Indano_00200 : CDS information

Location

Organism	Streptomyces antibioticus
Strain	NRRL 8167
Entry name	Indanomycin
Contig	FJ545274
Start / Stop / Direction	67,125 / 74,768 / + [in whole cluster] 67,125 / 74,768 / + [in contig]
Location	67125..74768 [in whole cluster] 67125..74768 [in contig]
Type	CDS
Length	7,644 bp (2,547 aa)

Annotation

Category	1.1 PKS
Product	polyketide synthase
Product (GenBank)	polyketide synthase
Gene
Gene (GenBank)	idmP
EC number
Keyword
Note
Note (GenBank)
Reference	ACC C5HV18 PmId [19301315] Analysis of the indanomycin biosynthetic gene cluster from Streptomyces antibioticus NRRL 8167. (Chembiochem. , 2009) comment indanomycin biosynthetic gene clusterに関する文献。 idmP(2,547a.a): PKS modules 10-11 indanomycinを合成するPKSをコードする。 module 11のAT domainは途中でtruncateしておりinactiveである。また、通常PKS modulesの一番最後に存在するthioesterase (TE) domainがmodule 11には存在しない。代わりに、Δ5-3-ketosteroid isomerase structural familyに似ている配列Cyc domain (cyclase domain)が存在するとしている(→InterProではモチーフ無し)。このCyc domainは、polyether ionophore生合成のring-opening epoxide cyclasesに似ているとしている。 module 11 については、 polyketideをPKSにまだ繋ぎとめている間にtetrahydropyran部分の取り付けを行うのではないか、と示唆されている。
Related Reference	ACC B6ZK72 NITE Lasal_00210 PmId [18710235] Epoxide hydrolase Lsd19 for polyether formation in the biosynthesis of lasalocid A: direct experimental evidence on polyene-polyepoxide hypothesis in polyether biosynthesis. (J Am Chem Soc. , 2008) [21375229] Enzymatic epoxide-opening cascades catalyzed by a pair of epoxide hydrolases in the ionophore polyether biosynthesis. (Org Lett. , 2011) [22388816] Enzymatic catalysis of anti-Baldwin ring closure in polyether biosynthesis. (Nature. , 2012) comment Cyc domain登録した配列部分をBLASTにかけると id40%(position 4-125), id35%(position 135-236) Streptomyces lasaliensis_lsd19 Epoxide hydrolase --- [PMID:18710235](2008) Lsd19をE.coliにて発現、クローニング、精製し活性を見ている。 incubationによりsingle deastereomerである6-endo-tet cyclization productを産生。trichloroacetic acidでbisepoxideを処理すると5-exo-tet cyclization modeを介してisolasalocid Aを産生する。 --- [PMID:21375229](2011) site-directed mutagenesis, domain dissection analysisにより機能解析をしている。 D170A,E197Aでは一つ目のtetrahydrofuran環の形成で止まった化合物ができる。 lsd19A(N-term domain): 5-exo cyclization (bisepoxyprelasalocid A -> monocyclized intermediate) lsd19B(C-term domain): 6-endo cyclization (monocyclized intermediate -> lasalocid A) --- [PMID:22388816](2012) 結晶構造解析、および、触媒メカニズムの予測を行っている。 Lsd19Bの酵素活性中心における重要なアミノ酸はH146,D170,E197,Y251を挙げている。 polyether epoxide hydrolaseについてまとめて解析あり（構造モデリングと配列アライメント）。配列alignmentから、Lsd19Aに似たPEH-A、Lsd19Bに似たPEH-Bに分類される。 Nigericinのような長めの基質で働くPEH-AはC末に余剰領域あり。構造モデリングで、PEH-Aは深いbinding pocketが見られ、internal cyclic ethersの形成を担うとされている。PEH-Bは浅いbinding pocketが見られ、terminal cyclic ethersの形成を担うとされている。
Related Reference	ACC H1ZZU2 NITE Salino_01000 PmId [26377145] Enzymology of Pyran Ring A Formation in Salinomycin Biosynthesis. (Angew Chem Int Ed Engl. , 2015) comment Cyc domain登録した配列部分をBLASTにかけるとid38% Streptomyces albus subsp. albus_salBIII Putative epoxide hydrolase/cyclase [DoBISCUIT]cyclase SalBIII がカルボキシ基寄りのtetrahydropyran環形成を担うことを実験確認している。必須触媒二分子としてAsp38 と Asp104を同定。提唱メカニズムの図では、ACP14に繋がれたまま分子内環化が触媒されている。 SalBIII とCyc11 domainの配列アライメントで、SalBIII 活性に必須な２残基はCyc11 domainでも保存されている。また、SalBIII, Cyc11 domain, Lsd19 C末domainのモデル化されたactive site構造を重ね合わせ、それらが同じ位置になることを示している。

PKS/NRPS Module

10		methylmalonyl-CoA
11

KS	36..417

AT	581..901

KR	1217..1399

ACP	1506..1576

KS	1603..1974

at	2134..2308

Cyc	2430..2535

Sequence

>polyketide synthase [polyketide synthase]
MSSASSEKIVEALRASLTENERLRRLNQELAAAAHEPVAIVSMACRFPGGVESPEDFWDL
ISEGRDAVSGLPDNRGWDLDALYDPDPEAQGKTYVREGAFLYDAAEFDAELFGISPREAL
AMDPQQRLLMETSWEVLERAGIRPDSLRGKPVGVFTGGITSDYVTRHYASGTAPQLPSGV
ESHFMTGSAGSVFSGRIAYTYGFEGPAVTVDTACSSSLVALHMAAQSLRQGECSLAFAGG
VAVLPNPGTFVGFSRQRALSPDGRCKAFSADADGTGWGEGAGLVLLEKLSDARRNGHPVL
AILRGSAVNQDGASNGLTAPNGPSQQRVIRAALANARLSPDDVDVVEAHGTGTPLGDPIE
AQALQATYGRSRSAERPLWLGSVKSNVAHAQAAAGVASVIKVVMALRHRLLPKTLHADER
SPHIDWHSGAVELLTEAREWSRTEGRARRAGVSSFGISGTNAHVIIEEAPEPTVETTAAP
AAEPAAERSPVEVVPWVTSARSAAGLVAQADRLARFVGVRPELDPVDVGWSLVGSRSVLE
HRAVVLGRGRDELVAGLASLASGVSAPGVVCGVGRGGVRPVLVFPGQGSQWVGMAVGLLE
SSPVFAERLGECEAALAPFVEWSLRDVLGGGVGSVGLLERVDVVQPVLFAVMVSLAELWR
SVGVVPAAVVGHSQGEIAAACVAGGLSLGDAARVVALRSRALRRLSGLGGMVSVAAGRER
TEDLLAGWVGRVGVAAVNGPGSTVVSGDADALDELVVVCEGLGVRARRVAVDYASHSAHV
DLIREELGELLAPVVPVSSGVPFFSTVTGDWLDTARLDAGYWFENLRRPVRFGEATRALL
DEGFSVFIESSAHPVLATGISETVDAGDVPGAVVGSLRRGEGGMGRFLTSVAEAFVRGVE
VDWASVLPGGRRVDLPTYAFQRKHYWLESTAAEQNDPNALPADAADTRFWEAVESENLDE
LARTLDTAEARPALETLVPALASWRRQRREHSVVDSWRYRVGWRPAQISPRSDTTPTGTW
LVIAPAAHQEHPWVTAATESLRDGGAEVRTVVLDPTALQRDSLAQELGTDGAQIDGVLSL
LALDETPLPRHPGVPAGLGATLTLLQALGDAGIEAPLWCATQGAVSVSGVDHLTRPLQAQ
VWGLGRVAGLEHPDRWGGLVDLPETVDARSAGRLRALLAEPGDEDQLALRPSGAFVRRLT
RAPLEDTPPVREWRPDGTTLITGGTGGLGGHVARWLAAQGAGHLVLTSRRGPDADGAAEL
REELQGMGSRVSIVACDASDRNALGALLRRLRDEGTPVRAVVHTAGVAGRFTTLADADLA
DLAETLGAKAGGAAALDELLAGEGEPDAFVLFSSNAGVWGGAGQGPYAAANAYLDALAEQ
RRARGAAATSVAWGMWSGQGLVAGQPGVEEALRRLGLKAMDPDLAITALHQALDRDETTL
SVTDMDWDRFVSVFTAARPRPLLDELPEAARILRAAEAGHEANSESRSALAEQLAGLAPA
EQHRLLVEMVRAQAATVLGHDSGDAVDQDRQFQELGFNSVSAVELRNRLNEATGLRLPAS
LVFDHPTPAALARRIRAEVLGEAQEPAAAGLGGPAGGAAVGDDAVAIVGMSCRLPGGVES
PDDLWRVVVEGRDVISELPTDRAWEAVERLRELGMDMPGGRWLRAGGFIDSAAEFDPDFF
GVSTAEALAMDPQQRLLLEMSWEAIERAGIDPHTLRGSSTGVYVGTFFQPYWAGSNRIAE
DVKPFLGTGVTPTFASGRIAYLLGLEGPTFTVDTGCSSSAVALHQACQAVRRGECSTALV
GGVTVLSSPMGVPDLGGMAEDGRCKAFSAEADGTGWGEGAAMVMIERLSEARRLGHPVLA
VVRGSAVNHNGESNGMSAPNGPSQQRLIRQALADARLSPDEVDAVEAHGTGTPLGDPIEA
QALLATYGRDRAEDRPLWLGTVKTNIGHPQAASGLVGVIKMVLAMRHGLLPRSLYADSPT
PQVDWASGAVSLLAENTPWPEAGRPRRAGVSSFGASGTKAHIILEQDAWLPDAGTPEPAV
GTDGRTAAVPLLVSARTPDGVRQQARRLREFVESHPEAEPTDLAWSLATSRSAFEHRAAL
FAVDREELLGGLADLEQGDLLGRTLRGEAGATARTAFVFAGEALPDTPAPAARQLYEALP
DFADALDEACVHLDACARLGRPVQEFALGVHPAADAVAAACVAFAHESALSRALPRLGVT
PEVAAGLRLGEISAAHAAGVLGIEDAAALLVAVARLRDGAADREAALDGFGRTAKNIASH
PARLRLVSALTDEPLDAERLLDPGHWLDEETPVDVPTADGGRAPRVHGVFVGLPDGVPAG
SAGAVTGLMRVLARAHVDGVTVDWRETLTAVGAQGRSVELPTYSFRRDHYWLEANPVAVL
GDALAGKNVANWSAVEGVELLDETSRKEVVEEYFRRLNAGDLDKVLEMLAPDVRMEDPVG
GPPKLGREAVGEYIAQVIEANAEITVGPIVAAQDGLRVALPLVGRLAQLGRSDGPRMEIN
CVDVIQVNGEGLIQEVLVFWGMTDIAR

>polyketide synthase [polyketide synthase]
ATGAGCAGCGCATCCTCCGAGAAGATCGTCGAGGCACTGCGGGCGTCGCTCACCGAGAAC
GAACGCCTGCGCAGGCTCAATCAGGAACTGGCCGCGGCCGCGCACGAGCCGGTGGCCATC
GTGAGCATGGCCTGCCGGTTCCCCGGCGGCGTCGAATCCCCCGAGGACTTCTGGGACCTG
ATCAGCGAGGGCCGTGACGCGGTCTCCGGTCTGCCCGACAACCGCGGCTGGGACCTGGAC
GCGCTCTACGACCCCGACCCCGAGGCACAGGGCAAGACGTACGTCCGTGAAGGCGCCTTC
CTCTACGACGCGGCCGAGTTCGACGCGGAACTGTTCGGGATCTCGCCGCGTGAGGCGCTG
GCGATGGACCCGCAGCAGCGCCTGCTGATGGAGACCTCCTGGGAGGTCCTGGAACGGGCC
GGAATCAGGCCCGACTCGCTGCGCGGCAAGCCCGTCGGTGTCTTCACCGGCGGCATCACC
TCGGACTACGTGACCCGGCACTACGCGTCGGGCACCGCGCCGCAGCTCCCGTCGGGAGTC
GAGAGCCACTTCATGACCGGCAGCGCGGGCAGCGTCTTCTCGGGCCGTATCGCCTACACC
TACGGTTTCGAGGGGCCCGCGGTCACGGTGGACACCGCCTGCTCCTCGTCGCTGGTGGCA
CTGCACATGGCGGCCCAGTCGCTGCGCCAGGGCGAGTGCTCGCTGGCCTTCGCCGGCGGA
GTCGCCGTGCTGCCCAACCCCGGCACCTTCGTCGGCTTCAGCCGCCAGCGCGCACTGTCC
CCGGACGGCCGGTGCAAGGCGTTCTCCGCGGACGCCGACGGTACCGGCTGGGGCGAGGGC
GCGGGCCTCGTACTGCTGGAGAAGCTGTCCGACGCGCGCCGCAACGGCCACCCGGTCCTG
GCGATCCTGCGCGGCAGCGCCGTGAACCAGGACGGCGCCAGCAACGGCCTGACGGCGCCG
AACGGTCCGTCCCAGCAGCGCGTGATCCGGGCCGCGCTGGCGAACGCCCGCCTGTCGCCC
GACGACGTCGACGTCGTGGAGGCACACGGGACGGGCACCCCGCTCGGCGATCCGATCGAG
GCCCAAGCGCTGCAGGCCACGTACGGCAGGAGCCGCTCGGCCGAGCGCCCGCTGTGGCTG
GGCTCGGTGAAGTCGAACGTCGCCCACGCCCAGGCCGCGGCCGGAGTGGCCAGCGTGATC
AAGGTGGTCATGGCCCTGCGCCATCGCCTGTTGCCCAAGACGCTCCACGCCGACGAGCGC
TCGCCGCACATCGACTGGCACTCCGGCGCCGTCGAGCTGCTGACGGAGGCCCGCGAGTGG
TCGCGCACCGAGGGGCGTGCGCGCCGCGCCGGTGTGTCGTCGTTCGGGATCAGTGGGACG
AACGCGCACGTGATCATCGAGGAGGCGCCCGAGCCCACCGTCGAGACCACCGCCGCTCCG
GCTGCCGAGCCGGCTGCCGAGCGGTCTCCGGTCGAGGTGGTGCCGTGGGTGACGTCGGCA
CGCAGTGCCGCCGGTCTCGTTGCCCAGGCGGATCGGCTCGCCCGGTTCGTCGGTGTGCGG
CCGGAGCTGGATCCGGTGGATGTGGGGTGGTCGTTGGTTGGTTCGCGGTCGGTGCTGGAG
CACCGGGCGGTGGTGCTGGGCAGGGGCCGGGACGAGTTGGTGGCCGGTCTTGCCTCGCTT
GCCTCGGGAGTGTCCGCGCCGGGTGTGGTGTGTGGGGTGGGTCGGGGTGGTGTGCGGCCG
GTGTTGGTGTTTCCGGGGCAGGGGTCGCAGTGGGTGGGGATGGCGGTGGGGTTGTTGGAG
TCGTCGCCGGTGTTTGCGGAGCGGTTGGGGGAGTGTGAGGCGGCGTTGGCTCCGTTTGTG
GAGTGGTCGTTGCGGGATGTGTTGGGGGGTGGTGTGGGGTCGGTGGGGTTGTTGGAGCGG
GTTGATGTGGTGCAGCCGGTGTTGTTTGCGGTGATGGTGTCGTTGGCGGAGTTGTGGCGG
TCGGTGGGGGTGGTGCCGGCTGCGGTGGTGGGGCATTCGCAGGGGGAGATTGCTGCTGCG
TGTGTGGCGGGTGGTTTGTCGTTGGGTGATGCGGCGCGGGTGGTGGCGTTGCGGAGTCGG
GCGTTGCGGCGGTTGTCGGGGTTGGGTGGGATGGTGTCGGTGGCGGCGGGGCGGGAGCGG
ACGGAGGATCTGCTGGCCGGGTGGGTGGGTCGTGTGGGTGTTGCGGCGGTGAATGGTCCG
GGGTCGACGGTGGTGTCGGGTGATGCGGATGCGTTGGATGAGTTGGTGGTGGTGTGTGAG
GGGTTGGGGGTGCGGGCGCGTCGGGTTGCGGTGGATTATGCGTCGCATTCGGCTCATGTG
GATTTGATTCGGGAGGAGTTGGGGGAGTTGTTGGCGCCGGTTGTTCCGGTGTCTTCGGGG
GTGCCGTTCTTTTCGACGGTGACGGGTGACTGGCTCGACACGGCGCGGTTGGACGCGGGG
TATTGGTTTGAGAATCTTCGTCGGCCGGTGCGGTTCGGGGAGGCGACGCGTGCGTTGCTG
GATGAGGGTTTCTCGGTGTTCATCGAGTCGAGTGCGCATCCGGTGCTGGCGACGGGGATC
TCGGAGACGGTGGATGCGGGGGATGTGCCGGGTGCGGTGGTGGGTTCGCTGCGTCGGGGT
GAGGGGGGTATGGGGCGTTTCCTGACCTCGGTGGCGGAGGCGTTCGTCAGGGGTGTGGAG
GTGGACTGGGCGAGTGTGCTGCCCGGGGGTCGTCGGGTGGATCTGCCGACCTACGCCTTC
CAGCGCAAGCACTACTGGCTCGAGAGCACGGCTGCGGAACAGAACGACCCGAACGCTCTG
CCGGCCGACGCCGCCGACACCCGCTTCTGGGAGGCGGTCGAGAGCGAGAACCTCGACGAA
CTCGCCCGCACCCTCGACACCGCCGAAGCCCGGCCCGCCCTGGAGACCCTGGTACCTGCC
CTGGCCTCCTGGCGCAGGCAACGCCGGGAACACTCGGTCGTCGACTCCTGGCGCTACCGC
GTCGGTTGGCGTCCCGCACAGATCTCCCCGCGCTCCGACACCACACCTACCGGGACATGG
CTGGTGATCGCTCCCGCCGCCCACCAGGAACATCCGTGGGTGACGGCGGCGACCGAATCG
CTGCGCGACGGCGGCGCCGAGGTCCGGACGGTCGTACTGGACCCGACAGCGCTCCAACGT
GATTCACTGGCACAGGAGTTGGGCACAGACGGCGCGCAGATCGACGGGGTGCTGTCGCTG
CTCGCCCTGGACGAGACGCCGTTGCCCCGGCATCCCGGCGTTCCGGCCGGGCTCGGCGCG
ACCCTCACGCTGCTCCAGGCGCTGGGCGACGCCGGCATCGAGGCACCCCTGTGGTGCGCC
ACCCAGGGCGCCGTCTCCGTCAGCGGCGTCGATCACCTCACCCGGCCGCTTCAGGCGCAG
GTGTGGGGTCTGGGCCGAGTCGCGGGACTCGAGCACCCGGACCGCTGGGGCGGCCTCGTC
GACCTGCCCGAAACCGTCGACGCGCGGTCGGCGGGACGGCTGCGCGCCCTGCTGGCCGAG
CCGGGTGACGAGGACCAGCTCGCGCTGCGCCCCTCGGGCGCCTTCGTACGCCGCCTGACC
CGTGCGCCGCTGGAGGACACCCCGCCGGTACGCGAGTGGCGGCCCGACGGCACGACGCTG
ATCACCGGAGGGACCGGCGGTCTGGGCGGCCATGTGGCCCGATGGCTCGCCGCGCAGGGC
GCGGGGCACCTCGTCCTGACCAGCAGGCGTGGTCCGGACGCGGACGGTGCCGCCGAACTC
CGGGAGGAACTGCAGGGGATGGGCTCCCGGGTGAGCATCGTCGCCTGCGACGCGTCGGAC
CGGAACGCCCTGGGCGCGCTGCTGCGGCGGCTTCGCGACGAGGGGACCCCGGTGCGGGCG
GTCGTGCACACCGCCGGCGTCGCGGGCCGGTTCACCACGCTGGCCGACGCGGACCTGGCC
GACCTGGCCGAGACCCTGGGCGCGAAGGCCGGCGGGGCCGCGGCACTGGACGAACTGCTG
GCGGGAGAAGGCGAGCCGGACGCCTTCGTCCTCTTCTCGTCGAACGCCGGCGTGTGGGGC
GGCGCCGGACAGGGACCCTACGCCGCCGCGAACGCCTACCTCGACGCCCTGGCCGAGCAG
CGCCGCGCCCGCGGCGCCGCCGCCACCTCCGTCGCCTGGGGCATGTGGAGCGGACAGGGA
CTGGTGGCCGGTCAGCCCGGCGTCGAGGAAGCACTGCGACGCCTGGGCCTGAAGGCCATG
GACCCGGACCTGGCGATCACGGCACTGCACCAGGCCCTCGACCGCGACGAGACCACCCTC
TCCGTCACCGACATGGACTGGGACCGCTTCGTCTCGGTGTTCACGGCGGCACGTCCGCGC
CCCCTCCTCGACGAACTGCCCGAAGCCGCAAGGATCCTGCGCGCCGCCGAAGCGGGCCAC
GAGGCGAACTCCGAGTCCCGTTCGGCCCTCGCCGAACAACTGGCCGGCCTGGCTCCCGCC
GAGCAGCACCGCCTCCTCGTGGAGATGGTGCGTGCCCAGGCCGCGACCGTGCTGGGCCAC
GACTCCGGAGACGCGGTCGACCAGGACCGGCAGTTCCAGGAGCTCGGGTTCAACTCGGTG
AGCGCGGTGGAACTGCGCAACCGGCTCAACGAGGCGACCGGGCTGCGCCTGCCGGCCTCG
CTGGTCTTCGACCACCCGACGCCCGCCGCGCTGGCCCGCCGGATACGCGCCGAGGTGCTG
GGCGAAGCGCAGGAGCCGGCCGCCGCCGGCCTCGGCGGCCCGGCCGGCGGTGCCGCCGTC
GGTGACGACGCCGTGGCCATCGTCGGCATGAGCTGCCGGCTGCCCGGCGGCGTGGAGAGC
CCCGACGACCTGTGGCGCGTCGTCGTCGAAGGCCGCGACGTGATCTCCGAGCTGCCGACC
GACCGGGCCTGGGAGGCGGTCGAGCGGCTGCGGGAACTCGGGATGGACATGCCCGGGGGG
CGCTGGCTGCGCGCGGGCGGATTCATCGACTCCGCGGCCGAGTTCGACCCGGACTTCTTC
GGCGTCTCCACGGCCGAGGCGCTGGCGATGGATCCGCAGCAGCGGCTGCTGCTGGAGATG
TCCTGGGAGGCGATCGAGCGGGCCGGCATCGACCCGCACACCCTGCGAGGCAGCTCCACC
GGCGTGTACGTCGGCACGTTCTTCCAGCCGTACTGGGCGGGCTCCAACCGCATCGCGGAG
GACGTCAAGCCCTTCCTCGGCACCGGCGTCACCCCGACGTTCGCCTCCGGCCGCATCGCC
TACCTCCTCGGCCTCGAAGGCCCCACGTTCACCGTGGACACCGGCTGCTCGTCCTCGGCC
GTCGCCCTGCACCAGGCGTGCCAGGCGGTGCGTCGCGGGGAGTGCTCGACGGCGCTGGTC
GGCGGTGTCACCGTGCTGTCCAGCCCGATGGGCGTGCCCGACCTCGGCGGCATGGCCGAG
GACGGCCGCTGCAAGGCGTTCTCCGCCGAGGCCGACGGCACCGGCTGGGGTGAGGGAGCC
GCGATGGTCATGATCGAACGGCTCTCCGAGGCGCGCCGCCTGGGCCACCCGGTCCTCGCG
GTGGTCCGCGGCTCCGCCGTCAACCACAACGGCGAGAGCAACGGCATGTCGGCCCCCAAC
GGCCCGTCCCAACAGCGGCTGATCCGCCAGGCCCTGGCCGACGCGCGGCTGTCGCCCGAC
GAGGTCGACGCGGTGGAGGCGCACGGCACCGGCACCCCGCTCGGCGACCCGATCGAGGCC
CAGGCGCTGCTGGCCACCTACGGCCGGGACCGGGCGGAGGACCGGCCGCTGTGGCTCGGC
ACGGTCAAGACCAACATCGGCCACCCGCAGGCGGCGTCCGGCCTGGTCGGCGTCATCAAG
ATGGTGCTGGCCATGCGCCACGGACTGCTTCCCCGGTCCCTGTACGCCGACTCGCCGACA
CCGCAGGTCGACTGGGCGTCCGGCGCCGTCTCGCTGCTGGCCGAGAACACGCCGTGGCCG
GAGGCCGGACGGCCTCGCAGGGCCGGTGTCTCCTCCTTCGGCGCCAGCGGCACCAAGGCC
CACATCATCCTCGAACAGGATGCCTGGCTGCCCGACGCGGGCACGCCGGAACCCGCGGTC
GGCACCGACGGCCGGACCGCCGCCGTACCCCTGCTGGTGTCCGCCCGCACACCGGACGGT
GTCCGCCAACAGGCCCGCAGGCTGCGCGAGTTCGTGGAGTCACACCCCGAGGCGGAACCG
ACGGACCTCGCCTGGTCCCTGGCGACCTCGCGCTCGGCGTTCGAGCACCGGGCCGCACTG
TTCGCGGTCGACCGGGAGGAACTGCTCGGCGGGCTCGCGGATCTGGAGCAGGGAGACCTC
CTGGGCCGCACCCTCCGGGGCGAGGCCGGGGCCACGGCGCGCACCGCGTTCGTCTTCGCC
GGCGAGGCGCTGCCCGACACCCCGGCTCCCGCCGCACGGCAGCTGTACGAAGCGCTGCCG
GACTTCGCCGACGCACTGGACGAGGCGTGCGTCCACCTCGACGCCTGCGCCCGACTGGGC
CGTCCGGTACAGGAGTTCGCCCTCGGCGTTCACCCTGCCGCCGACGCGGTGGCCGCCGCC
TGCGTCGCGTTCGCCCACGAGTCGGCACTGTCCCGGGCGCTGCCGCGGCTGGGCGTGACA
CCGGAGGTCGCGGCGGGGCTCCGCCTGGGGGAGATCAGCGCGGCGCACGCCGCCGGAGTC
CTGGGGATCGAGGACGCCGCCGCGCTCCTCGTGGCCGTGGCGCGGCTGCGTGACGGCGCG
GCCGATCGGGAGGCCGCTCTCGACGGGTTCGGCCGGACGGCGAAGAACATCGCGTCGCAC
CCGGCACGGCTCCGCCTGGTGTCCGCCCTGACCGACGAGCCGCTCGACGCCGAACGGCTG
CTGGATCCCGGGCACTGGCTGGACGAGGAGACCCCCGTGGACGTGCCGACGGCGGACGGC
GGCCGGGCGCCGCGCGTCCACGGCGTGTTCGTCGGCCTCCCGGACGGTGTACCCGCCGGA
TCGGCCGGGGCCGTGACCGGCCTGATGCGGGTACTGGCCCGGGCACACGTCGACGGAGTG
ACCGTCGACTGGCGGGAGACGCTGACCGCGGTGGGCGCCCAGGGGCGGTCGGTGGAGCTG
CCCACCTACTCCTTCCGGCGCGACCACTACTGGCTGGAGGCGAACCCGGTGGCGGTCCTG
GGGGACGCTCTCGCCGGGAAGAACGTCGCCAACTGGAGCGCGGTGGAAGGAGTGGAGCTC
CTCGACGAGACCTCGCGCAAGGAGGTCGTGGAGGAGTACTTCCGCCGGCTCAACGCGGGC
GATCTCGACAAGGTGCTGGAGATGCTGGCACCCGACGTCCGCATGGAGGACCCCGTCGGC
GGACCGCCCAAGCTCGGGCGCGAGGCCGTCGGGGAGTACATCGCGCAGGTCATCGAGGCC
AACGCCGAGATCACCGTCGGCCCGATCGTCGCGGCCCAGGACGGCCTCCGGGTCGCGCTG
CCGCTGGTCGGACGACTCGCCCAGCTCGGCAGGTCCGACGGCCCGCGCATGGAGATCAAC
TGCGTGGACGTCATCCAGGTCAACGGCGAAGGACTGATCCAGGAAGTGCTGGTTTTCTGG
GGCATGACGGACATCGCCCGCTGA

[10] KS	36..417

[10] AT	581..901

[10] methylmalonyl-CoA	773..777

[10] KR	1217..1399

[10] ACP	1506..1576

[11] KS	1603..1974

[11] at	2134..2308

[11] Cyc	2430..2535

[10] KS	106..1251

[10] AT	1741..2703

[10] methylmalonyl-CoA	2317..2331

[10] KR	3649..4197

[10] ACP	4516..4728

[11] KS	4807..5922

[11] at	6400..6924

[11] Cyc	7288..7605

Feature

BLASTP Database:UniProtKB:2011_09	show BLAST table
InterPro Database:interpro:38.0	IPR001227 Acyl transferase domain (Domain) G3DSA:3.40.366.10 Ac_transferase_reg IPR006162 Phosphopantetheine attachment site (PTM) PS00012 PHOSPHOPANTETHEINE IPR009081 Acyl carrier protein-like (Domain) SSF47336 ACP_like PF00550 PP-binding PS50075 ACP_DOMAIN G3DSA:1.10.1200.10 ACP_like IPR009959 Polyketide cyclase SnoaL-like domain (Domain) PF12680 SnoaL_2 IPR013968 Polyketide synthase, KR (Domain) PF08659 KR IPR014030 Beta-ketoacyl synthase, N-terminal (Domain) PF00109 ketoacyl-synt IPR014031 Beta-ketoacyl synthase, C-terminal (Domain) PF02801 Ketoacyl-synt_C IPR014043 Acyl transferase (Domain) PF00698 Acyl_transf_1 IPR016035 Acyl transferase/acyl hydrolase/lysophospholipase (Domain) SSF52151 Acyl_Trfase/lysoPlipase IPR016036 Malonyl-CoA ACP transacylase, ACP-binding (Domain) SSF55048 Malonyl_transacylase_ACP-bd IPR016038 Thiolase-like, subgroup (Domain) G3DSA:3.40.47.10 Thiolase-like_subgr IPR016039 Thiolase-like (Domain) SSF53901 Thiolase-like IPR016040 NAD(P)-binding domain (Domain) G3DSA:3.40.50.720 NAD(P)-bd IPR018201 Beta-ketoacyl synthase, active site (Active_site) PS00606 B_KETOACYL_SYNTHASE IPR020801 Polyketide synthase, acyl transferase domain (Domain) SM00827 PKS_AT IPR020806 Polyketide synthase, phosphopantetheine-binding domain (Domain) SM00823 PKS_PP IPR020841 Polyketide synthase, beta-ketoacyl synthase domain (Domain) SM00825 PKS_KS IPR020842 Polyketide synthase/Fatty acid synthase, KR (Domain) SM00822 PKS_KR
SignalP	No significant hit
TMHMM	No significant hit

Indano_00190 Indano_00210