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Crypto_00030 Crypto_00030   Crypto_00050 Crypto_00050

CDS information : Crypto_00040


close this sectionLocation

Organism
StrainATCC 53789
Entry nameCryptophycin 1
Contig
Start / Stop / Direction35,090 / 45,121 / + [in whole cluster]
35,090 / 45,121 / + [in contig]
Location35090..45121 [in whole cluster]
35090..45121 [in contig]
TypeCDS
Length10,032 bp (3,343 aa)
Click on the icon to see Genetic map.

close this sectionAnnotation

Category1.2 NRPS
Productnon-ribosomal peptide synthetase
Product (GenBank)CrpD
Gene
Gene (GenBank)crpD
EC number
Keyword
Note
Note (GenBank)
  • non-ribosomal peptide synthetase; C-A-PCP-C-A-KR-PCP-TE
Reference
ACC
PmId
[17240975] Biosynthetic characterization and chemoenzymatic assembly of the cryptophycins. Potent anticancer agents from cyanobionts. (ACS Chem Biol. , 2006)
[17240971] Cryptophycin anticancer drugs revisited. (ACS Chem Biol. , 2006)
[21823639] Chemoenzymatic synthesis of cryptophycin anticancer agents by an ester bond-forming non-ribosomal peptide synthetase module. (J Am Chem Soc. , 2011)

close this sectionPKS/NRPS Module

5 alpha-methyl-beta-alanine
6 2-keto-isocaproic acid
C12..314
A501..968
PCP1052..1119
C1139..1440
A1899..2315
KR2660..2846
PCP2981..3048
TE3069..3321

close this sectionSequence

selected fasta
>non-ribosomal peptide synthetase [CrpD]
MSNEEIRRNISSIYPLSPMQQGMLFHSLYAPYSGVYLEQMTWGLKGNINVAAFERAWQKV
LDRHSILRTFFVWENRQTPLQVVLKQVNVPWNTLDWRELSSNDQQQQLKQLLQTQREQGF
NLSQAPLMRCTLVRLGEDNYKFIWSHHHILMDGWCLSIIFKEILIFYKAHLLGENCQLPK
PRPYQDYIAWLNSQDKSAAIEFWQQTLQGFSAPTPLVMDKTQFLKEQQYKTADYQERTSS
LSPECTQKLLHIAQQHHVTLSTVVQAAWALLLSRYSGEKDVVFGVTVSGRPPSLSEIENM
VGLFINTLPLRVQVSTQEQLIPWLQKIQQSMVELQEYFYTPLVDIQATSEIPGGIPLFES
IVVFENYPIDNSLLNEEGSLHLGDIEVFEQTNYPLTLVAVPGDKLSVRISYDTARFSSNT
IEWILGYLQTVLSAIAIVENPSHKVAQLPLLSEVERHQLLVEWNNTATDYPSDKCIHQLF
EQQVEKNPNSIAVVFEEEQSTYQQLNQKANQLAHYLQTLGVKPEVLVGICIEYSIDMIVG
LLGILKAGGVYVPLDPNYPQERLAFMQEDSNVHIILTQQPLLEKISPQNAHIVCLDRDRD
VIAREGVENLDRQTTLDDLAYAIYTSGSTGKPKAVLGTLRGIVNRLHWIWEMLPFGADEI
CSQKTSINFGDHVAEIFSPLLKGIPLVIVPDDIRGNIPRLMSLLSDRKVTRIVLVPSLLK
AILENAPQQLTKLRYLKYVFCSGEVLPLTLAKEFHQKISSARLFNLYGSSEVAADVTCFE
VKLRIANQIEAKSKEKLDALKNLPSGSGDRETAVLHKEIIHLQLADERRADLGEALEEYL
KRNTIPIGKPISNTQIYILDKYGDLLPPGVTGELYVGGDGLAKGYLNLPELTREKFIPNP
FVKDRGKSKKAQAERLFRTGDLARWLPDGNIEFVGRIDHQVKVRGFRIELGEIEAVLSTH
PQIQQVVVIAIEDIPGSKRLVAYIVCEDESLSTYHLREFLKQKLPEYMMPSAFVILDTLP
LTPSGKIDRKALPAPDGEISREHEYVPPRTSGEEIIANIFASILGVQNVGIHDNFFELGG
HSLLATRLISRLRVAFEVEIELSAVFSSPTVAQLEQTLTQLRTTNSALSLPPIQPRTQNQ
QLPLSFAQDRLWFLNQLEGSSATYNMPGAIRVTGKLDINALQQALSEIVRRHEVLRTSFR
TVNGTPIQVIHPEATMNISVADLQQLEATERESVLHQQAQLAAITPFDLETAPLIRCSLL
QLDAREYVLLLTMHHIVSDGWSMGIFSQELSTLYQAFSAGKPSPLAELPIQYADFAVWQR
QWLSGKVLETQLNYWLSQLEGAPELLQLPTDRPRPTVQTFRGTTQSFSLNTDLKEKLQTL
SRNSGTTLFMTLHAAFATLLYRYSGQLDILIGSPIANRNCSEIESLIGFFANTLVLKTRF
EDNPSFENLLAQVRETTLEAYEHQDVPFEQVVEVLQPQRSLSYAPLFQVMFVLQNAPMGE
LELPGVTLNLLSSQTETARFDLTVSMQQTSEALVGSWEYNTDLFDGSTIERMTAHFQNLC
SAIVENPQQKISELPLFTDSEQEQVLHSYNNIATTYLLDKYVHFLSSNNLQIYILDNHQQ
LVPLSVEGEIYLGNCDLLPDKLHPEPEKFISFIEHTQLGKLLKTGEWGCRRVDGSLELLG
KEHRIVTVNGQRINLQRIEQALQTAKGVEDCYVMVRNQKLVAYVVKDGSWAREFLHHYLK
SQLPGYPLPCIYVPVSALPLTSFGEVDEVGLASISIIDSELINTWEEQIGSQAEIDKVAV
FIEPNVKTISPIHLEELLPSIQAIFNQGSTPVETPRTARGKESSSLLEIKSPAISHEEVL
IFPESSPETLGEMLQKTAGKFPHKGITYINSDGSEQVQSYAQLLEDAQRILGGFRKLGIK
PQDKVILQLKENKDFISAFWGCVLGGFIPVPVVIPVSYDQPNVNLNKLQNSWQMLERPLI
LTDKKSLSELKKWSQNLNDDNFKLETIESLQKFSTDKDYYNAQPEDLALFMLTSGSTGMS
KVVQLSHLNLLSRTIGSIQMNNFTPEDITLNWMPLDHVAGLIYFHIRDIYLGCKQIHATS
QLVIEKPLRWLDWIDTFGVTVTFAPNFAYSLINDFVQEIEKQNWNLSSIRLMLNGAEQIV
AATARRFLKLLAPFGLPGDAMTPSWGMAEVSSGITYSDNFSLLSSSDDNSFVNLGKPIRG
TCLRIVNQDMEVLSEGEIGLLQVKGLTVTSGYYQNPKANKEAFTEDGWFNTGDLGFIKDG
CLTITGRQKDIIIINGVNYYSHEIEAVVEELGEVEVSYTAACGVCVASNNTEELVIFFTP
YVSEKNQLLELLKKVREQVIKYCGINPSYLIPIDKELIPKTSIGKIQRSLLKQRFECGEF
KSLRQRVDLLLDNTNTIPNWFYRKVWQIKESKNTLLNYSSQKTLTLIFTDNLGWQQDNRG
MSQTVQPYAQVTIGSNFAQISPNHYSVVPGNPQHYRLLIDSLRQNSQVISQILHLWNYNE
QTEKISSLENLESTQQQGIYSLLFLVQALEEIQGKQQAVKLLWIANQSQLVHPTDKIQPE
KSTVLGLLKTVSQEMPWLTTRHLDLPLAPELNNSYIWQELYSADKELEVAIRNRERFVSG
LEPVDMTAKEKQKIPILPGGTYLLTGGLGGIGTVIAKYLLEHYQANLILVGRTQIEDNNE
EASTKLQRYQELEKLPGSIIYQTVDICDLVGLQQVVEKATQEWRTQLDGVFHMAGIIQET
PIEKETPGNIAAVLRPKVSGTWVLHQLLKDKENALFVHFCSVNGFFGGTNVAAYSAANSF
QSAWSDYQQQNGFQSYCCSWSMWNETGISHGYQFQELSRAKGYFIITPQQGFYSFLAALS
GSEHNLLIGLDGTKTNVEHLIRDCQPKQKLTAYFTSPTPELAALSLQELQLHDRFGIPNQ
INFVQLEQIPLTQRGEINREQIAAIYGGLNTSEQTKPRNQTERQLVEIFQEVLNLPSIGI
HDNFFSLGGHSLLAVRLMSEIQQQFQKNLPLATLFQNPTIERLALLVGSDSGAELWSPLV
PIQQNGSLPPLFCVPGAGGNVLYFHHLAQYLGNNQPLYGLQAQGLDGETEPHKSVEEIAS
QHIKAIQTVQPVGPYFLAGHSFGSHVVFEMANQLQLIGKSVAYVGILDTPAPTSQANHQN
DFSNWDNAKWICRMAEVIEDIVGENLFLSYETLTSLTWEQQLNYFKQKLEIVGFLPAQTD
IKIVRGLLQVFQTQCQIKYEPEKTYKTPITLFCAREINPEQESYSHIFQEPTWGWNQFSD
GEVEIHIVPGNHVSMLSEPHVKVLAQQMQISLEQAQKTHQLEK
selected fasta
>non-ribosomal peptide synthetase [CrpD]
ATGAGCAACGAAGAAATTAGAAGAAATATCTCTTCAATTTATCCACTTTCTCCCATGCAA
CAAGGGATGCTGTTCCACAGTCTTTATGCACCTTATAGTGGGGTATATCTTGAACAGATG
ACCTGGGGTTTGAAGGGGAATATCAATGTTGCTGCTTTTGAAAGAGCTTGGCAAAAAGTT
TTAGATAGACATTCAATTCTACGTACATTTTTTGTTTGGGAAAATCGCCAAACTCCATTA
CAAGTAGTACTAAAACAGGTTAATGTTCCTTGGAATACTCTTGATTGGCGAGAACTTTCT
TCTAATGATCAACAACAACAATTAAAACAATTATTGCAAACACAAAGAGAACAAGGTTTT
AACTTATCCCAAGCACCATTAATGCGGTGTACGTTAGTCAGGCTAGGCGAAGATAATTAC
AAATTTATCTGGAGTCATCACCACATCCTTATGGATGGATGGTGTTTATCAATTATTTTT
AAAGAAATTTTAATTTTCTATAAAGCACATCTGCTTGGTGAAAATTGCCAATTGCCAAAA
CCACGTCCTTACCAGGATTATATTGCTTGGTTGAATTCTCAAGACAAATCAGCAGCAATT
GAGTTTTGGCAACAAACTTTACAAGGTTTTAGTGCTCCCACTCCATTGGTAATGGATAAA
ACTCAATTTCTGAAAGAGCAACAGTATAAAACTGCGGATTATCAGGAGAGAACAAGTAGT
TTATCCCCTGAATGCACTCAGAAGTTACTTCATATAGCACAACAACATCATGTGACTTTA
TCAACTGTAGTACAAGCTGCTTGGGCTTTACTATTGAGTCGTTATAGTGGTGAGAAAGAT
GTAGTATTTGGTGTGACTGTTTCTGGTCGTCCTCCTAGCCTCTCTGAGATAGAAAATATG
GTAGGACTGTTTATTAACACCCTTCCCTTACGAGTACAAGTATCCACCCAGGAGCAACTC
ATACCTTGGTTGCAAAAAATACAACAGTCAATGGTTGAATTACAAGAGTATTTTTATACT
CCTCTTGTTGATATTCAAGCTACTTCTGAGATACCAGGTGGAATACCTTTGTTTGAGAGC
ATTGTGGTGTTTGAGAATTATCCAATTGATAATTCTTTGTTGAATGAAGAAGGTTCATTA
CACTTAGGTGATATAGAGGTTTTTGAACAAACTAATTATCCACTAACTTTAGTTGCAGTT
CCTGGGGATAAGTTGTCAGTTAGGATTAGTTACGATACTGCTCGTTTCTCTTCAAATACT
ATTGAGTGGATTTTAGGATATCTGCAAACTGTTTTATCAGCAATTGCAATTGTGGAAAAT
CCTTCACATAAGGTAGCTCAATTACCTTTATTAAGTGAAGTAGAACGTCATCAGTTATTG
GTTGAGTGGAATAACACTGCAACGGATTACCCATCTGATAAATGTATTCATCAGTTATTT
GAGCAACAGGTAGAAAAAAACCCCAACTCCATAGCAGTGGTGTTTGAAGAAGAACAATCA
ACCTACCAACAATTAAATCAAAAAGCGAACCAATTAGCACATTATCTACAAACTCTGGGA
GTGAAACCAGAAGTGCTGGTGGGTATTTGCATAGAATACTCCATTGATATGATTGTAGGA
CTGTTGGGGATACTTAAAGCTGGTGGTGTATATGTGCCGTTAGATCCGAACTATCCGCAA
GAACGACTGGCGTTCATGCAGGAAGATTCCAATGTGCATATCATATTGACCCAGCAGCCT
CTGCTCGAAAAGATTTCCCCTCAAAATGCCCATATCGTTTGCCTGGACAGGGATAGGGAT
GTCATTGCTAGGGAAGGCGTTGAAAATCTGGATCGGCAAACAACACTGGATGACCTTGCA
TACGCAATCTATACGTCTGGTTCTACTGGAAAACCCAAAGCCGTTCTCGGCACGCTTCGC
GGCATTGTCAATCGCTTGCATTGGATCTGGGAAATGCTACCATTTGGGGCAGATGAGATT
TGCTCTCAGAAAACATCCATCAATTTTGGCGATCATGTTGCGGAAATATTTTCTCCCCTT
CTCAAAGGAATTCCCCTTGTGATCGTTCCAGATGATATACGGGGCAATATTCCCAGGCTA
ATGAGCCTGTTGAGCGATCGAAAGGTAACTAGAATTGTTCTCGTTCCATCGCTATTAAAA
GCGATACTGGAAAATGCGCCCCAACAACTGACAAAACTTCGATATCTCAAATATGTCTTT
TGCAGCGGTGAAGTCTTACCGCTAACCTTGGCTAAGGAATTTCACCAGAAAATCAGCTCT
GCCAGATTGTTCAATCTCTACGGCTCTTCAGAAGTTGCCGCTGATGTTACATGCTTTGAA
GTCAAACTGAGAATCGCAAATCAAATTGAAGCAAAAAGTAAAGAGAAACTTGATGCTTTA
AAAAATCTTCCTAGTGGCTCAGGGGATAGGGAAACTGCTGTCCTGCATAAAGAAATAATA
CATTTGCAGTTGGCAGACGAGCGAAGAGCAGATTTAGGAGAAGCTCTAGAAGAATATCTG
AAAAGAAATACGATTCCGATTGGAAAACCGATTTCAAACACACAAATTTACATCCTCGAC
AAGTATGGCGATCTTTTGCCACCTGGTGTTACGGGTGAGCTATACGTCGGCGGAGATGGG
CTTGCAAAAGGGTATTTAAATCTGCCCGAGTTAACGCGGGAAAAGTTTATCCCCAACCCG
TTTGTGAAGGACAGGGGGAAAAGTAAAAAGGCACAAGCAGAAAGATTGTTTAGGACTGGA
GACCTAGCCCGCTGGCTGCCGGATGGTAATATCGAATTTGTAGGGCGTATCGATCACCAA
GTGAAGGTGCGGGGCTTCCGCATTGAACTTGGAGAAATCGAAGCAGTCCTCAGTACCCAC
CCCCAAATCCAACAAGTCGTTGTCATTGCCATAGAAGATATTCCAGGTAGCAAACGTTTA
GTAGCCTACATAGTCTGTGAGGATGAATCACTAAGTACCTATCACCTGCGTGAATTCCTC
AAACAAAAGCTACCAGAATACATGATGCCCAGTGCCTTTGTCATCTTAGACACCTTACCG
TTGACACCCAGCGGTAAAATAGACCGTAAAGCCCTTCCAGCACCTGATGGAGAAATTAGC
CGAGAACATGAATATGTCCCACCACGTACATCGGGTGAAGAAATAATAGCCAACATCTTC
GCTTCTATTCTAGGTGTGCAAAATGTTGGAATCCATGACAACTTCTTTGAATTGGGAGGA
CATTCCCTACTAGCAACCCGATTAATTTCCCGACTCAGAGTTGCCTTTGAAGTAGAAATA
GAACTAAGTGCAGTCTTTTCCTCTCCCACTGTAGCTCAATTAGAGCAAACATTAACCCAA
TTACGTACTACTAATAGCGCATTAAGTCTTCCCCCCATTCAGCCAAGAACACAGAACCAA
CAATTACCCCTATCTTTTGCACAAGACCGGTTGTGGTTCCTCAACCAACTTGAAGGGTCA
AGTGCCACTTATAACATGCCAGGAGCAATTCGTGTCACTGGAAAGTTGGATATTAATGCC
TTGCAACAAGCATTATCAGAAATAGTCCGCCGTCATGAAGTACTACGCACCAGCTTCCGA
ACTGTGAATGGCACACCAATACAGGTAATTCACCCAGAAGCCACCATGAACATCAGTGTG
GCGGACTTACAGCAACTAGAAGCAACAGAACGGGAAAGTGTCCTTCACCAACAAGCACAA
CTTGCAGCAATTACCCCCTTTGACTTAGAAACTGCACCACTAATCAGGTGTAGTTTATTG
CAGTTAGATGCCAGAGAATATGTGTTATTACTGACGATGCACCACATTGTCTCTGATGGT
TGGTCAATGGGGATATTCAGCCAAGAACTATCTACTTTATATCAAGCTTTTAGTGCAGGA
AAACCATCCCCCTTGGCAGAATTACCAATCCAGTATGCAGACTTTGCAGTTTGGCAAAGA
CAATGGTTAAGTGGAAAGGTACTAGAAACTCAACTCAATTACTGGCTTTCTCAGTTAGAG
GGTGCACCAGAATTGTTACAATTACCTACTGACCGTCCTCGTCCAACCGTGCAAACTTTC
CGGGGTACTACTCAAAGTTTTAGTTTAAATACTGATTTAAAAGAGAAGTTGCAAACCCTG
TCTCGGAACTCGGGTACTACCTTATTTATGACCCTGCACGCAGCGTTTGCCACTTTACTC
TATCGCTACAGCGGTCAATTAGATATTTTAATTGGTTCACCCATTGCCAATCGCAACTGC
AGTGAAATTGAGTCTTTGATTGGCTTTTTTGCCAATACTTTGGTATTGAAAACCCGTTTT
GAAGATAATCCCAGTTTTGAGAATTTGCTGGCACAAGTTAGGGAAACTACACTTGAAGCT
TATGAACATCAGGATGTGCCTTTTGAACAGGTAGTTGAAGTACTACAACCACAACGCTCT
TTGAGTTATGCACCCTTATTCCAGGTAATGTTTGTGTTGCAGAATGCACCCATGGGTGAA
TTAGAATTACCTGGTGTGACCCTTAATTTATTGAGTTCTCAAACAGAAACAGCCCGGTTT
GATTTAACAGTATCAATGCAGCAAACTTCCGAAGCACTAGTGGGTTCATGGGAATACAAC
ACTGACTTATTTGATGGGTCAACTATTGAGCGCATGACTGCTCATTTCCAGAATCTGTGT
AGCGCGATTGTAGAAAATCCCCAACAAAAGATAAGTGAATTACCATTATTCACAGATTCT
GAGCAAGAGCAGGTACTGCACAGTTACAATAACATCGCTACAACTTACCTGCTGGATAAA
TATGTTCATTTCCTGAGTTCAAATAATTTACAAATTTACATTTTAGATAACCATCAACAA
TTAGTTCCTTTGAGTGTAGAAGGAGAAATTTATTTGGGGAATTGCGATTTACTCCCAGAC
AAGTTACATCCAGAACCAGAAAAATTTATAAGTTTCATAGAACATACCCAACTGGGTAAG
TTATTAAAAACAGGGGAATGGGGTTGTCGTCGAGTCGATGGTTCTCTGGAATTGCTAGGA
AAAGAGCATCGAATTGTCACAGTTAATGGACAACGAATTAACCTACAACGTATTGAACAA
GCTTTACAAACAGCGAAAGGGGTAGAAGATTGCTATGTAATGGTACGCAATCAAAAATTA
GTCGCTTACGTAGTCAAAGATGGTTCTTGGGCTAGGGAGTTTTTACACCATTATTTAAAA
TCTCAGTTACCTGGATACCCATTACCCTGCATCTATGTACCAGTATCTGCTTTACCATTG
ACAAGTTTTGGAGAAGTTGATGAAGTAGGTTTAGCTTCTATTAGCATAATTGATTCTGAG
TTAATTAACACTTGGGAAGAACAAATAGGTTCTCAGGCGGAAATTGATAAAGTTGCTGTT
TTTATTGAGCCAAATGTAAAAACGATTTCTCCGATACATTTAGAAGAACTTTTACCATCA
ATCCAAGCTATTTTCAATCAAGGTTCTACTCCAGTTGAAACTCCCAGAACTGCTAGGGGA
AAAGAGAGTAGTTCCCTATTAGAAATAAAATCACCTGCCATCAGCCACGAAGAAGTATTA
ATCTTTCCAGAATCATCTCCAGAAACTTTAGGGGAGATGCTGCAAAAAACTGCTGGGAAA
TTTCCTCACAAAGGAATCACTTATATTAACTCTGATGGTTCCGAACAAGTTCAATCATAT
GCCCAGTTATTAGAAGATGCTCAAAGAATTCTAGGTGGCTTCAGAAAACTGGGAATTAAG
CCACAAGATAAAGTTATTTTGCAATTAAAAGAAAATAAAGATTTTATTAGTGCTTTTTGG
GGTTGTGTGTTGGGAGGCTTTATTCCCGTACCCGTTGTAATTCCTGTAAGCTATGACCAG
CCCAATGTCAATCTAAATAAATTACAAAATAGTTGGCAGATGTTAGAAAGACCTTTGATT
TTAACAGATAAAAAATCATTGTCAGAACTAAAGAAATGGTCTCAAAATCTAAATGACGAC
AACTTTAAGTTAGAAACTATTGAAAGTTTACAAAAGTTCTCAACAGATAAAGATTACTAT
AATGCCCAACCAGAAGATTTAGCACTGTTCATGCTTACTTCCGGTAGTACAGGTATGTCT
AAGGTGGTACAGTTGAGCCATTTAAATCTACTGAGTAGGACTATTGGTTCAATACAAATG
AATAATTTTACCCCAGAAGATATAACCTTAAATTGGATGCCCTTAGACCATGTTGCAGGT
TTAATATATTTTCATATCCGGGATATTTATTTAGGATGTAAACAAATTCATGCTACTAGT
CAATTAGTGATTGAAAAACCTTTAAGATGGTTGGATTGGATTGATACTTTTGGTGTCACT
GTTACTTTTGCTCCTAACTTTGCTTATAGTTTAATTAATGATTTTGTTCAAGAAATAGAA
AAGCAGAATTGGAATTTATCTTCTATTCGCTTGATGTTAAATGGTGCGGAACAAATTGTT
GCAGCAACAGCAAGACGTTTTTTGAAATTACTTGCTCCCTTTGGCTTACCTGGGGATGCT
ATGACTCCATCTTGGGGAATGGCTGAGGTTTCCTCTGGTATTACTTATTCTGACAATTTT
TCACTCTTATCAAGTTCAGATGATAATTCCTTTGTAAATCTTGGAAAACCGATTAGGGGT
ACTTGTCTGAGAATAGTCAATCAAGACATGGAAGTATTATCAGAAGGTGAAATTGGTTTA
CTTCAGGTCAAAGGATTAACCGTTACTTCTGGTTATTATCAAAATCCAAAAGCAAATAAG
GAAGCATTTACCGAAGATGGTTGGTTTAATACAGGTGATTTAGGATTTATAAAAGATGGA
TGCTTAACGATTACAGGACGACAAAAAGATATCATTATTATTAATGGAGTTAATTATTAT
AGTCATGAAATAGAAGCTGTTGTTGAAGAATTAGGAGAGGTTGAAGTTTCTTATACCGCA
GCCTGTGGAGTCTGCGTTGCTAGCAATAATACCGAAGAATTAGTAATCTTTTTCACTCCG
TATGTATCTGAGAAGAATCAATTATTAGAGCTTTTGAAAAAGGTTAGGGAACAAGTTATA
AAATACTGCGGGATAAATCCAAGTTATTTAATACCCATAGATAAAGAACTGATTCCCAAA
ACTTCCATCGGTAAAATTCAACGTTCCCTCCTTAAGCAACGTTTTGAATGTGGTGAGTTT
AAATCTCTCAGACAGCGTGTAGACTTGTTGCTTGATAATACTAATACTATTCCCAACTGG
TTTTACCGTAAAGTATGGCAAATTAAAGAAAGTAAAAATACTTTACTCAATTATTCTTCT
CAGAAAACTTTAACCCTAATATTTACAGATAATTTGGGTTGGCAACAAGATAACCGAGGA
ATGTCCCAAACTGTTCAACCATATGCTCAAGTTACTATTGGTTCAAATTTTGCTCAAATT
AGCCCAAATCATTATTCTGTTGTTCCTGGAAATCCACAACACTATCGCTTGTTAATTGAT
TCTTTGAGGCAAAATAGCCAAGTAATTAGTCAAATTCTTCATCTTTGGAACTACAACGAG
CAGACTGAAAAAATTTCTAGCTTGGAAAATTTAGAGTCCACTCAACAACAAGGAATTTAC
AGTTTACTATTTTTAGTACAAGCTTTAGAAGAAATTCAAGGCAAACAGCAAGCAGTCAAA
TTATTATGGATTGCTAATCAAAGCCAATTAGTTCATCCCACAGATAAAATTCAACCCGAA
AAATCCACTGTTTTAGGCTTACTTAAAACTGTTAGTCAAGAAATGCCTTGGTTAACTACT
CGTCATTTAGATTTACCATTAGCACCAGAACTCAACAATAGTTATATTTGGCAAGAACTG
TATTCTGCTGATAAAGAATTGGAAGTTGCTATACGCAATAGAGAACGTTTTGTGTCTGGT
CTGGAACCAGTAGATATGACTGCTAAGGAAAAACAAAAAATTCCGATTCTACCAGGAGGA
ACGTATCTACTTACAGGAGGGCTTGGAGGAATTGGGACTGTTATTGCAAAGTACTTATTA
GAACATTATCAAGCAAATTTAATATTAGTTGGTAGAACTCAAATTGAAGATAATAATGAG
GAAGCTAGCACAAAATTGCAGAGGTATCAAGAATTAGAAAAACTACCAGGTTCAATAATT
TATCAAACTGTAGATATTTGTGATTTAGTAGGTTTACAACAGGTAGTAGAAAAAGCAACA
CAAGAATGGAGGACTCAACTTGATGGGGTATTTCATATGGCTGGGATTATTCAGGAAACG
CCAATCGAGAAAGAAACCCCAGGAAATATCGCTGCTGTTTTACGTCCTAAAGTTAGCGGT
ACTTGGGTATTGCATCAATTGCTCAAGGATAAAGAAAATGCTTTATTTGTCCACTTTTGT
TCTGTAAATGGTTTCTTTGGAGGAACCAATGTTGCAGCTTATAGTGCAGCAAATAGTTTT
CAGTCAGCATGGAGCGATTATCAACAACAAAACGGTTTCCAAAGCTATTGCTGCTCTTGG
AGTATGTGGAATGAAACCGGAATAAGTCATGGCTATCAATTCCAAGAACTCAGTCGTGCT
AAGGGCTATTTTATTATTACTCCTCAACAAGGATTTTACTCATTTTTAGCAGCTTTATCT
GGTTCGGAACATAATCTATTAATCGGATTGGATGGAACTAAAACAAATGTTGAACATTTG
ATTCGTGATTGTCAGCCCAAGCAGAAATTAACTGCTTACTTCACCTCTCCCACACCAGAA
CTTGCTGCACTCTCCTTACAAGAGTTACAACTACACGATCGCTTTGGGATACCCAATCAA
ATTAACTTTGTCCAACTTGAACAAATACCCCTTACTCAAAGAGGAGAAATTAATCGGGAA
CAAATTGCTGCTATATATGGAGGTTTGAATACTTCTGAGCAGACAAAACCACGGAATCAA
ACAGAACGTCAGTTAGTTGAGATTTTCCAAGAAGTTCTCAATCTACCCTCTATTGGTATT
CATGACAACTTCTTTAGCTTAGGAGGACATTCCCTTCTAGCTGTCCGTCTAATGTCCGAG
ATTCAACAACAATTCCAGAAAAATTTACCTTTAGCCACTCTTTTTCAAAATCCCACCATT
GAACGACTAGCACTTCTTGTTGGTTCCGATTCCGGAGCCGAACTTTGGTCTCCATTAGTA
CCAATTCAACAAAACGGTTCATTACCACCTTTGTTCTGTGTACCAGGAGCAGGTGGAAAT
GTTCTCTACTTCCACCACTTAGCACAATATCTTGGAAATAATCAACCGTTATACGGTTTA
CAAGCACAAGGTCTTGATGGTGAAACCGAACCTCATAAAAGTGTTGAAGAAATAGCCTCC
CAACACATTAAAGCAATTCAAACAGTTCAACCAGTTGGTCCTTACTTCTTGGCTGGTCAT
TCCTTTGGCAGTCATGTAGTATTTGAAATGGCGAATCAACTACAACTTATTGGAAAGTCT
GTTGCTTATGTTGGAATTTTAGATACTCCTGCACCAACTTCTCAAGCTAATCATCAGAAT
GATTTTTCTAACTGGGATAATGCAAAGTGGATATGTCGAATGGCTGAGGTTATTGAAGAT
ATTGTTGGAGAAAATCTATTTTTATCTTATGAAACTCTAACTTCTCTAACTTGGGAGCAA
CAATTAAATTATTTCAAGCAAAAGTTAGAAATAGTTGGTTTTTTGCCTGCTCAAACAGAT
ATCAAAATTGTTCGTGGTTTATTACAAGTTTTCCAAACTCAATGTCAAATTAAGTATGAA
CCGGAAAAGACTTATAAAACTCCAATCACTTTGTTTTGTGCGAGGGAGATAAATCCAGAG
CAAGAAAGTTATTCTCACATTTTCCAAGAGCCAACATGGGGTTGGAATCAGTTTTCTGAT
GGAGAAGTGGAAATCCATATAGTTCCGGGTAATCATGTTTCAATGCTGAGTGAGCCTCAT
GTCAAGGTATTGGCTCAACAAATGCAAATATCTCTTGAACAAGCACAGAAAACCCATCAA
TTGGAAAAATGA
[5] C12..314
[5] A501..968
[5] alpha-methyl-beta-alanine670..775
[5] PCP1052..1119
[6] C1139..1440
[6] A1899..2315
[6] 2-keto-isocaproic acid2078..2193
[6] KR2660..2846
[6] PCP2981..3048
[6] TE3069..3321
[5] C34..942
[5] A1501..2904
[5] alpha-methyl-beta-alanine2008..2325
[5] PCP3154..3357
[6] C3415..4320
[6] A5695..6945
[6] 2-keto-isocaproic acid6232..6579
[6] KR7978..8538
[6] PCP8941..9144
[6] TE9205..9963

close this sectionFeature

BLASTP
Database:UniProtKB:2010_04 		show BLAST table
InterPro
Database:interpro:26.0
IPR000873 AMP-dependent synthetase/ligase (Domain)
[501-968] 2.99999999999998e-112 PF00501 [1609-1713] 2.7e-09 PF00501 [1899-2315] 6.90000000000007e-81 PF00501
PF00501   AMP-binding
IPR001031 Thioesterase (Domain)
[3069-3321] 1.8e-28 PF00975
PF00975   Thioesterase
IPR001242 Condensation domain (Domain)
[12-314] 9.39999999999981e-77 PF00668 [1139-1440] 7.40000000000007e-80 PF00668
PF00668   Condensation
IPR006162 Phosphopantetheine attachment site (PTM)
[1077-1092] PS00012
PS00012   PHOSPHOPANTETHEINE
IPR006163 Phosphopantetheine-binding (Domain)
[1056-1117] 1.4e-10 PF00550 [2983-3045] 5.20000000000001e-13 PF00550
PF00550   PP-binding
IPR009081 Acyl carrier protein-like (Domain)
[1045-1156] 3.69999438558125e-24 SSF47336 [2974-3049] 5.7999965385478e-21 SSF47336
SSF47336   ACP_like
[1052-1119] PS50075 [2981-3048] PS50075
PS50075   ACP_DOMAIN
IPR010071 Amino acid adenylation (Domain)
[501-968] TIGR01733
TIGR01733   AA-adenyl-dom
IPR013968 Polyketide synthase, KR (Domain)
[2660-2845] 5.79999999999997e-42 PF08659
PF08659   KR
IPR016040 NAD(P)-binding domain (Domain)
[2657-2826] 4.19999771339602e-21 G3DSA:3.40.50.720
G3DSA:3.40.50.720   NAD(P)-bd
[2653-2889] 9.30000048475962e-34 SSF51735
SSF51735   NAD(P)-bd
IPR020842 Polyketide synthase/Fatty acid synthase, KR (Domain)
[2660-2846] 1.29999924468179e-27 SM00822
SM00822   PKS_KR
IPR020845 AMP-binding, conserved site (Conserved_site)
[2030-2041] PS00455
PS00455   AMP_BINDING
SignalP No significant hit
TMHMM No significant hit
Crypto_00030 Crypto_00030   Crypto_00050 Crypto_00050
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