| 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 bacC [H]
Identifier: 226947538
GI number: 226947538
Start: 376355
End: 387913
Strand: Direct
Name: bacC [H]
Synonym: CLM_0374
Alternate gene names: 226947538
Gene position: 376355-387913 (Clockwise)
Preceding gene: 226947537
Following gene: 226947539
Centisome position: 9.06
GC content: 26.11
Gene sequence:
>11559_bases ATGTTAGATAATTTATATAGCAATATTATATGTTCAGACGAAAAGTTTAAACAAAAGTTAGAGTATTGGATAAATACTTT ATCTGGAGAATTAAAACCGATTGATTTGCCGTGTAAATACAATAATAATTATAAATACAATAAAGAATATGGAACAATTA ATATTAAGATATCACAAAGCGAATATGATAACTTAATAACCCTAAATAAAAATTCAGATATAGCAATATATATTACATTG TTATCAGTATTTAATAGTCTTATTTCAAAGTATACTGGTAACACTGAAGTCATGATCGGTTCCCCAGTATTAAAAGATAA AGATAAGATAGTAAATAGCTTAATAGCAATAAGAAGTAATATTTGTTTAAACGATACATTTAAGCAAATATTACTAAAAA CTAAAGAAATTACATTGGAAGCATATAAGAATCAGAATTATCCAATGAATACTGTTTTAAAGAATATTGGGTTAGAAGAG AAATATTTTTATTCAATGTTAAATGTAATTTTTGCTATGGAAAATATACATGAATTAGAGTTTTTGGAAAGTTATCAATA TGATTTGCTATTTTTGTGGAAAAGAGAATGTAATGGAATATTTTGCGAAATAAAATATAATGTAGATGCATTTAATAAAG CAGATATAAATATTATGATTAATTATTATATCAGAATTTTAAAATATATTTTAAATGATATAAATATTATGATTAAAGAT ATAAATTTAATTACAGAGGAAGAAAAAAACAAACTTTTATATGAATTCAATGATACTTATACAAAATATCTTAAAGATAA AACAATACAAGAATTATTTGAAGAACAAGTAGAGAGGACACCTGATAATATAGCGATGGTGTTTGAAGATAAAAAGTTAA CTTATAGGGAGTTAAATGAAAAAGCCAATAGCATTGCAAGAGTATTAAGAGATAAAGGAGCTAAGGCCGATTCAATAGTG GGAATAATGGTTGAAAGATCAATTGAAATGATAGTAGGTATAATAGGAATTTTAAAATCAGGAGGCGCCTATTTACCGAT AGATCCCTATTTACCAAAAGGGAGGATATTACATATGATACAAGATAGTCACAGTAATATCTTATTAACTACAGAAGAAT TTTTAGAAGATATTAAATTTAATGTTGAGATTATAAATTTATCTAATAGAAACTTATATAAACACAAAAATAGTAACTTA GAAATAATAAATAAATCAAATGATTTAGCTTATGTTATATATACATCGGGATCAACTGGAAGTCCTAAAGGAGTAATGAT AGAACATAAAAGTATTAATAACTTAGTTTTAGAATTTAAAAAAAGTATTTATTCGAAATATAATGAAAAATTGAGAGTTG CACTTTTAGCACCATATTACTTTGATGCATCAGTAAAGCAGATTTTTGTTGCATTAATTGAAGGGCATACTCTATATATA ACAAACGAAGATATAAGGAAAGATGGGGAGGAGCTTCTAAAATATTATAAAGTAAATAAAATAGATGTTTCAGATGGAAC GCCTAGTCACATAAATATGATTTCTTATTATCTAAATGAGTTTAAGGATTTAACAATTAAGCACTTAATAATTGGAGGTG ATATTTTAAATCAAACTCATGTTAAAAAAGTTTTTAAAATTTTAGAAGATATTAAAATAAGTAATGTATATGGACCTACT GAATGTTGTGTCGATTGTAGTATATATACAATGGAACAAGAAAAGAATAAAAATATGGAAAATATGTCCATAGGGAGACC TATAAGTAATTGTGAAATATATATACTGGATAAAGATTATAAGCTAGCACCAATAGGTGTATTGGGAGAATTATGTATAT CAGGTGATGGATTAGCAAGAGGATATTTAAATAATCCAGAATTAACAGCTGAAAAGTTTGTGGATAATCCATTTGAACCA GGAATAAAGATGTATAAAACAGGAGATTTGGCAAGATGGTTGCCAGATGGAAACATAGAGTTTTTAGGAAGAATAGATAA TCAAGTAAAAATAAGAGGTTTTAGAATAGAGTTAGAAGAAATAGAAAATAGATTGCTAGAATATGAAGGAGTAAAGGAAG CTGTAGTAGTAGCAAAAGAAGATAAGGAAAGAAGTAAGTACTTATGTGCATATATAGTAAGTAATAATAAGATAGATAGA AATGAACTAAAAAACTACTTACTAAAGGATCTACCAGAATATATGATACCGTTAAATTTTGTGAATATTAAAAAAATACC ATTGACATCTAATGGTAAAGTTGATAGAAAAATATTAGAAAATAGAGAAGATTTAATTAATATATATGAAGAATGTGAAA AACCAAGGAACTCTATGGAAGAAGTTATGATAGAGGTATTTAAAGAAGTACTAGGAGTAGAGAATTTAGGAATAAATCAT AGTTTCTTTGACTTAGGTGGAGATTCCATAAAAGCAATAAGACTTATATCTAAACTTAAAAAACATGGGTATAAACTAGA GATTAAAGATTTATTTAAGTATAATACCATAAAAGATGTAAGCAATAGAATTACTTTAGAAGAAAACTCTATTATAAATC AGGAATTAGTTAAAGGTAAGATAGATTTAATCCCAATACAAAAATGGTTTTTTGAAAAAGATTTTATAGATAATCACCAT TGGAATCAGGCTGTAATGTTATTTAATGAAGAAGGATTTAATGAAAGTATAATTAAAAAAGTATTTGATAAAATTACAGA ACATCATGATGCTTTAAGAATTGTGTTTAAAAATGAAAAGGAAGATGTATTGCAGTTTAATAGAGGATTAGAAGGAGAAC TATATTCTTTAGAAGTATTCGATTACAGAAGTGTAGAAAATTACAAAAAAGAAATAGAAAATAAATGTAATAAACTTCAA AGTAGTATTAATTTAAGTAATGGGCCATTAGTTAAGTTAGGTATGTTTAAAACTAAAGAAGGTGATCATTTACTTATATT TATACATCACTTGGTTATTGATGGAGTATCATGGAGAATTTTACTCGAAGATTTTTCTTTAATATACAATATGGAACTGA ATAATAAACCAATAACATTACAAGAAAAAACTAACTCTTTTAAAGAATGGTCTACTTATATTAAAGAATATGCAAATAGT AAAGATCTATTACAAGAAGAGGAATATTGGGAGAATATTGAAAATACAAAAATAAAGAAAATTCCGAAGGATAATGAGAT TAAAGATAGTATATTCAAGGACAATAGAAGTATAAGTATTAGATTATCAGAAGAAGATACTGAAAATTTATTAAGAAATG TAAATAAAGCTTATAATACAGAAATAAATGATATCTTGCTAACTGCTTTAGGACTAACGATAAAACAATGGAGCAAGGAG AATAAGGTACTAATCAATTTAGAAGGTCATGGAAGAGAAGAGTTTAGTTCAAATATTAATGTAAGTAGAACTATAGGATG GTTTACTAATCAGTACCCATTAGTACTTGATATCTCAAAAGATAAAGATATATCTTATGAAATAAAAAATACTAAAGAGA CCTTAAGACGTGTACCTAATAAAGGAATGGGGTATGGAATATTAAGATATATAAAAAACAAATGGGATAACAATATAAAC CCAGAGATAAGTTTCAATTACTTAGGACAGTTTGATGAAGAAATAAAAAGTAATGTTTTTAAAATCTCAAATTTGCCTAT AGGACAATCTATGAGTTTAAATTCTGAAAACACATATTGTCTTAATATTAATGGAATGATTAGTAATGGAGTTCTAAATA TGAATTTTGGATACAATTCCAAAGAGTATAATGAAGAAACTATTAAAGAAATATCAAATAATTATAAAAATAATTTAGTT AATATAATAAATCATTGTTTAAGCAAAGAAAAGACTGAATTGACACCAACTGATTTGGGTGATAGCAATCTAACGATAGA TCAGCTAGATATATTGAGCTTAAAATACAGGAACAGGGGTCTAGAGATAAAAAATATATATTCTTTAACACCAATGCAAA TGGGAATGTTATTTCATGCGTTAAAGGATGAAGAATCCTCATCTTATTTCGAACAATCAATATTTACTTTAAAAGGCGAG ATAGATTTAAACATATTTGAGAGAAGTTTTAATAAGGTTATAGAAAGATATGATATTTTAAGAACAGTTTTTGTTTATGA AAATGTAGATAAGCCTAAACAAATAGTATTTAAAGAAAGAAAGGCAAGAATAGGTTATGAAGATATTTCAAAATTAAGTA ATGAATCTAAAGAAAACTATATAGAAAACTTTATAAGTAAGGATAAAGAAAAAGGGTTTAATCTAGGAAAAGATTTATTA ATTAAGATATCTATACTAAAGGTAGAGAAAGATAAATATGAAGTGGTATGGAGCTTTCATCATATACTAATGGATGGATG GTGTCTAAATATTATAATGAATGATTTCTTTAATATTTATTCACAGCTACAGGAAGAAAAAAGTATAGAGCTTCCCAAAG TCACACCTTATATAGAATATATAAAATGGCTTGAAGACAGAAAAAAGTTGAACAATGAGGGAGAAGAATATTGGAGAAAT TACTTAAGCTGTTATGAAAATGTGGCAAGAATTCCTATAAGTGCTGAAAGGCATAAAGAAGAAAAATATGAATTAAAAGA ATTAAAGTTTGCTATAAATAAAGAAAAAACAAAAAAATTAGAGAGAATAGTTAAAACAGAACGAGTTACTATGAATACAA TTATTCAAGCAGTATGGGGTATACTACTTCAAAGATATAATAATATAGATGATGTAGTCTTTGGAACGGTCGTATCAGGA AGAAATGCAAATATAGAAGGTATTGATAGAATGGTAGGATTATTTATTAATACAATTCCTGTTAGGATAAAGACAGAAAG TGGAATGAGCTTTGTAGAACTTATAAAAGAAATACAAAAATTATCATTAGAATCCTCTAAGTATGATTATTATCCATTAG CAGAGATACAATCTAAGACAAAATTAAAAAATGAATTAATAAATAATATTGTTGTTTATGAAAATTATTATATAGATAAT AGTTCTATAAATTTAAATGAAAAGATAAATAAGAAATTTATTATGGAAAATATGAAAAGTAGAGAAGAAACTAATTATGA TTTAAATCTTATAATTGGACCAAGTGAAGAACTTAATATTAAATTATTGTATAATAAAAAGATTTATGATGATTATATCA TAGAGAAAATAAGTAAGCAGTTTGCTTTAATTATTGATACGATTATAAGCAATAAAAATATATTAGTTGATAAAATAGAA ATTATAGAAGAAGAAGAAAAGAAGCAAATACTCTATGAATTTAATGATACAAAGGTAGATTATCCAAAGAATAAGACAAT ACAAGAATTATTTGAAGAACAGGTAGAGAAGACACCAAATAATATAGCAGTGGTGTTTGAAGATAAAAAGTTAACTTATA GAGAGTTAAATGAAAAAGCAAATAAGATAGCATCAATATTAAGAAAAGAAGGTGTAACAGAAGAAAGCATAATAGGGATT ATTGCAAATAAATCTATAGATACAATTATAGGAATAGTTGGAGTTATAAAGTTATCAGCAGTTTATTTACCCATAGATCC TAATCTACCCAAAAAGAGAATAGATTTTATATTAAATGATTGTAAAGTTAATATAGTACTAGGTAAAGGGCTTAAAGAGA TTGATTCTAATATAAGATTATTAGATATAGAAGAAAGAATTGAGTATGAAGAGTGTACTGCAAATCCAGATATATTTAAA AAGACTAATTTACTCGCATATATTATGTATACATCAGGAAGTACAGGGGTTCCTAAAGGGGTATTAGTAGAACAAAAAAA TGTAATTAGACTGGTTAAAAATACTAATTATATGGATTTTAAGAATATAAGAATATTACAGACAGGTTCTATAGCATTTG ATGCATCAACATTTGAAATATGGGGATCACTATTAAATGGTGGAATGTTATGTTTAGTAAATGATAAAGAAATATTGAAT ACAGAAAGTATAAAAAGCAATATAACTAAGAATTGTATAAATACAATATGGATAACTTCAGCATTTTTTAATAAGTTGGC TGAGGAGAAAACATCTATATTTAGTGGGCTAAGGCATCTATTAATTGGAGGGGATACTTTATCTCCAAAGCACATAAATA TGGTATTAGATAAATGCAATGGATTAAAAATAATTAATGGATATGGACCAACAGAGAATACAACTTTTTCTACAGCATAT TTAATAGAAAAAAGATATTACTCTAGTATACCTATAGGGAAACCTATTTCAAATTCAAATGTATATATAGTCGATAAAAA TTGTAATTTAACGCCGATTGGTATTAGTGGAGAGTTATGTGTTGGTGGAGAAGGGCTTGCAAAAGGATATTTAAATAGAG AGGACTTAACAGCAGAAAAGTTTATAGAAAATCCGTTCGAGCCAGGAAAAAGGATGTATAGAACAGGAGATCTAGCAAGA TGGTTACCAGATGGGAATATAGAATTTTTAGGAAGAATAGATAATCAGGTTAAAATAAGAGGTTTTAGAATAGAATTGAA TGAAATTCAAAGTCATTTGTTAACTTATGAAGCAGTAAAAGAAGTGGCAGTTATAGATAGAGAAGATGAAGATAAAAACA AATATATATGTGCATATATAGTATGTGATAAGGAATTAACAGTAGGAGAAATAAGGGGATATTTACTAAATAAATTACCG GAATATATGGTGCCATCATACTTTATACAAATAGAAAAACTTCCTCTTACACTAAACGGAAAACTTGATAAAAAGGCTCT ACCAGAGCCTTATAGAAAAATTAATACAGGGGTTAAGTATGAAGCTCCAAGAAATGAAATACAAGAAAAACTTTTATCAA TATGGAGAGAAGTGTTAGGAGTAGAGAATATAGGGCTAAATGATAACTTCTTTGAACTTGGAGGACACTCATTAAATGCA ACAACAATTGTAAGTAAAATATACAGTAAACTAGAAGTAGACGTACCTTTAGAAGAAGTATTTAAAAATCAAACAATAAA AGGAATATATGAGTATATTAAGAGTAGAGAAAGAAGTATATGTTCATCGATACAATTAATAGGAGAAAAGGAGTTTTATG AAGCATCATCAGCCCAAAAAAGAATGTATACACTTCAAAAACTTGATGAGAAAAGCATAGCATATAATATGCCAATTGTA ATGAAAATAGAAGGAAAGTTAAATAAAGAACGATTAGAAAAGGCTGTAATGGAATTAATAAAAAGACATGAAGCATTAAG AACATCATTTGAGATAGTAGATGAGAAAATAGTACAAAAAGTAAATAAAGCTATAAAATTTAATATAAATTATATACAAG AAACAGATAAGAGTATTGATCAAATAATAAAAGAATTTATAAGTCCATTTGATTTAGAAAAACCATCATTATTTAGGGTA GCTATTGCAGAGATTATAGGTGAAAACTATTTATTAATAGATATGCACCATATAGTATCAGATGGTATATCAATGGATAT ATTAATAAAAGAATTTACAGCTTTATATAATGGTAAAACATTAAAACCTTTAAAAGTTCAGTATAAAGATTTTGCAGCAT GGCAAAATAACCTTTTAAGATCAGAGGTTATGAAAAGTAAAGAAGAATATTGGATGAATAGATTTAATGATGAAATACCA GTATTGAATATGCCAACTGATTATACAAGGCCATCTATAATGAATTTTGAGGGAGATAGAATAAATTTTAGTATAGAAAA AGATATAACAAATAGAATAAGAAAAATAGCTAGGGAAACAGGAAGTACAATATATATGATACTTTTATCAGGGTTGAATA TATTATTATCAAAATATAGTGGACAAGAAGACATAATAATAGGGAGTCCGATAGCAGGAAGAACACATGTAGATTTAGAA CCAATAATAGGAATGTTTGTAAATACTATTGCAATGAGAAATTATCCTAGAGGAGAAAAGACATATAAAGAGTTTCTGAA GGAAGTTAAGGAAAATGCATTAAGAGCATATGAGAATCAAGATTATCAATTTGAGGAGTTAGTAGATAAATTAAATATAA TAAGAGATATGAGTAGAAATCCATTATTTGATGTAATGTTTACAATGCAAAATATGGATATAGAGGATATAGAGAATATA GCTATAGATGACTTAAAATTTGAATTATACGATACTTACAATAATATATCAAAATTTGATTTAACTTTATCAGCAATTGA AATTGAAGAAGAAATATTATTAAGTATTGAATATAATACAAGACTATATAAGAGAGAAACAATAGAAAAAATGATAAATC ATTTTAGTAGAATATTAAGTAATCTATCGAAAGATATATATATAAAGATAGATGAAATAGAGATTATAGAAGAAGAAGAA AAGAATCAAATACTCTATGAATTTAATGATACAAAGGTAGAGTATCCAAAGGATAAGGCAATACAAGAATTATTTGAAGA ACAGGTAGAGAAGACACCAAATAATATAGCAGTAGTGTTTGAGGATAAAAAGTTAACTTATAGAGAGTTAAATGAAAAAG CCAATAGTCTTGCAAGAGTACTAAGAGATAAAGGGGTTAAAGCCGACTCAATAGTGGGAATAATGGTTGAAAGATCAATC GAAATGATAGTAGGAATAATGGGTATTTTAAAGTCAGGAGGAGCATATTTACCAATAGATCCAAGCTATCCTGTAGAGAG AATAGAATATATGATAGAGGATGCAAAAATAGATATATTAATTACATCAGAAGAATTTATTAATAAAGTAAAATTTACTA AAAGTATAGTGAATATAAAGGAGAAATCACTATTAAAAAAAGATAATTTAGATATAATTAATAAATCAAGTGACTTAGCT TATGTAATTTATACATCAGGTTCAACTGGGAGACCTAAAGGGGTAATGGTAGAACATAAATCTTTGATTAATTTATGTAA TTATCATAATAAAAAATTTAATATAAAAGAAGAGGATAAAAGTACAAGCTATGCTGAGTTTTCCTTTGATGCATCTGTTT GGGAAGTATTTCCGTATTTGATTATTGGTGCAACAATATATATTATAAATGAGAATATTAAATTAGATATAATTAAATTA AATAAATATTATGAAAAAAATAACATAACTATAAGTTTTTTACCAACACCAATATGTCAACAGTTTATGGAAGTAGATAA TACTTCATTGAGAGTTATTTTAACAGGCGGAGACAAATTAAATAATTATAAAGAAAAGCAAATTAGTATTATTAATAATT ACGGACCAACAGAAGCAACAGTGCTAACTACTAGTTATAATGTTAAAAGTAAAGTTAACAATATACCGATAGGAAAGCCT ATGTATAATCAGAGAGTATATATTTTAAATAACAAGAAGGTAGCACCAATAGGTGTATCAGGAGAATTATGTATATCAGG TGATGGATTAGCAAGAGGATATTTAAATAATCCAGAACTAACATCAGAGAAATTTGTAGATAACCCATTTGAACCAGGGG AAAGAATGTATAGAACAGGAGATTTGGCAAGATGGCTGCCAGATGGGAATATAGAGTTTTTAGGAAGAATAGATAATCAA GTAAAAATAAGAGGTTTTAGAATAGAGTTAGAAGAAATAGAAAATAGATTGCTGGAATATGAAGGAGTAAAGGAAGCTGT AGTAGTAGCAAAAGAAGATAAGGAAAGAAGTAAGTACTTATGTGCATATATAGTAAGTAATAATAAGATAGATAGAAATG AACTAAAAAACTACTTACTAAAGGATCTACCAGAATATATGATACCGTTAAATTTTGTGAATATTAAAAAAATACCATTG ACATCTAATGGTAAAGTTGATAGAAAAATATTAGAAAATAGAGAAGATTTAATTAATATATATGAAGAATGTGAAAAACC AAGGAACTCTATGGAAGAAGTTATGATAGAGGTATTTAAAGAAGTACTAGGAGTAGAGAATTTAGGAATAAATCATAGTT TCTTTGACTTAGGTGGAGATTCCATAAAAGCAATAAGACTTATATCTAAACTTAAAAAACATGGGTATAAACTAGAGATT AAAGATTTATTTAAGTATAATACCATAAAAGATGTAAGCAATAGAATTACTTTAGAAGAAAACTCTATTATAAATCAGGA ATTAGTTAAAGGTAAGATAGATTTAATCCCAATACAAAAATGGTTTTTTGAAAAAGATTTTATAGATAATCACCATTGGA ATCAGGCTGTAATGTTATTTAATGAAGAAGGATTTAATGAAAGTATAATTAAAAAAGTATTTGATAAAATTACAGAACAT CATGATGCTTTAAGAATTGTGTTTAAGAATGAAAAGGAAGATGTATTGCAGTTTAATAGAGGATTGGAAGGAGAACTATA TTCTTTAGAAGTATTCGATTACAGAAGTGTAGAAAATTACAAAAAAGAAATAGAAAATAAATGTAATAAACTTCAAAGTA GTATTAATTTAAGTAATGGGCCATTAGTTAAGTTAGGTATGTTTAAAACTAAAGAAGGTGATCATTTACTTATAGTTATA CATCACTTGGTTATTGATGGAGTATCATGGAGAATTTTACTCGAAGATTTTTCTTTAATATACAATATGGAACTGAATAA TAAACCAATAACATTACAAGAAAAAACTAACTCTTTTAAAGAATGGTCTACTTATATTAAAGAATATGCAAATAGTAAAG ATCTATTACAAGAAGAGGAATATTGGGAGAATATTGAAAATACAAAAATAAAGAAAGTTCCGAAGGATAATGAGATTAAA GATAGTATATTCAAGGACAATAGAAGTATAAGTATTAGATTATCAGAAGAAGATACTGAAAATTTATTAAGAAATGTAAA TAAAGCTTATAATACAGAAATAAATGATATCTTGCTAACTGCTTTAGGATTAACTATAAAACAATGGAGCAAGGAGAATA AGGTACTAATCAATTTAGAAGGTCATGGAAGAGAAGAGTTTAGTTCAAATATTAATGTAAGTAGAACTATAGGATGGTTT ACTAATCAGTACCCATTAGTACTTGATATCTCAAGAGATAAAGATATATCTTATGAAATAAAAAATACTAAAGAGACCTT AAGACGTGTACCTAATAAAGGAATGGGGTATGGAATATTAAGATATATAAAAAACAAATGGGATAACAATATAAACCCAG AGATAAGTTTCAATTACTTAGGACAGTTTGATGAAGAAATAAAAAGTAATGTTTTTAAAATCTCAAATTTGCCTATAGGA CAATCCATGAGTTTAAATTCTGAAAACACATATTGTCTTAATATTAATGGAATGATTAGTAATGGAGTTCTAAATATGAA TTTTGGATACAATTCCAAAGAGTATAATGAAGAAACTATTAAAGAAATATCAAATAATTATAAAAATAATTTAGTTAATA TAATAAATCATTGTATAGAGAAAGATGGACAGGAACAAACCCCGAGTGATTTAGGAGATAGTACACTAAGTATAGAAGAA TTAGAGTTTTTAACAGAACAATATTTAACTACAGAATAA
Upstream 100 bases:
>100_bases ACATATAAGTTAAAAAAAGTAAATGAAATCCTATATTTTAAAATCTCTTAAATTTTTACTATTTTAATAGAATTTTAGAT TAAAGAAAGAAGTGATTTTA
Downstream 100 bases:
>100_bases ATACTTATTAGGAGTTAAAGTGAAATAGTATAAATTTTACTTTAACTCTAATAAAACCATATTCATATATTGCTGTTAAT AAGCTTTATTAATAATTTTA
Product: amino acid adenylation domain-containing protein
Products: NA
Alternate protein names: BA3; ATP-dependent isoleucine adenylase; IleA; Isoleucine activase; ATP-dependent D-phenylalanine adenylase; D-PheA; D-phenylalanine activase; ATP-dependent histidine adenylase; HisA; Histidine activase; ATP-dependent D-aspartate adenylase; D-AspA; D-aspartate activase; ATP-dependent asparagine adenylase; AsnA; Asparagine activase; Aspartate racemase; Phenylalanine racemase [ATP hydrolyzing] [H]
Number of amino acids: Translated: 3852; Mature: 3852
Protein sequence:
>3852_residues MLDNLYSNIICSDEKFKQKLEYWINTLSGELKPIDLPCKYNNNYKYNKEYGTINIKISQSEYDNLITLNKNSDIAIYITL LSVFNSLISKYTGNTEVMIGSPVLKDKDKIVNSLIAIRSNICLNDTFKQILLKTKEITLEAYKNQNYPMNTVLKNIGLEE KYFYSMLNVIFAMENIHELEFLESYQYDLLFLWKRECNGIFCEIKYNVDAFNKADINIMINYYIRILKYILNDINIMIKD INLITEEEKNKLLYEFNDTYTKYLKDKTIQELFEEQVERTPDNIAMVFEDKKLTYRELNEKANSIARVLRDKGAKADSIV GIMVERSIEMIVGIIGILKSGGAYLPIDPYLPKGRILHMIQDSHSNILLTTEEFLEDIKFNVEIINLSNRNLYKHKNSNL EIINKSNDLAYVIYTSGSTGSPKGVMIEHKSINNLVLEFKKSIYSKYNEKLRVALLAPYYFDASVKQIFVALIEGHTLYI TNEDIRKDGEELLKYYKVNKIDVSDGTPSHINMISYYLNEFKDLTIKHLIIGGDILNQTHVKKVFKILEDIKISNVYGPT ECCVDCSIYTMEQEKNKNMENMSIGRPISNCEIYILDKDYKLAPIGVLGELCISGDGLARGYLNNPELTAEKFVDNPFEP GIKMYKTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAYIVSNNKIDR NELKNYLLKDLPEYMIPLNFVNIKKIPLTSNGKVDRKILENREDLINIYEECEKPRNSMEEVMIEVFKEVLGVENLGINH SFFDLGGDSIKAIRLISKLKKHGYKLEIKDLFKYNTIKDVSNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHH WNQAVMLFNEEGFNESIIKKVFDKITEHHDALRIVFKNEKEDVLQFNRGLEGELYSLEVFDYRSVENYKKEIENKCNKLQ SSINLSNGPLVKLGMFKTKEGDHLLIFIHHLVIDGVSWRILLEDFSLIYNMELNNKPITLQEKTNSFKEWSTYIKEYANS KDLLQEEEYWENIENTKIKKIPKDNEIKDSIFKDNRSISIRLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKE NKVLINLEGHGREEFSSNINVSRTIGWFTNQYPLVLDISKDKDISYEIKNTKETLRRVPNKGMGYGILRYIKNKWDNNIN PEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMISNGVLNMNFGYNSKEYNEETIKEISNNYKNNLV NIINHCLSKEKTELTPTDLGDSNLTIDQLDILSLKYRNRGLEIKNIYSLTPMQMGMLFHALKDEESSSYFEQSIFTLKGE IDLNIFERSFNKVIERYDILRTVFVYENVDKPKQIVFKERKARIGYEDISKLSNESKENYIENFISKDKEKGFNLGKDLL IKISILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSIELPKVTPYIEYIKWLEDRKKLNNEGEEYWRN YLSCYENVARIPISAERHKEEKYELKELKFAINKEKTKKLERIVKTERVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSG RNANIEGIDRMVGLFINTIPVRIKTESGMSFVELIKEIQKLSLESSKYDYYPLAEIQSKTKLKNELINNIVVYENYYIDN SSINLNEKINKKFIMENMKSREETNYDLNLIIGPSEELNIKLLYNKKIYDDYIIEKISKQFALIIDTIISNKNILVDKIE IIEEEEKKQILYEFNDTKVDYPKNKTIQELFEEQVEKTPNNIAVVFEDKKLTYRELNEKANKIASILRKEGVTEESIIGI IANKSIDTIIGIVGVIKLSAVYLPIDPNLPKKRIDFILNDCKVNIVLGKGLKEIDSNIRLLDIEERIEYEECTANPDIFK KTNLLAYIMYTSGSTGVPKGVLVEQKNVIRLVKNTNYMDFKNIRILQTGSIAFDASTFEIWGSLLNGGMLCLVNDKEILN TESIKSNITKNCINTIWITSAFFNKLAEEKTSIFSGLRHLLIGGDTLSPKHINMVLDKCNGLKIINGYGPTENTTFSTAY LIEKRYYSSIPIGKPISNSNVYIVDKNCNLTPIGISGELCVGGEGLAKGYLNREDLTAEKFIENPFEPGKRMYRTGDLAR WLPDGNIEFLGRIDNQVKIRGFRIELNEIQSHLLTYEAVKEVAVIDREDEDKNKYICAYIVCDKELTVGEIRGYLLNKLP EYMVPSYFIQIEKLPLTLNGKLDKKALPEPYRKINTGVKYEAPRNEIQEKLLSIWREVLGVENIGLNDNFFELGGHSLNA TTIVSKIYSKLEVDVPLEEVFKNQTIKGIYEYIKSRERSICSSIQLIGEKEFYEASSAQKRMYTLQKLDEKSIAYNMPIV MKIEGKLNKERLEKAVMELIKRHEALRTSFEIVDEKIVQKVNKAIKFNINYIQETDKSIDQIIKEFISPFDLEKPSLFRV AIAEIIGENYLLIDMHHIVSDGISMDILIKEFTALYNGKTLKPLKVQYKDFAAWQNNLLRSEVMKSKEEYWMNRFNDEIP VLNMPTDYTRPSIMNFEGDRINFSIEKDITNRIRKIARETGSTIYMILLSGLNILLSKYSGQEDIIIGSPIAGRTHVDLE PIIGMFVNTIAMRNYPRGEKTYKEFLKEVKENALRAYENQDYQFEELVDKLNIIRDMSRNPLFDVMFTMQNMDIEDIENI AIDDLKFELYDTYNNISKFDLTLSAIEIEEEILLSIEYNTRLYKRETIEKMINHFSRILSNLSKDIYIKIDEIEIIEEEE KNQILYEFNDTKVEYPKDKAIQELFEEQVEKTPNNIAVVFEDKKLTYRELNEKANSLARVLRDKGVKADSIVGIMVERSI EMIVGIMGILKSGGAYLPIDPSYPVERIEYMIEDAKIDILITSEEFINKVKFTKSIVNIKEKSLLKKDNLDIINKSSDLA YVIYTSGSTGRPKGVMVEHKSLINLCNYHNKKFNIKEEDKSTSYAEFSFDASVWEVFPYLIIGATIYIINENIKLDIIKL NKYYEKNNITISFLPTPICQQFMEVDNTSLRVILTGGDKLNNYKEKQISIINNYGPTEATVLTTSYNVKSKVNNIPIGKP MYNQRVYILNNKKVAPIGVSGELCISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTGDLARWLPDGNIEFLGRIDNQ VKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAYIVSNNKIDRNELKNYLLKDLPEYMIPLNFVNIKKIPL TSNGKVDRKILENREDLINIYEECEKPRNSMEEVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIRLISKLKKHGYKLEI KDLFKYNTIKDVSNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLFNEEGFNESIIKKVFDKITEH HDALRIVFKNEKEDVLQFNRGLEGELYSLEVFDYRSVENYKKEIENKCNKLQSSINLSNGPLVKLGMFKTKEGDHLLIVI HHLVIDGVSWRILLEDFSLIYNMELNNKPITLQEKTNSFKEWSTYIKEYANSKDLLQEEEYWENIENTKIKKVPKDNEIK DSIFKDNRSISIRLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLEGHGREEFSSNINVSRTIGWF TNQYPLVLDISRDKDISYEIKNTKETLRRVPNKGMGYGILRYIKNKWDNNINPEISFNYLGQFDEEIKSNVFKISNLPIG QSMSLNSENTYCLNINGMISNGVLNMNFGYNSKEYNEETIKEISNNYKNNLVNIINHCIEKDGQEQTPSDLGDSTLSIEE LEFLTEQYLTTE
Sequences:
>Translated_3852_residues MLDNLYSNIICSDEKFKQKLEYWINTLSGELKPIDLPCKYNNNYKYNKEYGTINIKISQSEYDNLITLNKNSDIAIYITL LSVFNSLISKYTGNTEVMIGSPVLKDKDKIVNSLIAIRSNICLNDTFKQILLKTKEITLEAYKNQNYPMNTVLKNIGLEE KYFYSMLNVIFAMENIHELEFLESYQYDLLFLWKRECNGIFCEIKYNVDAFNKADINIMINYYIRILKYILNDINIMIKD INLITEEEKNKLLYEFNDTYTKYLKDKTIQELFEEQVERTPDNIAMVFEDKKLTYRELNEKANSIARVLRDKGAKADSIV GIMVERSIEMIVGIIGILKSGGAYLPIDPYLPKGRILHMIQDSHSNILLTTEEFLEDIKFNVEIINLSNRNLYKHKNSNL EIINKSNDLAYVIYTSGSTGSPKGVMIEHKSINNLVLEFKKSIYSKYNEKLRVALLAPYYFDASVKQIFVALIEGHTLYI TNEDIRKDGEELLKYYKVNKIDVSDGTPSHINMISYYLNEFKDLTIKHLIIGGDILNQTHVKKVFKILEDIKISNVYGPT ECCVDCSIYTMEQEKNKNMENMSIGRPISNCEIYILDKDYKLAPIGVLGELCISGDGLARGYLNNPELTAEKFVDNPFEP GIKMYKTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAYIVSNNKIDR NELKNYLLKDLPEYMIPLNFVNIKKIPLTSNGKVDRKILENREDLINIYEECEKPRNSMEEVMIEVFKEVLGVENLGINH SFFDLGGDSIKAIRLISKLKKHGYKLEIKDLFKYNTIKDVSNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHH WNQAVMLFNEEGFNESIIKKVFDKITEHHDALRIVFKNEKEDVLQFNRGLEGELYSLEVFDYRSVENYKKEIENKCNKLQ SSINLSNGPLVKLGMFKTKEGDHLLIFIHHLVIDGVSWRILLEDFSLIYNMELNNKPITLQEKTNSFKEWSTYIKEYANS KDLLQEEEYWENIENTKIKKIPKDNEIKDSIFKDNRSISIRLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKE NKVLINLEGHGREEFSSNINVSRTIGWFTNQYPLVLDISKDKDISYEIKNTKETLRRVPNKGMGYGILRYIKNKWDNNIN PEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMISNGVLNMNFGYNSKEYNEETIKEISNNYKNNLV NIINHCLSKEKTELTPTDLGDSNLTIDQLDILSLKYRNRGLEIKNIYSLTPMQMGMLFHALKDEESSSYFEQSIFTLKGE IDLNIFERSFNKVIERYDILRTVFVYENVDKPKQIVFKERKARIGYEDISKLSNESKENYIENFISKDKEKGFNLGKDLL IKISILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSIELPKVTPYIEYIKWLEDRKKLNNEGEEYWRN YLSCYENVARIPISAERHKEEKYELKELKFAINKEKTKKLERIVKTERVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSG RNANIEGIDRMVGLFINTIPVRIKTESGMSFVELIKEIQKLSLESSKYDYYPLAEIQSKTKLKNELINNIVVYENYYIDN SSINLNEKINKKFIMENMKSREETNYDLNLIIGPSEELNIKLLYNKKIYDDYIIEKISKQFALIIDTIISNKNILVDKIE IIEEEEKKQILYEFNDTKVDYPKNKTIQELFEEQVEKTPNNIAVVFEDKKLTYRELNEKANKIASILRKEGVTEESIIGI IANKSIDTIIGIVGVIKLSAVYLPIDPNLPKKRIDFILNDCKVNIVLGKGLKEIDSNIRLLDIEERIEYEECTANPDIFK KTNLLAYIMYTSGSTGVPKGVLVEQKNVIRLVKNTNYMDFKNIRILQTGSIAFDASTFEIWGSLLNGGMLCLVNDKEILN TESIKSNITKNCINTIWITSAFFNKLAEEKTSIFSGLRHLLIGGDTLSPKHINMVLDKCNGLKIINGYGPTENTTFSTAY LIEKRYYSSIPIGKPISNSNVYIVDKNCNLTPIGISGELCVGGEGLAKGYLNREDLTAEKFIENPFEPGKRMYRTGDLAR WLPDGNIEFLGRIDNQVKIRGFRIELNEIQSHLLTYEAVKEVAVIDREDEDKNKYICAYIVCDKELTVGEIRGYLLNKLP EYMVPSYFIQIEKLPLTLNGKLDKKALPEPYRKINTGVKYEAPRNEIQEKLLSIWREVLGVENIGLNDNFFELGGHSLNA TTIVSKIYSKLEVDVPLEEVFKNQTIKGIYEYIKSRERSICSSIQLIGEKEFYEASSAQKRMYTLQKLDEKSIAYNMPIV MKIEGKLNKERLEKAVMELIKRHEALRTSFEIVDEKIVQKVNKAIKFNINYIQETDKSIDQIIKEFISPFDLEKPSLFRV AIAEIIGENYLLIDMHHIVSDGISMDILIKEFTALYNGKTLKPLKVQYKDFAAWQNNLLRSEVMKSKEEYWMNRFNDEIP VLNMPTDYTRPSIMNFEGDRINFSIEKDITNRIRKIARETGSTIYMILLSGLNILLSKYSGQEDIIIGSPIAGRTHVDLE PIIGMFVNTIAMRNYPRGEKTYKEFLKEVKENALRAYENQDYQFEELVDKLNIIRDMSRNPLFDVMFTMQNMDIEDIENI AIDDLKFELYDTYNNISKFDLTLSAIEIEEEILLSIEYNTRLYKRETIEKMINHFSRILSNLSKDIYIKIDEIEIIEEEE KNQILYEFNDTKVEYPKDKAIQELFEEQVEKTPNNIAVVFEDKKLTYRELNEKANSLARVLRDKGVKADSIVGIMVERSI EMIVGIMGILKSGGAYLPIDPSYPVERIEYMIEDAKIDILITSEEFINKVKFTKSIVNIKEKSLLKKDNLDIINKSSDLA YVIYTSGSTGRPKGVMVEHKSLINLCNYHNKKFNIKEEDKSTSYAEFSFDASVWEVFPYLIIGATIYIINENIKLDIIKL NKYYEKNNITISFLPTPICQQFMEVDNTSLRVILTGGDKLNNYKEKQISIINNYGPTEATVLTTSYNVKSKVNNIPIGKP MYNQRVYILNNKKVAPIGVSGELCISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTGDLARWLPDGNIEFLGRIDNQ VKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAYIVSNNKIDRNELKNYLLKDLPEYMIPLNFVNIKKIPL TSNGKVDRKILENREDLINIYEECEKPRNSMEEVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIRLISKLKKHGYKLEI KDLFKYNTIKDVSNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLFNEEGFNESIIKKVFDKITEH HDALRIVFKNEKEDVLQFNRGLEGELYSLEVFDYRSVENYKKEIENKCNKLQSSINLSNGPLVKLGMFKTKEGDHLLIVI HHLVIDGVSWRILLEDFSLIYNMELNNKPITLQEKTNSFKEWSTYIKEYANSKDLLQEEEYWENIENTKIKKVPKDNEIK DSIFKDNRSISIRLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLEGHGREEFSSNINVSRTIGWF TNQYPLVLDISRDKDISYEIKNTKETLRRVPNKGMGYGILRYIKNKWDNNINPEISFNYLGQFDEEIKSNVFKISNLPIG QSMSLNSENTYCLNINGMISNGVLNMNFGYNSKEYNEETIKEISNNYKNNLVNIINHCIEKDGQEQTPSDLGDSTLSIEE LEFLTEQYLTTE >Mature_3852_residues MLDNLYSNIICSDEKFKQKLEYWINTLSGELKPIDLPCKYNNNYKYNKEYGTINIKISQSEYDNLITLNKNSDIAIYITL LSVFNSLISKYTGNTEVMIGSPVLKDKDKIVNSLIAIRSNICLNDTFKQILLKTKEITLEAYKNQNYPMNTVLKNIGLEE KYFYSMLNVIFAMENIHELEFLESYQYDLLFLWKRECNGIFCEIKYNVDAFNKADINIMINYYIRILKYILNDINIMIKD INLITEEEKNKLLYEFNDTYTKYLKDKTIQELFEEQVERTPDNIAMVFEDKKLTYRELNEKANSIARVLRDKGAKADSIV GIMVERSIEMIVGIIGILKSGGAYLPIDPYLPKGRILHMIQDSHSNILLTTEEFLEDIKFNVEIINLSNRNLYKHKNSNL EIINKSNDLAYVIYTSGSTGSPKGVMIEHKSINNLVLEFKKSIYSKYNEKLRVALLAPYYFDASVKQIFVALIEGHTLYI TNEDIRKDGEELLKYYKVNKIDVSDGTPSHINMISYYLNEFKDLTIKHLIIGGDILNQTHVKKVFKILEDIKISNVYGPT ECCVDCSIYTMEQEKNKNMENMSIGRPISNCEIYILDKDYKLAPIGVLGELCISGDGLARGYLNNPELTAEKFVDNPFEP GIKMYKTGDLARWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAYIVSNNKIDR NELKNYLLKDLPEYMIPLNFVNIKKIPLTSNGKVDRKILENREDLINIYEECEKPRNSMEEVMIEVFKEVLGVENLGINH SFFDLGGDSIKAIRLISKLKKHGYKLEIKDLFKYNTIKDVSNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHH WNQAVMLFNEEGFNESIIKKVFDKITEHHDALRIVFKNEKEDVLQFNRGLEGELYSLEVFDYRSVENYKKEIENKCNKLQ SSINLSNGPLVKLGMFKTKEGDHLLIFIHHLVIDGVSWRILLEDFSLIYNMELNNKPITLQEKTNSFKEWSTYIKEYANS KDLLQEEEYWENIENTKIKKIPKDNEIKDSIFKDNRSISIRLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKE NKVLINLEGHGREEFSSNINVSRTIGWFTNQYPLVLDISKDKDISYEIKNTKETLRRVPNKGMGYGILRYIKNKWDNNIN PEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMISNGVLNMNFGYNSKEYNEETIKEISNNYKNNLV NIINHCLSKEKTELTPTDLGDSNLTIDQLDILSLKYRNRGLEIKNIYSLTPMQMGMLFHALKDEESSSYFEQSIFTLKGE IDLNIFERSFNKVIERYDILRTVFVYENVDKPKQIVFKERKARIGYEDISKLSNESKENYIENFISKDKEKGFNLGKDLL IKISILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSIELPKVTPYIEYIKWLEDRKKLNNEGEEYWRN YLSCYENVARIPISAERHKEEKYELKELKFAINKEKTKKLERIVKTERVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSG RNANIEGIDRMVGLFINTIPVRIKTESGMSFVELIKEIQKLSLESSKYDYYPLAEIQSKTKLKNELINNIVVYENYYIDN SSINLNEKINKKFIMENMKSREETNYDLNLIIGPSEELNIKLLYNKKIYDDYIIEKISKQFALIIDTIISNKNILVDKIE IIEEEEKKQILYEFNDTKVDYPKNKTIQELFEEQVEKTPNNIAVVFEDKKLTYRELNEKANKIASILRKEGVTEESIIGI IANKSIDTIIGIVGVIKLSAVYLPIDPNLPKKRIDFILNDCKVNIVLGKGLKEIDSNIRLLDIEERIEYEECTANPDIFK KTNLLAYIMYTSGSTGVPKGVLVEQKNVIRLVKNTNYMDFKNIRILQTGSIAFDASTFEIWGSLLNGGMLCLVNDKEILN TESIKSNITKNCINTIWITSAFFNKLAEEKTSIFSGLRHLLIGGDTLSPKHINMVLDKCNGLKIINGYGPTENTTFSTAY LIEKRYYSSIPIGKPISNSNVYIVDKNCNLTPIGISGELCVGGEGLAKGYLNREDLTAEKFIENPFEPGKRMYRTGDLAR WLPDGNIEFLGRIDNQVKIRGFRIELNEIQSHLLTYEAVKEVAVIDREDEDKNKYICAYIVCDKELTVGEIRGYLLNKLP EYMVPSYFIQIEKLPLTLNGKLDKKALPEPYRKINTGVKYEAPRNEIQEKLLSIWREVLGVENIGLNDNFFELGGHSLNA TTIVSKIYSKLEVDVPLEEVFKNQTIKGIYEYIKSRERSICSSIQLIGEKEFYEASSAQKRMYTLQKLDEKSIAYNMPIV MKIEGKLNKERLEKAVMELIKRHEALRTSFEIVDEKIVQKVNKAIKFNINYIQETDKSIDQIIKEFISPFDLEKPSLFRV AIAEIIGENYLLIDMHHIVSDGISMDILIKEFTALYNGKTLKPLKVQYKDFAAWQNNLLRSEVMKSKEEYWMNRFNDEIP VLNMPTDYTRPSIMNFEGDRINFSIEKDITNRIRKIARETGSTIYMILLSGLNILLSKYSGQEDIIIGSPIAGRTHVDLE PIIGMFVNTIAMRNYPRGEKTYKEFLKEVKENALRAYENQDYQFEELVDKLNIIRDMSRNPLFDVMFTMQNMDIEDIENI AIDDLKFELYDTYNNISKFDLTLSAIEIEEEILLSIEYNTRLYKRETIEKMINHFSRILSNLSKDIYIKIDEIEIIEEEE KNQILYEFNDTKVEYPKDKAIQELFEEQVEKTPNNIAVVFEDKKLTYRELNEKANSLARVLRDKGVKADSIVGIMVERSI EMIVGIMGILKSGGAYLPIDPSYPVERIEYMIEDAKIDILITSEEFINKVKFTKSIVNIKEKSLLKKDNLDIINKSSDLA YVIYTSGSTGRPKGVMVEHKSLINLCNYHNKKFNIKEEDKSTSYAEFSFDASVWEVFPYLIIGATIYIINENIKLDIIKL NKYYEKNNITISFLPTPICQQFMEVDNTSLRVILTGGDKLNNYKEKQISIINNYGPTEATVLTTSYNVKSKVNNIPIGKP MYNQRVYILNNKKVAPIGVSGELCISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTGDLARWLPDGNIEFLGRIDNQ VKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAYIVSNNKIDRNELKNYLLKDLPEYMIPLNFVNIKKIPL TSNGKVDRKILENREDLINIYEECEKPRNSMEEVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIRLISKLKKHGYKLEI KDLFKYNTIKDVSNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLFNEEGFNESIIKKVFDKITEH HDALRIVFKNEKEDVLQFNRGLEGELYSLEVFDYRSVENYKKEIENKCNKLQSSINLSNGPLVKLGMFKTKEGDHLLIVI HHLVIDGVSWRILLEDFSLIYNMELNNKPITLQEKTNSFKEWSTYIKEYANSKDLLQEEEYWENIENTKIKKVPKDNEIK DSIFKDNRSISIRLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLEGHGREEFSSNINVSRTIGWF TNQYPLVLDISRDKDISYEIKNTKETLRRVPNKGMGYGILRYIKNKWDNNINPEISFNYLGQFDEEIKSNVFKISNLPIG QSMSLNSENTYCLNINGMISNGVLNMNFGYNSKEYNEETIKEISNNYKNNLVNIINHCIEKDGQEQTPSDLGDSTLSIEE LEFLTEQYLTTE
Specific function: Induces peptide synthesis, activates and incorporates five amino acids, forms a thiazoline ring between the first two amino acids and incoporates a D-glutamine in the fourth position [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 5 acyl carrier domains [H]
Homologues:
Organism=Homo sapiens, GI45580730, Length=629, Percent_Identity=25.1192368839428, Blast_Score=134, Evalue=2e-30, Organism=Homo sapiens, GI156151445, Length=550, Percent_Identity=22, Blast_Score=106, Evalue=5e-22, Organism=Homo sapiens, GI28416953, Length=539, Percent_Identity=22.6345083487941, Blast_Score=100, Evalue=2e-20, Organism=Homo sapiens, GI42544132, Length=546, Percent_Identity=22.3443223443223, Blast_Score=100, Evalue=4e-20, Organism=Homo sapiens, GI38505220, Length=500, Percent_Identity=24, Blast_Score=96, Evalue=5e-19, Organism=Homo sapiens, GI122937307, Length=525, Percent_Identity=23.4285714285714, Blast_Score=95, Evalue=2e-18, Organism=Homo sapiens, GI115511026, Length=500, Percent_Identity=23.4, Blast_Score=94, Evalue=2e-18, Organism=Homo sapiens, GI157311624, Length=503, Percent_Identity=21.272365805169, Blast_Score=86, Evalue=1e-15, Organism=Homo sapiens, GI157311622, Length=503, Percent_Identity=21.272365805169, Blast_Score=86, Evalue=1e-15, Organism=Homo sapiens, GI58082049, Length=504, Percent_Identity=23.2142857142857, Blast_Score=85, Evalue=2e-15, Organism=Escherichia coli, GI1786801, Length=787, Percent_Identity=28.0813214739517, Blast_Score=340, Evalue=9e-94, Organism=Escherichia coli, GI1788107, Length=547, Percent_Identity=24.1316270566728, Blast_Score=114, Evalue=1e-25, Organism=Escherichia coli, GI1786810, Length=536, Percent_Identity=24.0671641791045, Blast_Score=114, Evalue=1e-25, Organism=Escherichia coli, GI145693145, Length=551, Percent_Identity=22.8675136116152, Blast_Score=112, Evalue=6e-25, Organism=Escherichia coli, GI1789201, Length=515, Percent_Identity=23.1067961165049, Blast_Score=89, Evalue=5e-18, Organism=Escherichia coli, GI221142682, Length=504, Percent_Identity=22.0238095238095, Blast_Score=74, Evalue=2e-13, Organism=Caenorhabditis elegans, GI17550940, Length=1135, Percent_Identity=25.3744493392071, Blast_Score=224, Evalue=8e-58, Organism=Caenorhabditis elegans, GI17556356, Length=511, Percent_Identity=28.5714285714286, Blast_Score=168, Evalue=5e-41, Organism=Caenorhabditis elegans, GI17560140, Length=526, Percent_Identity=22.6235741444867, Blast_Score=115, Evalue=7e-25, Organism=Caenorhabditis elegans, GI32563687, Length=498, Percent_Identity=23.8955823293173, Blast_Score=112, Evalue=4e-24, Organism=Caenorhabditis elegans, GI17557194, Length=551, Percent_Identity=21.7785843920145, Blast_Score=111, Evalue=9e-24, Organism=Caenorhabditis elegans, GI17559526, Length=548, Percent_Identity=22.0802919708029, Blast_Score=106, Evalue=2e-22, Organism=Caenorhabditis elegans, GI17538037, Length=533, Percent_Identity=21.5759849906191, Blast_Score=105, Evalue=6e-22, Organism=Caenorhabditis elegans, GI17558820, Length=491, Percent_Identity=23.0142566191446, Blast_Score=100, Evalue=3e-20, Organism=Caenorhabditis elegans, GI115534440, Length=482, Percent_Identity=23.8589211618257, Blast_Score=99, Evalue=5e-20, Organism=Caenorhabditis elegans, GI32564422, Length=519, Percent_Identity=21.9653179190751, Blast_Score=97, Evalue=3e-19, Organism=Caenorhabditis elegans, GI32564420, Length=519, Percent_Identity=21.9653179190751, Blast_Score=97, Evalue=3e-19, Organism=Caenorhabditis elegans, GI17531443, Length=534, Percent_Identity=21.5355805243446, Blast_Score=94, Evalue=1e-18, Organism=Caenorhabditis elegans, GI71994703, Length=382, Percent_Identity=25.3926701570681, Blast_Score=92, Evalue=4e-18, Organism=Caenorhabditis elegans, GI71994694, Length=382, Percent_Identity=25.3926701570681, Blast_Score=92, Evalue=6e-18, Organism=Caenorhabditis elegans, GI71994690, Length=382, Percent_Identity=25.3926701570681, Blast_Score=92, Evalue=8e-18, Organism=Caenorhabditis elegans, GI17551278, Length=549, Percent_Identity=22.4043715846995, Blast_Score=87, Evalue=1e-16, Organism=Caenorhabditis elegans, GI71996755, Length=517, Percent_Identity=22.0502901353965, Blast_Score=86, Evalue=3e-16, Organism=Caenorhabditis elegans, GI17560308, Length=355, Percent_Identity=25.9154929577465, Blast_Score=79, Evalue=4e-14, Organism=Caenorhabditis elegans, GI71985884, Length=361, Percent_Identity=22.7146814404432, Blast_Score=72, Evalue=6e-12, Organism=Saccharomyces cerevisiae, GI6319591, Length=961, Percent_Identity=26.1186264308012, Blast_Score=257, Evalue=3e-68, Organism=Saccharomyces cerevisiae, GI6319699, Length=538, Percent_Identity=22.1189591078067, Blast_Score=100, Evalue=4e-21, Organism=Drosophila melanogaster, GI24648676, Length=650, Percent_Identity=27.2307692307692, Blast_Score=223, Evalue=2e-57, Organism=Drosophila melanogaster, GI21355181, Length=489, Percent_Identity=23.721881390593, Blast_Score=112, Evalue=6e-24, Organism=Drosophila melanogaster, GI24581924, Length=572, Percent_Identity=22.3776223776224, Blast_Score=99, Evalue=8e-20, Organism=Drosophila melanogaster, GI281364798, Length=189, Percent_Identity=30.1587301587302, Blast_Score=85, Evalue=1e-15, Organism=Drosophila melanogaster, GI24583465, Length=189, Percent_Identity=30.1587301587302, Blast_Score=84, Evalue=1e-15, Organism=Drosophila melanogaster, GI24583463, Length=189, Percent_Identity=30.1587301587302, Blast_Score=84, Evalue=1e-15, Organism=Drosophila melanogaster, GI19922652, Length=497, Percent_Identity=22.7364185110664, Blast_Score=75, Evalue=8e-13, Organism=Drosophila melanogaster, GI24582852, Length=596, Percent_Identity=22.3154362416107, Blast_Score=75, Evalue=1e-12, Organism=Drosophila melanogaster, GI45550496, Length=196, Percent_Identity=26.530612244898, Blast_Score=70, Evalue=3e-11, Organism=Drosophila melanogaster, GI45552801, Length=196, Percent_Identity=26.530612244898, Blast_Score=70, Evalue=3e-11, Organism=Drosophila melanogaster, GI18859661, Length=386, Percent_Identity=22.020725388601, 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: IPR010060 - InterPro: IPR006163 - InterPro: IPR020806 - InterPro: IPR006162 - InterPro: IPR001031 [H]
Pfam domain/function: PF00501 AMP-binding; PF00668 Condensation; PF00550 PP-binding; PF00975 Thioesterase [H]
EC number: =5.1.1.13; =5.1.1.11 [H]
Molecular weight: Translated: 447513; Mature: 447513
Theoretical pI: Translated: 5.30; Mature: 5.30
Prosite motif: PS00012 PHOSPHOPANTETHEINE ; PS50075 ACP_DOMAIN ; PS00455 AMP_BINDING
Important sites: NA
Signals:
None
Transmembrane regions:
None
Cys/Met content:
0.9 %Cys (Translated Protein) 2.1 %Met (Translated Protein) 3.0 %Cys+Met (Translated Protein) 0.9 %Cys (Mature Protein) 2.1 %Met (Mature Protein) 3.0 %Cys+Met (Mature Protein)
Secondary structure:
>Translated Secondary Structure MLDNLYSNIICSDEKFKQKLEYWINTLSGELKPIDLPCKYNNNYKYNKEYGTINIKISQS CCCCHHHHHEECCHHHHHHHHHHHHHHCCCCEEEECCEEECCCEEECCCEEEEEEEEECC EYDNLITLNKNSDIAIYITLLSVFNSLISKYTGNTEVMIGSPVLKDKDKIVNSLIAIRSN CCCCEEEEECCCCEEEEHHHHHHHHHHHHHHCCCCEEEECCCCCCCHHHHHHHHHHHHCC ICLNDTFKQILLKTKEITLEAYKNQNYPMNTVLKNIGLEEKYFYSMLNVIFAMENIHELE CCCHHHHHHHHHHHHHHEEEECCCCCCCHHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHH FLESYQYDLLFLWKRECNGIFCEIKYNVDAFNKADINIMINYYIRILKYILNDINIMIKD HHHHCCCCEEEEEEECCCCEEEEEEECCCCCCCCCEEEEHHHHHHHHHHHHHHHHEEEEE INLITEEEKNKLLYEFNDTYTKYLKDKTIQELFEEQVERTPDNIAMVFEDKKLTYRELNE CHHEECCCCCCEEEEECHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEECCCCHHHHHHH KANSIARVLRDKGAKADSIVGIMVERSIEMIVGIIGILKSGGAYLPIDPYLPKGRILHMI HHHHHHHHHHHCCCCCCCEEHHHHHHHHHHHHHHHHHHHCCCCEECCCCCCCCCCEEEEE QDSHSNILLTTEEFLEDIKFNVEIINLSNRNLYKHKNSNLEIINKSNDLAYVIYTSGSTG ECCCCCEEEEHHHHHHCCEEEEEEEEECCCCEEEECCCCEEEEECCCCEEEEEEECCCCC SPKGVMIEHKSINNLVLEFKKSIYSKYNEKLRVALLAPYYFDASVKQIFVALIEGHTLYI CCCCEEEECCCHHHHHHHHHHHHHHHHCCCEEEEEEECHHCCHHHHHHHHHHHCCCEEEE TNEDIRKDGEELLKYYKVNKIDVSDGTPSHINMISYYLNEFKDLTIKHLIIGGDILNQTH ECHHHHCCHHHHHHHHCCCEEECCCCCCHHHHHHHHHHHHHHCCEEEEEEECCHHHHHHH VKKVFKILEDIKISNVYGPTECCVDCSIYTMEQEKNKNMENMSIGRPISNCEIYILDKDY HHHHHHHHHHCEECCCCCCHHHHEECEEEEECHHHCCCCCCCCCCCCCCCCEEEEEECCC KLAPIGVLGELCISGDGLARGYLNNPELTAEKFVDNPFEPGIKMYKTGDLARWLPDGNIE CCCCHHHHHHHHCCCCCCCCCCCCCCCCCHHHHCCCCCCCCCEEEECCCHHHHCCCCCEE FLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAYIVSNNKIDR EEEECCCEEEEEEEEEEHHHHHHHHHHHCCCCEEEEEECCCCCCCCEEEEEEECCCCCCH NELKNYLLKDLPEYMIPLNFVNIKKIPLTSNGKVDRKILENREDLINIYEECEKPRNSME HHHHHHHHHHCHHHHCCCEEEEEEEECCCCCCCHHHHHHCCHHHHHHHHHHHHCHHHHHH EVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIRLISKLKKHGYKLEIKDLFKYNTIKDV HHHHHHHHHHHCCCCCCCCCCEECCCCCHHHHHHHHHHHHHCCCEEEEHHHHHHCCHHHH SNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLFNEEGFNESIIKK HCEEEECCCCHHHHHHHCCCCEEEEHHHHHHHHHHCCCCCCCCEEEEEECCCCCHHHHHH VFDKITEHHDALRIVFKNEKEDVLQFNRGLEGELYSLEVFDYRSVENYKKEIENKCNKLQ HHHHHHCCCCEEEEEECCCHHHHHHHCCCCCCCEEEEEEECCCCHHHHHHHHHHHHHHHH SSINLSNGPLVKLGMFKTKEGDHLLIFIHHLVIDGVSWRILLEDFSLIYNMELNNKPITL HHCCCCCCCEEEEEEEECCCCCEEEEEEHHHHHCCCCEEEEEEECEEEEEEEECCCCEEE QEKTNSFKEWSTYIKEYANSKDLLQEEEYWENIENTKIKKIPKDNEIKDSIFKDNRSISI EHHCCCHHHHHHHHHHHCCCHHHHHHHHHHHCCCCCEEECCCCCCCHHHHHHCCCCEEEE RLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLEGHGREEFSSNIN EECCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCCCCCCEEEEECCCCHHHHHCCCC VSRTIGWFTNQYPLVLDISKDKDISYEIKNTKETLRRVPNKGMGYGILRYIKNKWDNNIN EEEEEEEECCCCCEEEECCCCCCCEEEECCHHHHHHHCCCCCCCHHHHHHHHHHCCCCCC PEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMISNGVLNMNFGYNS CCEEEHHHCCHHHHHHCCEEEEECCCCCCCCCCCCCCCEEEEECCEEECCEEEEECCCCC KEYNEETIKEISNNYKNNLVNIINHCLSKEKTELTPTDLGDSNLTIDQLDILSLKYRNRG CCCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCEEEHHHHEEEHECCCC LEIKNIYSLTPMQMGMLFHALKDEESSSYFEQSIFTLKGEIDLNIFERSFNKVIERYDIL CEEEHEEECCHHHHHHHHHHHCCCCCHHHHHHHHEEEECCEEHHHHHHHHHHHHHHHHHH RTVFVYENVDKPKQIVFKERKARIGYEDISKLSNESKENYIENFISKDKEKGFNLGKDLL HHHHHHCCCCCHHHHHHHHHHHCCCHHHHHHHHCCHHHHHHHHHHHHHHHCCCCCCCEEE IKISILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSIELPKVTPYIEY EEEEEEEEECCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCHHHHH IKWLEDRKKLNNEGEEYWRNYLSCYENVARIPISAERHKEEKYELKELKFAINKEKTKKL HHHHHHHHHHCCCHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHCHHHHHHH ERIVKTERVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGIDRMVGLFINTIP HHHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHEEEEECCCCCCHHHHHHHHHHHHHCEE VRIKTESGMSFVELIKEIQKLSLESSKYDYYPLAEIQSKTKLKNELINNIVVYENYYIDN EEEEECCCCHHHHHHHHHHHHHCCCCCCCCCCHHHHHHHHHHHHHHHCCEEEEEEEEEEC SSINLNEKINKKFIMENMKSREETNYDLNLIIGPSEELNIKLLYNKKIYDDYIIEKISKQ CCCCCHHHHHHHHHHHHHHHHHCCCCEEEEEECCCCCEEEEEEECCCHHHHHHHHHHHHH FALIIDTIISNKNILVDKIEIIEEEEKKQILYEFNDTKVDYPKNKTIQELFEEQVEKTPN HHHHHHHHHCCCCEEEEHHHHHCCHHHHHEEEEECCCEECCCCCCHHHHHHHHHHHCCCC NIAVVFEDKKLTYRELNEKANKIASILRKEGVTEESIIGIIANKSIDTIIGIVGVIKLSA CEEEEEECCCCHHHHHHHHHHHHHHHHHHCCCCHHHEEEEEECCCHHHHHHHHHHHHHEE VYLPIDPNLPKKRIDFILNDCKVNIVLGKGLKEIDSNIRLLDIEERIEYEECTANPDIFK EEEECCCCCCHHHHHHHEECCEEEEEECCCHHHHCCCCEEEEHHHHCCHHHHCCCCCCEE KTNLLAYIMYTSGSTGVPKGVLVEQKNVIRLVKNTNYMDFKNIRILQTGSIAFDASTFEI CCCEEEEEEEECCCCCCCCCEEECCHHHHHHHHCCCCCEECCEEEEEECCEEECCHHHHH WGSLLNGGMLCLVNDKEILNTESIKSNITKNCINTIWITSAFFNKLAEEKTSIFSGLRHL HHHHHCCCEEEEECCHHHHCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH LIGGDTLSPKHINMVLDKCNGLKIINGYGPTENTTFSTAYLIEKRYYSSIPIGKPISNSN HCCCCCCCCHHHHHHHHCCCCEEEEECCCCCCCCCEEHHHHHHHHHHCCCCCCCCCCCCE VYIVDKNCNLTPIGISGELCVGGEGLAKGYLNREDLTAEKFIENPFEPGKRMYRTGDLAR EEEEECCCCEEEECCCCCEEECCCHHHHCCCCCCCCCHHHHHCCCCCCHHHHHHCCCHHH WLPDGNIEFLGRIDNQVKIRGFRIELNEIQSHLLTYEAVKEVAVIDREDEDKNKYICAYI HCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHHHHHHHHHCCCCCCCCCCEEEEEE VCDKELTVGEIRGYLLNKLPEYMVPSYFIQIEKLPLTLNGKLDKKALPEPYRKINTGVKY EECCCCCHHHHHHHHHHHCHHHHCCCEEEEEEECEEEECCCCCCCCCCCHHHHHCCCCCC EAPRNEIQEKLLSIWREVLGVENIGLNDNFFELGGHSLNATTIVSKIYSKLEVDVPLEEV CCCHHHHHHHHHHHHHHHHCCCCCCCCCCHHHCCCCCCCHHHHHHHHHHHCCCCCCHHHH FKNQTIKGIYEYIKSRERSICSSIQLIGEKEFYEASSAQKRMYTLQKLDEKSIAYNMPIV HCCCHHHHHHHHHHHHHHHHHHHHHHHCCHHHHHHHHHHHHHHHHHHCCCCCEEECCCEE MKIEGKLNKERLEKAVMELIKRHEALRTSFEIVDEKIVQKVNKAIKFNINYIQETDKSID EEECCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHEEEEEHHHHHHHHHHH QIIKEFISPFDLEKPSLFRVAIAEIIGENYLLIDMHHIVSDGISMDILIKEFTALYNGKT HHHHHHCCCCCCCCCHHHHHHHHHHHCCCEEEEEEHHHHHCCCCHHHHHHHHHHHHCCCC LKPLKVQYKDFAAWQNNLLRSEVMKSKEEYWMNRFNDEIPVLNMPTDYTRPSIMNFEGDR CCCCEEHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCEEECCCCCCCCCEECCCCCE INFSIEKDITNRIRKIARETGSTIYMILLSGLNILLSKYSGQEDIIIGSPIAGRTHVDLE EEEEEHHHHHHHHHHHHHHCCCEEEEHHHHHHHHHHHHCCCCCCEEEECCCCCCCCCCHH PIIGMFVNTIAMRNYPRGEKTYKEFLKEVKENALRAYENQDYQFEELVDKLNIIRDMSRN HHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHCCCC PLFDVMFTMQNMDIEDIENIAIDDLKFELYDTYNNISKFDLTLSAIEIEEEILLSIEYNT CHHHHHHHHHCCCHHHHHHCCCCCEEEEEEHHHCCCEEEEEEEEEEEECEEEEEEEECCC RLYKRETIEKMINHFSRILSNLSKDIYIKIDEIEIIEEEEKNQILYEFNDTKVEYPKDKA HHHHHHHHHHHHHHHHHHHHHCCCCEEEEEECEEEECCCCCCCEEEEECCCEECCCCHHH IQELFEEQVEKTPNNIAVVFEDKKLTYRELNEKANSLARVLRDKGVKADSIVGIMVERSI HHHHHHHHHHCCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHH EMIVGIMGILKSGGAYLPIDPSYPVERIEYMIEDAKIDILITSEEFINKVKFTKSIVNIK HHHHHHHHHHHCCCEEEECCCCCCHHHHHHHHCCCEEEEEEECHHHHHHHHHHHHHHHHH EKSLLKKDNLDIINKSSDLAYVIYTSGSTGRPKGVMVEHKSLINLCNYHNKKFNIKEEDK HHHHHHHCCCCEEECCCCEEEEEEECCCCCCCCCEEEEHHHHHHHHHCCCCCCCCCCCCC STSYAEFSFDASVWEVFPYLIIGATIYIINENIKLDIIKLNKYYEKNNITISFLPTPICQ CCCEEEEECCCHHHHHHHHHHHCCEEEEEECCCEEEEEEEECEEECCCEEEEECCCHHHH QFMEVDNTSLRVILTGGDKLNNYKEKQISIINNYGPTEATVLTTSYNVKSKVNNIPIGKP HHHHCCCCEEEEEEECCCCCCCCHHHHEEEEECCCCCCEEEEEECCCHHHHCCCCCCCCC MYNQRVYILNNKKVAPIGVSGELCISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTG CCCCEEEEEECCEEEEECCCCCEEECCCCCCCCCCCCCCCCCHHHCCCCCCCHHHHHHCC DLARWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYL CHHHHCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHCCCCEEEEEECCCCCCCCEE CAYIVSNNKIDRNELKNYLLKDLPEYMIPLNFVNIKKIPLTSNGKVDRKILENREDLINI EEEEECCCCCCHHHHHHHHHHHCHHHHCCCEEEEEEEECCCCCCCHHHHHHCCHHHHHHH YEECEKPRNSMEEVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIRLISKLKKHGYKLEI HHHHHCHHHHHHHHHHHHHHHHHCCCCCCCCCCEECCCCCHHHHHHHHHHHHHCCCEEEE KDLFKYNTIKDVSNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLF HHHHHHCCHHHHHCEEEECCCCHHHHHHHCCCCEEEEHHHHHHHHHHCCCCCCCCEEEEE NEEGFNESIIKKVFDKITEHHDALRIVFKNEKEDVLQFNRGLEGELYSLEVFDYRSVENY ECCCCCHHHHHHHHHHHHCCCCEEEEEECCCHHHHHHHCCCCCCCEEEEEEECCCCHHHH KKEIENKCNKLQSSINLSNGPLVKLGMFKTKEGDHLLIVIHHLVIDGVSWRILLEDFSLI HHHHHHHHHHHHHHCCCCCCCEEEEEEEECCCCCEEEEEEHHHHHCCCCEEEEEEECEEE YNMELNNKPITLQEKTNSFKEWSTYIKEYANSKDLLQEEEYWENIENTKIKKVPKDNEIK EEEEECCCCEEEEHHCCCHHHHHHHHHHHCCCHHHHHHHHHHHCCCCCEEECCCCCCCHH DSIFKDNRSISIRLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLE HHHHCCCCEEEEEECCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCCCCCCEEEEEC GHGREEFSSNINVSRTIGWFTNQYPLVLDISRDKDISYEIKNTKETLRRVPNKGMGYGIL CCCHHHHHCCCCEEEEECCCCCCCCEEEECCCCCCCEEEECCHHHHHHHCCCCCCCHHHH RYIKNKWDNNINPEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMIS HHHHHHCCCCCCCCEEEHHHCCHHHHHHCCEEEEECCCCCCCCCCCCCCCEEEEECCEEE NGVLNMNFGYNSKEYNEETIKEISNNYKNNLVNIINHCIEKDGQEQTPSDLGDSTLSIEE CCEEEEECCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCHHH LEFLTEQYLTTE HHHHHHHHHCCC >Mature Secondary Structure MLDNLYSNIICSDEKFKQKLEYWINTLSGELKPIDLPCKYNNNYKYNKEYGTINIKISQS CCCCHHHHHEECCHHHHHHHHHHHHHHCCCCEEEECCEEECCCEEECCCEEEEEEEEECC EYDNLITLNKNSDIAIYITLLSVFNSLISKYTGNTEVMIGSPVLKDKDKIVNSLIAIRSN CCCCEEEEECCCCEEEEHHHHHHHHHHHHHHCCCCEEEECCCCCCCHHHHHHHHHHHHCC ICLNDTFKQILLKTKEITLEAYKNQNYPMNTVLKNIGLEEKYFYSMLNVIFAMENIHELE CCCHHHHHHHHHHHHHHEEEECCCCCCCHHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHH FLESYQYDLLFLWKRECNGIFCEIKYNVDAFNKADINIMINYYIRILKYILNDINIMIKD HHHHCCCCEEEEEEECCCCEEEEEEECCCCCCCCCEEEEHHHHHHHHHHHHHHHHEEEEE INLITEEEKNKLLYEFNDTYTKYLKDKTIQELFEEQVERTPDNIAMVFEDKKLTYRELNE CHHEECCCCCCEEEEECHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEECCCCHHHHHHH KANSIARVLRDKGAKADSIVGIMVERSIEMIVGIIGILKSGGAYLPIDPYLPKGRILHMI HHHHHHHHHHHCCCCCCCEEHHHHHHHHHHHHHHHHHHHCCCCEECCCCCCCCCCEEEEE QDSHSNILLTTEEFLEDIKFNVEIINLSNRNLYKHKNSNLEIINKSNDLAYVIYTSGSTG ECCCCCEEEEHHHHHHCCEEEEEEEEECCCCEEEECCCCEEEEECCCCEEEEEEECCCCC SPKGVMIEHKSINNLVLEFKKSIYSKYNEKLRVALLAPYYFDASVKQIFVALIEGHTLYI CCCCEEEECCCHHHHHHHHHHHHHHHHCCCEEEEEEECHHCCHHHHHHHHHHHCCCEEEE TNEDIRKDGEELLKYYKVNKIDVSDGTPSHINMISYYLNEFKDLTIKHLIIGGDILNQTH ECHHHHCCHHHHHHHHCCCEEECCCCCCHHHHHHHHHHHHHHCCEEEEEEECCHHHHHHH VKKVFKILEDIKISNVYGPTECCVDCSIYTMEQEKNKNMENMSIGRPISNCEIYILDKDY HHHHHHHHHHCEECCCCCCHHHHEECEEEEECHHHCCCCCCCCCCCCCCCCEEEEEECCC KLAPIGVLGELCISGDGLARGYLNNPELTAEKFVDNPFEPGIKMYKTGDLARWLPDGNIE CCCCHHHHHHHHCCCCCCCCCCCCCCCCCHHHHCCCCCCCCCEEEECCCHHHHCCCCCEE FLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYLCAYIVSNNKIDR EEEECCCEEEEEEEEEEHHHHHHHHHHHCCCCEEEEEECCCCCCCCEEEEEEECCCCCCH NELKNYLLKDLPEYMIPLNFVNIKKIPLTSNGKVDRKILENREDLINIYEECEKPRNSME HHHHHHHHHHCHHHHCCCEEEEEEEECCCCCCCHHHHHHCCHHHHHHHHHHHHCHHHHHH EVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIRLISKLKKHGYKLEIKDLFKYNTIKDV HHHHHHHHHHHCCCCCCCCCCEECCCCCHHHHHHHHHHHHHCCCEEEEHHHHHHCCHHHH SNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLFNEEGFNESIIKK HCEEEECCCCHHHHHHHCCCCEEEEHHHHHHHHHHCCCCCCCCEEEEEECCCCCHHHHHH VFDKITEHHDALRIVFKNEKEDVLQFNRGLEGELYSLEVFDYRSVENYKKEIENKCNKLQ HHHHHHCCCCEEEEEECCCHHHHHHHCCCCCCCEEEEEEECCCCHHHHHHHHHHHHHHHH SSINLSNGPLVKLGMFKTKEGDHLLIFIHHLVIDGVSWRILLEDFSLIYNMELNNKPITL HHCCCCCCCEEEEEEEECCCCCEEEEEEHHHHHCCCCEEEEEEECEEEEEEEECCCCEEE QEKTNSFKEWSTYIKEYANSKDLLQEEEYWENIENTKIKKIPKDNEIKDSIFKDNRSISI EHHCCCHHHHHHHHHHHCCCHHHHHHHHHHHCCCCCEEECCCCCCCHHHHHHCCCCEEEE RLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLEGHGREEFSSNIN EECCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCCCCCCEEEEECCCCHHHHHCCCC VSRTIGWFTNQYPLVLDISKDKDISYEIKNTKETLRRVPNKGMGYGILRYIKNKWDNNIN EEEEEEEECCCCCEEEECCCCCCCEEEECCHHHHHHHCCCCCCCHHHHHHHHHHCCCCCC PEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMISNGVLNMNFGYNS CCEEEHHHCCHHHHHHCCEEEEECCCCCCCCCCCCCCCEEEEECCEEECCEEEEECCCCC KEYNEETIKEISNNYKNNLVNIINHCLSKEKTELTPTDLGDSNLTIDQLDILSLKYRNRG CCCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCEEEHHHHEEEHECCCC LEIKNIYSLTPMQMGMLFHALKDEESSSYFEQSIFTLKGEIDLNIFERSFNKVIERYDIL CEEEHEEECCHHHHHHHHHHHCCCCCHHHHHHHHEEEECCEEHHHHHHHHHHHHHHHHHH RTVFVYENVDKPKQIVFKERKARIGYEDISKLSNESKENYIENFISKDKEKGFNLGKDLL HHHHHHCCCCCHHHHHHHHHHHCCCHHHHHHHHCCHHHHHHHHHHHHHHHCCCCCCCEEE IKISILKVEKDKYEVVWSFHHILMDGWCLNIIMNDFFNIYSQLQEEKSIELPKVTPYIEY EEEEEEEEECCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCHHHHH IKWLEDRKKLNNEGEEYWRNYLSCYENVARIPISAERHKEEKYELKELKFAINKEKTKKL HHHHHHHHHHCCCHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHCHHHHHHH ERIVKTERVTMNTIIQAVWGILLQRYNNIDDVVFGTVVSGRNANIEGIDRMVGLFINTIP HHHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHEEEEECCCCCCHHHHHHHHHHHHHCEE VRIKTESGMSFVELIKEIQKLSLESSKYDYYPLAEIQSKTKLKNELINNIVVYENYYIDN EEEEECCCCHHHHHHHHHHHHHCCCCCCCCCCHHHHHHHHHHHHHHHCCEEEEEEEEEEC SSINLNEKINKKFIMENMKSREETNYDLNLIIGPSEELNIKLLYNKKIYDDYIIEKISKQ CCCCCHHHHHHHHHHHHHHHHHCCCCEEEEEECCCCCEEEEEEECCCHHHHHHHHHHHHH FALIIDTIISNKNILVDKIEIIEEEEKKQILYEFNDTKVDYPKNKTIQELFEEQVEKTPN HHHHHHHHHCCCCEEEEHHHHHCCHHHHHEEEEECCCEECCCCCCHHHHHHHHHHHCCCC NIAVVFEDKKLTYRELNEKANKIASILRKEGVTEESIIGIIANKSIDTIIGIVGVIKLSA CEEEEEECCCCHHHHHHHHHHHHHHHHHHCCCCHHHEEEEEECCCHHHHHHHHHHHHHEE VYLPIDPNLPKKRIDFILNDCKVNIVLGKGLKEIDSNIRLLDIEERIEYEECTANPDIFK EEEECCCCCCHHHHHHHEECCEEEEEECCCHHHHCCCCEEEEHHHHCCHHHHCCCCCCEE KTNLLAYIMYTSGSTGVPKGVLVEQKNVIRLVKNTNYMDFKNIRILQTGSIAFDASTFEI CCCEEEEEEEECCCCCCCCCEEECCHHHHHHHHCCCCCEECCEEEEEECCEEECCHHHHH WGSLLNGGMLCLVNDKEILNTESIKSNITKNCINTIWITSAFFNKLAEEKTSIFSGLRHL HHHHHCCCEEEEECCHHHHCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH LIGGDTLSPKHINMVLDKCNGLKIINGYGPTENTTFSTAYLIEKRYYSSIPIGKPISNSN HCCCCCCCCHHHHHHHHCCCCEEEEECCCCCCCCCEEHHHHHHHHHHCCCCCCCCCCCCE VYIVDKNCNLTPIGISGELCVGGEGLAKGYLNREDLTAEKFIENPFEPGKRMYRTGDLAR EEEEECCCCEEEECCCCCEEECCCHHHHCCCCCCCCCHHHHHCCCCCCHHHHHHCCCHHH WLPDGNIEFLGRIDNQVKIRGFRIELNEIQSHLLTYEAVKEVAVIDREDEDKNKYICAYI HCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHHHHHHHHHCCCCCCCCCCEEEEEE VCDKELTVGEIRGYLLNKLPEYMVPSYFIQIEKLPLTLNGKLDKKALPEPYRKINTGVKY EECCCCCHHHHHHHHHHHCHHHHCCCEEEEEEECEEEECCCCCCCCCCCHHHHHCCCCCC EAPRNEIQEKLLSIWREVLGVENIGLNDNFFELGGHSLNATTIVSKIYSKLEVDVPLEEV CCCHHHHHHHHHHHHHHHHCCCCCCCCCCHHHCCCCCCCHHHHHHHHHHHCCCCCCHHHH FKNQTIKGIYEYIKSRERSICSSIQLIGEKEFYEASSAQKRMYTLQKLDEKSIAYNMPIV HCCCHHHHHHHHHHHHHHHHHHHHHHHCCHHHHHHHHHHHHHHHHHHCCCCCEEECCCEE MKIEGKLNKERLEKAVMELIKRHEALRTSFEIVDEKIVQKVNKAIKFNINYIQETDKSID EEECCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHEEEEEHHHHHHHHHHH QIIKEFISPFDLEKPSLFRVAIAEIIGENYLLIDMHHIVSDGISMDILIKEFTALYNGKT HHHHHHCCCCCCCCCHHHHHHHHHHHCCCEEEEEEHHHHHCCCCHHHHHHHHHHHHCCCC LKPLKVQYKDFAAWQNNLLRSEVMKSKEEYWMNRFNDEIPVLNMPTDYTRPSIMNFEGDR CCCCEEHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCEEECCCCCCCCCEECCCCCE INFSIEKDITNRIRKIARETGSTIYMILLSGLNILLSKYSGQEDIIIGSPIAGRTHVDLE EEEEEHHHHHHHHHHHHHHCCCEEEEHHHHHHHHHHHHCCCCCCEEEECCCCCCCCCCHH PIIGMFVNTIAMRNYPRGEKTYKEFLKEVKENALRAYENQDYQFEELVDKLNIIRDMSRN HHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHCCCC PLFDVMFTMQNMDIEDIENIAIDDLKFELYDTYNNISKFDLTLSAIEIEEEILLSIEYNT CHHHHHHHHHCCCHHHHHHCCCCCEEEEEEHHHCCCEEEEEEEEEEEECEEEEEEEECCC RLYKRETIEKMINHFSRILSNLSKDIYIKIDEIEIIEEEEKNQILYEFNDTKVEYPKDKA HHHHHHHHHHHHHHHHHHHHHCCCCEEEEEECEEEECCCCCCCEEEEECCCEECCCCHHH IQELFEEQVEKTPNNIAVVFEDKKLTYRELNEKANSLARVLRDKGVKADSIVGIMVERSI HHHHHHHHHHCCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHH EMIVGIMGILKSGGAYLPIDPSYPVERIEYMIEDAKIDILITSEEFINKVKFTKSIVNIK HHHHHHHHHHHCCCEEEECCCCCCHHHHHHHHCCCEEEEEEECHHHHHHHHHHHHHHHHH EKSLLKKDNLDIINKSSDLAYVIYTSGSTGRPKGVMVEHKSLINLCNYHNKKFNIKEEDK HHHHHHHCCCCEEECCCCEEEEEEECCCCCCCCCEEEEHHHHHHHHHCCCCCCCCCCCCC STSYAEFSFDASVWEVFPYLIIGATIYIINENIKLDIIKLNKYYEKNNITISFLPTPICQ CCCEEEEECCCHHHHHHHHHHHCCEEEEEECCCEEEEEEEECEEECCCEEEEECCCHHHH QFMEVDNTSLRVILTGGDKLNNYKEKQISIINNYGPTEATVLTTSYNVKSKVNNIPIGKP HHHHCCCCEEEEEEECCCCCCCCHHHHEEEEECCCCCCEEEEEECCCHHHHCCCCCCCCC MYNQRVYILNNKKVAPIGVSGELCISGDGLARGYLNNPELTSEKFVDNPFEPGERMYRTG CCCCEEEEEECCEEEEECCCCCEEECCCCCCCCCCCCCCCCCHHHCCCCCCCHHHHHHCC DLARWLPDGNIEFLGRIDNQVKIRGFRIELEEIENRLLEYEGVKEAVVVAKEDKERSKYL CHHHHCCCCCEEEEEECCCEEEEEEEEEEHHHHHHHHHHHCCCCEEEEEECCCCCCCCEE CAYIVSNNKIDRNELKNYLLKDLPEYMIPLNFVNIKKIPLTSNGKVDRKILENREDLINI EEEEECCCCCCHHHHHHHHHHHCHHHHCCCEEEEEEEECCCCCCCHHHHHHCCHHHHHHH YEECEKPRNSMEEVMIEVFKEVLGVENLGINHSFFDLGGDSIKAIRLISKLKKHGYKLEI HHHHHCHHHHHHHHHHHHHHHHHCCCCCCCCCCEECCCCCHHHHHHHHHHHHHCCCEEEE KDLFKYNTIKDVSNRITLEENSIINQELVKGKIDLIPIQKWFFEKDFIDNHHWNQAVMLF HHHHHHCCHHHHHCEEEECCCCHHHHHHHCCCCEEEEHHHHHHHHHHCCCCCCCCEEEEE NEEGFNESIIKKVFDKITEHHDALRIVFKNEKEDVLQFNRGLEGELYSLEVFDYRSVENY ECCCCCHHHHHHHHHHHHCCCCEEEEEECCCHHHHHHHCCCCCCCEEEEEEECCCCHHHH KKEIENKCNKLQSSINLSNGPLVKLGMFKTKEGDHLLIVIHHLVIDGVSWRILLEDFSLI HHHHHHHHHHHHHHCCCCCCCEEEEEEEECCCCCEEEEEEHHHHHCCCCEEEEEEECEEE YNMELNNKPITLQEKTNSFKEWSTYIKEYANSKDLLQEEEYWENIENTKIKKVPKDNEIK EEEEECCCCEEEEHHCCCHHHHHHHHHHHCCCHHHHHHHHHHHCCCCCEEECCCCCCCHH DSIFKDNRSISIRLSEEDTENLLRNVNKAYNTEINDILLTALGLTIKQWSKENKVLINLE HHHHCCCCEEEEEECCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCCCCCCEEEEEC GHGREEFSSNINVSRTIGWFTNQYPLVLDISRDKDISYEIKNTKETLRRVPNKGMGYGIL CCCHHHHHCCCCEEEEECCCCCCCCEEEECCCCCCCEEEECCHHHHHHHCCCCCCCHHHH RYIKNKWDNNINPEISFNYLGQFDEEIKSNVFKISNLPIGQSMSLNSENTYCLNINGMIS HHHHHHCCCCCCCCEEEHHHCCHHHHHHCCEEEEECCCCCCCCCCCCCCCEEEEECCEEE NGVLNMNFGYNSKEYNEETIKEISNNYKNNLVNIINHCIEKDGQEQTPSDLGDSTLSIEE CCEEEEECCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCHHH LEFLTEQYLTTE HHHHHHHHHCCC
PDB accession: NA
Resolution: NA
Structure class: Alpha Beta
Cofactors: NA
Metal ions: NA
Kcat value (1/min): NA
Specific activity: NA
Km value (mM): NA
Substrates: NA
Specific reaction: NA
General reaction: NA
Inhibitor: NA
Structure determination priority: 9.0
TargetDB status: NA
Availability: NA
References: 9427658 [H]