Hecto_00050 : CDS information

Location

Organism	Lyngbya majuscula
Strain	JHB
Entry name	Hectochlorin
Contig	AY974560
Start / Stop / Direction	14,019 / 24,089 / + [in whole cluster] 14,019 / 24,089 / + [in contig]
Location	14019..24089 [in whole cluster] 14019..24089 [in contig]
Type	CDS
Length	10,071 bp (3,356 aa)

Annotation

Category	1.2 NRPS
Product	non-ribosomal peptide synthetase
Product (GenBank)	HctE
Gene	hctE
Gene (GenBank)
EC number
Keyword
Note
Note (GenBank)	nonribosomal peptide synthetase; C-A-KR-PCP-Cy-A-Ox-A-PCP
Reference	ACC Q1EDB1 PmId [18001088] Cloning and biochemical characterization of the hectochlorin biosynthetic gene cluster from the marine cyanobacterium Lyngbya majuscula. (J Nat Prod. , 2007) comment cyanobacterium Lyngbya majusculaのジャマイカ分離株(strain JHB)から、hectochlorin生合成gene cluster(hct)を同定。 HctE (3356aa): nonribosomal peptide synthetase hctEは、DHIV (2,3-dihydroxyisovaleric acid) と cysteineを取り込むと提唱されるbimodular NRPSをコードする。 1つめのmodule(module 2)は、NRPSのmodulesでは珍しく、AとPCPの間にKR domainがある。 2つめのmodule(module 3)はcysteineの取り込みとヘテロ環形成に特異的なNRPSsにとても似ていて、A domainのmotif A9とA10の間にはthiazole環形成に関連するであろうFMN-dependent oxidaseを含んでいる。 HctEの2つのA domainはそれぞれE.coli発現、精製され、ATP-PPi exchange測定を用いて基質特異性が確認された。 1つめのA domain (HctE-IVA) はD-2-hydroxyisovaleric acid (D-2-HIV) を最も活性化したが、その他の基質も活性化することができ、その基質特異性はゆるい。この結果はA domainのbinding pocketでのAA残基編成に一致し、基質特異性に寄与する残基Asp235が、keto-acid or hydroxy-acid基質に典型的な置換であるVal235によって置き換えられている。このmodule 2の基質として提唱されているのは2-oxo-isovaleric acid (O-IVA)であり、A domainによって活性化された後にKR domainでD-2-HIVへと還元し、さらにHctG or HctH で酸化されてDHIVを形成すると考えられている。 2つめのA domain (HctE-Cys) による活性化はL-cysteineで最高レベルであることが確認され、配列解析結果に一致する。
Related Reference	ACC A4D936 NITE Crypto_00040 PmId [21823639] Chemoenzymatic synthesis of cryptophycin anticancer agents by an ester bond-forming non-ribosomal peptide synthetase module. (J Am Chem Soc. , 2011) comment for module 2 Blast 4th, id46%, 0.0 Nostoc sp. ATCC 53789_crpD CrpD ユニークなdomain構成を成すCrpD-module2の機能について調査している。 CrpD-M2 A domainの基質特異性を決定するため10の基質とATP-PPi exchange assayを実施(Fig. 2)。 L-leucineより約20倍の効率で2-keto-isocaproic acidを活性化した。
Related Reference	ACC Q9KIZ9 PmId [11564558] Epothilone biosynthesis: assembly of the methylthiazolylcarboxy starter unit on the EpoB subunit. (Chem Biol. , 2001) [12911314] Oxidase domains in epothilone and bleomycin biosynthesis: thiazoline to thiazole oxidation during chain elongation. (Biochemistry. , 2003) comment for module 3 Blast 32nd, id44%, 0.0 Sorangium cellulosum (Polyangium cellulosum)_epoB EpoB Strain SMP44 -- [PMID:11564558](2001) EpoA-ACP, EpoBを用いたmethylthiazole環形成に関する報告。 -- [PMID:12911314](2003) EpoBのoxidase domainについてさらなる調査をした報告。 thiazoline → thiazole へのoxidase活性が実証されている。 Kinetic parameters測定あり。

PKS/NRPS Module

2		2-oxoisovaleric acid
3		L-cysteine

C	60..354

A	851..1268

KR	1612..1809

PCP	1946..2013

C	2039..2335

A	2523..2926

OX	3008..3186

PCP	3266..3335

Sequence

>non-ribosomal peptide synthetase [HctE]
MNLVEFLQELSIKGWHIWSEGSQLRYDAPKEESTTSVLALLKQHKGEILQLLHDNPDILN
VYPLSYGQQAMWFLWKLAPGSCVYNVSVPVRICSEVDVTAWRQAFQALCQRHLMLSSTFT
KLGQVPIQQVDRHQEVDFLQVDASTWSKEELNQRVVEAHKHPFNLEKESGMRVRWFVRSF
QEHILLLTIHHIACDGWSLDIIFQELAKLYQAQQTNVPASLPALKYSYQDYVRAQRKILD
SPRGEILWQYWKQKLAGELPSLNLPTDKPRPPIQTYDGAAYHFSLSEKLSQQLIELAQKE
NVTLYTLLLAVFGVFLYRYTGQEDILVGSPTSGRNRAEEAPIVGFFANSVVMRMSASENL
SFKEFITKVQHTVLEAVNYQDYPFALLVERLLPNRDPSRSPIFQVFFLLQQMSEWRKLLS
GEMKTSSDWQGLKLEAFDRPTKECQFDFILEMIQVGSSLGGLIKYSTDLFEEKTIARMVE
HFQTLLQAIVTNPTANIDRLPLLTATERQQCLALGNNLERKQGQNKFIYQLFEDLFGYPG
EVSGKQTQLGDYTEVVPVAWPNDFSVYVLDSYGEPVPPGVTGEIYVGGGNLTESEINRSQ
QAPVSFVEHPELGSLLKTGERGYLRANGSLELQGFGQRWAWIKGHRVELQAIEKALLAIT
GVEDCYVIMRQRQLVAYVVTSKSFLSESLHNQLKTELPSYMLPSAYVPVSNLPLTGKGLI
DESALAQLEVIDSELVSRWEQQLRSLPEIEQVAVVVQPQVKTLSRLHISDLVPSPPRGTD
TDTHQVETDNLIDKGKQNLPQEVNQLAISEGEPLTEPEAQTLGEILQRAALENSTKGVVY
IQPDGTEFVQSYKNLLEDAQRILGGLRKLGLKPQDKVIFQLSANQNFISAFWGCILGGFI
PVPIAATGNLNKLQNSWQMLGKPLVISEEKLAPKLHQWAAELKLENFQIEAIEPLKDSEA
DRNWHESNSEELVLLLLTSGSTGMPKAVMHNHRSLLSRSAATVQTNSFSKEDISLNWFSL
DHVGGIVMFHLRDVYLGCQQIHAPTELVLQEPTRWLDWISHYRATITWAPNFAYGLIVQE
LENRQKTGSQQENHRGWDLSSMHFILNAGEAIVAKTVRGFLEVLGQYQLHDSAMHPAWGM
SETSSAVTFSSNFLLSSTTDEQKFVEVGSPVPGFAIRIVDNQNQIVKETMAGRVQVKGPS
VTSGYYQNTEANQDAFTEDGWFNTGDIGFLQQGCLTITGRQKDIIIINGLNYYSHEIEAT
IEEIEGVEVSYTAACAVRDGESDTDKLAIFFNPAKTARDREADLLKEIRLLVVARFGINP
DYLIPVEAEVIPKTAIGKIQRSQLKQRFESGEFNTILKRVDLLLLNVNTIPSWFYRKVWQ
AKVPVFNLSSQITTTLIFSDTLGLGTVLSEELEKHPQPCIQVSVGEKFTKISDNHYCLVP
DRAEHYQMLFKQLAQEKKTIGQIVCLWEYDQYRGEISHLEALEQSQKQGLFRLLFLVKAL
EQSRSEEQSVQLLWVSSYSQSIVPSDKIAYEKGTVLGLLKTIGQEMTWLNCRHIDLPVLE
VEVNEAYIRQELGNFAKETEVAYRDGKRLVCGIESVNLAEEPKQELPFITGGIYLISGGL
GGIGTEIASFLLKNYQARLLIVGRTSLPDQDTWQTHLDSGNALARKIQAYQQLQQLPGAV
IYEDVDICDYAQLQQILTTSLSKWGGQLDGIIHLAGILTEQLLVSQTLESFTAVLRPKFL
GTWALHKLLLEDNPQGLFIHFSSINGFFGGTTVGAYAAASSFMEAFCDYQQTYTSLQSYC
LSWSMWDEIGMSQGYQMKDLTHAKGYFSINKAQGMCSLLATLSRGQRHLFVGLDGSKANI
ERLTITSEPQNLQQLTAYFTSKVEQLPVSHLEALEVRDRFGRLSRCLWAQLAEMPLTETG
EIVREKLIGISTGIGLFEQTKPRNQVEHQLVEIFQQVLEVPVTSIHDNFFALGGNSLLAV
QVVSRIQQTFNQEVSLHILFESPTVGELGQTIIKENLLPGQKSDTSLPTLVPDPEQRYEP
FPLTDIQQAYWLGRNQAFDLGNVASHIYIEIDSENLDIERLNQAWQKLVDHYDMLRAVVL
PDGQQQVKQQVPFYQIQVFDLQNQPEPAVSDHLKAIREQMSHEILPSEQWPLFKLQATHF
NEKHYRLHLSFDALIADSWSLMLLGQYWLQLYRDPESSLPSLELSFRDYVLAKIGLDVTP
QYQRSQDYWFDRLSTLPPAPELPFAKQIVALEQPQFKRRSGRLNVVDWQRLKEKASQANI
TNSTVLLAAFADILTCWSKSSKFTINLTLFNRLPLHPQVNEVIGDFTSLTLLEVDNSKPT
PFIKRAQQLQKQLWQDLDHRYVSGVEVQRELRRLYGSYQAMGVVFTSVLGAGIESEEQLW
VNQLGQMVYSISQTPQVWLDHQVLEEQGELIFQWDIVEELFCEGVIDNMFQSYTDYLQHL
ATSESAWIDLYPQLLPKAQLQQLAQLNQINLPVPQQTLHGLFLQQVEKNYLELAVITPEH
CLTYGDLHQRARDIGHWLQQLGASRNSLVAVVMFKGWEQVVAVLAILMSGAAYVPIDPEL
PKERREFLLTQGEVQLVLTQESLLEQLAIPEGIECLSVDTFESIKNDSISFVPVHNPEDL
AYVIYTSGSTGLPKGVIIKHQAVVNTILDINQRFNVTANDRILAVSALNFDLSVYDIFGI
LAVGGTVVIPSAIDAKDPARWYELIVKHQVTLWNSVPALMQMLVEYLSGQLNQSHGPLRL
ALLSGDWIPLTLPEQIKDLWSQIQIVSLGGATEASIWSIYHPIEQITPVTKSIPYGKSLG
NQTVSVLNDLMQPTPVWVCGDLYIGGVGLASGYLLDEKKTNASFITHPVTHERLYKTGDL
GRYLPDGNIEFLGRCDFQVKINGYRVELGEVEAALSDHSTVKEVIVVVLGESEHKRLVAY
IVPSESSVDKAKLPEGYQPSQTVGVIQDPVEKIEFKLKQPGLRSPSPTKETISLPLSEFD
AAQKEAYLKRQSYRQFLREPLTLEELSQFLSCLLPIKLEEFPLPKYLYPSAGNLYPVQTY
LLIKPERVSGLSGGIYYYCPREHNLVLLNSLMKVDSRIYGGNQPIFEQSAFSLFLISKLS
AITPMYGELAEKFCLLEAGHMGQLLMSTAPDYQIGLCPIGGLEFNKLRDLFELESNQRLI
YSFICGKIDPVQTQQLFGKSSKDERSIPQQLNEHLQGKLPQYMLPNDYVLMDVFPLTANG
KVNRKALPAPEVSIKERNFLPPSTPIEEKLAGIWAKILELDLNQVSVNDDFFDIGGNSLL
ATKLISRIRQFFQVDLPLSDFFEEPTIAALVEHIEVLSWVGQDLQDSETNIEEIEL

>non-ribosomal peptide synthetase [HctE]
ATGAATTTAGTTGAGTTTTTACAAGAGCTTTCAATTAAAGGTTGGCATATCTGGAGTGAA
GGTTCGCAGCTACGCTACGATGCTCCCAAAGAAGAATCAACTACATCAGTATTGGCTCTA
CTGAAGCAACATAAGGGAGAGATTTTACAGTTACTGCATGACAACCCAGATATTCTCAAT
GTTTATCCCCTTTCCTATGGACAACAGGCAATGTGGTTTCTCTGGAAACTAGCACCTGGT
AGTTGTGTTTATAACGTGTCCGTACCTGTTCGTATTTGCTCTGAGGTGGATGTGACAGCT
TGGAGGCAAGCTTTTCAAGCTCTATGCCAACGTCACCTCATGCTGTCAAGCACATTTACT
AAGCTAGGTCAAGTACCCATTCAACAAGTGGATCGCCATCAAGAAGTGGACTTTTTGCAG
GTTGATGCCTCCACTTGGAGTAAAGAGGAATTAAATCAGAGAGTGGTTGAAGCTCACAAG
CATCCTTTTAACCTGGAAAAGGAATCGGGGATGCGCGTCAGGTGGTTTGTGCGGTCATTT
CAAGAGCATATCCTACTGCTGACAATACACCACATTGCCTGTGATGGCTGGTCTCTAGAC
ATCATCTTTCAGGAATTAGCTAAACTGTACCAAGCTCAACAGACCAATGTACCAGCATCT
CTTCCTGCTCTAAAGTATTCATATCAAGATTATGTTCGTGCTCAAAGGAAAATTTTGGAT
AGCCCCAGAGGAGAAATACTTTGGCAATACTGGAAACAAAAACTAGCGGGCGAATTACCA
AGCTTAAATCTACCCACAGACAAACCACGCCCGCCCATACAAACCTACGACGGGGCAGCC
TATCATTTTAGCTTATCTGAAAAACTCAGTCAGCAGCTTATAGAATTAGCTCAGAAGGAA
AATGTCACGCTCTACACCCTATTGTTGGCAGTCTTTGGTGTCTTTCTTTATCGTTACACA
GGTCAAGAGGATATTTTAGTTGGTTCTCCCACATCAGGTAGAAATAGAGCTGAAGAGGCT
CCTATTGTGGGCTTCTTTGCTAACTCGGTTGTTATGAGGATGTCGGCGTCGGAAAATCTA
AGTTTTAAGGAGTTTATCACTAAAGTTCAGCATACTGTATTAGAAGCAGTAAACTATCAA
GATTACCCTTTCGCATTGTTAGTAGAGCGATTGCTTCCAAATCGCGACCCTAGCCGTTCT
CCGATTTTTCAAGTTTTTTTCCTGCTACAGCAAATGTCTGAATGGCGAAAGCTGCTCTCT
GGCGAAATGAAGACGTCTTCGGATTGGCAAGGACTTAAGTTAGAAGCCTTTGACAGACCA
ACCAAGGAGTGTCAATTTGATTTCATACTAGAAATGATACAGGTCGGTTCCTCCCTGGGT
GGACTTATTAAGTACAGTACCGATCTATTTGAGGAAAAGACTATTGCCCGAATGGTGGAG
CATTTCCAGACATTATTACAAGCAATAGTAACAAACCCGACTGCTAACATAGATCGATTA
CCATTACTAACAGCAACTGAGCGGCAGCAGTGCCTAGCACTCGGAAATAACTTGGAGAGA
AAACAGGGGCAGAATAAATTTATCTATCAATTGTTTGAGGATTTATTTGGCTATCCAGGA
GAGGTGAGTGGCAAGCAAACTCAGTTGGGAGACTATACAGAAGTAGTGCCTGTGGCTTGG
CCAAATGATTTTTCAGTTTATGTGTTAGATTCCTATGGAGAACCAGTACCTCCAGGAGTA
ACAGGAGAGATTTATGTTGGAGGTGGCAATTTAACTGAGAGTGAGATAAATCGGAGCCAA
CAAGCCCCAGTTAGTTTTGTAGAGCATCCCGAACTTGGTAGTTTATTGAAAACTGGGGAA
CGGGGTTATCTTCGTGCCAATGGTTCTCTGGAATTGCAAGGATTTGGGCAACGTTGGGCT
TGGATAAAAGGGCATCGGGTGGAGTTGCAGGCTATAGAAAAAGCCTTATTGGCAATTACT
GGGGTGGAAGACTGCTATGTGATCATGCGACAACGACAACTAGTTGCTTATGTAGTGACC
TCAAAATCTTTCTTGTCAGAGTCTCTCCACAACCAGTTAAAGACCGAATTACCCAGCTAT
ATGCTGCCAAGTGCTTATGTACCAGTATCTAACCTGCCCTTAACAGGCAAAGGACTAATA
GATGAATCAGCGTTAGCCCAATTAGAGGTGATTGACTCCGAGTTAGTGTCACGTTGGGAA
CAACAGTTGCGATCGCTGCCAGAAATAGAGCAAGTAGCAGTGGTAGTTCAGCCACAAGTA
AAAACCCTGAGCAGATTACATATTTCTGATTTAGTACCCTCGCCCCCAAGGGGTACAGAT
ACAGATACTCATCAAGTTGAAACTGACAACTTGATCGACAAAGGTAAACAGAACTTGCCA
CAGGAAGTAAACCAACTAGCCATCAGCGAAGGAGAGCCTCTAACAGAGCCAGAGGCACAA
ACTTTAGGGGAGATACTGCAACGAGCAGCTTTAGAGAATTCGACTAAAGGTGTAGTATAC
ATCCAACCTGATGGAACTGAGTTCGTACAATCATATAAAAATTTATTAGAGGATGCCCAA
AGAATCTTGGGGGGGTTGAGAAAACTCGGTCTAAAGCCCCAAGACAAAGTAATTTTTCAA
CTATCAGCAAATCAAAACTTTATTAGTGCATTTTGGGGATGTATCCTGGGAGGATTTATA
CCTGTACCAATTGCGGCAACGGGCAACCTGAACAAGCTGCAAAATAGCTGGCAGATGCTA
GGAAAGCCATTGGTAATATCAGAGGAAAAGTTAGCTCCAAAACTTCATCAGTGGGCAGCA
GAATTAAAATTAGAAAACTTTCAGATAGAAGCGATAGAACCCTTAAAAGATTCAGAGGCA
GATCGCAATTGGCATGAATCAAACTCAGAGGAATTGGTGCTATTACTGCTAACTTCCGGC
AGTACAGGTATGCCCAAAGCGGTCATGCACAACCACCGTAGTTTGTTAAGCCGTAGTGCT
GCAACAGTTCAGACCAATAGCTTTAGCAAAGAAGATATTTCCTTAAATTGGTTTAGCCTC
GACCATGTTGGGGGAATAGTCATGTTCCATCTGAGGGACGTTTATTTGGGATGTCAGCAA
ATCCATGCTCCAACAGAACTGGTGTTGCAAGAACCAACAAGGTGGTTAGATTGGATTTCC
CACTATCGAGCCACAATTACTTGGGCCCCAAACTTTGCTTATGGGCTAATTGTGCAAGAA
CTAGAAAATCGACAAAAGACGGGCAGTCAACAAGAAAATCACCGAGGATGGGATTTGTCC
TCTATGCACTTTATTCTCAATGCTGGAGAGGCAATTGTTGCAAAAACCGTCAGGGGATTT
TTAGAAGTATTAGGCCAGTATCAGCTCCACGATAGCGCCATGCATCCAGCATGGGGCATG
TCAGAAACCTCAAGTGCGGTAACGTTTTCATCCAATTTTTTGCTGTCCTCAACTACAGAT
GAGCAAAAATTTGTCGAAGTTGGTTCCCCAGTGCCAGGATTTGCCATCAGAATAGTAGAC
AATCAAAACCAGATAGTGAAAGAGACAATGGCGGGTCGAGTACAAGTAAAAGGACCGTCT
GTCACATCTGGTTACTATCAAAATACAGAGGCAAACCAAGACGCTTTTACAGAAGATGGT
TGGTTTAATACTGGAGATATAGGCTTCCTGCAACAAGGGTGTTTAACAATAACCGGACGG
CAAAAAGACATTATCATCATTAACGGTCTCAACTACTACAGCCATGAAATTGAAGCCACA
ATAGAAGAAATAGAAGGTGTAGAAGTTTCTTATACTGCTGCTTGTGCGGTGAGAGATGGC
GAAAGCGATACAGACAAACTAGCCATATTTTTCAACCCAGCCAAAACCGCAAGGGATCGG
GAAGCAGATTTGTTAAAAGAAATTCGCTTACTGGTAGTGGCTCGTTTTGGGATTAATCCT
GATTATTTGATTCCTGTAGAAGCAGAGGTTATTCCCAAAACAGCGATCGGAAAAATTCAA
CGTTCTCAACTAAAACAGCGTTTTGAATCTGGTGAATTTAACACCATTCTCAAACGGGTA
GATTTGTTACTATTGAATGTCAATACTATCCCAAGCTGGTTTTACCGAAAGGTCTGGCAA
GCCAAAGTCCCTGTTTTTAATCTGTCTTCCCAGATAACTACAACCCTAATATTTAGCGAT
ACTTTAGGGCTAGGAACAGTCTTATCTGAGGAATTAGAAAAACATCCCCAGCCCTGTATC
CAAGTTTCTGTCGGTGAAAAATTTACCAAAATCAGTGACAATCATTATTGTCTTGTGCCC
GACCGAGCAGAACACTATCAGATGCTGTTTAAGCAATTGGCACAAGAAAAGAAAACGATT
GGCCAGATTGTCTGCCTGTGGGAATACGATCAATATAGAGGAGAAATTTCACACCTAGAA
GCGCTGGAGCAGTCACAAAAGCAAGGGTTGTTTCGTTTGCTTTTCTTAGTTAAAGCATTA
GAACAATCTCGGAGTGAAGAGCAGTCGGTGCAATTACTGTGGGTATCAAGTTACAGTCAG
TCGATAGTACCGAGTGATAAGATAGCCTATGAGAAAGGCACAGTTTTGGGCTTATTGAAA
ACCATTGGTCAAGAAATGACATGGTTGAACTGTCGTCACATCGATCTGCCAGTACTAGAG
GTTGAAGTCAATGAGGCATACATTCGGCAAGAACTGGGCAATTTTGCCAAAGAAACAGAA
GTAGCCTACAGAGACGGAAAACGCTTGGTTTGTGGAATCGAATCTGTAAATCTAGCTGAA
GAACCAAAGCAAGAATTACCATTCATAACAGGTGGTATCTACTTAATAAGTGGAGGGCTT
GGAGGTATTGGAACTGAAATTGCTAGTTTCCTACTTAAGAATTATCAAGCACGGTTGCTG
ATAGTTGGTCGCACTTCTCTACCCGATCAAGATACTTGGCAAACTCATTTAGATAGTGGA
AATGCACTGGCAAGGAAAATCCAAGCTTATCAACAATTGCAGCAACTACCAGGGGCAGTC
ATTTATGAAGATGTAGATATCTGCGATTATGCTCAGTTGCAGCAGATATTGACAACAAGT
TTATCCAAATGGGGAGGCCAGCTTGATGGGATTATCCATCTAGCAGGAATTTTAACCGAA
CAACTATTAGTATCCCAAACCCTAGAAAGTTTCACTGCCGTTCTTCGTCCCAAATTCCTT
GGGACTTGGGCCTTACATAAACTACTGCTGGAAGATAATCCTCAAGGTTTGTTTATTCAT
TTTTCTTCCATCAATGGCTTCTTTGGAGGTACAACTGTAGGTGCTTATGCTGCTGCCTCT
AGTTTTATGGAAGCGTTTTGCGATTACCAGCAGACCTATACTAGCCTGCAAAGCTACTGC
TTATCATGGAGTATGTGGGATGAAATCGGCATGAGTCAGGGCTACCAAATGAAAGACTTG
ACCCATGCTAAAGGGTACTTTTCGATTAATAAGGCACAAGGGATGTGCTCTTTATTAGCC
ACGTTGTCTCGTGGCCAACGTCATTTGTTTGTGGGTTTGGATGGGAGTAAAGCCAACATT
GAACGTTTAACTATTACCTCAGAACCTCAAAACCTACAGCAGTTAACTGCTTATTTCACC
TCCAAGGTAGAACAATTACCAGTGAGTCATTTAGAAGCGTTGGAAGTACGCGATCGCTTT
GGCAGACTCAGCCGTTGTCTGTGGGCACAACTTGCCGAGATGCCTCTAACTGAAACTGGA
GAAATTGTTCGAGAAAAGCTGATTGGAATTAGCACAGGTATTGGTCTTTTTGAACAAACC
AAACCACGCAACCAAGTAGAACATCAACTCGTTGAAATTTTTCAGCAGGTACTAGAAGTG
CCTGTTACTAGTATCCATGACAATTTCTTTGCTCTGGGCGGAAATTCTCTGCTAGCAGTG
CAAGTGGTTTCTCGTATACAGCAAACCTTTAATCAAGAGGTTTCTCTGCATATACTGTTT
GAATCACCTACAGTTGGTGAACTGGGGCAAACCATAATCAAAGAAAATCTCTTACCAGGG
CAAAAATCAGATACTAGTTTACCAACCCTTGTACCTGACCCAGAACAACGCTACGAACCA
TTCCCTCTAACTGATATTCAACAAGCTTATTGGCTAGGTCGCAATCAAGCCTTTGATTTA
GGTAATGTTGCTAGCCATATTTACATAGAGATCGATTCTGAAAACTTAGATATAGAACGC
TTAAACCAGGCTTGGCAGAAATTAGTTGACCACTATGATATGCTGCGAGCCGTAGTGTTA
CCCGACGGACAACAGCAAGTCAAACAACAAGTACCGTTCTATCAAATACAAGTTTTTGAT
TTGCAAAACCAGCCAGAACCAGCAGTTAGTGACCACCTCAAGGCAATTCGGGAGCAAATG
TCTCACGAAATATTACCCTCTGAGCAATGGCCATTGTTCAAGTTGCAGGCCACTCACTTC
AATGAAAAGCACTATCGCCTCCATCTGAGTTTTGATGCTTTAATTGCTGATAGCTGGAGC
CTAATGCTACTGGGGCAGTATTGGCTGCAACTGTATCGAGACCCAGAAAGTTCGCTACCT
TCATTGGAACTGTCATTTCGCGACTATGTGCTGGCTAAAATAGGGCTGGATGTTACACCA
CAGTATCAGCGTTCTCAAGATTACTGGTTCGATCGCTTGTCCACTCTCCCGCCAGCACCA
GAATTACCCTTTGCCAAGCAGATAGTTGCTCTGGAGCAACCGCAGTTTAAACGTCGCAGT
GGGCGATTAAATGTTGTTGATTGGCAGCGATTAAAAGAAAAGGCAAGTCAGGCAAATATA
ACTAATTCTACTGTTTTATTAGCTGCTTTTGCTGACATATTAACTTGTTGGAGCAAGAGT
TCTAAGTTTACCATTAACCTGACCCTGTTTAATCGCCTACCCTTACATCCCCAAGTTAAT
GAGGTGATTGGAGATTTCACATCCCTCACGCTCCTAGAAGTTGATAACTCAAAACCGACT
CCTTTTATTAAGCGTGCTCAACAGCTACAGAAACAACTGTGGCAAGATTTAGACCACCGT
TATGTCAGTGGTGTGGAAGTGCAGCGAGAATTGCGCCGCCTATATGGAAGTTATCAAGCT
ATGGGGGTTGTCTTTACCAGCGTTCTGGGGGCTGGTATCGAGTCGGAAGAACAATTGTGG
GTTAATCAGCTAGGACAAATGGTCTATAGCATTAGCCAAACCCCTCAAGTCTGGCTAGAC
CATCAAGTGCTTGAAGAACAAGGCGAATTAATATTTCAGTGGGATATAGTTGAAGAGCTT
TTCTGTGAAGGTGTTATTGATAATATGTTCCAGAGTTACACAGATTATCTGCAACACCTA
GCAACTTCAGAATCTGCTTGGATAGACCTGTACCCTCAACTGTTACCAAAAGCCCAACTC
CAACAACTTGCACAACTCAATCAGATAAATCTACCTGTTCCCCAACAAACCTTACACGGT
CTGTTTCTGCAGCAGGTGGAAAAAAATTATCTAGAATTAGCAGTGATTACCCCAGAGCAC
TGCTTAACCTATGGAGACTTACACCAACGCGCTCGCGACATCGGGCATTGGTTGCAACAA
CTGGGAGCTTCGCGCAATAGCTTAGTAGCTGTAGTAATGTTCAAGGGATGGGAACAAGTT
GTTGCAGTCTTGGCAATCTTGATGTCTGGTGCGGCCTATGTGCCTATTGACCCCGAACTC
CCCAAGGAGCGCAGAGAATTTTTACTTACCCAAGGGGAAGTACAGTTGGTTCTGACCCAA
GAATCTCTGTTAGAACAACTAGCAATACCAGAGGGAATTGAGTGTTTGTCTGTAGATACT
TTCGAGTCAATAAAAAATGATTCAATATCCTTCGTCCCCGTACATAATCCAGAAGATTTA
GCCTATGTAATTTATACGTCTGGCTCTACAGGTTTACCCAAAGGGGTGATCATTAAGCAT
CAAGCAGTAGTAAACACCATCCTCGACATCAACCAGCGATTCAATGTTACAGCTAATGAC
CGAATACTAGCTGTATCCGCGTTGAATTTTGACCTATCGGTATATGACATTTTTGGTATC
CTGGCTGTTGGAGGAACTGTGGTCATCCCATCTGCTATTGATGCTAAAGATCCTGCTCGT
TGGTACGAGTTAATTGTTAAACACCAAGTTACATTGTGGAACTCTGTACCCGCACTAATG
CAAATGTTAGTTGAGTACTTGTCTGGGCAGCTCAACCAGTCCCATGGCCCCCTACGATTA
GCATTGCTTAGTGGCGATTGGATACCACTAACTTTACCAGAGCAAATTAAAGATTTATGG
AGCCAGATCCAAATTGTCAGCTTAGGTGGTGCAACTGAAGCCTCAATTTGGTCAATTTAT
CACCCGATCGAACAAATTACCCCTGTAACGAAGAGCATTCCTTACGGTAAATCCCTTGGC
AATCAAACTGTTTCTGTCCTCAACGATCTAATGCAGCCTACTCCAGTCTGGGTATGTGGA
GATCTTTATATCGGAGGCGTTGGTTTGGCTTCTGGGTATTTATTAGATGAGAAAAAGACA
AACGCAAGTTTTATCACTCACCCAGTTACTCACGAACGATTGTACAAAACCGGTGATTTG
GGACGATATTTGCCCGATGGTAATATTGAATTTCTCGGTCGCTGTGATTTCCAAGTTAAA
ATCAATGGCTATCGCGTTGAATTGGGTGAAGTTGAGGCTGCATTAAGCGATCATTCTACT
GTCAAGGAGGTTATTGTTGTTGTTCTTGGCGAGTCGGAACACAAGCGTTTAGTCGCTTAT
ATTGTCCCCAGTGAGTCCTCTGTTGACAAAGCAAAGCTACCAGAAGGTTATCAACCTAGT
CAAACAGTAGGGGTAATACAAGACCCTGTGGAGAAAATTGAATTTAAACTCAAGCAACCA
GGATTGCGTTCACCATCTCCCACAAAAGAAACTATCAGTTTACCACTGTCAGAATTTGAT
GCAGCTCAAAAAGAAGCGTACCTCAAACGTCAGAGTTATCGGCAATTCTTGAGAGAACCG
CTGACGTTGGAGGAGTTGAGCCAGTTTTTAAGCTGTCTACTGCCAATCAAACTGGAGGAG
TTTCCCTTACCCAAATATCTTTATCCTTCGGCGGGAAATCTTTATCCTGTACAAACCTAT
TTGTTAATTAAACCGGAACGGGTTTCAGGATTATCAGGAGGGATTTATTACTATTGTCCC
CGGGAGCATAACTTAGTATTGCTCAATTCCTTGATGAAGGTTGACAGCAGGATTTACGGT
GGCAATCAACCGATTTTTGAGCAGTCTGCATTTTCTCTATTTTTGATTAGCAAACTCAGT
GCTATTACTCCGATGTATGGCGAACTAGCTGAAAAGTTCTGTTTGCTGGAGGCAGGGCAC
ATGGGACAGTTGTTGATGAGTACGGCTCCCGACTACCAAATAGGCCTTTGTCCCATTGGG
GGTCTGGAGTTTAACAAGTTACGAGATTTATTTGAGTTGGAATCGAATCAGCGTCTAATT
TATAGTTTTATTTGTGGTAAGATTGACCCAGTTCAAACCCAACAGTTATTCGGTAAATCT
TCAAAGGACGAGCGATCTATTCCACAACAACTAAACGAGCATTTACAAGGAAAATTACCC
CAGTATATGCTCCCCAATGATTATGTGTTAATGGATGTCTTTCCTTTAACTGCAAATGGG
AAAGTTAACCGCAAAGCTCTACCTGCTCCTGAGGTATCAATAAAAGAAAGAAATTTTCTG
CCCCCCAGTACCCCTATTGAGGAGAAGTTAGCTGGCATTTGGGCAAAAATATTAGAGTTA
GACTTAAACCAAGTTAGTGTTAATGATGATTTCTTTGACATTGGTGGCAATTCATTGCTT
GCTACTAAGCTAATCTCCAGAATTCGACAATTTTTCCAAGTCGACCTACCTCTATCTGAC
TTTTTTGAAGAACCTACAATTGCTGCTCTGGTTGAACACATTGAAGTTCTTAGTTGGGTG
GGACAAGATCTACAAGATTCAGAAACAAATATAGAGGAGATAGAATTATGA

[2] C	60..354

[2] A	851..1268

[2] 2-oxoisovaleric acid	986..1149

[2] KR	1612..1809

[2] PCP	1946..2013

[3] C	2039..2335

[3] A	2523..2926

[3] L-cysteine	2654..2800

[3] OX	3008..3186

[3] PCP	3266..3335

[2] C	178..1062

[2] A	2551..3804

[2] 2-oxoisovaleric acid	2956..3447

[2] KR	4834..5427

[2] PCP	5836..6039

[3] C	6115..7005

[3] A	7567..8778

[3] L-cysteine	7960..8400

[3] OX	9022..9558

[3] PCP	9796..10005

Feature

BLASTP Database:UniProtKB:2011_09	show BLAST table
InterPro Database:interpro:38.0	IPR000415 Nitroreductase-like (Domain) SSF55469 Nitroreductase PF00881 Nitroreductase G3DSA:3.40.109.10 G3DSA:3.40.109.10 IPR000873 AMP-dependent synthetase/ligase (Domain) PF00501 AMP-binding IPR001242 Condensation domain (Domain) PF00668 Condensation IPR006162 Phosphopantetheine attachment site (PTM) PS00012 PHOSPHOPANTETHEINE IPR009081 Acyl carrier protein-like (Domain) PS50075 ACP_DOMAIN G3DSA:1.10.1200.10 ACP_like PF00550 PP-binding SSF47336 ACP_like IPR010071 Amino acid adenylation domain (Domain) TIGR01733 AA-adenyl-dom IPR013624 Non-ribosomal peptide synthetase (Domain) PF08415 NRPS IPR013968 Polyketide synthase, KR (Domain) PF08659 KR IPR016040 NAD(P)-binding domain (Domain) G3DSA:3.40.50.720 NAD(P)-bd IPR020051 SagB-type dehydrogenase domain (Domain) TIGR03605 Antibiot_sagB IPR020806 Polyketide synthase, phosphopantetheine-binding domain (Domain) SM00823 PKS_PP IPR020842 Polyketide synthase/Fatty acid synthase, KR (Domain) SM00822 PKS_KR IPR020845 AMP-binding, conserved site (Conserved_site) PS00455 AMP_BINDING
SignalP	No significant hit
TMHMM	No significant hit

Hecto_00040 Hecto_00060