| 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 mycB [H]
Identifier: 226947539
GI number: 226947539
Start: 388054
End: 396384
Strand: Direct
Name: mycB [H]
Synonym: CLM_0375
Alternate gene names: 226947539
Gene position: 388054-396384 (Clockwise)
Preceding gene: 226947538
Following gene: 226947540
Centisome position: 9.34
GC content: 26.0
Gene sequence:
>8331_bases ATGATTATAAAAAATATATATTCTTTAACACCAATGCAAATGGGAATGTTATTTCATGCGTTAAAGGATGAAGAATCTTC ATCTTATTTCGAACAATCAATATTTACTTTAAAAGGCGAGATAGATTTAAACATATTTGAGAGAAGTTTTAATAAGGTTA TAGAAAGATATGATATTTTAAGAACAGTTTTTGTTTATGAAAATGTAGATAAGCCTAAACAAATAGTATTTAAAGAAAGA AAGGCAAAAATAGGTTATGAAGATATTTCAAAATTAAGTAATGAATCTAAAGAAAACTATATAGAAAACTTTATAAGTAA GGATAAAGAAAAAGGGTTTAATCTAGGAAAAGATTTATTAATCAGGATATCTATACTAAAGGTAGAGAAAGATAAATATG AAGTGGTATGGAGCTTTCATCATATACTAATGGATGGATGGTGTCTAAATATTATAATGAATGATTTCTTTAATATTTAT TCACAGCTACAGGAAGAGAAAAGTATAGAACTTCCCAAAGTCACACCTTATATAGAATATATAAAATGGCTTGAAGATAG AAAAAAGTTGGACAATGAAGGAGAAGAATATTGGAGAAATTACTTAAGCTGTTATGAAAATGTGGCAGGAATCCCTATAA GTACTAAAAAGCATAAAGAAGAAAAATATGAATTAAAAGAATTAAAGTTTGCTATAAATAAAGAAAAAACAAAAAAATTA GAGAGAATAGTTAAAACAGAACGAGTTACTATGAATACAATTATTCAAGCAGTATGGGGTATACTACTTCAAAGATATAA TAATATAGATGATGTAGTCTTTGGAACGGTCGTATCAGGAAGAAATGCAAATATAGAAGGTATTGATAGAATGGTAGGAC TATTTATTAATACAATTCCTGTTAGGATAAAGACAGAAAGTGGAATGAGCTTTGTAGAACTTATAAAAGAAATACAAAAA TCATCATTAGAATCTTCTAAGTATGATTATTATCCATTAGCAGAGATACAATCTAAGACAAAATTAAAAAATGAATTAAT AAATAATATTGTTGTTTATGAAAATTATTATATAGATAATAGTTCTATAAATTTAAATGAAAAGATAAATAAGAAATTTA TTATGGAAAATATGCAAACTAGAGAAGAAACTAATTATGATTTAAATCTTATAATCGGACCAAGTGAAGAACTTAATATT AAATTATCGTATAATAAAAAGATTTATGATGATTATATCATAAAGAAAATAAGCAAGCAGTTTGCTTTAATTATTGATAC GATTATAAGCAATAAAAATATATTAGTTGATAAAATAGAAATTATAGAAGAAGAAGAAAAGAAGCAAATACTCTATGAAT TTAATGATACAAAGGTAGATTATCCAAAGAATAAGACAATACAAGAATTATTTGAAGAACAGGTAGAGAAGACACCAAAT AATATAGCAGTGGTGTTTGAAGATAAAAAGTTAACTTATAGAGAGTTAAATGAAAAAGCCAATAGTCTTGCAAGAGTGTT AAGAGATAAAGGGGTTAAAGCCGACTCAATAGTGGCAATAATGGTTGAAAGATCAATTGAAATGATAGTAGGAATAATGG GTATCTTAAAGTCAGGAGGAGCATATTTACCAATAGATCCTAGTTATCCAAAAAGCAGAATAGAATATATATTAGAGGAT AGTAAAAGTAAAACTTTATTGAGTACGGAAATTTTAGCAAAGAATATAGAGTTTGATGGTGGGGTTATAGACTTATTTAA AGATCAGTTATTTAATGAAAATCCATATAATTTAGGCAAAGTAAATAATTCGGATAATTTAGCATATATTATATACACAT CTGGAACTACAGGAAAGCCCAAAGGAGTTATGGTAAATCATTTAGGAATCTTAAATTTACAGAGAAGTTTTAATAAGACT TTAAAAATTAGAAGTAATGATAGGGTATTACAATTTGCTAGCATATCATTTGATGCCTCTGTTTGGGAAATTTTTATGAC AATTTTAAATGGAGCTAGATTGTATATACCTAAATTAGAGTTAACTAAAGATATACTAAACTTAGAGAAATATATAAATT CAAATAATATAACTATAGCTACAATACCACCGAATTATTTAGCTAATATGGATAATGAAAAAAAATTTAGTTTAAGACTA ATAATAACGGCAGGATCTGAAACAAATAAAAGGCTTCAGGAAATATGGAGGGAAAAATGTACTTATATAAATGCTTATGG TCCTACAGAAGATAGTATATGTACAACAATGTGGATGAATATTGAAAAGAATAATCATTCGAATATTATTCCTATAGGAA GGCCTATATTAAATAAAAAAATATATATACTGGATAAAGATTATAAACTAACACCAATAGGTGTATCAGGAGAATTATGT ATATCAGGTGATGGATTAGCAAGAGGATATTTAAATAACCCGGAACTAACATCAGAGAAATTTGTAGATAACCCATTTGA ACCAGGGGAAAGAATGTATAGAACAGGAGATTTGGCAAGATGGCTGCCAGATGGGAATATAGAGTTTTTAGGAAGAATAG ATAATCAAGTAAAAATAAGAGGTTTTAGAATAGAGCTAGAAGAAATAGAAAATAGATTGCTAGAATATGAAGGAGTAAAG GAAGCTGTAGTAGTAGCAAAAGAAGATAAAGAAGATAAGGAAAGAAGTAAGTACTTATGTGCATATATAGTAAGTAATAA TAAAATAGGTAGGAATGAACTAAAAAATTACTTATTAAAGGATCTACCAGAATATATGATACCGTTAAATTTTGTGAATA TTGAAAAAATACCATTAACATCTAACGGTAAAGTTGATAGAAAGATATTACAAAATAGAGAAGATTTAATTAATATATAT GAAGAATGTGAAAAGCCAAGAAACTCTATGGAAGAAGTTATGATAGAGGTATTTAAAGAAGTACTAGGAGTAGAGAATTT AGGAATAAATCATAGTTTTTTTGACTTAGGTGGAGATTCCATAAAAGCAATAGGACTTATATCTAAACTTAAAAAACATG GATATAAATTAGAGATTAAAGATTTATTTAAGTATAATACCATAAAAGATATAAGTAATAGAATTACTTTGGAAGAAAAC TCTATTATAAATCAGGAATTAGTTAAAGGTAAGATAGATTTAATCCCAATACAAAAATGGTTTTTTGAAAAAGATTTTAT AGATAATCACCATTGGAATCAGGCTGTAATGTTATTTAGTGAGGAAGGATTTAATGAAAGTATAATTAAAAAAGTGTTTG ATAAAATTACAGAGCATCATGATGCTTTAAGAATTGTGTTTAAAAATGAAAAGGAAAATGTATTGCAGTTTAATAGAGGT TTGGAAGGAGAACTATATTCTTTAGAAATATTCGATTACAGAAGTGTAGAAAATTACAAAAAAGAAATAGAAAATAAATG TAATAAACTTCAAAGTAGTATTAATTTAAGTAATGGGCCATTAGTTAAGTTAGGTATGTTTAAAACTAAAGAAGGTGATC ATTTACTTATAGTTATACATCACTTGGTTATTGATGGAGTATCATGGAGAATTTTACTCGAAGATTTTTCTTTAATATAT AATATGGAACTGAATAATAAACCAATAATATTACAAGAAAAAACTAACTCTTTTAGAGAATGGTCTACTTATATTAAGGA ATATGCAAATAGTAAAGATCTATTACAAGAAGAGGAATATTGGGAGAATATTGAAAATACAAAAATAAAGAAAGTTCCGA AGGATAATGAGATTAAAGATAGTATATTCAAGGACAATAGAAGTATAAGTATTAGATTATCAGAAGAAGATACTGAAAAT TTATTAAGAAATGTAAATAAAGCTTATAATACAGAAATAAATGATATCTTGCTAACTGCTTTAGGATTAACTATAAAACA ATGGAGCAAGGAGAATAAGGTACTAATCAATTTAGAAGGTCATGGAAGAGAAGAGTTTAGTTCAAATATTAATGTAAGTA GAACTATAGGATGGTTTACTAATCAGTACCCATTAGTACTTGATATCTCAAGAGATAAAGATATATCTTATGAAATAAAA AATACTAAAGAGACCTTAAGACGTGTACCTAATAAAGGAATGGGGTATGGAATATTAAGATATATAAAAAACAAATGGGA TAACAATATAAACCCAGAGATAAGTTTCAATTACTTAGGACAGTTTGATGAAGAAATAAAAAGTAATGTTTTTAAAATCT CAAATTTGCCTATAGGACAATCTATGAGTTTAAATTCTGAAAACACATATTGTCTTAATATTAATGGAATGATTAGTAAT GGAGTTCTAAATATGAATTTTGGATACAATTACAAAGAGTATAATGAAGAAACTATTAAAGAAATATCAAATAATTATAA AAATAATTTAGTTAATATAATAAATTATTGTTTAAGCAAAGAAAAGACTGAATTGACACCAACTGATTTGGGCGATAGCA ATCTAACAATAGATCAGCTAGATATATTGAACTTAAAATACAGGAACAAGGGTCTAGAGATAAAAAATATATATTCCTTA ACACCAATGCAAATGGGAATGTTATTTCATGCGTTAAAGGATAAAGAATCCTCATCTTATTTCGAACAATCAATATTGAC TTTAAAAGGCGAGATAGATTTAAATACATTTGAGAGAAGTTTTAATAAGGTTATAGAAAGATATGATATTTTAAGAACAG TTTTTGTTTACGAAAATGTAGATAAGCCTAAACAAATAGTATTTAAAGAAAGAAAGACAAAAATAAGTTATGAAGATATT TCACAATTAAGTAATGAATCTAAAGAAAGCTATATAGAAAACTTTATAAGTAAGGATAAAGAAAAAGGGTTTAGTTTAGA AAAAGATTTATTAATTAGGATGTCTATACTAAAGGTAGAGAAAGACAAATATGAAGTGGTATGGAGTTTTCACCATATAT TAATGGATGGATGGTGTCTAAATATTATAATGAATGATTTCTTTAATATTTATTCGCAGCTACAGGAAGAAAAAAGCATA GAGATTCCCAAAGTCACACCTTATATAGAATATATAAAATGGTTTGAAGATAGAAAGAAGTTGAACAATGAAGGAGAAGA ATATTGGAGAAGTTACTTAAGCTGTTATGAAGATGTGGCAGGAATTCCTATAAGTACTAAAAGGCATAAAGAAGAAAAAT ATGAATTAAAAGAATTAAAGTTTGTTATAAATAAAGAAAAAACAAAAAAATTAGAGAGAATAGTTAAAACAGAGCAAGTT ACTATGAATACAATTATTCAAGCAGTATGGGGTATACTACTTCAAAGATATAATAATATAGATGATGTAGTCTTTGGAAC GGTTGTATCAGGAAGAAATGCAAATATAGAAGGTATTGATAGAATGGTAGGATTATTTATTAATACAATTCCTGTTAGGA TAAAGACAGAAAGTGGAATGAGCTTTGTAGAACTTATAAAAGAAATACAAAAATCATCATTAGAATCCTCTAAGTATGAT TATTATCCATTAGCAGAGATACAATCTAAGACAAAATTAAAAAATGAACTAATAAATAATATCGTTGTTTATGAAAATTA TTATATAGATAATAGTTCTGTAAATTTAAATGAAAAGATAAATAAGAAATTTATTATGGAAAATATGAAAAGTAGAGAAG AAACTAATTATGATTTAAATCTTATAATTGGACCAAGTGAAGAACTTAATATTAAATTATCGTATAATAAAAAGATTTAT GATGACTATATAATAGAGAAAATAAGTAAGCAGCTTGCTTTAATTATTGATACGATTATAAGCAACAAAAATATATTAGT TGATGAAATAGAAATTATAGAAGAAGAAGAAAAGAATAAAATACTCTATGAATTTAATGATACAAAGGTAGATTATCCAA AGGACAAGACAATACAAGAATTATTTGAAGAACAGGTAGAGAAGACACCAAATAATATAGCAGTGGTGTTTGAAGATAAA AAGTTAACTTATAGAGAGTTAAATGAAAAAGCCAATAGTCTTGGAAGATTACTAAGGGATAAAGGGGTTAAAGCCGACTC AATAGTGGGAATAATGGTTGAAAGATCAGTCGAAATGATAGTAGGAATAATGGGTATTTTAAAGTCAGGAGGAGCATATT TACCAATAGACCCAAGCTATCCTGTAGAGAGAATAGAATATATGATAGAGGATGCAAAAATAGACATATTAATTACATCA GAAGAATTTATTAATAAAGTAAAATTTAGTAAAAGTATAGTAAATATAAAAGAGAAATCAATATTAAAAAAAGATAATTT AGATATAATTAATAAATCAAGTGACTTAGCTTATGTAATTTATACATCAGGTTCAACTGGGAGACCTAAGGGGGTAATGG TAGAACATAAATCTTTGATTAATTTATGTAATTATCATAATAAGAAATTTAATATAAAAGAAGAGGATAAAAGTACAAGC TATGCTGAGTTTTCCTTTGATGCATCTGTTTGGGAAGTATTTCCGTATTTGATTATTGGTGCAACAATATATATTATAAA TGAGAATATTAAATTAGATATAATTAAATTAAATAAATATTATGAAAAAAATAACATAACTATAAGTTTTTTACCAACAC CAATATGCCAACAGTTTATGGAAGTAGATAATACTTCATTGAGAGTTATTTTAACAGGTGGGGACAAATTAAATAATTAT AAAGAAAAGCAAATTAGTATTATTAATAATTACGGACCAACAGAAGCAACAGTGCTAACTACTAGTTACCATGTTAAAAG TAAAGTTAACAATATACCGATAGGAAAGCCTATGTATAATCAGAGAGTATATATTTTAAATAACAAGAAGGTAGCACCAA TAGGTGTATCAGGAGAATTATGTATATCAGGTGATGGATTAGCAAGAGGATATTTAAATAATCCAGAACTAACATCAGAG AAATTTGTAGATAACCCATTTGAACCAGGGGAAAGAATGTATAGAACAGGAGATTTGGCAAAATGGCTGCCAGATGGGAA TATAGAGTTTTTAGGAAGAATAGATAATCAAGTAAAAATAAGAGGTTTTAGAATAGAGTTAGAAGAAATAGAAAACAGAT TGCTGGAATATGAAGGAGTAAAGGAAGCTGTAGTAGTAGCAAAAGAAGATAAGGAAAGAAGTAAATACTTATGTGCATAT ATAGTAAGTAATAATAAGATAGATAGAAATGAACTAAAAAATTACTTATTAAAGGGTTTACCAGAATATATGATACCATC ATACTTTATCGAGTTAGAAAAAATTCCATTAACCTCTAATGGAAAAATTGATAGAAGAGCTTTGCCAGAACCTAATAGAA AAATGAATATAGGAATTGGGTATGAAGCAGCAGGGAATGAATTAGAAGAAAAATTAGTAAAAATATGGAGTGAAATATTA GAGGTTAATGAGATAGGTATAAATGATAATTTTTTTGAACTTGACGGTAATTCCTTAAAAGCAATGATGCTTGTAAGTAA AATATATAAAGAATTAGAAGTAGAAGTTCCTTTAAATGATCTATTTAAAGCAGCTACAATAAAAGAATTATCAAAATATA TTATAAATAAGGATATAATAGATAAATATAAGAAAAATAATAAAATGATTATGTTAAATAATAAAAAAGAAAATAATATA TTTGCATTTCCACCACTGGCTGGGTATGGAATTGTTTATAAGGAGTTATCGCAGTTTTTAACAATGAATACATTATATGG TTTTGATTTTATCGAGCATGAGAAAAGGAATGAAGAGTATATTGAATTAATAACTAATATTCAGAAAGATAAGCCATATA TATTAATTGGATATTCAATAGGTGGAAATTTAGCATTTGAAGTTGCAAAGAATTTAGAAAAACAAGGGTATGAAGTATCA GACATAATTTTACTAGATTCCTTAATAAGAGAACATAAAATTGATTGTTCATTAGATTCTACTAAGAAAGAGGCAGAAAG AATGATTGAAAATATCAAACAGTATGCAAGTGAAGAAGATTTACTAATGTTTAACTATATTAAAGAAAATTATAGTATAA TTACAAGAAAGATTTTTAAATATAAATTATATTCAAATAATGTTATAAATATTGGTAAGATAAAGTCAAACATTCATTTG ATAGCTTCGTGTGAAAATAAAAATAATGAAAAACTAAATCTATGGCAAAAATCTACTTTAGGATCATTTAAAATTTATAA TGGATTTGGTTCGCATAATTTAATGATGAGTAAAGAATATATTAAAAAAAATGCAAATATAATTCGAGATATACTAGGAA AAATTGAATAA
Upstream 100 bases:
>100_bases TTTAACTCTAATAAAACCATATTCATATATTGCTGTTAATAAGCTTTATTAATAATTTTATAAATTTCTATACTTGAGCG CAGAGAAAGGAATGATTAGC
Downstream 100 bases:
>100_bases AGTTTATATAATTTTTAAATACAAAAATAAATAGGAGCGTCTACGCCGATTTTTAAGATTTATAGTACAAGGGATATTAA TGAAGGTGTAGTAAGAATAG
Product: bacitracin synthetase 1
Products: pyrophosphate; AMP; enterobactin; pyrophosphate; L-Seryl-AMP [C]
Alternate protein names: ATP-dependent tyrosine adenylase; TyrA; Tyrosine activase; ATP-dependent asparagine adenylase 2; AsnA 2; Asparagine activase 2; ATP-dependent glutamine adenylase; GlnA; Glutamine activase; ATP-dependent proline adenylase; ProA; Proline activase [H]
Number of amino acids: Translated: 2776; Mature: 2776
Protein sequence:
>2776_residues MIIKNIYSLTPMQMGMLFHALKDEESSSYFEQSIFTLKGEIDLNIFERSFNKVIERYDILRTVFVYENVDKPKQIVFKER KAKIGYEDISKLSNESKENYIENFISKDKEKGFNLGKDLLIRISILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIY SQLQEEKSIELPKVTPYIEYIKWLEDRKKLDNEGEEYWRNYLSCYENVAGIPISTKKHKEEKYELKELKFAINKEKTKKL ERIVKTERVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGIDRMVGLFINTIPVRIKTESGMSFVELIKEIQK SSLESSKYDYYPLAEIQSKTKLKNELINNIVVYENYYIDNSSINLNEKINKKFIMENMQTREETNYDLNLIIGPSEELNI KLSYNKKIYDDYIIKKISKQFALIIDTIISNKNILVDKIEIIEEEEKKQILYEFNDTKVDYPKNKTIQELFEEQVEKTPN NIAVVFEDKKLTYRELNEKANSLARVLRDKGVKADSIVAIMVERSIEMIVGIMGILKSGGAYLPIDPSYPKSRIEYILED SKSKTLLSTEILAKNIEFDGGVIDLFKDQLFNENPYNLGKVNNSDNLAYIIYTSGTTGKPKGVMVNHLGILNLQRSFNKT LKIRSNDRVLQFASISFDASVWEIFMTILNGARLYIPKLELTKDILNLEKYINSNNITIATIPPNYLANMDNEKKFSLRL IITAGSETNKRLQEIWREKCTYINAYGPTEDSICTTMWMNIEKNNHSNIIPIGRPILNKKIYILDKDYKLTPIGVSGELC ISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVK EAVVVAKEDKEDKERSKYLCAYIVSNNKIGRNELKNYLLKDLPEYMIPLNFVNIEKIPLTSNGKVDRKILQNREDLINIY EECEKPRNSMEEVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIGLISKLKKHGYKLEIKDLFKYNTIKDISNRITLEEN SIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLFSEEGFNESIIKKVFDKITEHHDALRIVFKNEKENVLQFNRG LEGELYSLEIFDYRSVENYKKEIENKCNKLQSSINLSNGPLVKLGMFKTKEGDHLLIVIHHLVIDGVSWRILLEDFSLIY NMELNNKPIILQEKTNSFREWSTYIKEYANSKDLLQEEEYWENIENTKIKKVPKDNEIKDSIFKDNRSISIRLSEEDTEN LLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLEGHGREEFSSNINVSRTIGWFTNQYPLVLDISRDKDISYEIK NTKETLRRVPNKGMGYGILRYIKNKWDNNINPEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMISN GVLNMNFGYNYKEYNEETIKEISNNYKNNLVNIINYCLSKEKTELTPTDLGDSNLTIDQLDILNLKYRNKGLEIKNIYSL TPMQMGMLFHALKDKESSSYFEQSILTLKGEIDLNTFERSFNKVIERYDILRTVFVYENVDKPKQIVFKERKTKISYEDI SQLSNESKESYIENFISKDKEKGFSLEKDLLIRMSILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSI EIPKVTPYIEYIKWFEDRKKLNNEGEEYWRSYLSCYEDVAGIPISTKRHKEEKYELKELKFVINKEKTKKLERIVKTEQV TMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGIDRMVGLFINTIPVRIKTESGMSFVELIKEIQKSSLESSKYD YYPLAEIQSKTKLKNELINNIVVYENYYIDNSSVNLNEKINKKFIMENMKSREETNYDLNLIIGPSEELNIKLSYNKKIY DDYIIEKISKQLALIIDTIISNKNILVDEIEIIEEEEKNKILYEFNDTKVDYPKDKTIQELFEEQVEKTPNNIAVVFEDK KLTYRELNEKANSLGRLLRDKGVKADSIVGIMVERSVEMIVGIMGILKSGGAYLPIDPSYPVERIEYMIEDAKIDILITS EEFINKVKFSKSIVNIKEKSILKKDNLDIINKSSDLAYVIYTSGSTGRPKGVMVEHKSLINLCNYHNKKFNIKEEDKSTS YAEFSFDASVWEVFPYLIIGATIYIINENIKLDIIKLNKYYEKNNITISFLPTPICQQFMEVDNTSLRVILTGGDKLNNY KEKQISIINNYGPTEATVLTTSYHVKSKVNNIPIGKPMYNQRVYILNNKKVAPIGVSGELCISGDGLARGYLNNPELTSE KFVDNPFEPGERMYRTGDLAKWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAY IVSNNKIDRNELKNYLLKGLPEYMIPSYFIELEKIPLTSNGKIDRRALPEPNRKMNIGIGYEAAGNELEEKLVKIWSEIL EVNEIGINDNFFELDGNSLKAMMLVSKIYKELEVEVPLNDLFKAATIKELSKYIINKDIIDKYKKNNKMIMLNNKKENNI FAFPPLAGYGIVYKELSQFLTMNTLYGFDFIEHEKRNEEYIELITNIQKDKPYILIGYSIGGNLAFEVAKNLEKQGYEVS DIILLDSLIREHKIDCSLDSTKKEAERMIENIKQYASEEDLLMFNYIKENYSIITRKIFKYKLYSNNVINIGKIKSNIHL IASCENKNNEKLNLWQKSTLGSFKIYNGFGSHNLMMSKEYIKKNANIIRDILGKIE
Sequences:
>Translated_2776_residues MIIKNIYSLTPMQMGMLFHALKDEESSSYFEQSIFTLKGEIDLNIFERSFNKVIERYDILRTVFVYENVDKPKQIVFKER KAKIGYEDISKLSNESKENYIENFISKDKEKGFNLGKDLLIRISILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIY SQLQEEKSIELPKVTPYIEYIKWLEDRKKLDNEGEEYWRNYLSCYENVAGIPISTKKHKEEKYELKELKFAINKEKTKKL ERIVKTERVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGIDRMVGLFINTIPVRIKTESGMSFVELIKEIQK SSLESSKYDYYPLAEIQSKTKLKNELINNIVVYENYYIDNSSINLNEKINKKFIMENMQTREETNYDLNLIIGPSEELNI KLSYNKKIYDDYIIKKISKQFALIIDTIISNKNILVDKIEIIEEEEKKQILYEFNDTKVDYPKNKTIQELFEEQVEKTPN NIAVVFEDKKLTYRELNEKANSLARVLRDKGVKADSIVAIMVERSIEMIVGIMGILKSGGAYLPIDPSYPKSRIEYILED SKSKTLLSTEILAKNIEFDGGVIDLFKDQLFNENPYNLGKVNNSDNLAYIIYTSGTTGKPKGVMVNHLGILNLQRSFNKT LKIRSNDRVLQFASISFDASVWEIFMTILNGARLYIPKLELTKDILNLEKYINSNNITIATIPPNYLANMDNEKKFSLRL IITAGSETNKRLQEIWREKCTYINAYGPTEDSICTTMWMNIEKNNHSNIIPIGRPILNKKIYILDKDYKLTPIGVSGELC ISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVK EAVVVAKEDKEDKERSKYLCAYIVSNNKIGRNELKNYLLKDLPEYMIPLNFVNIEKIPLTSNGKVDRKILQNREDLINIY EECEKPRNSMEEVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIGLISKLKKHGYKLEIKDLFKYNTIKDISNRITLEEN SIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLFSEEGFNESIIKKVFDKITEHHDALRIVFKNEKENVLQFNRG LEGELYSLEIFDYRSVENYKKEIENKCNKLQSSINLSNGPLVKLGMFKTKEGDHLLIVIHHLVIDGVSWRILLEDFSLIY NMELNNKPIILQEKTNSFREWSTYIKEYANSKDLLQEEEYWENIENTKIKKVPKDNEIKDSIFKDNRSISIRLSEEDTEN LLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLEGHGREEFSSNINVSRTIGWFTNQYPLVLDISRDKDISYEIK NTKETLRRVPNKGMGYGILRYIKNKWDNNINPEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMISN GVLNMNFGYNYKEYNEETIKEISNNYKNNLVNIINYCLSKEKTELTPTDLGDSNLTIDQLDILNLKYRNKGLEIKNIYSL TPMQMGMLFHALKDKESSSYFEQSILTLKGEIDLNTFERSFNKVIERYDILRTVFVYENVDKPKQIVFKERKTKISYEDI SQLSNESKESYIENFISKDKEKGFSLEKDLLIRMSILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSI EIPKVTPYIEYIKWFEDRKKLNNEGEEYWRSYLSCYEDVAGIPISTKRHKEEKYELKELKFVINKEKTKKLERIVKTEQV TMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGIDRMVGLFINTIPVRIKTESGMSFVELIKEIQKSSLESSKYD YYPLAEIQSKTKLKNELINNIVVYENYYIDNSSVNLNEKINKKFIMENMKSREETNYDLNLIIGPSEELNIKLSYNKKIY DDYIIEKISKQLALIIDTIISNKNILVDEIEIIEEEEKNKILYEFNDTKVDYPKDKTIQELFEEQVEKTPNNIAVVFEDK KLTYRELNEKANSLGRLLRDKGVKADSIVGIMVERSVEMIVGIMGILKSGGAYLPIDPSYPVERIEYMIEDAKIDILITS EEFINKVKFSKSIVNIKEKSILKKDNLDIINKSSDLAYVIYTSGSTGRPKGVMVEHKSLINLCNYHNKKFNIKEEDKSTS YAEFSFDASVWEVFPYLIIGATIYIINENIKLDIIKLNKYYEKNNITISFLPTPICQQFMEVDNTSLRVILTGGDKLNNY KEKQISIINNYGPTEATVLTTSYHVKSKVNNIPIGKPMYNQRVYILNNKKVAPIGVSGELCISGDGLARGYLNNPELTSE KFVDNPFEPGERMYRTGDLAKWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAY IVSNNKIDRNELKNYLLKGLPEYMIPSYFIELEKIPLTSNGKIDRRALPEPNRKMNIGIGYEAAGNELEEKLVKIWSEIL EVNEIGINDNFFELDGNSLKAMMLVSKIYKELEVEVPLNDLFKAATIKELSKYIINKDIIDKYKKNNKMIMLNNKKENNI FAFPPLAGYGIVYKELSQFLTMNTLYGFDFIEHEKRNEEYIELITNIQKDKPYILIGYSIGGNLAFEVAKNLEKQGYEVS DIILLDSLIREHKIDCSLDSTKKEAERMIENIKQYASEEDLLMFNYIKENYSIITRKIFKYKLYSNNVINIGKIKSNIHL IASCENKNNEKLNLWQKSTLGSFKIYNGFGSHNLMMSKEYIKKNANIIRDILGKIE >Mature_2776_residues MIIKNIYSLTPMQMGMLFHALKDEESSSYFEQSIFTLKGEIDLNIFERSFNKVIERYDILRTVFVYENVDKPKQIVFKER KAKIGYEDISKLSNESKENYIENFISKDKEKGFNLGKDLLIRISILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIY SQLQEEKSIELPKVTPYIEYIKWLEDRKKLDNEGEEYWRNYLSCYENVAGIPISTKKHKEEKYELKELKFAINKEKTKKL ERIVKTERVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGIDRMVGLFINTIPVRIKTESGMSFVELIKEIQK SSLESSKYDYYPLAEIQSKTKLKNELINNIVVYENYYIDNSSINLNEKINKKFIMENMQTREETNYDLNLIIGPSEELNI KLSYNKKIYDDYIIKKISKQFALIIDTIISNKNILVDKIEIIEEEEKKQILYEFNDTKVDYPKNKTIQELFEEQVEKTPN NIAVVFEDKKLTYRELNEKANSLARVLRDKGVKADSIVAIMVERSIEMIVGIMGILKSGGAYLPIDPSYPKSRIEYILED SKSKTLLSTEILAKNIEFDGGVIDLFKDQLFNENPYNLGKVNNSDNLAYIIYTSGTTGKPKGVMVNHLGILNLQRSFNKT LKIRSNDRVLQFASISFDASVWEIFMTILNGARLYIPKLELTKDILNLEKYINSNNITIATIPPNYLANMDNEKKFSLRL IITAGSETNKRLQEIWREKCTYINAYGPTEDSICTTMWMNIEKNNHSNIIPIGRPILNKKIYILDKDYKLTPIGVSGELC ISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVK EAVVVAKEDKEDKERSKYLCAYIVSNNKIGRNELKNYLLKDLPEYMIPLNFVNIEKIPLTSNGKVDRKILQNREDLINIY EECEKPRNSMEEVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIGLISKLKKHGYKLEIKDLFKYNTIKDISNRITLEEN SIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLFSEEGFNESIIKKVFDKITEHHDALRIVFKNEKENVLQFNRG LEGELYSLEIFDYRSVENYKKEIENKCNKLQSSINLSNGPLVKLGMFKTKEGDHLLIVIHHLVIDGVSWRILLEDFSLIY NMELNNKPIILQEKTNSFREWSTYIKEYANSKDLLQEEEYWENIENTKIKKVPKDNEIKDSIFKDNRSISIRLSEEDTEN LLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLEGHGREEFSSNINVSRTIGWFTNQYPLVLDISRDKDISYEIK NTKETLRRVPNKGMGYGILRYIKNKWDNNINPEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMISN GVLNMNFGYNYKEYNEETIKEISNNYKNNLVNIINYCLSKEKTELTPTDLGDSNLTIDQLDILNLKYRNKGLEIKNIYSL TPMQMGMLFHALKDKESSSYFEQSILTLKGEIDLNTFERSFNKVIERYDILRTVFVYENVDKPKQIVFKERKTKISYEDI SQLSNESKESYIENFISKDKEKGFSLEKDLLIRMSILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSI EIPKVTPYIEYIKWFEDRKKLNNEGEEYWRSYLSCYEDVAGIPISTKRHKEEKYELKELKFVINKEKTKKLERIVKTEQV TMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGIDRMVGLFINTIPVRIKTESGMSFVELIKEIQKSSLESSKYD YYPLAEIQSKTKLKNELINNIVVYENYYIDNSSVNLNEKINKKFIMENMKSREETNYDLNLIIGPSEELNIKLSYNKKIY DDYIIEKISKQLALIIDTIISNKNILVDEIEIIEEEEKNKILYEFNDTKVDYPKDKTIQELFEEQVEKTPNNIAVVFEDK KLTYRELNEKANSLGRLLRDKGVKADSIVGIMVERSVEMIVGIMGILKSGGAYLPIDPSYPVERIEYMIEDAKIDILITS EEFINKVKFSKSIVNIKEKSILKKDNLDIINKSSDLAYVIYTSGSTGRPKGVMVEHKSLINLCNYHNKKFNIKEEDKSTS YAEFSFDASVWEVFPYLIIGATIYIINENIKLDIIKLNKYYEKNNITISFLPTPICQQFMEVDNTSLRVILTGGDKLNNY KEKQISIINNYGPTEATVLTTSYHVKSKVNNIPIGKPMYNQRVYILNNKKVAPIGVSGELCISGDGLARGYLNNPELTSE KFVDNPFEPGERMYRTGDLAKWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAY IVSNNKIDRNELKNYLLKGLPEYMIPSYFIELEKIPLTSNGKIDRRALPEPNRKMNIGIGYEAAGNELEEKLVKIWSEIL EVNEIGINDNFFELDGNSLKAMMLVSKIYKELEVEVPLNDLFKAATIKELSKYIINKDIIDKYKKNNKMIMLNNKKENNI FAFPPLAGYGIVYKELSQFLTMNTLYGFDFIEHEKRNEEYIELITNIQKDKPYILIGYSIGGNLAFEVAKNLEKQGYEVS DIILLDSLIREHKIDCSLDSTKKEAERMIENIKQYASEEDLLMFNYIKENYSIITRKIFKYKLYSNNVINIGKIKSNIHL IASCENKNNEKLNLWQKSTLGSFKIYNGFGSHNLMMSKEYIKKNANIIRDILGKIE
Specific function: This protein is a multifunctional enzyme, able to activate and polymerize the amino acids Tyr, Asn, Gln and Pro as part of the synthesis of mycosubtilin. The Asn and Gln residues are further epimerized to the D-isomer form. The activation sites for these
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=653, Percent_Identity=24.8085758039816, Blast_Score=140, Evalue=2e-32, Organism=Homo sapiens, GI115511026, Length=515, Percent_Identity=24.2718446601942, Blast_Score=100, Evalue=2e-20, Organism=Homo sapiens, GI42544132, Length=538, Percent_Identity=23.0483271375465, Blast_Score=99, Evalue=6e-20, Organism=Homo sapiens, GI122937307, Length=530, Percent_Identity=24.7169811320755, Blast_Score=99, Evalue=7e-20, Organism=Homo sapiens, GI28416953, Length=540, Percent_Identity=22.037037037037, Blast_Score=97, Evalue=3e-19, Organism=Homo sapiens, GI38505220, Length=508, Percent_Identity=23.8188976377953, Blast_Score=94, Evalue=2e-18, Organism=Homo sapiens, GI156151445, Length=553, Percent_Identity=21.5189873417722, Blast_Score=89, Evalue=8e-17, Organism=Homo sapiens, GI58082049, Length=508, Percent_Identity=22.6377952755905, Blast_Score=79, Evalue=7e-14, Organism=Escherichia coli, GI1786801, Length=1161, Percent_Identity=25.5813953488372, Blast_Score=395, Evalue=1e-110, Organism=Escherichia coli, GI145693145, Length=541, Percent_Identity=24.0295748613678, Blast_Score=123, Evalue=1e-28, Organism=Escherichia coli, GI1786810, Length=505, Percent_Identity=23.960396039604, Blast_Score=104, Evalue=7e-23, Organism=Escherichia coli, GI1788107, Length=555, Percent_Identity=22.1621621621622, Blast_Score=102, Evalue=3e-22, Organism=Escherichia coli, GI1789201, Length=485, Percent_Identity=23.9175257731959, Blast_Score=87, Evalue=1e-17, Organism=Caenorhabditis elegans, GI17550940, Length=1164, Percent_Identity=23.3676975945017, Blast_Score=200, Evalue=7e-51, Organism=Caenorhabditis elegans, GI17556356, Length=704, Percent_Identity=26.4204545454545, Blast_Score=189, Evalue=2e-47, Organism=Caenorhabditis elegans, GI17557194, Length=551, Percent_Identity=25.2268602540835, Blast_Score=111, Evalue=5e-24, Organism=Caenorhabditis elegans, GI32563687, Length=495, Percent_Identity=23.6363636363636, Blast_Score=109, Evalue=2e-23, Organism=Caenorhabditis elegans, GI115534440, Length=491, Percent_Identity=25.4582484725051, Blast_Score=104, Evalue=8e-22, Organism=Caenorhabditis elegans, GI17538037, Length=545, Percent_Identity=25.6880733944954, Blast_Score=104, Evalue=8e-22, Organism=Caenorhabditis elegans, GI17559526, Length=537, Percent_Identity=21.6014897579143, Blast_Score=99, Evalue=4e-20, Organism=Caenorhabditis elegans, GI17558820, Length=483, Percent_Identity=22.360248447205, Blast_Score=98, Evalue=6e-20, Organism=Caenorhabditis elegans, GI17560140, Length=524, Percent_Identity=22.7099236641221, Blast_Score=96, Evalue=2e-19, Organism=Caenorhabditis elegans, GI32564422, Length=547, Percent_Identity=22.1206581352834, Blast_Score=95, Evalue=7e-19, Organism=Caenorhabditis elegans, GI32564420, Length=547, Percent_Identity=22.1206581352834, Blast_Score=95, Evalue=7e-19, Organism=Caenorhabditis elegans, GI17531443, Length=542, Percent_Identity=22.140221402214, Blast_Score=93, Evalue=2e-18, Organism=Caenorhabditis elegans, GI17551278, Length=551, Percent_Identity=23.7749546279492, Blast_Score=85, Evalue=5e-16, Organism=Caenorhabditis elegans, GI71996755, Length=518, Percent_Identity=22.2007722007722, Blast_Score=82, Evalue=5e-15, Organism=Caenorhabditis elegans, GI17560308, Length=370, Percent_Identity=24.8648648648649, Blast_Score=80, Evalue=2e-14, Organism=Caenorhabditis elegans, GI71985884, Length=414, Percent_Identity=24.6376811594203, Blast_Score=76, Evalue=3e-13, Organism=Saccharomyces cerevisiae, GI6319591, Length=751, Percent_Identity=26.7643142476698, Blast_Score=249, Evalue=4e-66, Organism=Saccharomyces cerevisiae, GI6319699, Length=532, Percent_Identity=24.2481203007519, Blast_Score=111, Evalue=2e-24, Organism=Saccharomyces cerevisiae, GI6319264, Length=560, Percent_Identity=23.0357142857143, Blast_Score=91, Evalue=2e-18, Organism=Drosophila melanogaster, GI24648676, Length=655, Percent_Identity=27.6335877862595, Blast_Score=208, Evalue=4e-53, Organism=Drosophila melanogaster, GI21355181, Length=492, Percent_Identity=24.7967479674797, Blast_Score=111, Evalue=6e-24, Organism=Drosophila melanogaster, GI24581924, Length=545, Percent_Identity=22.0183486238532, Blast_Score=92, Evalue=4e-18, Organism=Drosophila melanogaster, GI18859661, Length=515, Percent_Identity=22.7184466019417, Blast_Score=83, Evalue=2e-15, Organism=Drosophila melanogaster, GI21356441, Length=454, Percent_Identity=24.4493392070485, Blast_Score=77, Evalue=2e-13, Organism=Drosophila melanogaster, GI24656500, Length=499, Percent_Identity=20.6412825651303, Blast_Score=75, Evalue=5e-13, Organism=Drosophila melanogaster, GI19922652, Length=504, Percent_Identity=22.2222222222222, Blast_Score=75, Evalue=8e-13, Organism=Drosophila melanogaster, GI24582852, Length=502, Percent_Identity=22.5099601593625, Blast_Score=73, Evalue=2e-12, Organism=Drosophila melanogaster, GI281364798, Length=209, Percent_Identity=24.8803827751196, Blast_Score=71, Evalue=1e-11, Organism=Drosophila melanogaster, GI24583465, Length=209, Percent_Identity=24.8803827751196, Blast_Score=71, Evalue=1e-11, Organism=Drosophila melanogaster, GI24583463, Length=209, Percent_Identity=24.8803827751196, Blast_Score=71, Evalue=1e-11,
Paralogues:
None
Copy number: NA
Swissprot (AC and ID): NA
Other databases:
- InterPro: IPR010071 - InterPro: IPR009081 - InterPro: IPR020845 - InterPro: IPR000873 - InterPro: IPR001242 - InterPro: IPR010060 - InterPro: IPR006163 - InterPro: IPR006162 [H]
Pfam domain/function: PF00501 AMP-binding; PF00668 Condensation; PF00550 PP-binding [H]
EC number: 2.7.7.- [C]
Molecular weight: Translated: 323269; Mature: 323269
Theoretical pI: Translated: 5.75; Mature: 5.75
Prosite motif: PS00012 PHOSPHOPANTETHEINE ; PS50075 ACP_DOMAIN ; PS00455 AMP_BINDING
Important sites: NA
Signals:
None
Transmembrane regions:
None
Cys/Met content:
0.6 %Cys (Translated Protein) 2.2 %Met (Translated Protein) 2.8 %Cys+Met (Translated Protein) 0.6 %Cys (Mature Protein) 2.2 %Met (Mature Protein) 2.8 %Cys+Met (Mature Protein)
Secondary structure:
>Translated Secondary Structure MIIKNIYSLTPMQMGMLFHALKDEESSSYFEQSIFTLKGEIDLNIFERSFNKVIERYDIL CCCCHHHHCCHHHHHHHHHHHCCCCCHHHHHHHHEEEECCEEHHHHHHHHHHHHHHHHHH RTVFVYENVDKPKQIVFKERKAKIGYEDISKLSNESKENYIENFISKDKEKGFNLGKDLL HHHHHHCCCCCHHHHHHHHHHHCCCHHHHHHHHCCHHHHHHHHHHHHHHHCCCCCCCCCE IRISILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSIELPKVTPYIEY EEEEEEEECCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCHHHHH IKWLEDRKKLDNEGEEYWRNYLSCYENVAGIPISTKKHKEEKYELKELKFAINKEKTKKL HHHHHHHHHCCCCHHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHCHHHHHHH ERIVKTERVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGIDRMVGLFINTIP HHHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHEEEEECCCCCCHHHHHHHHHHHHHCEE VRIKTESGMSFVELIKEIQKSSLESSKYDYYPLAEIQSKTKLKNELINNIVVYENYYIDN EEEEECCCCHHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHHHHHHHCCEEEEEEEEEEC SSINLNEKINKKFIMENMQTREETNYDLNLIIGPSEELNIKLSYNKKIYDDYIIKKISKQ CCCCCHHHHHHHHHHHHHHHHHCCCCEEEEEECCCCCEEEEEEECCCHHHHHHHHHHHHH FALIIDTIISNKNILVDKIEIIEEEEKKQILYEFNDTKVDYPKNKTIQELFEEQVEKTPN HHHHHHHHHCCCCEEEEHHHHHCCHHHHHEEEEECCCEECCCCCCHHHHHHHHHHHCCCC NIAVVFEDKKLTYRELNEKANSLARVLRDKGVKADSIVAIMVERSIEMIVGIMGILKSGG CEEEEEECCCCHHHHHHHHHHHHHHHHHHCCCCCHHEEEHHHHHHHHHHHHHHHHHHCCC AYLPIDPSYPKSRIEYILEDSKSKTLLSTEILAKNIEFDGGVIDLFKDQLFNENPYNLGK EEECCCCCCCHHHHHHHHHCCCCCHHHHHHHHHHCCCCCCCCHHHHHHHHCCCCCCCCCC VNNSDNLAYIIYTSGTTGKPKGVMVNHLGILNLQRSFNKTLKIRSNDRVLQFASISFDAS CCCCCCEEEEEEECCCCCCCCCEEEECCCHHHHHHCCCCEEEEECCCCEEEEEECCCCHH VWEIFMTILNGARLYIPKLELTKDILNLEKYINSNNITIATIPPNYLANMDNEKKFSLRL HHHHHHHHHCCCEEEEEHHHHHHHHHHHHHHHCCCCEEEEEECCHHHHCCCCCCEEEEEE IITAGSETNKRLQEIWREKCTYINAYGPTEDSICTTMWMNIEKNNHSNIIPIGRPILNKK EEEECCCHHHHHHHHHHHHCCEEECCCCCCCCEEEEEEEEEECCCCCCEEECCCHHHCCE IYILDKDYKLTPIGVSGELCISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTGDLAR EEEEECCCEEEEECCCCCEEECCCCCCCCCCCCCCCCCHHHCCCCCCCHHHHHHCCCHHH WLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKEDKERSKYLC HCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHCCCCCEEEEECCCCCHHHHCCEEE AYIVSNNKIGRNELKNYLLKDLPEYMIPLNFVNIEKIPLTSNGKVDRKILQNREDLINIY EEEEECCCCCHHHHHHHHHHHCHHHHCCCEEEEEEEECCCCCCCHHHHHHCCHHHHHHHH EECEKPRNSMEEVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIGLISKLKKHGYKLEIK HHHHCHHHHHHHHHHHHHHHHHCCCCCCCCCCEECCCCCCHHHHHHHHHHHHCCCEEEEH DLFKYNTIKDISNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLFS HHHHHHHHHHHHCCEEECCCCHHHHHHHCCCCEEEEHHHHHHHHHHCCCCCCCCEEEEEE EEGFNESIIKKVFDKITEHHDALRIVFKNEKENVLQFNRGLEGELYSLEIFDYRSVENYK CCCCCHHHHHHHHHHHHCCCCEEEEEEECCCHHHHHHCCCCCCCEEEEEEEECCCHHHHH KEIENKCNKLQSSINLSNGPLVKLGMFKTKEGDHLLIVIHHLVIDGVSWRILLEDFSLIY HHHHHHHHHHHHHCCCCCCCEEEEEEEECCCCCEEEEEEHHHHHCCCCEEEEEEECEEEE NMELNNKPIILQEKTNSFREWSTYIKEYANSKDLLQEEEYWENIENTKIKKVPKDNEIKD EEECCCCCEEEECCCCCHHHHHHHHHHHCCCHHHHHHHHHHHCCCCCEEECCCCCCCHHH SIFKDNRSISIRLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLEG HHHCCCCEEEEEECCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCCCCCCEEEEECC HGREEFSSNINVSRTIGWFTNQYPLVLDISRDKDISYEIKNTKETLRRVPNKGMGYGILR CCHHHHHCCCCEEEEECCCCCCCCEEEECCCCCCCEEEECCHHHHHHHCCCCCCCHHHHH YIKNKWDNNINPEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMISN HHHHHCCCCCCCCEEEHHHCCHHHHHHCCEEEEECCCCCCCCCCCCCCCEEEEECCEEEC GVLNMNFGYNYKEYNEETIKEISNNYKNNLVNIINYCLSKEKTELTPTDLGDSNLTIDQL CEEEECCCCCHHHCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCEEEEE DILNLKYRNKGLEIKNIYSLTPMQMGMLFHALKDKESSSYFEQSILTLKGEIDLNTFERS EEEEEEECCCCCEEEHEEECCHHHHHHHHHHHHCCCCHHHHHHHHEEEECCCCHHHHHHH FNKVIERYDILRTVFVYENVDKPKQIVFKERKTKISYEDISQLSNESKESYIENFISKDK HHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHCCCCHHHHHHHHCCHHHHHHHHHHHHHH EKGFSLEKDLLIRMSILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSI HCCCCCCHHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCC EIPKVTPYIEYIKWFEDRKKLNNEGEEYWRSYLSCYEDVAGIPISTKRHKEEKYELKELK CCCCCCHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHH FVINKEKTKKLERIVKTEQVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGID HHHCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHEEEEECCCCCCHHHHH RMVGLFINTIPVRIKTESGMSFVELIKEIQKSSLESSKYDYYPLAEIQSKTKLKNELINN HHHHHHHHCEEEEEEECCCCHHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHHHHHHHCC IVVYENYYIDNSSVNLNEKINKKFIMENMKSREETNYDLNLIIGPSEELNIKLSYNKKIY EEEEEEEEECCCCCCCHHHHHHHHHHHHHHHHHCCCCEEEEEECCCCCEEEEEEECCCHH DDYIIEKISKQLALIIDTIISNKNILVDEIEIIEEEEKNKILYEFNDTKVDYPKDKTIQE HHHHHHHHHHHHHHHHHHHHCCCCEEEHHHHHHHHHCCCCEEEEECCCCCCCCCCHHHHH LFEEQVEKTPNNIAVVFEDKKLTYRELNEKANSLGRLLRDKGVKADSIVGIMVERSVEMI HHHHHHHCCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHHCCCCHHHEEEHHHHHHHHHH VGIMGILKSGGAYLPIDPSYPVERIEYMIEDAKIDILITSEEFINKVKFSKSIVNIKEKS HHHHHHHHCCCEEEECCCCCCHHHHHHHHHCCEEEEEEECHHHHHHHHHHHHHHHHHHHH ILKKDNLDIINKSSDLAYVIYTSGSTGRPKGVMVEHKSLINLCNYHNKKFNIKEEDKSTS HHCCCCCCEEECCCCEEEEEEECCCCCCCCCEEEEHHHHHHHHHCCCCCCCCCCCCCCCC YAEFSFDASVWEVFPYLIIGATIYIINENIKLDIIKLNKYYEKNNITISFLPTPICQQFM EEEEECCCHHHHHHHHHHHCCEEEEEECCCEEEEEEEECEEECCCEEEEECCCHHHHHHH EVDNTSLRVILTGGDKLNNYKEKQISIINNYGPTEATVLTTSYHVKSKVNNIPIGKPMYN HCCCCEEEEEEECCCCCCCCHHHHEEEEECCCCCCEEEEEEEEEHHHHCCCCCCCCCCCC QRVYILNNKKVAPIGVSGELCISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTGDLA CEEEEEECCEEEEECCCCCEEECCCCCCCCCCCCCCCCCHHHCCCCCCCHHHHHHCCCHH KWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAY HHCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHCCCCEEEEEECCCCCCCCEEEEE IVSNNKIDRNELKNYLLKGLPEYMIPSYFIELEKIPLTSNGKIDRRALPEPNRKMNIGIG EECCCCCCHHHHHHHHHHCCHHHCCCHHEEEEEECCCCCCCCCCCCCCCCCCCEEEEEEC YEAAGNELEEKLVKIWSEILEVNEIGINDNFFELDGNSLKAMMLVSKIYKELEVEVPLND CCCCCHHHHHHHHHHHHHHHHHHHCCCCCCEEEECCCCHHHHHHHHHHHHHHEECCCHHH LFKAATIKELSKYIINKDIIDKYKKNNKMIMLNNKKENNIFAFPPLAGYGIVYKELSQFL HHHHHHHHHHHHHHHCHHHHHHHHCCCCEEEEECCCCCCEEECCCCCCCHHHHHHHHHHH TMNTLYGFDFIEHEKRNEEYIELITNIQKDKPYILIGYSIGGNLAFEVAKNLEKQGYEVS HHHHHHCCHHHHHHCCCHHHHHHHHHCCCCCCEEEEEEECCCCHHHHHHHHHHHCCCCHH DIILLDSLIREHKIDCSLDSTKKEAERMIENIKQYASEEDLLMFNYIKENYSIITRKIFK HHHHHHHHHHHHCCCCCCCCHHHHHHHHHHHHHHHCCCCCEEEEHHHHHHHHHHHHHHHH YKLYSNNVINIGKIKSNIHLIASCENKNNEKLNLWQKSTLGSFKIYNGFGSHNLMMSKEY EEEECCCEEEEEEECCCEEEEEECCCCCCCEEEEEECCCCCCEEEECCCCCCCEEECHHH IKKNANIIRDILGKIE HHHHHHHHHHHHHCCC >Mature Secondary Structure MIIKNIYSLTPMQMGMLFHALKDEESSSYFEQSIFTLKGEIDLNIFERSFNKVIERYDIL CCCCHHHHCCHHHHHHHHHHHCCCCCHHHHHHHHEEEECCEEHHHHHHHHHHHHHHHHHH RTVFVYENVDKPKQIVFKERKAKIGYEDISKLSNESKENYIENFISKDKEKGFNLGKDLL HHHHHHCCCCCHHHHHHHHHHHCCCHHHHHHHHCCHHHHHHHHHHHHHHHCCCCCCCCCE IRISILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSIELPKVTPYIEY EEEEEEEECCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCHHHHH IKWLEDRKKLDNEGEEYWRNYLSCYENVAGIPISTKKHKEEKYELKELKFAINKEKTKKL HHHHHHHHHCCCCHHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHCHHHHHHH ERIVKTERVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGIDRMVGLFINTIP HHHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHEEEEECCCCCCHHHHHHHHHHHHHCEE VRIKTESGMSFVELIKEIQKSSLESSKYDYYPLAEIQSKTKLKNELINNIVVYENYYIDN EEEEECCCCHHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHHHHHHHCCEEEEEEEEEEC SSINLNEKINKKFIMENMQTREETNYDLNLIIGPSEELNIKLSYNKKIYDDYIIKKISKQ CCCCCHHHHHHHHHHHHHHHHHCCCCEEEEEECCCCCEEEEEEECCCHHHHHHHHHHHHH FALIIDTIISNKNILVDKIEIIEEEEKKQILYEFNDTKVDYPKNKTIQELFEEQVEKTPN HHHHHHHHHCCCCEEEEHHHHHCCHHHHHEEEEECCCEECCCCCCHHHHHHHHHHHCCCC NIAVVFEDKKLTYRELNEKANSLARVLRDKGVKADSIVAIMVERSIEMIVGIMGILKSGG CEEEEEECCCCHHHHHHHHHHHHHHHHHHCCCCCHHEEEHHHHHHHHHHHHHHHHHHCCC AYLPIDPSYPKSRIEYILEDSKSKTLLSTEILAKNIEFDGGVIDLFKDQLFNENPYNLGK EEECCCCCCCHHHHHHHHHCCCCCHHHHHHHHHHCCCCCCCCHHHHHHHHCCCCCCCCCC VNNSDNLAYIIYTSGTTGKPKGVMVNHLGILNLQRSFNKTLKIRSNDRVLQFASISFDAS CCCCCCEEEEEEECCCCCCCCCEEEECCCHHHHHHCCCCEEEEECCCCEEEEEECCCCHH VWEIFMTILNGARLYIPKLELTKDILNLEKYINSNNITIATIPPNYLANMDNEKKFSLRL HHHHHHHHHCCCEEEEEHHHHHHHHHHHHHHHCCCCEEEEEECCHHHHCCCCCCEEEEEE IITAGSETNKRLQEIWREKCTYINAYGPTEDSICTTMWMNIEKNNHSNIIPIGRPILNKK EEEECCCHHHHHHHHHHHHCCEEECCCCCCCCEEEEEEEEEECCCCCCEEECCCHHHCCE IYILDKDYKLTPIGVSGELCISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTGDLAR EEEEECCCEEEEECCCCCEEECCCCCCCCCCCCCCCCCHHHCCCCCCCHHHHHHCCCHHH WLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKEDKERSKYLC HCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHCCCCCEEEEECCCCCHHHHCCEEE AYIVSNNKIGRNELKNYLLKDLPEYMIPLNFVNIEKIPLTSNGKVDRKILQNREDLINIY EEEEECCCCCHHHHHHHHHHHCHHHHCCCEEEEEEEECCCCCCCHHHHHHCCHHHHHHHH EECEKPRNSMEEVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIGLISKLKKHGYKLEIK HHHHCHHHHHHHHHHHHHHHHHCCCCCCCCCCEECCCCCCHHHHHHHHHHHHCCCEEEEH DLFKYNTIKDISNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLFS HHHHHHHHHHHHCCEEECCCCHHHHHHHCCCCEEEEHHHHHHHHHHCCCCCCCCEEEEEE EEGFNESIIKKVFDKITEHHDALRIVFKNEKENVLQFNRGLEGELYSLEIFDYRSVENYK CCCCCHHHHHHHHHHHHCCCCEEEEEEECCCHHHHHHCCCCCCCEEEEEEEECCCHHHHH KEIENKCNKLQSSINLSNGPLVKLGMFKTKEGDHLLIVIHHLVIDGVSWRILLEDFSLIY HHHHHHHHHHHHHCCCCCCCEEEEEEEECCCCCEEEEEEHHHHHCCCCEEEEEEECEEEE NMELNNKPIILQEKTNSFREWSTYIKEYANSKDLLQEEEYWENIENTKIKKVPKDNEIKD EEECCCCCEEEECCCCCHHHHHHHHHHHCCCHHHHHHHHHHHCCCCCEEECCCCCCCHHH SIFKDNRSISIRLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLEG HHHCCCCEEEEEECCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCCCCCCEEEEECC HGREEFSSNINVSRTIGWFTNQYPLVLDISRDKDISYEIKNTKETLRRVPNKGMGYGILR CCHHHHHCCCCEEEEECCCCCCCCEEEECCCCCCCEEEECCHHHHHHHCCCCCCCHHHHH YIKNKWDNNINPEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMISN HHHHHCCCCCCCCEEEHHHCCHHHHHHCCEEEEECCCCCCCCCCCCCCCEEEEECCEEEC GVLNMNFGYNYKEYNEETIKEISNNYKNNLVNIINYCLSKEKTELTPTDLGDSNLTIDQL CEEEECCCCCHHHCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCEEEEE DILNLKYRNKGLEIKNIYSLTPMQMGMLFHALKDKESSSYFEQSILTLKGEIDLNTFERS EEEEEEECCCCCEEEHEEECCHHHHHHHHHHHHCCCCHHHHHHHHEEEECCCCHHHHHHH FNKVIERYDILRTVFVYENVDKPKQIVFKERKTKISYEDISQLSNESKESYIENFISKDK HHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHCCCCHHHHHHHHCCHHHHHHHHHHHHHH EKGFSLEKDLLIRMSILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSI HCCCCCCHHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCC EIPKVTPYIEYIKWFEDRKKLNNEGEEYWRSYLSCYEDVAGIPISTKRHKEEKYELKELK CCCCCCHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHH FVINKEKTKKLERIVKTEQVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGID HHHCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHEEEEECCCCCCHHHHH RMVGLFINTIPVRIKTESGMSFVELIKEIQKSSLESSKYDYYPLAEIQSKTKLKNELINN HHHHHHHHCEEEEEEECCCCHHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHHHHHHHCC IVVYENYYIDNSSVNLNEKINKKFIMENMKSREETNYDLNLIIGPSEELNIKLSYNKKIY EEEEEEEEECCCCCCCHHHHHHHHHHHHHHHHHCCCCEEEEEECCCCCEEEEEEECCCHH DDYIIEKISKQLALIIDTIISNKNILVDEIEIIEEEEKNKILYEFNDTKVDYPKDKTIQE HHHHHHHHHHHHHHHHHHHHCCCCEEEHHHHHHHHHCCCCEEEEECCCCCCCCCCHHHHH LFEEQVEKTPNNIAVVFEDKKLTYRELNEKANSLGRLLRDKGVKADSIVGIMVERSVEMI HHHHHHHCCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHHCCCCHHHEEEHHHHHHHHHH VGIMGILKSGGAYLPIDPSYPVERIEYMIEDAKIDILITSEEFINKVKFSKSIVNIKEKS HHHHHHHHCCCEEEECCCCCCHHHHHHHHHCCEEEEEEECHHHHHHHHHHHHHHHHHHHH ILKKDNLDIINKSSDLAYVIYTSGSTGRPKGVMVEHKSLINLCNYHNKKFNIKEEDKSTS HHCCCCCCEEECCCCEEEEEEECCCCCCCCCEEEEHHHHHHHHHCCCCCCCCCCCCCCCC YAEFSFDASVWEVFPYLIIGATIYIINENIKLDIIKLNKYYEKNNITISFLPTPICQQFM EEEEECCCHHHHHHHHHHHCCEEEEEECCCEEEEEEEECEEECCCEEEEECCCHHHHHHH EVDNTSLRVILTGGDKLNNYKEKQISIINNYGPTEATVLTTSYHVKSKVNNIPIGKPMYN HCCCCEEEEEEECCCCCCCCHHHHEEEEECCCCCCEEEEEEEEEHHHHCCCCCCCCCCCC QRVYILNNKKVAPIGVSGELCISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTGDLA CEEEEEECCEEEEECCCCCEEECCCCCCCCCCCCCCCCCHHHCCCCCCCHHHHHHCCCHH KWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAY HHCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHCCCCEEEEEECCCCCCCCEEEEE IVSNNKIDRNELKNYLLKGLPEYMIPSYFIELEKIPLTSNGKIDRRALPEPNRKMNIGIG EECCCCCCHHHHHHHHHHCCHHHCCCHHEEEEEECCCCCCCCCCCCCCCCCCCEEEEEEC YEAAGNELEEKLVKIWSEILEVNEIGINDNFFELDGNSLKAMMLVSKIYKELEVEVPLND CCCCCHHHHHHHHHHHHHHHHHHHCCCCCCEEEECCCCHHHHHHHHHHHHHHEECCCHHH LFKAATIKELSKYIINKDIIDKYKKNNKMIMLNNKKENNIFAFPPLAGYGIVYKELSQFL HHHHHHHHHHHHHHHCHHHHHHHHCCCCEEEEECCCCCCEEECCCCCCCHHHHHHHHHHH TMNTLYGFDFIEHEKRNEEYIELITNIQKDKPYILIGYSIGGNLAFEVAKNLEKQGYEVS HHHHHHCCHHHHHHCCCHHHHHHHHHCCCCCCEEEEEEECCCCHHHHHHHHHHHCCCCHH DIILLDSLIREHKIDCSLDSTKKEAERMIENIKQYASEEDLLMFNYIKENYSIITRKIFK HHHHHHHHHHHHCCCCCCCCHHHHHHHHHHHHHHHCCCCCEEEEHHHHHHHHHHHHHHHH YKLYSNNVINIGKIKSNIHLIASCENKNNEKLNLWQKSTLGSFKIYNGFGSHNLMMSKEY EEEECCCEEEEEEECCCEEEEEECCCCCCCEEEEEECCCCCCEEEECCCCCCCEEECHHH IKKNANIIRDILGKIE HHHHHHHHHHHHHCCC
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: 10557314 [H]