIKRATTT-TSGTINEIYYKTDVN-----SLKQ----EK--TDN---------LVLNEIARVKLDLEQNIAYDSYDK-----IKT-----MGSFIIIDRVSNNTVGAGMIIG Q1H0P5/326-431 PAPVKQLNAMVCWLSE-TPL-SPARTYIIRHTTRE-SKAKVASIAYKIDVN-----TTEQ----LA--AEGS--------LNMNDIASISFKLAQPLMVDPYAV-----NRA-----TGSFIIIDESTNNTVGAGMVQ- A0A0B8PAE0/272-378 PSVTNKVQAHVVWMGE-NPM-RTHKEYVFKFATKS-CTGKVTAIPHKIDVN-----TLEK----HAENSET---------LELNEIALSEISLTDKIAVDTYQS--------LPQ--TGSFVVIDRHTNVTVGAGMVE- C0N8C1/333-437 PHVSSQFKAMVVWMTE-QPL-VAGKQYSIKVGVND-STGSLTAIDYQIDVN-----TLEQ----NI--VSE---------LKLNEIGLCEFSLNKPVVFDNYKR-----NRN-----TGSFIIIDRLTNVTIGAGMIA- A0A0U0QXU2/52-158 PRITQEFDATVCWMADNAVL-EPGRDYVVKHTTRT-VRARIAGLDYRLDVN-----TLHR---DKT--ATA---------LKLNELGRVSLRTQVPLLLDEYTR-----NAS-----TGSFILIDPDTNGTVAAGMVS- A0A127PGJ6/338-442 PALLKTVSADLCWLSE-DTL-DLRRKYWLKHSTKQ-VAARIAKVDTLLDIN-----TQER----RP--AES---------LKLNDIARVSLNLQQAIAADSYDA-----IRA-----TGAFILIDEVTHQTVAAGMIR- A0A0H3EKC4/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A0W3CRU7/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- B7MKM5/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A0D8W064/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A0G3J148/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A0A0E2L114/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- V0VLT3/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- A1AEU5/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- Q1R7U0/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- T6GSF3/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- Q8FEJ1/333-435 --AVQSASVDVVWMAE-QPL-SPGQSYDIKIAGKK-TRARVDGIHYQVDIN-----NLTQ----RE--VEN---------LPLNGIGLVDLTFDEPLVLDRYQQ-----NPV-----TGGLIFIDRLSNVTVGAGMVH- #=GC scorecons 5355446463558646045603676383573464305353633546556770000065440000340054300000000083795773445444365467483300000753000005957868953684976787610 #=GC scorecons_70 ________*___**_____*__***_*__*__________*____*__***_____________________________*_**_**____________*_*_______*________*_*****__**_*******__ #=GC scorecons_80 ____________*__________*__*__*___________________**_____________________________*_**__*____________*_*________________*_**_**___*_**_***___ #=GC scorecons_90 ____________*_____________*_____________________________________________________*__*_________________*________________*__*_**_____*___*____ //