| Definition | Clostridium botulinum A2 str. Kyoto chromosome, complete genome. |
|---|---|
| Accession | NC_012563 |
| Length | 4,155,278 |
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The map label for this gene is grsB [H]
Identifier: 226947537
GI number: 226947537
Start: 365497
End: 376245
Strand: Direct
Name: grsB [H]
Synonym: CLM_0373
Alternate gene names: 226947537
Gene position: 365497-376245 (Clockwise)
Preceding gene: 226947536
Following gene: 226947538
Centisome position: 8.8
GC content: 26.76
Gene sequence:
>10749_bases ATGAGAATAGAAAATAAATTAGATAGAAGTAATGTAGAAAATTTCATGTCATTAACTAGTTTACAACAAGGAATGCTATT TCATTATATAAATGATAAGAAAAGTACAGAATATCATGAACAATTAAGTCTAACTATTGATGGAGATCTAAAATTAGATT TACTAGAAAAGGCTTGGAATATTGTAATAGAGAATAATGAAATGTTAAGAACAATTTTTAGATGGAAAGGAATAGATAAA CCGGTACAAATTGTTCTTAAAAAACATAAAGTATCAATTCAATATGTAGATTTTAAACATGAAAAAGATAAAGATAAAGC GATAAATGAAATTAAGACTAAGGATTTGAATGAGAGGATAGATATAACAAGAGAAACTTTAAGAATTTATTTGTGCAAAT TAGATGAGAATATTCATGAAATGATTATAAGTAACCATCATATTTTATACGATGGTTGGAGTAATGGAATAATCTTAAAG GAACTTATAGAAACATATTCTTGTCTATATGAAAATAAAGGAATTAAAATCATTAATAAAACAAAGTTTAGTGAATTTAT TAAATATGTAAATAATATTAAGAAAAATGAAGAAAAGAAATACTGGTCAAAGTATATGGGAGATTTAGAAGATAAAAATG ATTGTTTTAGTTGTAATAAAACAGGATGTTATAAAGAAGTATACTATGAGATGGATGAAAGTAAAACAAATAAAATTAAA GATTTTGCTAAAGAAAATAAGGTTTTATTATCATCAATTTTATATGGTGCATGGGGAATTTTGCTTCAAAAAATTAGTGA CTCAAATGAAGTTTTATTTGGTACTGTAGTCTCAGGAAGGCCAGAAAGTATAAAATCTGTAGATAAAATGGTAGGATTAT TTATAAATACTGTTCCTTTAATAGTAAAATCAGAAAATAACACTAAATTTATAGAATTAATTAATGAACTAGATTTAGTT CTTAATGAAAGAAAAAGTTTTGAGAACACATCATTAGTAGATATAAAAGAATATTGTAACTTAAAAGCAAATGAAGAGTT TTTTAATTCTATAGTTACCATAGAAAACTACCCCTTAGATCTAAATTTAAACAAAGAAAATATATTAAAAGTAGAAAAAT TCTCAATAATAGAAAAAACGAATTATAATATGGCCCTAGAAATATTAGCTTTTCATGGAATAGAATTTAAGTTTAATTTT AATGATAAATCAATTGATAATAATATAGTAGAGAAATTCGGAAATTATTTAGAAAGAATTATAGAGTCTTTATTAGATAA TCCTAATATTACTGTAAATGAAATTAACTTGTTATCAGCAAAGGAAGTAAATCAGATACTCTATGAATTCAATAATACAA AATCAGATTATCCAAAAGATAAAACAATACAAGATTTATTTGAAGAGCAAGTAAAAAAAACACCAGATAATATTGCATTA GTATTTAAAAATAAAGAAATAACATATAAAGAACTTAACGAAAAAGCAAATCAGTTAGCAAGATCATTAAGAGAAGAGTA TGATGTAAAAAATGGAGATGTTGTAGCTATTCATTTTGATAGAAGTACAGAAATGGTGATAGGAATAATAGCAACTTTAA AAATTAATGCAATATGTCTACCCATAGAAACAAAATATCCAATTGGTAGAGTATCAGAGATGCTTATTGATAGTAACACA AAGATTGTTCTAAATAATGATGAAACCATTATTTATCAAGGGTTTAATGGGATGTCAATAAAGCTTGATAAAGATCAATA TATTGAGAATGATAAAAACAATTTAAGAAGTAGTGGTGATCCAGAGGATTTAGCTTACTTAATATACACTTCAGGATCAA CTGGAAAACCTAAAGCAGTAAAAATAAATCATAAAGGTATTATAAATCATGCTTTTGCAAAAATTAAAGAGACAAATATG AGTGAAAGTGATATATGTTGTCATAATTTAAGTTTTAATTTCGTTGCTTCTATTTGGCAAATATTTTCACCAATGTTTTT AGGAAGTAAAGTTTATTTATATGAAGATGATATTATTAGTGATGGATATAAACTGTTTGATAAGATGGAATATGATAGGA TAAGTATAGTGGAAGTAGTGCCAGCATTATTAAATTTATTTTTAGAATTAGGGAATGAATCTCGTAATAATATTACTATG AAAAATATAAAAAAGATACTTTTGACTGGTGAAAAAGTAGAAACTGAGCTAGTTAACAAATTTTATAATAAATATAATGT AGATCTAATAAATGCGTATGGGCAGAGCGAATTTTCTGATGACACAATACATTATCACATACCATATAACAATAACACAA AAAAAGTACTAATAGGAAAACCTACAAATAATACTAGAATATATATTTTAGATAAATTAAATAAGATAGTACCCGTAGGA ATAGCAGGAGAAATTTGTATTTCAGGAGACGGAATTGCAAAAGGATACATTAATAATGAGAAGTTAACATCAGAGAAGTT TGTAGATAATCCTTTTGAAGAAGGAACAAAAATGTATAAAGCGGGAGATTTAGCAAGATGGCTACCAGATGGAAATATAG AATTTTTAGGAAGAATAGATAACCAGGTTAAAATAAGAGGCTTTAGAATAGAACTTGGGGAGATAGAAAATAGATTATTA CAACATGAGAGTATTAGAGAAGCAGCGGTATTAGTAAAGGAAAATGAGGAAAATGAAAAATATATATGTGCTTATGTAGT AAGTAAGAAGTCCTTTGATGAGTTAAACCTAAAGAACTATCTAAAAGAAACATTGCCAGATTATATGATACCGACTTATT TTATACAGTTAGAAAAAATGCCGTTAACTGCTAATGGAAAACTTGATAGAAAAGCACTCCCAAAGCCGAATTTAGATATT AGTTTAAATGAATATGAAGCTCCAAGAAATGAATTAGAGGAAACTTTAGTAAAAATATGGAGTGAAGTATTAAATGTTAA AAAGATAGGAATAAATGATAATTTCTTTGATTTAGGTGGACACTCTTTAAAAGCAACAGTGCTTATGTCTAAGATTCATA AAGAATTAAACAAAGAAATACCATTAAAGGAGCTATTTAAATCACCAACAATAAAAGAGTTCGGTAAGTACATTGAAGAT GTGGAAGAAAACCCTTATTCAAAGATAGAAAAAATAGAGGAAAAAGAATATTATGAAGCATCATCAGCTCAAAAGAGAAT GTACATGCTTCAACAGTTTGATAAAGATAGCACAGCTTATAATATGCCTGTAGCTTTTCAGTTAGAAGGAAAAATTAATA AAAATAAAATAGAAGAAACTTTTAGAAAGATAACCGAAAGACATGAAGGGTTAAGAACTTATTTTGAAACTTTAGATGGA GAAATAATACAAAAATTACAAAATGATCATGAATTTAAACTAGTAGAGAGAAAAGAAAATGGATATATAGATAACATTAT AAATAAGTTTGTAAGACCATTTAATTTAGGAAAAGCACCATTATTTAGAGTAGAGCTTATAGAAAATAAAGAAAAAACTT ATTTATTAATAGATATGCACCATATAATATCAGATGGTGTATCTATGAGTATATTAATAAAAGAATTTACAGAAATTTAT AATGGAAAAAATTTAGAACCTTTAAAGCTTCAATATAAAGACTTTGCAGCATGGCAGAATAATTTCTTAAAATCAGAAGG AATGAAAAAGCAAGAAGAATATTGGATTAATAAGTTTAGTGATGAAATACCAATATTAAATATACCTACAGATTATAAAA GGCCAGCTGTACAAAGTCATGAAGGTGATAGTGTAAGTTTTGGAATCAATGAAGACACAACATTAAAATTAAGAAAGCTT GCAAAAGAAACAGGAACAACAATGCATATGGTTATGTTATCAGCATTTAATATACTTTTATCAAAATATAGTGGACAAGA GGATATAGTAATAGGAACACCAATAGCTGGAAGACTACATGCAGACCTTGAAAATATAATGGGTATGTTTGTAAATACAT TGGCATTAAGGAATAAGCCAGAGGGAAATAAGAAATATATAGATTTCTTAAAAGAGGTGAAAGAAAATTCCCTAAAGGCC TATGAAAACCAAAGTTATCAGCTTGAAGCTTTAGTAGAAAAGTTAGATATAAGAAGAGATACAAGTAGAAACCCATTATT TGATGTTATGTTTAATATGGTTGATACAGTAACGGATGGAGATTTTAAGTTAGATGATATTGCATTAAAACAATATAATA ATGAAAATAAAATATCTAAATTTGATTTAACATTAAATGCTATAAAAAATGGTGCTAGATTAAACTTTTCTATAGAATAC TGTACAAGATTATTCAAAAAAGAAACAATAGAAAGAATAAGCTGTCTTTATGTAAGAATATTAGAGAGTATAATAAATAA TGTAGAAATAAAATTAAGTGAAATTGATTTATTATCAGAAGCAGGAAGAAATCAAATACTATATAAATTTAATGATACAA AGGTAGACTATCCAAAAAATAAAACAATACAAGAATTATTTGAAGAGCAAGTAGAGAAGACACCAAACAATATTGCAGTA GTATTTGAAGATAAAAAGTTAACTTATAAAGAATTAAACGAAAAGTCAAATCAGCTTGCAAGAGTATTAAGAAGTAAAGG GGTTAAGGCTGATTCTATAGTAGGAATAATGGTGGAAAGATCCCTAGAAATGATAATAGGAATAATGGGAATTCTAAAAG CTGGGGGAGCATATTTACCAATAGATCCAAGTTATCCGAAGGAAAGAATAGAATATATGTTGAATGATTGCGGAGCTAAA ATCATTTTAACAGAATATGAACTTGCAAGGTCTATAGAATATGGTTTAGAGACTATTGATTTACAAGATGATAAAATTTA TGAAGAAGAAAAAAATAATCTATGTAAATTAAATAATTCAGATGCTCTAGCATATATTATATACACATCAGGTTCAACAG GGATACCTAAAGGAGTATTAATAGAACATAAAAGTGTTGTGAGACTGGTCAAGGATACTAATTATATAAATATAATTGAA GATGACGCAATATTGCAGTTATCTAATTATGCTTTTGATGGATCAGTTTTTGATATATATGGTGCACTATTAAATGGAGC AAAATTGGTGTTAATAGATAAAATTGATTTAACTGAAATAAATAGATTAGGAAGTGTCATAGTAAATGAAAAAATAAGTG TATTTTTCACTACTACAGCATTATTTAATACCATTGTGGATACTAATATTGAATACTTAATAAATGTTAAGAAAATACTT TTTGGTGGAGAGAGAGTTTCTGTAAAGCATACTAAAAGGGCATTAAAGTATCTTGGAAAGGAACGCTTAGTTCATGTTTA TGGACCAACAGAAGGAACTGTTTATTCTACCTATTATTTTATTGATAATATAGAAAAATATGCAGAAAATATACCAATAG GAAAATCTATAAATAATTCTAAAGCATATGTGTTAGATAGAAATGATAATCTACTTGCAATAGGAATTGCGGGAGAATTA TGTATATCGGGAGATGGTTTAGCAAGAGGATATTTAAATAGACCGGAATTAACATCTGAAAAGTTTGTAGATAATCCTTT TGAAGAAGGAACAAAAATGTATAAAACGGGAGATTTAGCAAGATGGCTACCAGATGGAAATATAGAATTTTTAGGAAGAA TAGATAACCAGGTTAAAATAAGAGGATTTAGAATAGAACTTGGAGAGATAGAAAATAGATTATTACAACATGAGAGTATT AAAGAGGCAGCGATATTAGTAAAGGAAAATGAGGAAAATGAAAAATATATATGTGCTTATGTAGTAAGTAAGAAGTCCTT TGATGAGTTAAACCTAAAGAACTATCTAAAAGAAACATTGCCAGATTATATGATACCGACTTGTTTTATGAAGTTGGAAG AAATTCCATTAACTAGTAATGGAAAATTTGATAGAAGATTGCTTCCGGATCCAAGTCTTTGCAGAAGTTTAAATGAATAT GAAGGTCCAAGAAATGAAATAGAAGTAATATTAACAAAATTATGGAGCGAAGTATTAGGTATTAAGAAAATCGGAATAAA TGATGACTTTTTTGATTTAGGTGGACATTCATTGAAAGCAACAGTTCTTATGTTTAAGATTCATAAAGAGTTAAATAAAG AAGTACCGTTAAAAGAGATATTCAAGTTACCAACAATAAAAGAACTAAGTGAATTTATTCAAAGATTAGAAGAGAATACT TATTTAAAAATAGAAAAAATAGAGGAAAAAGAATATTATGAAGCATCATCAGCTCAAAAGAGAATGTACATGCTTCAACA GTTTGATAAAGATAGCACAGCTTATAATATGCCTGTAGCTTTTCAGTTAGAAGGAAAAATTAATAAAAATAAAATAGAAG AAACTTTTAGAAAGATAACCGAAAGACATGAAGGGTTAAGAACTTATTTTGAAACTTTAGATGGAGAAATAATACAAAAA TTACAAAATGATCATGAATTTAAACTAGTAGAGAGAAAAGAAAATGGATATATAGATAACATTATAAATAAGTTTGTAAG ACCATTTAATTTAGGAAAAGCACCATTATTTAGAGTAGAGCTTATAGAAAATAAAGAAAAAACTTATTTATTAATAGATA TGCACCATATAATATCAGATGGTGTGTCTATGAGTATATTAATAAAAGAGTTTACAGCCTTATATAATGGAGAAAATTTA GATCCTCTAAAACTTCAATATAAAGATTTTGCAGCATGGCAGAATAACTTCTTAAAATCAGAAGAGATAAAAAAGCAAGA AGAGTATTGGATCAATAAGTTTAGCGATGAAATACCAATATTAAATATGCATACGGATTATGAAAGACCGGTTATCAAAA GCTTTGAGGGAGATGGATTAAGTTTTGAAGTAGATGAAAAAGTTACAGAAAACTTAAGAAAAATTGCAAGAAAAACAGGA AGTACAATGAATATGGTTTTAATATCAGCCTTTAATATACTTTTATCAAAATATAGTGGTCAAGAAGATATCATAATAGG AACACCAATAGCAGGAAGAACTCATGCGGATCTTCAAAATATGATGGGTATGTTTGTAAATACATTAGCTTTAAGAAATA AGCCTAAAGGTGAAAAAAAGTACGTAGATTTCTTAAAAGATGTAAAAGAAAATTCTATAAAAGCATATGAAAATCAAAGT TATCAGATTGAGTATTTAGTAGAAAAATTAGATATAAGAAGAGATACAAGTAGAAATCCATTATTTGATGTAATGTTTAA TATGATTGATATGATAACAAATAAGCATATTAAGCTAAATGATGTTGTATTAAAACAGTATATTAATGAAAATAAAATAT CTAAATTTGACTTAACATTAAATGCTTTAGAAGAAGATAAAAAATTGAAATTGAATTTCGAATATTGCTCAAAATTGTTT AAGAAAGAAACAATAGAAAGATTAAGTAATCATTATGCTAAGGTTTTAAAAGTAATATCAAACAACCCTGAAATAAAACT GAAAGAAATTGATTTATTAACAGAAAAAGAAAGAAATCAGATACTTTATGAATTTAATGACACAAAAGTAGATTATCCAA AAGATAAAACAATACAAGAACTATTTGAAGAGCAAGTAGAGAAAACATCAAATAATATTGCAGTAGTATTTGAAGATAAG AAGTTAACTTATAGAGAGTTAAATGAAAGAGCAAATAGTTTGGCAAGAGTGCTAAGAGATAAAGGGGTTAAAGCTGATTC TATAATAGGAATAATGGTGGAAAGATCTCTAGAGATGATTGTAGGAATAATAGGAATCTTAAAAGCTGGAGGAGCTTACT TACCGATAGACCCAAACTATCCTAAAGAAAGAATAGAATATATGCTAAAGGATAGTGGAAGTAATATTTTATTAAGTAAA AGTGATTTAGTAGAAACTATAGAGTTTGACAGTGAATTTATTGATTTATATAATGAAGAAATATTTAAAAATGATATAAC CAATTTACCTAAAATAAACAATTCCAAGGATTTAGCTTATATTATATATACCTCAGGAACAACTGGAAAACCTAAGGGAG CAATGATTGAGCATAGATCACTAGTTAATAGATTAAATTGGATGCAAAATAAATATCCAATAGGTGAAAAAGACACTATA TTACAGAAAACAACTTATACTTTTGACGTTTCAGTATGGGAGATTTTATGGTGGGCATTAGTAGGAGCAAAGGTATGTAT GCTTAGTCCTAACGGAGAAAAAGACCCAATGAAGATAATAGAGACAATAAATAAGTATAAAGTAACAACCATGCATTTTG TACCGTCTATGTTGGATGTTTTCATGTATTGTGTAGAAGAAAATAGAAATAATATTGATTTATCAACTTTAAGGCAAGTA TTTTCAAGCGGAGAAGCATTAAACTTTAAGCAAGTAGAAAAGTTCTATAAAGAATTTGGGAATGGCAAAAAGCTTATAAA TTTATACGGACCAACGGAAGCAACTATAGATGTATCTTATTTTGATTGTATTAATAATGGAAAAAGAGTAATACCAATAG GAAAGCCTATAGATAACACTAAGTTATATATTTTAAAGAATAATAAACCTATACCAGTAGGTGTTTCAGGAGAGTTATAT ATAGCAGGAGATGGTTTAGCAAGAGGATATGTAAATAGAATAGAATTAACATCTAAAAAGTTTGTAGACAACCCATTTGA ACTAGGAACAAAGATGTACAAAACAGGAGATTTAGCTAGATGGCTACCTGATGGAAATATAGAGTTCCTAGCAAGAATAG ATAATCAGGTTAAAATAAGAGGTTTTAGAATAGAATTGAATGAAATTCAAAGTCATTTGTTAACTTATGAAGCAGTAAAA GAAGCGGCTGTTATAGATAGAGAAGATGATGATAAAAACAAATATATATGTGCATATATAGTATGTAATAAGGAATTAAC AGTAGGAGAAATAAGAGAATATTTACTAAATAAGTTACCAGAATATATGGTGCCATCATACTTTATACAAATAGAAAAAC TTCCTCTTACGCTAAATGGAAAACTTGACAAAAAAGCTCTACCAGAGCCTTATAGAAAAATTAATACAGGGGTTGAGTAT GAAGCTCCAAGAGATGAAATACAAGAAAAAATTTTATTAATATGGAGAGAAGTGTTAGGAGTAGAGAATATAGGGATAAA TGATAACTTCTTTGAACTTGGAGGGCATTCATTAAATGCAACCAATTTCATATCGAAAGTTTATAGGGAGTTAAATAGAG AGATACCATTAAAGCAGTTGTTTAAATCACCAACAATAAAGGGGTTAAGTAAGTTTATTGAAAGTATAAAAGAAAATTCT TATTTTAAAATAGAGAAAGTGGAAGAAAAGGAATTTTATGAAGCATCATCAGCCCAAAAAAGAATGTATACACTTCAAAA ACTTGATGAGGAAAGCGCAGCATATAATATGCCAGTTGTAATGAAAATAGAAGGAAAGTTAAATAAAGAACGATTAGAAG AGGCTGCAATGGAATTAATAAAAAGACATGAAACATTAAGAACATCATTTGAGATAGTAGATGAGAAAATAGTACAAAAA GTAAATAAAGCTATAAAATTTAATATAAATTATATACAAGAAACAGATAAGAGTATTGATCAAATAATAAAAGAATTTAT AAGTCCATTTGATTTAGAAAAACCATCATTATTTAGGGTAGCTATTGCAGAGATTATAGGTGAAAACTATTTATTAATAG ATATGCACCATATAGTATCAGATGGTATATCAATGGATATATTAACAAAAGAATTTACAGCTTTATATAATGGTAAAACA TTAAAACCTTTAAAAGTTCAGTATAAAGATTTTGCAGCATGGCAAAATAACCTTTTAAGATCAGAAGTTATGAAAAGTAA AGAAGAATATTGGATGAATAGATTTAATGATGAAATACCAGTATTGAATATGCCAACTGATTATACAAGGCCATCTATAA TGAATTTTGAGGGAGATAGAATAAATTTTAGTATAGAAAAAGATATAACAAATAGAATAAGAAAAATAGCTAGGGAAACA GGAAGTACAATATATATGATACTTTTATCAGGGTTGAATATATTATTATCAAAATATAGTGGACAAGAAGACATAATAAT AGGGAGTCCGATAGCAGGAAGAACACATGTAGATTTAGAACCAATAATAGGAATGTTTGTAAATACTATTGCAATGAGAA ACTATCCAAAAGGAGAAAAGACATATAAAGAATTCCTTAAGGAAGTTAAGGAAAATGCATTAAGAGCATATGAGAATCAA GATTATCAATTTGAGGAGTTAGTAGATAAATTAAATATAATAAGAGATATGAGTAGAAATCCATTATTTGATGTAATGTT TACAATGCAGAATATGGATATAGAGGATATAGAGAATATAGCTATAGACGACTTAAAATTTGAATTATATGATACTTACA ATAATATATCAAAATTTGATTTAACTTTATCAGCAATTGAAATTGAAGAAGAAATATTATTAAGTATTAAATATAGTACT AACCTATTTAAGATAGAAACAATAGAAAAAATAGCGATTCATTATAAAAATATAATGAATGAAATATCACTTAATCCTAA TACAAAGATTAATATGATTAATATTCTTTCAAAAGAAGAAAGTTTAAAGTTAAGAAAATTTGTTGATAAAACAATAAATA AAGATTTAAAAGTGGAATTTGAATTTTAA
Upstream 100 bases:
>100_bases CAATAACTCATGATGATCAATATTTTAATCTTGGGGATAAAATTATAAAAATAGAAATGGAAGAGATATGCAATGAATAA ATGAAGATGAGGTGAATTTT
Downstream 100 bases:
>100_bases AAAGATTAAACATATAAGTTAAAAAAAGTAAATGAAATCCTATATTTTAAAATCTCTTAAATTTTTACTATTTTAATAGA ATTTTAGATTAAAGAAAGAA
Product: AMP-binding protein domain-containing protein
Products: pyrophosphate; AMP; enterobactin; pyrophosphate; L-Seryl-AMP [C]
Alternate protein names: Gramicidin S synthase II; ATP-dependent proline adenylase; ProA; Proline activase; ATP-dependent valine adenylase; ValA; Valine activase; ATP-dependent ornithine adenylase; OrnA; Ornithine activase; ATP-dependent leucine adenylase; LeuA; Leucine activase [H]
Number of amino acids: Translated: 3582; Mature: 3582
Protein sequence:
>3582_residues MRIENKLDRSNVENFMSLTSLQQGMLFHYINDKKSTEYHEQLSLTIDGDLKLDLLEKAWNIVIENNEMLRTIFRWKGIDK PVQIVLKKHKVSIQYVDFKHEKDKDKAINEIKTKDLNERIDITRETLRIYLCKLDENIHEMIISNHHILYDGWSNGIILK ELIETYSCLYENKGIKIINKTKFSEFIKYVNNIKKNEEKKYWSKYMGDLEDKNDCFSCNKTGCYKEVYYEMDESKTNKIK DFAKENKVLLSSILYGAWGILLQKISDSNEVLFGTVVSGRPESIKSVDKMVGLFINTVPLIVKSENNTKFIELINELDLV LNERKSFENTSLVDIKEYCNLKANEEFFNSIVTIENYPLDLNLNKENILKVEKFSIIEKTNYNMALEILAFHGIEFKFNF NDKSIDNNIVEKFGNYLERIIESLLDNPNITVNEINLLSAKEVNQILYEFNNTKSDYPKDKTIQDLFEEQVKKTPDNIAL VFKNKEITYKELNEKANQLARSLREEYDVKNGDVVAIHFDRSTEMVIGIIATLKINAICLPIETKYPIGRVSEMLIDSNT KIVLNNDETIIYQGFNGMSIKLDKDQYIENDKNNLRSSGDPEDLAYLIYTSGSTGKPKAVKINHKGIINHAFAKIKETNM SESDICCHNLSFNFVASIWQIFSPMFLGSKVYLYEDDIISDGYKLFDKMEYDRISIVEVVPALLNLFLELGNESRNNITM KNIKKILLTGEKVETELVNKFYNKYNVDLINAYGQSEFSDDTIHYHIPYNNNTKKVLIGKPTNNTRIYILDKLNKIVPVG IAGEICISGDGIAKGYINNEKLTSEKFVDNPFEEGTKMYKAGDLARWLPDGNIEFLGRIDNQVKIRGFRIELGEIENRLL QHESIREAAVLVKENEENEKYICAYVVSKKSFDELNLKNYLKETLPDYMIPTYFIQLEKMPLTANGKLDRKALPKPNLDI SLNEYEAPRNELEETLVKIWSEVLNVKKIGINDNFFDLGGHSLKATVLMSKIHKELNKEIPLKELFKSPTIKEFGKYIED VEENPYSKIEKIEEKEYYEASSAQKRMYMLQQFDKDSTAYNMPVAFQLEGKINKNKIEETFRKITERHEGLRTYFETLDG EIIQKLQNDHEFKLVERKENGYIDNIINKFVRPFNLGKAPLFRVELIENKEKTYLLIDMHHIISDGVSMSILIKEFTEIY NGKNLEPLKLQYKDFAAWQNNFLKSEGMKKQEEYWINKFSDEIPILNIPTDYKRPAVQSHEGDSVSFGINEDTTLKLRKL AKETGTTMHMVMLSAFNILLSKYSGQEDIVIGTPIAGRLHADLENIMGMFVNTLALRNKPEGNKKYIDFLKEVKENSLKA YENQSYQLEALVEKLDIRRDTSRNPLFDVMFNMVDTVTDGDFKLDDIALKQYNNENKISKFDLTLNAIKNGARLNFSIEY CTRLFKKETIERISCLYVRILESIINNVEIKLSEIDLLSEAGRNQILYKFNDTKVDYPKNKTIQELFEEQVEKTPNNIAV VFEDKKLTYKELNEKSNQLARVLRSKGVKADSIVGIMVERSLEMIIGIMGILKAGGAYLPIDPSYPKERIEYMLNDCGAK IILTEYELARSIEYGLETIDLQDDKIYEEEKNNLCKLNNSDALAYIIYTSGSTGIPKGVLIEHKSVVRLVKDTNYINIIE DDAILQLSNYAFDGSVFDIYGALLNGAKLVLIDKIDLTEINRLGSVIVNEKISVFFTTTALFNTIVDTNIEYLINVKKIL FGGERVSVKHTKRALKYLGKERLVHVYGPTEGTVYSTYYFIDNIEKYAENIPIGKSINNSKAYVLDRNDNLLAIGIAGEL CISGDGLARGYLNRPELTSEKFVDNPFEEGTKMYKTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELGEIENRLLQHESI KEAAILVKENEENEKYICAYVVSKKSFDELNLKNYLKETLPDYMIPTCFMKLEEIPLTSNGKFDRRLLPDPSLCRSLNEY EGPRNEIEVILTKLWSEVLGIKKIGINDDFFDLGGHSLKATVLMFKIHKELNKEVPLKEIFKLPTIKELSEFIQRLEENT YLKIEKIEEKEYYEASSAQKRMYMLQQFDKDSTAYNMPVAFQLEGKINKNKIEETFRKITERHEGLRTYFETLDGEIIQK LQNDHEFKLVERKENGYIDNIINKFVRPFNLGKAPLFRVELIENKEKTYLLIDMHHIISDGVSMSILIKEFTALYNGENL DPLKLQYKDFAAWQNNFLKSEEIKKQEEYWINKFSDEIPILNMHTDYERPVIKSFEGDGLSFEVDEKVTENLRKIARKTG STMNMVLISAFNILLSKYSGQEDIIIGTPIAGRTHADLQNMMGMFVNTLALRNKPKGEKKYVDFLKDVKENSIKAYENQS YQIEYLVEKLDIRRDTSRNPLFDVMFNMIDMITNKHIKLNDVVLKQYINENKISKFDLTLNALEEDKKLKLNFEYCSKLF KKETIERLSNHYAKVLKVISNNPEIKLKEIDLLTEKERNQILYEFNDTKVDYPKDKTIQELFEEQVEKTSNNIAVVFEDK KLTYRELNERANSLARVLRDKGVKADSIIGIMVERSLEMIVGIIGILKAGGAYLPIDPNYPKERIEYMLKDSGSNILLSK SDLVETIEFDSEFIDLYNEEIFKNDITNLPKINNSKDLAYIIYTSGTTGKPKGAMIEHRSLVNRLNWMQNKYPIGEKDTI LQKTTYTFDVSVWEILWWALVGAKVCMLSPNGEKDPMKIIETINKYKVTTMHFVPSMLDVFMYCVEENRNNIDLSTLRQV FSSGEALNFKQVEKFYKEFGNGKKLINLYGPTEATIDVSYFDCINNGKRVIPIGKPIDNTKLYILKNNKPIPVGVSGELY IAGDGLARGYVNRIELTSKKFVDNPFELGTKMYKTGDLARWLPDGNIEFLARIDNQVKIRGFRIELNEIQSHLLTYEAVK EAAVIDREDDDKNKYICAYIVCNKELTVGEIREYLLNKLPEYMVPSYFIQIEKLPLTLNGKLDKKALPEPYRKINTGVEY EAPRDEIQEKILLIWREVLGVENIGINDNFFELGGHSLNATNFISKVYRELNREIPLKQLFKSPTIKGLSKFIESIKENS YFKIEKVEEKEFYEASSAQKRMYTLQKLDEESAAYNMPVVMKIEGKLNKERLEEAAMELIKRHETLRTSFEIVDEKIVQK VNKAIKFNINYIQETDKSIDQIIKEFISPFDLEKPSLFRVAIAEIIGENYLLIDMHHIVSDGISMDILTKEFTALYNGKT LKPLKVQYKDFAAWQNNLLRSEVMKSKEEYWMNRFNDEIPVLNMPTDYTRPSIMNFEGDRINFSIEKDITNRIRKIARET GSTIYMILLSGLNILLSKYSGQEDIIIGSPIAGRTHVDLEPIIGMFVNTIAMRNYPKGEKTYKEFLKEVKENALRAYENQ DYQFEELVDKLNIIRDMSRNPLFDVMFTMQNMDIEDIENIAIDDLKFELYDTYNNISKFDLTLSAIEIEEEILLSIKYST NLFKIETIEKIAIHYKNIMNEISLNPNTKINMINILSKEESLKLRKFVDKTINKDLKVEFEF
Sequences:
>Translated_3582_residues MRIENKLDRSNVENFMSLTSLQQGMLFHYINDKKSTEYHEQLSLTIDGDLKLDLLEKAWNIVIENNEMLRTIFRWKGIDK PVQIVLKKHKVSIQYVDFKHEKDKDKAINEIKTKDLNERIDITRETLRIYLCKLDENIHEMIISNHHILYDGWSNGIILK ELIETYSCLYENKGIKIINKTKFSEFIKYVNNIKKNEEKKYWSKYMGDLEDKNDCFSCNKTGCYKEVYYEMDESKTNKIK DFAKENKVLLSSILYGAWGILLQKISDSNEVLFGTVVSGRPESIKSVDKMVGLFINTVPLIVKSENNTKFIELINELDLV LNERKSFENTSLVDIKEYCNLKANEEFFNSIVTIENYPLDLNLNKENILKVEKFSIIEKTNYNMALEILAFHGIEFKFNF NDKSIDNNIVEKFGNYLERIIESLLDNPNITVNEINLLSAKEVNQILYEFNNTKSDYPKDKTIQDLFEEQVKKTPDNIAL VFKNKEITYKELNEKANQLARSLREEYDVKNGDVVAIHFDRSTEMVIGIIATLKINAICLPIETKYPIGRVSEMLIDSNT KIVLNNDETIIYQGFNGMSIKLDKDQYIENDKNNLRSSGDPEDLAYLIYTSGSTGKPKAVKINHKGIINHAFAKIKETNM SESDICCHNLSFNFVASIWQIFSPMFLGSKVYLYEDDIISDGYKLFDKMEYDRISIVEVVPALLNLFLELGNESRNNITM KNIKKILLTGEKVETELVNKFYNKYNVDLINAYGQSEFSDDTIHYHIPYNNNTKKVLIGKPTNNTRIYILDKLNKIVPVG IAGEICISGDGIAKGYINNEKLTSEKFVDNPFEEGTKMYKAGDLARWLPDGNIEFLGRIDNQVKIRGFRIELGEIENRLL QHESIREAAVLVKENEENEKYICAYVVSKKSFDELNLKNYLKETLPDYMIPTYFIQLEKMPLTANGKLDRKALPKPNLDI SLNEYEAPRNELEETLVKIWSEVLNVKKIGINDNFFDLGGHSLKATVLMSKIHKELNKEIPLKELFKSPTIKEFGKYIED VEENPYSKIEKIEEKEYYEASSAQKRMYMLQQFDKDSTAYNMPVAFQLEGKINKNKIEETFRKITERHEGLRTYFETLDG EIIQKLQNDHEFKLVERKENGYIDNIINKFVRPFNLGKAPLFRVELIENKEKTYLLIDMHHIISDGVSMSILIKEFTEIY NGKNLEPLKLQYKDFAAWQNNFLKSEGMKKQEEYWINKFSDEIPILNIPTDYKRPAVQSHEGDSVSFGINEDTTLKLRKL AKETGTTMHMVMLSAFNILLSKYSGQEDIVIGTPIAGRLHADLENIMGMFVNTLALRNKPEGNKKYIDFLKEVKENSLKA YENQSYQLEALVEKLDIRRDTSRNPLFDVMFNMVDTVTDGDFKLDDIALKQYNNENKISKFDLTLNAIKNGARLNFSIEY CTRLFKKETIERISCLYVRILESIINNVEIKLSEIDLLSEAGRNQILYKFNDTKVDYPKNKTIQELFEEQVEKTPNNIAV VFEDKKLTYKELNEKSNQLARVLRSKGVKADSIVGIMVERSLEMIIGIMGILKAGGAYLPIDPSYPKERIEYMLNDCGAK IILTEYELARSIEYGLETIDLQDDKIYEEEKNNLCKLNNSDALAYIIYTSGSTGIPKGVLIEHKSVVRLVKDTNYINIIE DDAILQLSNYAFDGSVFDIYGALLNGAKLVLIDKIDLTEINRLGSVIVNEKISVFFTTTALFNTIVDTNIEYLINVKKIL FGGERVSVKHTKRALKYLGKERLVHVYGPTEGTVYSTYYFIDNIEKYAENIPIGKSINNSKAYVLDRNDNLLAIGIAGEL CISGDGLARGYLNRPELTSEKFVDNPFEEGTKMYKTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELGEIENRLLQHESI KEAAILVKENEENEKYICAYVVSKKSFDELNLKNYLKETLPDYMIPTCFMKLEEIPLTSNGKFDRRLLPDPSLCRSLNEY EGPRNEIEVILTKLWSEVLGIKKIGINDDFFDLGGHSLKATVLMFKIHKELNKEVPLKEIFKLPTIKELSEFIQRLEENT YLKIEKIEEKEYYEASSAQKRMYMLQQFDKDSTAYNMPVAFQLEGKINKNKIEETFRKITERHEGLRTYFETLDGEIIQK LQNDHEFKLVERKENGYIDNIINKFVRPFNLGKAPLFRVELIENKEKTYLLIDMHHIISDGVSMSILIKEFTALYNGENL DPLKLQYKDFAAWQNNFLKSEEIKKQEEYWINKFSDEIPILNMHTDYERPVIKSFEGDGLSFEVDEKVTENLRKIARKTG STMNMVLISAFNILLSKYSGQEDIIIGTPIAGRTHADLQNMMGMFVNTLALRNKPKGEKKYVDFLKDVKENSIKAYENQS YQIEYLVEKLDIRRDTSRNPLFDVMFNMIDMITNKHIKLNDVVLKQYINENKISKFDLTLNALEEDKKLKLNFEYCSKLF KKETIERLSNHYAKVLKVISNNPEIKLKEIDLLTEKERNQILYEFNDTKVDYPKDKTIQELFEEQVEKTSNNIAVVFEDK KLTYRELNERANSLARVLRDKGVKADSIIGIMVERSLEMIVGIIGILKAGGAYLPIDPNYPKERIEYMLKDSGSNILLSK SDLVETIEFDSEFIDLYNEEIFKNDITNLPKINNSKDLAYIIYTSGTTGKPKGAMIEHRSLVNRLNWMQNKYPIGEKDTI LQKTTYTFDVSVWEILWWALVGAKVCMLSPNGEKDPMKIIETINKYKVTTMHFVPSMLDVFMYCVEENRNNIDLSTLRQV FSSGEALNFKQVEKFYKEFGNGKKLINLYGPTEATIDVSYFDCINNGKRVIPIGKPIDNTKLYILKNNKPIPVGVSGELY IAGDGLARGYVNRIELTSKKFVDNPFELGTKMYKTGDLARWLPDGNIEFLARIDNQVKIRGFRIELNEIQSHLLTYEAVK EAAVIDREDDDKNKYICAYIVCNKELTVGEIREYLLNKLPEYMVPSYFIQIEKLPLTLNGKLDKKALPEPYRKINTGVEY EAPRDEIQEKILLIWREVLGVENIGINDNFFELGGHSLNATNFISKVYRELNREIPLKQLFKSPTIKGLSKFIESIKENS YFKIEKVEEKEFYEASSAQKRMYTLQKLDEESAAYNMPVVMKIEGKLNKERLEEAAMELIKRHETLRTSFEIVDEKIVQK VNKAIKFNINYIQETDKSIDQIIKEFISPFDLEKPSLFRVAIAEIIGENYLLIDMHHIVSDGISMDILTKEFTALYNGKT LKPLKVQYKDFAAWQNNLLRSEVMKSKEEYWMNRFNDEIPVLNMPTDYTRPSIMNFEGDRINFSIEKDITNRIRKIARET GSTIYMILLSGLNILLSKYSGQEDIIIGSPIAGRTHVDLEPIIGMFVNTIAMRNYPKGEKTYKEFLKEVKENALRAYENQ DYQFEELVDKLNIIRDMSRNPLFDVMFTMQNMDIEDIENIAIDDLKFELYDTYNNISKFDLTLSAIEIEEEILLSIKYST NLFKIETIEKIAIHYKNIMNEISLNPNTKINMINILSKEESLKLRKFVDKTINKDLKVEFEF >Mature_3582_residues MRIENKLDRSNVENFMSLTSLQQGMLFHYINDKKSTEYHEQLSLTIDGDLKLDLLEKAWNIVIENNEMLRTIFRWKGIDK PVQIVLKKHKVSIQYVDFKHEKDKDKAINEIKTKDLNERIDITRETLRIYLCKLDENIHEMIISNHHILYDGWSNGIILK ELIETYSCLYENKGIKIINKTKFSEFIKYVNNIKKNEEKKYWSKYMGDLEDKNDCFSCNKTGCYKEVYYEMDESKTNKIK DFAKENKVLLSSILYGAWGILLQKISDSNEVLFGTVVSGRPESIKSVDKMVGLFINTVPLIVKSENNTKFIELINELDLV LNERKSFENTSLVDIKEYCNLKANEEFFNSIVTIENYPLDLNLNKENILKVEKFSIIEKTNYNMALEILAFHGIEFKFNF NDKSIDNNIVEKFGNYLERIIESLLDNPNITVNEINLLSAKEVNQILYEFNNTKSDYPKDKTIQDLFEEQVKKTPDNIAL VFKNKEITYKELNEKANQLARSLREEYDVKNGDVVAIHFDRSTEMVIGIIATLKINAICLPIETKYPIGRVSEMLIDSNT KIVLNNDETIIYQGFNGMSIKLDKDQYIENDKNNLRSSGDPEDLAYLIYTSGSTGKPKAVKINHKGIINHAFAKIKETNM SESDICCHNLSFNFVASIWQIFSPMFLGSKVYLYEDDIISDGYKLFDKMEYDRISIVEVVPALLNLFLELGNESRNNITM KNIKKILLTGEKVETELVNKFYNKYNVDLINAYGQSEFSDDTIHYHIPYNNNTKKVLIGKPTNNTRIYILDKLNKIVPVG IAGEICISGDGIAKGYINNEKLTSEKFVDNPFEEGTKMYKAGDLARWLPDGNIEFLGRIDNQVKIRGFRIELGEIENRLL QHESIREAAVLVKENEENEKYICAYVVSKKSFDELNLKNYLKETLPDYMIPTYFIQLEKMPLTANGKLDRKALPKPNLDI SLNEYEAPRNELEETLVKIWSEVLNVKKIGINDNFFDLGGHSLKATVLMSKIHKELNKEIPLKELFKSPTIKEFGKYIED VEENPYSKIEKIEEKEYYEASSAQKRMYMLQQFDKDSTAYNMPVAFQLEGKINKNKIEETFRKITERHEGLRTYFETLDG EIIQKLQNDHEFKLVERKENGYIDNIINKFVRPFNLGKAPLFRVELIENKEKTYLLIDMHHIISDGVSMSILIKEFTEIY NGKNLEPLKLQYKDFAAWQNNFLKSEGMKKQEEYWINKFSDEIPILNIPTDYKRPAVQSHEGDSVSFGINEDTTLKLRKL AKETGTTMHMVMLSAFNILLSKYSGQEDIVIGTPIAGRLHADLENIMGMFVNTLALRNKPEGNKKYIDFLKEVKENSLKA YENQSYQLEALVEKLDIRRDTSRNPLFDVMFNMVDTVTDGDFKLDDIALKQYNNENKISKFDLTLNAIKNGARLNFSIEY CTRLFKKETIERISCLYVRILESIINNVEIKLSEIDLLSEAGRNQILYKFNDTKVDYPKNKTIQELFEEQVEKTPNNIAV VFEDKKLTYKELNEKSNQLARVLRSKGVKADSIVGIMVERSLEMIIGIMGILKAGGAYLPIDPSYPKERIEYMLNDCGAK IILTEYELARSIEYGLETIDLQDDKIYEEEKNNLCKLNNSDALAYIIYTSGSTGIPKGVLIEHKSVVRLVKDTNYINIIE DDAILQLSNYAFDGSVFDIYGALLNGAKLVLIDKIDLTEINRLGSVIVNEKISVFFTTTALFNTIVDTNIEYLINVKKIL FGGERVSVKHTKRALKYLGKERLVHVYGPTEGTVYSTYYFIDNIEKYAENIPIGKSINNSKAYVLDRNDNLLAIGIAGEL CISGDGLARGYLNRPELTSEKFVDNPFEEGTKMYKTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELGEIENRLLQHESI KEAAILVKENEENEKYICAYVVSKKSFDELNLKNYLKETLPDYMIPTCFMKLEEIPLTSNGKFDRRLLPDPSLCRSLNEY EGPRNEIEVILTKLWSEVLGIKKIGINDDFFDLGGHSLKATVLMFKIHKELNKEVPLKEIFKLPTIKELSEFIQRLEENT YLKIEKIEEKEYYEASSAQKRMYMLQQFDKDSTAYNMPVAFQLEGKINKNKIEETFRKITERHEGLRTYFETLDGEIIQK LQNDHEFKLVERKENGYIDNIINKFVRPFNLGKAPLFRVELIENKEKTYLLIDMHHIISDGVSMSILIKEFTALYNGENL DPLKLQYKDFAAWQNNFLKSEEIKKQEEYWINKFSDEIPILNMHTDYERPVIKSFEGDGLSFEVDEKVTENLRKIARKTG STMNMVLISAFNILLSKYSGQEDIIIGTPIAGRTHADLQNMMGMFVNTLALRNKPKGEKKYVDFLKDVKENSIKAYENQS YQIEYLVEKLDIRRDTSRNPLFDVMFNMIDMITNKHIKLNDVVLKQYINENKISKFDLTLNALEEDKKLKLNFEYCSKLF KKETIERLSNHYAKVLKVISNNPEIKLKEIDLLTEKERNQILYEFNDTKVDYPKDKTIQELFEEQVEKTSNNIAVVFEDK KLTYRELNERANSLARVLRDKGVKADSIIGIMVERSLEMIVGIIGILKAGGAYLPIDPNYPKERIEYMLKDSGSNILLSK SDLVETIEFDSEFIDLYNEEIFKNDITNLPKINNSKDLAYIIYTSGTTGKPKGAMIEHRSLVNRLNWMQNKYPIGEKDTI LQKTTYTFDVSVWEILWWALVGAKVCMLSPNGEKDPMKIIETINKYKVTTMHFVPSMLDVFMYCVEENRNNIDLSTLRQV FSSGEALNFKQVEKFYKEFGNGKKLINLYGPTEATIDVSYFDCINNGKRVIPIGKPIDNTKLYILKNNKPIPVGVSGELY IAGDGLARGYVNRIELTSKKFVDNPFELGTKMYKTGDLARWLPDGNIEFLARIDNQVKIRGFRIELNEIQSHLLTYEAVK EAAVIDREDDDKNKYICAYIVCNKELTVGEIREYLLNKLPEYMVPSYFIQIEKLPLTLNGKLDKKALPEPYRKINTGVEY EAPRDEIQEKILLIWREVLGVENIGINDNFFELGGHSLNATNFISKVYRELNREIPLKQLFKSPTIKGLSKFIESIKENS YFKIEKVEEKEFYEASSAQKRMYTLQKLDEESAAYNMPVVMKIEGKLNKERLEEAAMELIKRHETLRTSFEIVDEKIVQK VNKAIKFNINYIQETDKSIDQIIKEFISPFDLEKPSLFRVAIAEIIGENYLLIDMHHIVSDGISMDILTKEFTALYNGKT LKPLKVQYKDFAAWQNNLLRSEVMKSKEEYWMNRFNDEIPVLNMPTDYTRPSIMNFEGDRINFSIEKDITNRIRKIARET GSTIYMILLSGLNILLSKYSGQEDIIIGSPIAGRTHVDLEPIIGMFVNTIAMRNYPKGEKTYKEFLKEVKENALRAYENQ DYQFEELVDKLNIIRDMSRNPLFDVMFTMQNMDIEDIENIAIDDLKFELYDTYNNISKFDLTLSAIEIEEEILLSIKYST NLFKIETIEKIAIHYKNIMNEISLNPNTKINMINILSKEESLKLRKFVDKTINKDLKVEFEF
Specific function: This protein is a multifunctional enzyme, able to activate and polymerize the amino acids Pro, Val, Orn and Leu. Activation sites for these AA consist of individual domains [H]
COG id: NA
COG function: NA
Gene ontology:
Cell location: Cytoplasm [C]
Metaboloic importance: Non_Essential [C]
Operon status: Not Known
Operon components: None
Similarity: Contains 4 acyl carrier domains [H]
Homologues:
Organism=Homo sapiens, GI45580730, Length=646, Percent_Identity=24.3034055727554, Blast_Score=132, Evalue=8e-30, Organism=Homo sapiens, GI42544132, Length=545, Percent_Identity=22.3853211009174, Blast_Score=112, Evalue=8e-24, Organism=Homo sapiens, GI156151445, Length=550, Percent_Identity=23.8181818181818, Blast_Score=107, Evalue=2e-22, Organism=Homo sapiens, GI28416953, Length=546, Percent_Identity=21.978021978022, Blast_Score=105, Evalue=6e-22, Organism=Homo sapiens, GI187761345, Length=535, Percent_Identity=23.9252336448598, Blast_Score=102, Evalue=6e-21, Organism=Homo sapiens, GI187761343, Length=535, Percent_Identity=23.9252336448598, Blast_Score=102, Evalue=6e-21, Organism=Homo sapiens, GI38505220, Length=376, Percent_Identity=23.6702127659574, Blast_Score=93, Evalue=5e-18, Organism=Homo sapiens, GI122937307, Length=527, Percent_Identity=22.5806451612903, Blast_Score=92, Evalue=7e-18, Organism=Homo sapiens, GI58082049, Length=499, Percent_Identity=21.6432865731463, Blast_Score=90, Evalue=4e-17, Organism=Homo sapiens, GI157311624, Length=504, Percent_Identity=21.6269841269841, Blast_Score=90, Evalue=4e-17, Organism=Homo sapiens, GI157311622, Length=504, Percent_Identity=21.6269841269841, Blast_Score=90, Evalue=4e-17, Organism=Homo sapiens, GI115511026, Length=499, Percent_Identity=22.2444889779559, Blast_Score=84, Evalue=3e-15, Organism=Homo sapiens, GI227499619, Length=546, Percent_Identity=21.7948717948718, Blast_Score=83, Evalue=4e-15, Organism=Escherichia coli, GI1786801, Length=1076, Percent_Identity=28.2527881040892, Blast_Score=421, Evalue=1e-118, Organism=Escherichia coli, GI145693145, Length=525, Percent_Identity=23.8095238095238, Blast_Score=120, Evalue=2e-27, Organism=Escherichia coli, GI1786810, Length=523, Percent_Identity=22.5621414913958, Blast_Score=119, Evalue=3e-27, Organism=Escherichia coli, GI1788107, Length=560, Percent_Identity=23.0357142857143, Blast_Score=119, Evalue=3e-27, Organism=Escherichia coli, GI1790505, Length=576, Percent_Identity=21.875, Blast_Score=102, Evalue=6e-22, Organism=Escherichia coli, GI1789201, Length=361, Percent_Identity=22.7146814404432, Blast_Score=80, Evalue=3e-15, Organism=Escherichia coli, GI221142682, Length=495, Percent_Identity=21.2121212121212, Blast_Score=75, Evalue=6e-14, Organism=Caenorhabditis elegans, GI17550940, Length=1172, Percent_Identity=24.1467576791809, Blast_Score=241, Evalue=8e-63, Organism=Caenorhabditis elegans, GI17556356, Length=1136, Percent_Identity=24.6478873239437, Blast_Score=202, Evalue=3e-51, Organism=Caenorhabditis elegans, GI17560140, Length=534, Percent_Identity=22.8464419475655, Blast_Score=114, Evalue=1e-24, Organism=Caenorhabditis elegans, GI32563687, Length=509, Percent_Identity=23.3791748526523, Blast_Score=111, Evalue=6e-24, Organism=Caenorhabditis elegans, GI71994690, Length=547, Percent_Identity=22.6691042047532, Blast_Score=110, Evalue=1e-23, Organism=Caenorhabditis elegans, GI71994694, Length=579, Percent_Identity=22.1070811744387, Blast_Score=110, Evalue=1e-23, Organism=Caenorhabditis elegans, GI71994703, Length=547, Percent_Identity=22.6691042047532, Blast_Score=110, Evalue=2e-23, Organism=Caenorhabditis elegans, GI17558820, Length=507, Percent_Identity=23.4714003944773, Blast_Score=106, Evalue=3e-22, Organism=Caenorhabditis elegans, GI17538037, Length=532, Percent_Identity=24.4360902255639, Blast_Score=106, Evalue=3e-22, Organism=Caenorhabditis elegans, GI71983001, Length=569, Percent_Identity=22.4956063268893, Blast_Score=105, Evalue=6e-22, Organism=Caenorhabditis elegans, GI71982997, Length=569, Percent_Identity=22.4956063268893, Blast_Score=105, Evalue=6e-22, Organism=Caenorhabditis elegans, GI17557194, Length=526, Percent_Identity=23.1939163498099, Blast_Score=100, Evalue=1e-20, Organism=Caenorhabditis elegans, GI17559526, Length=544, Percent_Identity=21.6911764705882, Blast_Score=100, Evalue=2e-20, Organism=Caenorhabditis elegans, GI32564422, Length=562, Percent_Identity=22.0640569395018, Blast_Score=96, Evalue=3e-19, Organism=Caenorhabditis elegans, GI32564420, Length=562, Percent_Identity=22.0640569395018, Blast_Score=96, Evalue=3e-19, Organism=Caenorhabditis elegans, GI17560308, Length=553, Percent_Identity=22.4231464737794, Blast_Score=92, Evalue=4e-18, Organism=Caenorhabditis elegans, GI115534440, Length=489, Percent_Identity=22.9038854805726, Blast_Score=87, Evalue=2e-16, Organism=Caenorhabditis elegans, GI71996755, Length=535, Percent_Identity=22.0560747663551, Blast_Score=87, Evalue=2e-16, Organism=Caenorhabditis elegans, GI17551278, Length=568, Percent_Identity=22.5352112676056, Blast_Score=85, Evalue=6e-16, Organism=Caenorhabditis elegans, GI25141359, Length=502, Percent_Identity=22.1115537848606, Blast_Score=75, Evalue=6e-13, Organism=Caenorhabditis elegans, GI71985884, Length=362, Percent_Identity=25.414364640884, Blast_Score=75, Evalue=9e-13, Organism=Saccharomyces cerevisiae, GI6319591, Length=973, Percent_Identity=26.1048304213772, Blast_Score=281, Evalue=2e-75, Organism=Saccharomyces cerevisiae, GI6319264, Length=549, Percent_Identity=23.3151183970856, Blast_Score=117, Evalue=5e-26, Organism=Saccharomyces cerevisiae, GI6323182, Length=561, Percent_Identity=23.1729055258467, Blast_Score=109, Evalue=8e-24, Organism=Saccharomyces cerevisiae, GI6319699, Length=534, Percent_Identity=21.7228464419476, Blast_Score=105, Evalue=1e-22, Organism=Drosophila melanogaster, GI24648676, Length=643, Percent_Identity=28.6158631415241, Blast_Score=260, Evalue=1e-68, Organism=Drosophila melanogaster, GI24581924, Length=545, Percent_Identity=25.5045871559633, Blast_Score=130, Evalue=3e-29, Organism=Drosophila melanogaster, GI21355181, Length=497, Percent_Identity=25.3521126760563, Blast_Score=113, Evalue=3e-24, Organism=Drosophila melanogaster, GI19922652, Length=500, Percent_Identity=21.6, Blast_Score=89, Evalue=8e-17, Organism=Drosophila melanogaster, GI18859661, Length=519, Percent_Identity=21.1946050096339, Blast_Score=87, Evalue=2e-16, Organism=Drosophila melanogaster, GI24582852, Length=490, Percent_Identity=23.0612244897959, Blast_Score=87, Evalue=3e-16, Organism=Drosophila melanogaster, GI281364798, Length=584, Percent_Identity=20.5479452054795, Blast_Score=84, Evalue=1e-15, Organism=Drosophila melanogaster, GI24583465, Length=584, Percent_Identity=20.5479452054795, Blast_Score=84, Evalue=2e-15, Organism=Drosophila melanogaster, GI24583463, Length=584, Percent_Identity=20.5479452054795, Blast_Score=84, Evalue=2e-15, Organism=Drosophila melanogaster, GI24667959, Length=373, Percent_Identity=21.9839142091153, Blast_Score=78, Evalue=1e-13, Organism=Drosophila melanogaster, GI62472339, Length=373, Percent_Identity=21.9839142091153, Blast_Score=78, Evalue=1e-13, Organism=Drosophila melanogaster, GI24667955, Length=373, Percent_Identity=21.9839142091153, Blast_Score=78, Evalue=1e-13, Organism=Drosophila melanogaster, GI21356441, Length=480, Percent_Identity=24.1666666666667, Blast_Score=74, Evalue=2e-12, Organism=Drosophila melanogaster, GI24648260, Length=514, Percent_Identity=20.0389105058366, Blast_Score=70, Evalue=4e-11,
Paralogues:
None
Copy number: NA
Swissprot (AC and ID): NA
Other databases:
- InterPro: IPR010071 - InterPro: IPR009081 - InterPro: IPR020845 - InterPro: IPR000873 - InterPro: IPR001242 - InterPro: IPR006163 - InterPro: IPR006162 - InterPro: IPR001031 [H]
Pfam domain/function: PF00501 AMP-binding; PF00668 Condensation; PF00550 PP-binding; PF00975 Thioesterase [H]
EC number: 2.7.7.- [C]
Molecular weight: Translated: 415343; Mature: 415343
Theoretical pI: Translated: 5.43; Mature: 5.43
Prosite motif: PS50075 ACP_DOMAIN ; PS00455 AMP_BINDING
Important sites: NA
Signals:
None
Transmembrane regions:
None
Cys/Met content:
0.7 %Cys (Translated Protein) 2.4 %Met (Translated Protein) 3.1 %Cys+Met (Translated Protein) 0.7 %Cys (Mature Protein) 2.4 %Met (Mature Protein) 3.1 %Cys+Met (Mature Protein)
Secondary structure:
>Translated Secondary Structure MRIENKLDRSNVENFMSLTSLQQGMLFHYINDKKSTEYHEQLSLTIDGDLKLDLLEKAWN CCCCCCCCHHHHHHHHHHHHHHHCCEEEEECCCCCCCHHHEEEEEECCCCCHHHHHHCCE IVIENNEMLRTIFRWKGIDKPVQIVLKKHKVSIQYVDFKHEKDKDKAINEIKTKDLNERI EEECCCHHHHHHHHHCCCCHHHHHHHHHHCEEEEEEECCCCCCHHHHHHHHHHCCCHHHH DITRETLRIYLCKLDENIHEMIISNHHILYDGWSNGIILKELIETYSCLYENKGIKIINK HHHHHHHEEEEHHHCCHHHHHHHCCCEEEEECCCCCCHHHHHHHHHHHHHCCCCCEEEEH TKFSEFIKYVNNIKKNEEKKYWSKYMGDLEDKNDCFSCNKTGCYKEVYYEMDESKTNKIK HHHHHHHHHHHHHHCCHHHHHHHHHHCCCCCCCCCCCCCCCCCHHHHHHHHCCCHHHHHH DFAKENKVLLSSILYGAWGILLQKISDSNEVLFGTVVSGRPESIKSVDKMVGLFINTVPL HHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEEECCCCHHHHHHHHHHHHHHCCEEE IVKSENNTKFIELINELDLVLNERKSFENTSLVDIKEYCNLKANEEFFNSIVTIENYPLD EEECCCCCHHHHHHHHHHHHHHHHHCCCCCCEEEHHHHCCCCCCHHHHHCEEEEECCCEE LNLNKENILKVEKFSIIEKTNYNMALEILAFHGIEFKFNFNDKSIDNNIVEKFGNYLERI EECCHHHCEEEHHHHEEEECCCCEEEEEEEECCEEEEECCCCCCCCHHHHHHHHHHHHHH IESLLDNPNITVNEINLLSAKEVNQILYEFNNTKSDYPKDKTIQDLFEEQVKKTPDNIAL HHHHHCCCCEEEEEEEECCHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHHHCCCCCEEE VFKNKEITYKELNEKANQLARSLREEYDVKNGDVVAIHFDRSTEMVIGIIATLKINAICL EEECCCCHHHHHHHHHHHHHHHHHHHHCCCCCCEEEEEECCCCCCHHHHHHHEEEEEEEE PIETKYPIGRVSEMLIDSNTKIVLNNDETIIYQGFNGMSIKLDKDQYIENDKNNLRSSGD EECCCCCHHHHHHHHCCCCCEEEEECCCEEEEECCCCCEEEECCHHHHCCCHHHCCCCCC PEDLAYLIYTSGSTGKPKAVKINHKGIINHAFAKIKETNMSESDICCHNLSFNFVASIWQ CCCEEEEEEECCCCCCCCEEEECCCCHHHHHHHHHHHCCCCCCCCEEECCCHHHHHHHHH IFSPMFLGSKVYLYEDDIISDGYKLFDKMEYDRISIVEVVPALLNLFLELGNESRNNITM HHHHHHHCCEEEEEECCHHHCHHHHHHHCCCCHHHHHHHHHHHHHHHHHHCCCCCCCCCH KNIKKILLTGEKVETELVNKFYNKYNVDLINAYGQSEFSDDTIHYHIPYNNNTKKVLIGK HHHHHHHHCCCHHHHHHHHHHHHHCCCEEEECCCCCCCCCCEEEEEECCCCCCCEEEEEC PTNNTRIYILDKLNKIVPVGIAGEICISGDGIAKGYINNEKLTSEKFVDNPFEEGTKMYK CCCCCEEEEEECCCCEEEECCCCEEEECCCCCEECCCCCCCCCHHHHCCCCHHHHHHHHH AGDLARWLPDGNIEFLGRIDNQVKIRGFRIELGEIENRLLQHESIREAAVLVKENEENEK HCCHHHHCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHHHHHHHHEEEECCCCCCE YICAYVVSKKSFDELNLKNYLKETLPDYMIPTYFIQLEKMPLTANGKLDRKALPKPNLDI EEEEEEECCCCCCCCCHHHHHHHHCCCCCCCEEEEEEECCCCCCCCCCCCCCCCCCCCEE SLNEYEAPRNELEETLVKIWSEVLNVKKIGINDNFFDLGGHSLKATVLMSKIHKELNKEI EECCCCCCHHHHHHHHHHHHHHHHCEEEECCCCCEEECCCCHHHHHHHHHHHHHHHCCCC PLKELFKSPTIKEFGKYIEDVEENPYSKIEKIEEKEYYEASSAQKRMYMLQQFDKDSTAY CHHHHHCCCCHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCEE NMPVAFQLEGKINKNKIEETFRKITERHEGLRTYFETLDGEIIQKLQNDHEFKLVERKEN CCCEEEEECCCCCHHHHHHHHHHHHHHHHHHHHHHHHHCHHHHHHHCCCCCEEEEEECCC GYIDNIINKFVRPFNLGKAPLFRVELIENKEKTYLLIDMHHIISDGVSMSILIKEFTEIY CCHHHHHHHHHCCCCCCCCCEEEEEEECCCCCEEEEEEEHHHHHCCCHHHHHHHHHHHHH NGKNLEPLKLQYKDFAAWQNNFLKSEGMKKQEEYWINKFSDEIPILNIPTDYKRPAVQSH CCCCCCCEEEHHHHHHHHHHHHHHHCCCCHHHHHHHHHHCCCCCEEECCCCCCCCCCCCC EGDSVSFGINEDTTLKLRKLAKETGTTMHMVMLSAFNILLSKYSGQEDIVIGTPIAGRLH CCCEEEECCCCCCHHHHHHHHHHHCCHHHHHHHHHHHHHHHHCCCCCCEEEECCCCCHHH ADLENIMGMFVNTLALRNKPEGNKKYIDFLKEVKENSLKAYENQSYQLEALVEKLDIRRD HHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHCCCC TSRNPLFDVMFNMVDTVTDGDFKLDDIALKQYNNENKISKFDLTLNAIKNGARLNFSIEY CCCCCHHHHHHHHHHHCCCCCCEEHHHHHHHCCCCCCCEEEEEEHHHHCCCCEEEEEHHH CTRLFKKETIERISCLYVRILESIINNVEIKLSEIDLLSEAGRNQILYKFNDTKVDYPKN HHHHHHHHHHHHHHHHHHHHHHHHHCCCEEEEHHHHHHHHCCCCCEEEEECCCEECCCCC KTIQELFEEQVEKTPNNIAVVFEDKKLTYKELNEKSNQLARVLRSKGVKADSIVGIMVER CHHHHHHHHHHHCCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHH SLEMIIGIMGILKAGGAYLPIDPSYPKERIEYMLNDCGAKIILTEYELARSIEYGLETID HHHHHHHHHHHHHCCCCEECCCCCCCHHHHHHHHHHCCCEEEEEHHHHHHHHHHCCEEEC LQDDKIYEEEKNNLCKLNNSDALAYIIYTSGSTGIPKGVLIEHKSVVRLVKDTNYINIIE CCCCHHHHHHCCCEEEECCCCEEEEEEEECCCCCCCCCEEECHHHHHHHHHCCCEEEEEC DDAILQLSNYAFDGSVFDIYGALLNGAKLVLIDKIDLTEINRLGSVIVNEKISVFFTTTA CCCEEEEECCCCCCCHHHHHHHHHCCCEEEEEECCCHHHHHHHHHHHCCCCEEEEEEHHH LFNTIVDTNIEYLINVKKILFGGERVSVKHTKRALKYLGKERLVHVYGPTEGTVYSTYYF HHHHHHHCCHHHHEEEHHHHCCCCEEEHHHHHHHHHHCCHHCEEEEECCCCCCEEEEEEH IDNIEKYAENIPIGKSINNSKAYVLDRNDNLLAIGIAGELCISGDGLARGYLNRPELTSE HHHHHHHHHCCCCCCCCCCCEEEEEECCCCEEEEEECCEEEECCCCHHCCCCCCCCCCCH KFVDNPFEEGTKMYKTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELGEIENRLLQHESI HHCCCCHHHCCCEEECCCHHHHCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHHHH KEAAILVKENEENEKYICAYVVSKKSFDELNLKNYLKETLPDYMIPTCFMKLEEIPLTSN HHHEEEEEECCCCCEEEEEEEECCCCCCCCCHHHHHHHHCCHHHHHHHHHHHHHCCCCCC GKFDRRLLPDPSLCRSLNEYEGPRNEIEVILTKLWSEVLGIKKIGINDDFFDLGGHSLKA CCCCCCCCCCHHHHHHHHHCCCCHHHHHHHHHHHHHHHHCEEEECCCCCCHHCCCCCHHH TVLMFKIHKELNKEVPLKEIFKLPTIKELSEFIQRLEENTYLKIEKIEEKEYYEASSAQK HHHHHHHHHHHCCCCCHHHHHCCCCHHHHHHHHHHHCCCCEEEEEECCCHHHHHHHHHHH RMYMLQQFDKDSTAYNMPVAFQLEGKINKNKIEETFRKITERHEGLRTYFETLDGEIIQK HHHHHHHCCCCCCEECCCEEEEECCCCCHHHHHHHHHHHHHHHHHHHHHHHHHCHHHHHH LQNDHEFKLVERKENGYIDNIINKFVRPFNLGKAPLFRVELIENKEKTYLLIDMHHIISD HCCCCCEEEEEECCCCCHHHHHHHHHCCCCCCCCCEEEEEEECCCCCEEEEEEEHHHHHC GVSMSILIKEFTALYNGENLDPLKLQYKDFAAWQNNFLKSEEIKKQEEYWINKFSDEIPI CCHHHHHHHHHHHHHCCCCCCCEEEEHHHHHHHHHCCCCCHHHHHHHHHHHHHCCCCCCE LNMHTDYERPVIKSFEGDGLSFEVDEKVTENLRKIARKTGSTMNMVLISAFNILLSKYSG EECCCCCCCCHHHCCCCCCCEEEEHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHCCC QEDIIIGTPIAGRTHADLQNMMGMFVNTLALRNKPKGEKKYVDFLKDVKENSIKAYENQS CCCEEEECCCCCCCHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHCCCCHHCCCC YQIEYLVEKLDIRRDTSRNPLFDVMFNMIDMITNKHIKLNDVVLKQYINENKISKFDLTL EEHHHHHHHHHHCCCCCCCCHHHHHHHHHHHHHCCCEEHHHHHHHHHHCCCCCEEEEEEE NALEEDKKLKLNFEYCSKLFKKETIERLSNHYAKVLKVISNNPEIKLKEIDLLTEKERNQ ECCCCCCEEEEEHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEEHHHHHCCCCC ILYEFNDTKVDYPKDKTIQELFEEQVEKTSNNIAVVFEDKKLTYRELNERANSLARVLRD EEEEECCCCCCCCCCHHHHHHHHHHHHHCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHH KGVKADSIIGIMVERSLEMIVGIIGILKAGGAYLPIDPNYPKERIEYMLKDSGSNILLSK CCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCEEECCCCCCCHHHHHHHHHCCCCEEEEEH SDLVETIEFDSEFIDLYNEEIFKNDITNLPKINNSKDLAYIIYTSGTTGKPKGAMIEHRS HHHHHHHHHCHHHHHHHHHHHHHHHHCCCCCCCCCCCEEEEEEECCCCCCCCCCHHHHHH LVNRLNWMQNKYPIGEKDTILQKTTYTFDVSVWEILWWALVGAKVCMLSPNGEKDPMKII HHHHHHHHHCCCCCCCCCCEEEEEEEEEEHHHHHHHHHHHHHCEEEEECCCCCCCHHHHH ETINKYKVTTMHFVPSMLDVFMYCVEENRNNIDLSTLRQVFSSGEALNFKQVEKFYKEFG HHHHHHEEEHHHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHCCCCCCCHHHHHHHHHHHC NGKKLINLYGPTEATIDVSYFDCINNGKRVIPIGKPIDNTKLYILKNNKPIPVGVSGELY CCCEEEEEECCCCCEEEEHHHHHHCCCCEEEECCCCCCCCEEEEEECCCCCEECCCCEEE IAGDGLARGYVNRIELTSKKFVDNPFELGTKMYKTGDLARWLPDGNIEFLARIDNQVKIR EECCCHHHHHHHHHEECHHHHCCCHHHHCHHHHCCCCHHHHCCCCCEEEEEECCCEEEEE GFRIELNEIQSHLLTYEAVKEAAVIDREDDDKNKYICAYIVCNKELTVGEIREYLLNKLP EEEEEHHHHHHHHHHHHHHHHHHHCCCCCCCCCCEEEEEEEECCCCCHHHHHHHHHHHCH EYMVPSYFIQIEKLPLTLNGKLDKKALPEPYRKINTGVEYEAPRDEIQEKILLIWREVLG HHHCCCEEEEEEECEEEECCCCCCCCCCCHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHC VENIGINDNFFELGGHSLNATNFISKVYRELNREIPLKQLFKSPTIKGLSKFIESIKENS CCCCCCCCCHHHCCCCCCCHHHHHHHHHHHHCCCCCHHHHHCCCCHHHHHHHHHHHHCCC YFKIEKVEEKEFYEASSAQKRMYTLQKLDEESAAYNMPVVMKIEGKLNKERLEEAAMELI CEEEEECCHHHHHHHHHHHHHHHHHHHHCCHHHHCCCCEEEEECCCCCHHHHHHHHHHHH KRHETLRTSFEIVDEKIVQKVNKAIKFNINYIQETDKSIDQIIKEFISPFDLEKPSLFRV HHHHHHHHHHHHHHHHHHHHHHHHEEEEEHHHHHHHHHHHHHHHHHCCCCCCCCCHHHHH AIAEIIGENYLLIDMHHIVSDGISMDILTKEFTALYNGKTLKPLKVQYKDFAAWQNNLLR HHHHHHCCCEEEEEEHHHHHCCCCEEHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHH SEVMKSKEEYWMNRFNDEIPVLNMPTDYTRPSIMNFEGDRINFSIEKDITNRIRKIARET HHHHHHHHHHHHHHCCCCCCEEECCCCCCCCCEECCCCCEEEEEEHHHHHHHHHHHHHHC GSTIYMILLSGLNILLSKYSGQEDIIIGSPIAGRTHVDLEPIIGMFVNTIAMRNYPKGEK CCEEEHHHHHHHHHHHHHCCCCCCEEECCCCCCCCCCCHHHHHHHHHHHHHHCCCCCCHH TYKEFLKEVKENALRAYENQDYQFEELVDKLNIIRDMSRNPLFDVMFTMQNMDIEDIENI HHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHCCCCCHHHHHHHHHCCCHHHHHHC AIDDLKFELYDTYNNISKFDLTLSAIEIEEEILLSIKYSTNLFKIETIEKIAIHYKNIMN CCCCEEEEEEHHHCCCEEEEEEEEEEEECCEEEEEEEECCCEEEEHHHHHHHHHHHHHHH EISLNPNTKINMINILSKEESLKLRKFVDKTINKDLKVEFEF HCCCCCCCEEEEEEEECCHHHHHHHHHHHHHCCCCEEEEECC >Mature Secondary Structure MRIENKLDRSNVENFMSLTSLQQGMLFHYINDKKSTEYHEQLSLTIDGDLKLDLLEKAWN CCCCCCCCHHHHHHHHHHHHHHHCCEEEEECCCCCCCHHHEEEEEECCCCCHHHHHHCCE IVIENNEMLRTIFRWKGIDKPVQIVLKKHKVSIQYVDFKHEKDKDKAINEIKTKDLNERI EEECCCHHHHHHHHHCCCCHHHHHHHHHHCEEEEEEECCCCCCHHHHHHHHHHCCCHHHH DITRETLRIYLCKLDENIHEMIISNHHILYDGWSNGIILKELIETYSCLYENKGIKIINK HHHHHHHEEEEHHHCCHHHHHHHCCCEEEEECCCCCCHHHHHHHHHHHHHCCCCCEEEEH TKFSEFIKYVNNIKKNEEKKYWSKYMGDLEDKNDCFSCNKTGCYKEVYYEMDESKTNKIK HHHHHHHHHHHHHHCCHHHHHHHHHHCCCCCCCCCCCCCCCCCHHHHHHHHCCCHHHHHH DFAKENKVLLSSILYGAWGILLQKISDSNEVLFGTVVSGRPESIKSVDKMVGLFINTVPL HHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEEECCCCHHHHHHHHHHHHHHCCEEE IVKSENNTKFIELINELDLVLNERKSFENTSLVDIKEYCNLKANEEFFNSIVTIENYPLD EEECCCCCHHHHHHHHHHHHHHHHHCCCCCCEEEHHHHCCCCCCHHHHHCEEEEECCCEE LNLNKENILKVEKFSIIEKTNYNMALEILAFHGIEFKFNFNDKSIDNNIVEKFGNYLERI EECCHHHCEEEHHHHEEEECCCCEEEEEEEECCEEEEECCCCCCCCHHHHHHHHHHHHHH IESLLDNPNITVNEINLLSAKEVNQILYEFNNTKSDYPKDKTIQDLFEEQVKKTPDNIAL HHHHHCCCCEEEEEEEECCHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHHHCCCCCEEE VFKNKEITYKELNEKANQLARSLREEYDVKNGDVVAIHFDRSTEMVIGIIATLKINAICL EEECCCCHHHHHHHHHHHHHHHHHHHHCCCCCCEEEEEECCCCCCHHHHHHHEEEEEEEE PIETKYPIGRVSEMLIDSNTKIVLNNDETIIYQGFNGMSIKLDKDQYIENDKNNLRSSGD EECCCCCHHHHHHHHCCCCCEEEEECCCEEEEECCCCCEEEECCHHHHCCCHHHCCCCCC PEDLAYLIYTSGSTGKPKAVKINHKGIINHAFAKIKETNMSESDICCHNLSFNFVASIWQ CCCEEEEEEECCCCCCCCEEEECCCCHHHHHHHHHHHCCCCCCCCEEECCCHHHHHHHHH IFSPMFLGSKVYLYEDDIISDGYKLFDKMEYDRISIVEVVPALLNLFLELGNESRNNITM HHHHHHHCCEEEEEECCHHHCHHHHHHHCCCCHHHHHHHHHHHHHHHHHHCCCCCCCCCH KNIKKILLTGEKVETELVNKFYNKYNVDLINAYGQSEFSDDTIHYHIPYNNNTKKVLIGK HHHHHHHHCCCHHHHHHHHHHHHHCCCEEEECCCCCCCCCCEEEEEECCCCCCCEEEEEC PTNNTRIYILDKLNKIVPVGIAGEICISGDGIAKGYINNEKLTSEKFVDNPFEEGTKMYK CCCCCEEEEEECCCCEEEECCCCEEEECCCCCEECCCCCCCCCHHHHCCCCHHHHHHHHH AGDLARWLPDGNIEFLGRIDNQVKIRGFRIELGEIENRLLQHESIREAAVLVKENEENEK HCCHHHHCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHHHHHHHHEEEECCCCCCE YICAYVVSKKSFDELNLKNYLKETLPDYMIPTYFIQLEKMPLTANGKLDRKALPKPNLDI EEEEEEECCCCCCCCCHHHHHHHHCCCCCCCEEEEEEECCCCCCCCCCCCCCCCCCCCEE SLNEYEAPRNELEETLVKIWSEVLNVKKIGINDNFFDLGGHSLKATVLMSKIHKELNKEI EECCCCCCHHHHHHHHHHHHHHHHCEEEECCCCCEEECCCCHHHHHHHHHHHHHHHCCCC PLKELFKSPTIKEFGKYIEDVEENPYSKIEKIEEKEYYEASSAQKRMYMLQQFDKDSTAY CHHHHHCCCCHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCEE NMPVAFQLEGKINKNKIEETFRKITERHEGLRTYFETLDGEIIQKLQNDHEFKLVERKEN CCCEEEEECCCCCHHHHHHHHHHHHHHHHHHHHHHHHHCHHHHHHHCCCCCEEEEEECCC GYIDNIINKFVRPFNLGKAPLFRVELIENKEKTYLLIDMHHIISDGVSMSILIKEFTEIY CCHHHHHHHHHCCCCCCCCCEEEEEEECCCCCEEEEEEEHHHHHCCCHHHHHHHHHHHHH NGKNLEPLKLQYKDFAAWQNNFLKSEGMKKQEEYWINKFSDEIPILNIPTDYKRPAVQSH CCCCCCCEEEHHHHHHHHHHHHHHHCCCCHHHHHHHHHHCCCCCEEECCCCCCCCCCCCC EGDSVSFGINEDTTLKLRKLAKETGTTMHMVMLSAFNILLSKYSGQEDIVIGTPIAGRLH CCCEEEECCCCCCHHHHHHHHHHHCCHHHHHHHHHHHHHHHHCCCCCCEEEECCCCCHHH ADLENIMGMFVNTLALRNKPEGNKKYIDFLKEVKENSLKAYENQSYQLEALVEKLDIRRD HHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHCCCC TSRNPLFDVMFNMVDTVTDGDFKLDDIALKQYNNENKISKFDLTLNAIKNGARLNFSIEY CCCCCHHHHHHHHHHHCCCCCCEEHHHHHHHCCCCCCCEEEEEEHHHHCCCCEEEEEHHH CTRLFKKETIERISCLYVRILESIINNVEIKLSEIDLLSEAGRNQILYKFNDTKVDYPKN HHHHHHHHHHHHHHHHHHHHHHHHHCCCEEEEHHHHHHHHCCCCCEEEEECCCEECCCCC KTIQELFEEQVEKTPNNIAVVFEDKKLTYKELNEKSNQLARVLRSKGVKADSIVGIMVER CHHHHHHHHHHHCCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHH SLEMIIGIMGILKAGGAYLPIDPSYPKERIEYMLNDCGAKIILTEYELARSIEYGLETID HHHHHHHHHHHHHCCCCEECCCCCCCHHHHHHHHHHCCCEEEEEHHHHHHHHHHCCEEEC LQDDKIYEEEKNNLCKLNNSDALAYIIYTSGSTGIPKGVLIEHKSVVRLVKDTNYINIIE CCCCHHHHHHCCCEEEECCCCEEEEEEEECCCCCCCCCEEECHHHHHHHHHCCCEEEEEC DDAILQLSNYAFDGSVFDIYGALLNGAKLVLIDKIDLTEINRLGSVIVNEKISVFFTTTA CCCEEEEECCCCCCCHHHHHHHHHCCCEEEEEECCCHHHHHHHHHHHCCCCEEEEEEHHH LFNTIVDTNIEYLINVKKILFGGERVSVKHTKRALKYLGKERLVHVYGPTEGTVYSTYYF HHHHHHHCCHHHHEEEHHHHCCCCEEEHHHHHHHHHHCCHHCEEEEECCCCCCEEEEEEH IDNIEKYAENIPIGKSINNSKAYVLDRNDNLLAIGIAGELCISGDGLARGYLNRPELTSE HHHHHHHHHCCCCCCCCCCCEEEEEECCCCEEEEEECCEEEECCCCHHCCCCCCCCCCCH KFVDNPFEEGTKMYKTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELGEIENRLLQHESI HHCCCCHHHCCCEEECCCHHHHCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHHHH KEAAILVKENEENEKYICAYVVSKKSFDELNLKNYLKETLPDYMIPTCFMKLEEIPLTSN HHHEEEEEECCCCCEEEEEEEECCCCCCCCCHHHHHHHHCCHHHHHHHHHHHHHCCCCCC GKFDRRLLPDPSLCRSLNEYEGPRNEIEVILTKLWSEVLGIKKIGINDDFFDLGGHSLKA CCCCCCCCCCHHHHHHHHHCCCCHHHHHHHHHHHHHHHHCEEEECCCCCCHHCCCCCHHH TVLMFKIHKELNKEVPLKEIFKLPTIKELSEFIQRLEENTYLKIEKIEEKEYYEASSAQK HHHHHHHHHHHCCCCCHHHHHCCCCHHHHHHHHHHHCCCCEEEEEECCCHHHHHHHHHHH RMYMLQQFDKDSTAYNMPVAFQLEGKINKNKIEETFRKITERHEGLRTYFETLDGEIIQK HHHHHHHCCCCCCEECCCEEEEECCCCCHHHHHHHHHHHHHHHHHHHHHHHHHCHHHHHH LQNDHEFKLVERKENGYIDNIINKFVRPFNLGKAPLFRVELIENKEKTYLLIDMHHIISD HCCCCCEEEEEECCCCCHHHHHHHHHCCCCCCCCCEEEEEEECCCCCEEEEEEEHHHHHC GVSMSILIKEFTALYNGENLDPLKLQYKDFAAWQNNFLKSEEIKKQEEYWINKFSDEIPI CCHHHHHHHHHHHHHCCCCCCCEEEEHHHHHHHHHCCCCCHHHHHHHHHHHHHCCCCCCE LNMHTDYERPVIKSFEGDGLSFEVDEKVTENLRKIARKTGSTMNMVLISAFNILLSKYSG EECCCCCCCCHHHCCCCCCCEEEEHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHCCC QEDIIIGTPIAGRTHADLQNMMGMFVNTLALRNKPKGEKKYVDFLKDVKENSIKAYENQS CCCEEEECCCCCCCHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHCCCCHHCCCC YQIEYLVEKLDIRRDTSRNPLFDVMFNMIDMITNKHIKLNDVVLKQYINENKISKFDLTL EEHHHHHHHHHHCCCCCCCCHHHHHHHHHHHHHCCCEEHHHHHHHHHHCCCCCEEEEEEE NALEEDKKLKLNFEYCSKLFKKETIERLSNHYAKVLKVISNNPEIKLKEIDLLTEKERNQ ECCCCCCEEEEEHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEEHHHHHCCCCC ILYEFNDTKVDYPKDKTIQELFEEQVEKTSNNIAVVFEDKKLTYRELNERANSLARVLRD EEEEECCCCCCCCCCHHHHHHHHHHHHHCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHH KGVKADSIIGIMVERSLEMIVGIIGILKAGGAYLPIDPNYPKERIEYMLKDSGSNILLSK CCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCEEECCCCCCCHHHHHHHHHCCCCEEEEEH SDLVETIEFDSEFIDLYNEEIFKNDITNLPKINNSKDLAYIIYTSGTTGKPKGAMIEHRS HHHHHHHHHCHHHHHHHHHHHHHHHHCCCCCCCCCCCEEEEEEECCCCCCCCCCHHHHHH LVNRLNWMQNKYPIGEKDTILQKTTYTFDVSVWEILWWALVGAKVCMLSPNGEKDPMKII HHHHHHHHHCCCCCCCCCCEEEEEEEEEEHHHHHHHHHHHHHCEEEEECCCCCCCHHHHH ETINKYKVTTMHFVPSMLDVFMYCVEENRNNIDLSTLRQVFSSGEALNFKQVEKFYKEFG HHHHHHEEEHHHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHCCCCCCCHHHHHHHHHHHC NGKKLINLYGPTEATIDVSYFDCINNGKRVIPIGKPIDNTKLYILKNNKPIPVGVSGELY CCCEEEEEECCCCCEEEEHHHHHHCCCCEEEECCCCCCCCEEEEEECCCCCEECCCCEEE IAGDGLARGYVNRIELTSKKFVDNPFELGTKMYKTGDLARWLPDGNIEFLARIDNQVKIR EECCCHHHHHHHHHEECHHHHCCCHHHHCHHHHCCCCHHHHCCCCCEEEEEECCCEEEEE GFRIELNEIQSHLLTYEAVKEAAVIDREDDDKNKYICAYIVCNKELTVGEIREYLLNKLP EEEEEHHHHHHHHHHHHHHHHHHHCCCCCCCCCCEEEEEEEECCCCCHHHHHHHHHHHCH EYMVPSYFIQIEKLPLTLNGKLDKKALPEPYRKINTGVEYEAPRDEIQEKILLIWREVLG HHHCCCEEEEEEECEEEECCCCCCCCCCCHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHC VENIGINDNFFELGGHSLNATNFISKVYRELNREIPLKQLFKSPTIKGLSKFIESIKENS CCCCCCCCCHHHCCCCCCCHHHHHHHHHHHHCCCCCHHHHHCCCCHHHHHHHHHHHHCCC YFKIEKVEEKEFYEASSAQKRMYTLQKLDEESAAYNMPVVMKIEGKLNKERLEEAAMELI CEEEEECCHHHHHHHHHHHHHHHHHHHHCCHHHHCCCCEEEEECCCCCHHHHHHHHHHHH KRHETLRTSFEIVDEKIVQKVNKAIKFNINYIQETDKSIDQIIKEFISPFDLEKPSLFRV HHHHHHHHHHHHHHHHHHHHHHHHEEEEEHHHHHHHHHHHHHHHHHCCCCCCCCCHHHHH AIAEIIGENYLLIDMHHIVSDGISMDILTKEFTALYNGKTLKPLKVQYKDFAAWQNNLLR HHHHHHCCCEEEEEEHHHHHCCCCEEHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHH SEVMKSKEEYWMNRFNDEIPVLNMPTDYTRPSIMNFEGDRINFSIEKDITNRIRKIARET HHHHHHHHHHHHHHCCCCCCEEECCCCCCCCCEECCCCCEEEEEEHHHHHHHHHHHHHHC GSTIYMILLSGLNILLSKYSGQEDIIIGSPIAGRTHVDLEPIIGMFVNTIAMRNYPKGEK CCEEEHHHHHHHHHHHHHCCCCCCEEECCCCCCCCCCCHHHHHHHHHHHHHHCCCCCCHH TYKEFLKEVKENALRAYENQDYQFEELVDKLNIIRDMSRNPLFDVMFTMQNMDIEDIENI HHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHCCCCCHHHHHHHHHCCCHHHHHHC AIDDLKFELYDTYNNISKFDLTLSAIEIEEEILLSIKYSTNLFKIETIEKIAIHYKNIMN CCCCEEEEEEHHHCCCEEEEEEEEEEEECCEEEEEEEECCCEEEEHHHHHHHHHHHHHHH EISLNPNTKINMINILSKEESLKLRKFVDKTINKDLKVEFEF HCCCCCCCEEEEEEEECCHHHHHHHHHHHHHCCCCEEEEECC
PDB accession: NA
Resolution: NA
Structure class: Alpha Beta
Cofactors: Phosphopantetheine. [C]
Metal ions: NA
Kcat value (1/min): NA
Specific activity: NA
Km value (mM): NA
Substrates: 6 ATP; L-serine; 2,3-dihydroxybenzoate [C]
Specific reaction: 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate = 6 pyrophosphate + 6 AMP + enterobactin ATP + L-serine = pyrophosphate + L-Seryl-AMP 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate = 6 pyrophosphate + 6 AMP + enterobactin ATP + L-serine = pyrophosphate + L-Ser
General reaction: Transferases; Acyltransferases; Transferring groups other than amino-acyl groups [C]
Inhibitor: NA
Structure determination priority: 9.0
TargetDB status: NA
Availability: NA
References: 1560782; 2477357 [H]