Alip_00130 Alip_00130   Alip_00150 Alip_00150

Alip_00140 : CDS information

close this sectionLocation

Organism
StrainTü117
Entry nameAlpha-lipomycin
Contig
Start / Stop / Direction23,820 / 34,568 / + [in whole cluster]
23,820 / 34,568 / + [in contig]
Location23820..34568 [in whole cluster]
23820..34568 [in contig]
TypeCDS
Length10,749 bp (3,582 aa)
Click on the icon to see Genetic map.

close this sectionAnnotation

Category1.1 PKS
Productpolyketide synthase
Product (GenBank)LipPks2
Gene
Gene (GenBank)lipPks2
EC number
Keyword
Note
Note (GenBank)
  • putative type I polyketide synthase
Reference
ACC
PmId
[16723573] Biosynthetic gene cluster for the polyenoyltetramic acid alpha-lipomycin. (Antimicrob Agents Chemother. , 2006)
comment
alpha-lipomycin生合成遺伝子クラスターに関する文献。

lipPks2(3,582 aa): PKS I
alpha-lipomycinを合成するPKSをコードする。

close this sectionPKS/NRPS Module

2 methylmalonyl-CoA
3 malonyl-CoA
KS34..409
AT574..893
DH939..1105
KR1417..1593
ACP1702..1772
KS1797..2174
AT2321..2626
DH2678..2843
KR3149..3325
ACP3430..3500

close this sectionSequence

selected fasta
>polyketide synthase [LipPks2]
MADHDKLVDYLKRVTADLQQTRQRLREYETQSHEPIAIVGMGCRYPGSVASPEELWRLVH
GGVDAVGGLPTDRGWDVEALYDPKAQNPGTTYAREGGYLTGATEFDPEFFGISPREALAM
DPQQRLVLEVAWETLEHAGIDSATLRGSSTGVFVGCNYQEYRARLSEVQEGLEGHLVTGS
VSSVVSGRVSYVLGLEGPALTVDTACSSSLVTLHLACEALRRNECTMALAGGVAVMSTPH
TITGFSRQRGVAADGRCKAFSASADGMGFGEGVGLLLVERLSDARRLGHRVLAVVRGSAV
NQDGASNGLSAPSGPAQQRVIRQALVNAGVQASQVDVVEAHGTGTRLGDPIEAQALQATY
GQGRPAERPLWLGSLKSNIGHAQAAAGVGGVIKMVMALREGVLPPTLHADEPSPHIDWTA
GNVRLLTESREWPEAGQPRRAAVSSFGISGTNAHVILEAAEAVDASGEADGGAGDEGTPV
LSGTDVVAWPVSAASPDALRAQAERLRAHVAERPGLASADVAFSLATSRSALARRALVVG
GDRDELVAGLESLAADRPGNGLVKGLADLATKPVFVFPGQGSQWAGMAVELLDSSPVFAD
SMQACSEALNEFVDWNLLEVLRSDDEELSNRVDVVQPVLWAVMVSLAALWQACGVRPAAV
VGHSQGEIAAAVVAGALSLRDGARVVALRSAVIARLLAGKGAMASVALASDTVRERLTPW
EGRLSLAAVNGPSSSVVCGHLDALDEFVSALEHDGVRVRRIAVDYASHSVFVEQAEEELR
NVLTEVSPLPGEVPFYSTVTGAVLDTTTLDAGYWYRNLRQTVRFEETVRELTRRGHDAFI
EVSAHPVLTVGIQDTLEATGTRHAVCGTLRRGEGGAQRLLTSLGEAWVAGIAVDWSRLTP
TATAVELPTYAFQHQRYWLDSTTGSGVDVGAAGLGAARHPLLGAAVALAGNGGTVLTGRL
SLDTHLWLADHAVRGVVLVPGTGLVELAVRAGDEVGCGFVEELTLQAPLVLPPEGAVQVQ
VVVGAADDAGVRSVDIYSRPEEPGVDGPWTLHGTGTVTPGASEPADGRADLTVWPPRDAQ
VLDTDGFYETMAGRGYEYGPAFQGLRRVWRRGDEVFAEVALAEEIAGAAGEFGLHPALAD
AGLQAGLLTLFAPADDGATGNRLPFSWRGVALHAVGATTLRVRMAPVAGDPTTVTLDMAD
ASGAPVASVDVLATREVSEAQLAAAAPGADDSLFRVEWLATAGGGSVEAVSWAVLGDSPL
GDGGLAFADADALVASSADLPDTVVLECPAGEGAGAVPEVVRARLAEVLGVVQRWVADER
LASSRLVVVTRGAVGLRAGETVDVRVAPVWGLVRAAQAEHPDRFVLADLPAGAGARELAA
GLASREPQWAVRDGVVRVPRLVRAQAPAGEAPGFGDGPVLVTGASGVLGGIVARHLVSAH
GVRELVLVSRRGPAAAGMDRLEAELVALGATVESIACDVADRDALARVLTGRRLTGVVHA
AGVLDDGVLESLDEARFDTVLRPKVDAASHLHELTRDHELSAFVLFSAGAGTLGNAGQAG
YAAANVFLDALAQARRAEGLPGLSLAWGLWAETSAMTGRLGETDLNRLARLGVTAMETGQ
ALALLDAAARTDEPYLLPVRLDLAALRRRAAVSGVPALLSALVPQRVRRQATGTGAGAAS
ADGGDLGGRLAALPADRREEFLLDLVRGEVAAVLGHASPDAVEPERAFKDLGFDSLTAVE
LRNRLGAATGLRLPATLVFDHPNATAVVRLLWSELGGAGLAGDASATRPSTPAAADEPMA
IIGMSCRFPGDVESPEDLWRLVAEARDAIDVMPGDRGWDVDALYDPTPGVPGRIYSREGG
FLRNAAEFDPAFFGISPREALAMDPQQRLLLETSWEAFERAGIDPATLRGSRTGVFAGVM
YHDYGSRLGAGTVPEDVEGYVGNGSAGSIATGRIAYTLGLEGPAVTVDTACSSSLVAMHL
AMQAIRQGECSLALVGGVTVMSSIEMFLEFSRQRAVSPDARCKAFGAGADGAGFSEGAGM
LLVERLSDAQRLGHPILAVVRGSAINQDGASNGLTAPNGPAQQRVIRQALATAGLGPTDI
DAVEGHGTGTSLGDPIEAQALMETYGQERPEERPLWLGSLKSNIGHAQAAAGVGGVIKMV
MALGEGVLPRTLHADEPSPHIDWTAGNVRLLTESREWPVTGQPRRAGISSFGASGTNAHL
ILEQAPARPAEDTPEEPALPLVPWLVSAKSEAALRAQAERLRSYVAERPGLRPADVAFSL
ATTRGALEHRAVVVGTDLGELAEGLGALTQTATVVPGRTAFLFTGQGAQRVGMGRELYDT
FPAFRKALDEVCAVLDPLLPRPSREVMWDEDPEALSRTEFTQPTLFAIEVALFRLLESWG
IHPDAVAGHSIGEIAAAHVTGVLSLADACVLVAARGRLMQALPHDGVMIAVQATEDEVLP
LLEKVTGQADIAAVNAPEAVVVSGAETEVEHVAATLGAQGRRVKRLTVSHAFHSPLMDPI
LKDFQTVVEGLSFRQPSLPFVSTVTGTVAGAEITEPAYWVRHVRQTVRFADGLRALHELG
VRKFIEIGPDAILTGLVEQTLDTQAVPVLRRDRDEVRAAVEAAGGFFTRGGSVDWPALLA
GGRRVDLPTYAFQHERYWLDAPVSVGDATALGLRRAEHPLLGAAVELAGSDRMVFAGRLS
AASQGWLVDHAVHGTVLVPGTTLVELALAAGDQMGSGRLEELTLQAPLVLPETGAVQLQV
SVGEADAEGRRTVEIHSRPERDAAEVAWACNALGALTEAAAEPTPAALGEVWPPQDASAV
EVGDFYDDLADRGYEYGPVFQGLHRAWRRGDEVFAEVALPEEAANTVDAFGVHPALLDAA
LHAMNFASVTMGSGTPLPFAWTGVTLHAVGATALRVRIAPDDARGAVSVELFDQAGLPVA
SVESLALREVSPEQLAVADDPDSLFEVEWVSAADGGSAEAGAPSWAVLGDSPLAEGGPVF
ADVEALVASSQDLPGTVVLQCPAVEGAPVPDAVRDRLTGVLDVLQRWVADERLASSRLVV
VTRGAVAASANEPVDVRVAPVWGLVRAAQAEHPDRFVLADLPAGAGARELSVGLACDEPQ
WAVRDGAVRVPRLVRAQAAVSGVPAFGNGPVLVTGASGALGGVVARHLVSVHGVRELVLL
SRRGPSADGMAEVQRELAEAGASVEVLACDAADRDALAQVLDGRELTAVIHAAGVLDDGV
LEALDASRLDTVLQPKMDAAWNLHELTRHLDLTAFVLFSSATGVLGNAGQANYAAANVFL
DALAQTRRTENLPGHSLAWGLWAEASAMTAGLSETDRHRIARLGAQPLNETEALALLDRA
LGEDAPALLVPVRLNLAALQGRSQAVPAVLRALVPVRARRQAAVGAAAGSGGGLVERLAA
MSESRRAAHLLDLVRTEVAGVLGHRSAATIEPERAFKDLGFDSLTAVELRNRLHAATGLK
PAATVVFDHPTSADLARHLRTQIPDLPAAGPECLLGELDRIEQMLTDVDPTDEKSGDIQR
RLTALLARFDEAAGPVEAAQVADKIDAATDDEIFAFIDNELG
selected fasta
>polyketide synthase [LipPks2]
ATGGCGGATCATGACAAGCTGGTCGACTACCTGAAGCGCGTCACGGCTGATCTGCAGCAG
ACCAGGCAGCGGCTGCGCGAGTACGAGACGCAGAGCCACGAGCCCATCGCCATCGTGGGC
ATGGGCTGCCGCTACCCCGGCTCCGTCGCCTCCCCGGAGGAGCTGTGGCGGCTGGTGCAC
GGCGGCGTTGACGCCGTCGGCGGCCTGCCCACCGACCGCGGCTGGGACGTGGAGGCCCTG
TACGACCCGAAGGCGCAGAACCCCGGCACGACCTATGCTCGCGAGGGCGGCTACCTGACC
GGCGCCACCGAGTTCGACCCGGAGTTCTTCGGGATCTCGCCACGCGAGGCGCTCGCCATG
GATCCGCAGCAGCGCCTCGTCCTGGAGGTCGCCTGGGAGACCCTGGAGCACGCCGGCATC
GACTCCGCCACCCTGCGCGGCTCCAGCACCGGGGTGTTCGTCGGCTGCAACTACCAGGAG
TACCGGGCCCGGCTGTCGGAGGTGCAGGAGGGCCTGGAGGGCCACCTCGTCACCGGCAGC
GTCTCCAGCGTGGTCTCCGGCCGGGTCTCCTACGTCCTCGGTCTCGAAGGTCCGGCGCTC
ACCGTGGACACCGCCTGCTCCTCCTCCCTCGTCACGCTCCACCTGGCCTGTGAGGCGCTG
CGCCGCAACGAGTGCACCATGGCCCTCGCGGGCGGTGTCGCCGTGATGAGCACCCCGCAC
ACCATCACCGGTTTCTCCCGGCAGCGCGGTGTGGCCGCCGACGGGCGGTGCAAGGCGTTC
TCCGCGTCCGCCGACGGCATGGGCTTCGGCGAGGGCGTCGGCCTGCTGCTGGTGGAGCGG
CTGTCGGACGCGCGGCGGCTGGGTCACCGGGTGCTGGCGGTGGTGCGGGGCAGCGCGGTC
AACCAGGACGGTGCGTCGAACGGGCTGAGCGCCCCCAGTGGCCCCGCCCAGCAGCGGGTG
ATCCGGCAGGCCCTGGTGAACGCCGGGGTGCAGGCGTCCCAGGTGGACGTCGTGGAGGCA
CACGGCACGGGCACCCGGCTCGGCGACCCCATCGAGGCGCAGGCACTCCAGGCGACCTAC
GGACAGGGCCGGCCCGCCGAACGGCCTTTGTGGCTGGGCTCGTTGAAGTCCAACATCGGG
CACGCCCAGGCGGCAGCCGGTGTCGGCGGTGTGATCAAGATGGTGATGGCGCTGCGCGAA
GGCGTCCTGCCGCCCACCCTGCACGCCGACGAACCGTCCCCGCACATCGACTGGACGGCG
GGAAACGTACGACTGCTCACCGAGTCGCGCGAGTGGCCCGAGGCCGGGCAGCCCCGCCGG
GCCGCGGTGTCGTCGTTCGGGATCAGCGGGACGAACGCCCACGTGATCCTTGAGGCGGCC
GAGGCCGTAGATGCCTCCGGTGAGGCGGACGGCGGGGCCGGAGACGAGGGGACACCTGTT
CTTTCCGGCACGGACGTCGTCGCCTGGCCGGTGTCCGCCGCTTCCCCGGACGCCCTGCGC
GCGCAGGCCGAGCGGCTGCGCGCCCACGTGGCCGAGCGGCCCGGACTGGCCTCCGCGGAC
GTGGCGTTCTCGCTCGCCACCAGCCGGTCCGCCCTTGCCCGGCGTGCCCTCGTCGTCGGT
GGCGACCGGGACGAACTGGTCGCCGGCCTCGAATCCCTCGCCGCCGACCGGCCCGGGAAC
GGGCTGGTGAAGGGGCTCGCCGATCTCGCCACCAAGCCCGTTTTCGTGTTTCCGGGGCAG
GGGTCGCAGTGGGCGGGAATGGCAGTGGAACTGCTGGACTCGTCGCCGGTGTTCGCGGAC
TCCATGCAGGCCTGCAGCGAGGCGCTGAACGAGTTCGTGGACTGGAACCTGCTGGAGGTT
CTAAGGAGCGACGACGAGGAACTGTCGAACCGCGTCGACGTCGTGCAACCGGTGCTGTGG
GCAGTGATGGTGTCCCTGGCCGCGCTGTGGCAGGCCTGCGGGGTGCGGCCTGCCGCGGTG
GTGGGCCACTCCCAGGGTGAGATCGCCGCCGCCGTGGTGGCCGGCGCCCTGTCACTGCGC
GACGGGGCGCGAGTGGTCGCACTGCGCAGCGCGGTGATCGCCCGCCTGCTGGCAGGCAAG
GGCGCCATGGCCTCCGTCGCACTGGCCTCCGACACCGTACGAGAACGCCTCACACCATGG
GAAGGACGCCTGTCCCTGGCAGCCGTCAACGGCCCCTCGTCAAGCGTGGTCTGCGGACAC
CTCGACGCACTGGACGAATTCGTCAGCGCACTCGAACACGACGGCGTCAGAGTACGGCGC
ATCGCCGTCGACTACGCCTCACACTCGGTCTTCGTGGAACAGGCGGAGGAAGAACTCCGC
AACGTCCTGACCGAAGTCTCCCCCCTGCCGGGCGAGGTACCCTTCTACTCCACCGTCACC
GGCGCAGTCCTCGACACCACCACACTCGACGCCGGCTACTGGTACCGCAACCTGCGACAG
ACCGTGCGCTTCGAGGAAACCGTACGCGAGCTGACCCGCCGGGGCCACGACGCCTTCATC
GAAGTCAGCGCGCACCCAGTACTCACCGTCGGCATCCAGGACACCCTGGAAGCCACCGGC
ACCCGGCACGCCGTCTGCGGCACACTGCGCCGAGGAGAAGGCGGAGCACAACGGCTGCTC
ACCTCACTGGGCGAAGCATGGGTCGCCGGCATCGCAGTCGACTGGTCCCGACTGACACCC
ACCGCAACTGCGGTGGAACTGCCCACCTACGCCTTCCAGCACCAGCGCTACTGGCTCGAC
AGCACCACCGGCAGCGGTGTCGACGTCGGGGCGGCCGGGCTGGGCGCCGCCCGCCATCCG
CTGCTCGGAGCGGCCGTCGCCCTCGCGGGCAACGGCGGCACCGTCCTGACCGGCAGGCTC
TCCCTCGACACACACCTCTGGCTGGCCGATCACGCCGTACGTGGTGTCGTCCTCGTGCCC
GGCACCGGCCTGGTCGAACTCGCCGTCCGTGCGGGCGACGAGGTCGGCTGCGGATTCGTG
GAGGAACTCACGCTCCAGGCTCCGCTCGTCCTGCCGCCCGAGGGCGCGGTGCAGGTCCAG
GTCGTCGTCGGTGCCGCCGACGACGCCGGGGTGCGCAGCGTGGACATCTACTCGCGGCCG
GAGGAGCCGGGCGTGGACGGGCCGTGGACGCTGCACGGGACGGGCACGGTGACGCCCGGC
GCCAGTGAACCGGCCGACGGCCGGGCCGACCTCACCGTCTGGCCGCCGCGGGACGCCCAA
GTCCTCGACACCGACGGCTTCTACGAGACGATGGCCGGCCGGGGTTACGAGTACGGCCCC
GCCTTCCAGGGTCTGCGCCGCGTCTGGCGTCGTGGGGACGAGGTGTTCGCCGAGGTCGCC
CTTGCCGAGGAAATCGCGGGTGCCGCCGGGGAGTTCGGGCTGCATCCCGCGCTGGCCGAC
GCGGGGCTCCAGGCCGGGCTGCTCACGCTCTTCGCCCCCGCGGACGACGGTGCCACCGGG
AACCGGCTGCCGTTCTCGTGGCGCGGGGTCGCCCTGCACGCCGTGGGCGCGACCACCCTG
CGCGTGCGCATGGCCCCGGTGGCCGGTGATCCGACGACGGTGACGCTCGACATGGCGGAC
GCCTCCGGTGCGCCGGTGGCCTCGGTGGACGTCCTGGCGACGCGTGAGGTGTCCGAGGCG
CAGCTCGCTGCCGCGGCTCCGGGGGCCGACGACTCGCTGTTCCGGGTGGAGTGGCTTGCC
ACGGCCGGTGGTGGCTCGGTCGAGGCTGTGTCCTGGGCGGTACTGGGAGACTCGCCTCTG
GGTGACGGTGGTCTCGCGTTCGCGGATGCGGATGCGCTGGTCGCGTCGTCGGCGGACCTT
CCCGACACCGTGGTGCTGGAGTGCCCGGCGGGTGAGGGCGCGGGTGCGGTACCGGAGGTC
GTACGGGCGCGTCTCGCCGAGGTGCTGGGCGTGGTCCAACGGTGGGTTGCCGACGAGCGG
CTGGCGTCCTCCCGGCTGGTCGTGGTGACGCGGGGCGCGGTGGGCCTGCGCGCCGGTGAG
ACCGTGGACGTGCGGGTCGCGCCGGTGTGGGGTCTGGTGCGTGCGGCTCAGGCCGAGCAC
CCGGACCGGTTCGTGCTGGCGGATCTTCCCGCGGGTGCCGGTGCGCGGGAGCTGGCCGCC
GGGCTGGCCTCCCGTGAGCCGCAGTGGGCCGTGCGGGACGGTGTCGTACGCGTCCCGCGT
CTGGTGCGGGCGCAGGCTCCGGCCGGTGAGGCGCCGGGCTTCGGGGACGGTCCGGTGCTC
GTCACCGGCGCCTCCGGGGTGCTCGGCGGCATCGTCGCCCGGCACCTGGTCTCGGCACAC
GGCGTGCGGGAGCTGGTGCTCGTCAGCCGACGCGGTCCGGCGGCCGCCGGCATGGACCGG
CTGGAGGCGGAGCTGGTCGCCCTCGGCGCGACCGTCGAGAGCATCGCCTGCGACGTGGCC
GACCGCGACGCCCTGGCCCGCGTGCTCACCGGCCGTCGGCTGACCGGTGTGGTGCACGCG
GCCGGTGTGCTGGACGACGGTGTGCTGGAGTCCCTGGACGAGGCCCGGTTCGACACCGTG
CTGCGGCCCAAGGTCGACGCCGCCTCGCATCTGCACGAGCTGACCCGCGACCACGAGTTG
TCGGCGTTCGTGCTGTTCTCGGCCGGCGCCGGCACCCTCGGCAACGCCGGCCAGGCCGGT
TACGCGGCCGCCAACGTCTTCCTCGACGCCCTCGCCCAGGCCCGCCGCGCCGAGGGCCTG
CCCGGTCTGTCGCTGGCGTGGGGCCTGTGGGCCGAGACCAGCGCGATGACCGGTCGGCTC
GGCGAGACCGACCTGAACCGGCTCGCCCGGCTCGGCGTCACCGCCATGGAGACCGGGCAG
GCCCTCGCTCTTCTCGACGCGGCCGCCCGCACCGACGAGCCGTACCTGCTCCCCGTACGG
CTGGATCTCGCGGCCCTGCGGCGGCGCGCGGCGGTCTCCGGGGTGCCGGCGCTGCTGAGC
GCCTTGGTCCCGCAGCGTGTGCGCCGACAGGCGACCGGTACGGGTGCTGGTGCCGCGTCG
GCCGACGGCGGCGACCTCGGCGGGCGGCTCGCCGCACTGCCCGCGGACCGGCGCGAGGAG
TTCCTGCTCGACCTGGTCCGCGGCGAGGTCGCGGCCGTCCTCGGACACGCCTCCCCTGAC
GCGGTCGAACCCGAACGTGCCTTCAAGGACCTCGGTTTCGACTCCCTCACCGCCGTCGAA
CTACGCAACCGGCTCGGCGCCGCCACCGGTCTGCGGCTGCCCGCGACCCTCGTCTTCGAC
CACCCGAACGCCACCGCCGTCGTCCGCCTGCTGTGGTCAGAACTCGGCGGCGCCGGCCTG
GCCGGTGACGCCTCCGCGACCCGCCCGAGCACGCCGGCCGCCGCCGACGAGCCCATGGCG
ATCATTGGCATGAGCTGCCGTTTCCCTGGCGACGTTGAGTCCCCGGAGGACCTGTGGCGG
CTGGTTGCCGAGGCCCGCGACGCGATTGACGTGATGCCCGGCGACCGCGGCTGGGACGTC
GACGCCCTCTACGACCCGACCCCGGGCGTCCCCGGACGGATCTACTCCCGTGAGGGCGGT
TTCCTGCGGAACGCGGCCGAGTTCGACCCGGCGTTCTTCGGGATCTCGCCGCGCGAGGCG
TTGGCGATGGACCCGCAGCAACGGCTGCTGCTGGAGACGTCGTGGGAGGCGTTCGAGCGC
GCGGGCATCGACCCGGCCACCCTGCGCGGCAGCCGGACGGGCGTCTTCGCGGGCGTCATG
TACCACGACTACGGCTCCCGGCTCGGCGCGGGCACCGTGCCCGAGGACGTCGAAGGGTAC
GTCGGCAACGGCAGCGCCGGCAGCATCGCGACCGGCCGCATCGCCTACACCCTCGGCCTG
GAGGGCCCGGCGGTCACCGTCGACACCGCCTGCTCGTCCTCCCTGGTCGCGATGCACCTC
GCCATGCAGGCGATCCGGCAGGGCGAGTGCTCGCTCGCGCTGGTCGGCGGGGTCACCGTC
ATGTCGTCGATCGAGATGTTCCTCGAGTTCAGCCGTCAGCGCGCCGTCTCGCCCGACGCC
CGCTGCAAGGCGTTCGGCGCGGGTGCGGACGGCGCCGGCTTCAGCGAGGGCGCGGGCATG
CTGCTGGTGGAGCGGCTGTCCGACGCCCAGCGCCTGGGACACCCGATCCTGGCGGTCGTC
CGGGGCAGTGCGATCAACCAGGACGGTGCGTCGAATGGACTGACGGCGCCCAACGGGCCC
GCTCAGCAGCGGGTGATCCGGCAGGCGCTCGCCACCGCAGGTCTTGGTCCGACCGACATC
GACGCGGTGGAGGGGCACGGCACCGGCACATCGCTGGGTGACCCCATCGAGGCGCAGGCC
CTGATGGAGACCTACGGGCAGGAGCGTCCTGAGGAACGGCCGCTGTGGCTGGGCTCGTTG
AAGTCCAACATCGGGCACGCCCAGGCGGCAGCCGGTGTCGGCGGCGTGATCAAAATGGTG
ATGGCGCTGGGCGAAGGCGTCCTGCCACGCACCCTCCACGCCGACGAACCGTCCCCGCAC
ATCGACTGGACGGCGGGGAACGTACGGCTGCTCACCGAGTCGCGCGAGTGGCCCGTGACC
GGGCAGCCCCGCCGCGCCGGTATCTCTAGCTTCGGCGCCAGCGGAACCAACGCCCACCTC
ATCCTGGAGCAGGCCCCGGCACGCCCCGCCGAGGACACCCCGGAGGAGCCTGCGCTGCCG
CTCGTCCCGTGGCTGGTCAGTGCCAAGTCGGAAGCAGCCCTGCGGGCGCAGGCGGAGCGG
CTGCGGTCGTACGTCGCCGAACGCCCGGGACTGCGCCCGGCAGATGTGGCGTTCTCCCTC
GCCACCACGCGCGGGGCGCTGGAGCACCGGGCCGTGGTGGTGGGCACGGACCTGGGGGAA
CTCGCCGAGGGCCTGGGCGCATTGACCCAGACGGCGACCGTCGTCCCGGGCCGTACCGCC
TTCCTGTTCACGGGGCAGGGGGCTCAGCGGGTCGGGATGGGCCGGGAGTTGTATGACACC
TTCCCCGCATTCCGGAAGGCACTGGACGAGGTGTGCGCGGTACTGGACCCGCTCCTGCCA
CGCCCCTCACGTGAAGTGATGTGGGACGAAGACCCAGAAGCCCTGTCCCGGACCGAGTTC
ACCCAGCCCACGCTGTTCGCCATCGAGGTGGCACTGTTCCGCCTGCTGGAGTCATGGGGA
ATCCACCCCGACGCGGTAGCCGGACACTCGATCGGAGAAATCGCCGCCGCACACGTGACC
GGAGTACTGTCCCTTGCCGACGCATGCGTGCTGGTCGCCGCCCGCGGCCGGCTGATGCAA
GCACTCCCCCACGACGGCGTAATGATCGCCGTGCAGGCAACCGAGGACGAAGTCCTGCCC
CTGCTGGAGAAGGTCACCGGCCAGGCGGACATCGCCGCGGTCAACGCACCCGAAGCCGTC
GTCGTCTCCGGCGCCGAAACCGAAGTCGAACACGTCGCTGCCACCCTCGGCGCCCAGGGC
AGGCGGGTAAAGCGACTCACCGTGAGCCACGCCTTCCACTCCCCCCTGATGGACCCGATA
CTCAAAGACTTCCAGACCGTCGTCGAAGGACTCTCCTTCCGCCAGCCGTCCCTGCCCTTC
GTGTCCACCGTCACCGGAACCGTGGCAGGAGCGGAGATCACGGAACCTGCGTACTGGGTG
CGGCACGTGCGCCAGACCGTCCGCTTCGCCGACGGACTGCGAGCCCTCCACGAGCTCGGC
GTACGGAAGTTCATCGAGATCGGCCCCGACGCGATACTGACCGGACTCGTCGAACAGACC
CTCGACACGCAAGCCGTGCCCGTCCTGCGCCGGGACCGGGACGAGGTGCGAGCGGCAGTC
GAGGCGGCCGGCGGCTTCTTCACGCGGGGCGGTTCGGTCGACTGGCCGGCACTGCTGGCC
GGTGGACGGCGAGTCGATCTGCCGACGTACGCCTTCCAGCACGAACGGTACTGGCTGGAC
GCCCCCGTCAGCGTCGGTGATGCCACGGCGCTGGGTCTCCGGCGGGCCGAGCACCCGCTG
CTCGGCGCGGCGGTGGAGCTGGCCGGGTCCGACCGGATGGTCTTCGCGGGGCGTCTTTCG
GCGGCCTCGCAGGGCTGGCTGGTGGACCACGCGGTCCACGGCACCGTCCTTGTCCCCGGC
ACCACACTGGTCGAGCTGGCGCTGGCGGCCGGTGACCAGATGGGCAGCGGCCGGCTGGAG
GAACTGACGCTCCAGGCGCCGCTGGTCCTGCCGGAGACCGGTGCCGTGCAACTCCAGGTG
TCCGTGGGAGAGGCGGACGCCGAGGGCCGCCGTACCGTCGAGATCCACTCGCGCCCCGAG
CGGGACGCGGCTGAGGTGGCCTGGGCCTGCAACGCGCTCGGCGCCCTCACCGAGGCAGCC
GCGGAGCCCACCCCGGCCGCACTCGGCGAAGTCTGGCCCCCGCAGGACGCCTCGGCCGTC
GAGGTGGGCGACTTCTACGACGACCTGGCCGACCGGGGCTACGAGTACGGCCCCGTCTTC
CAGGGTCTGCACCGAGCCTGGCGGCGCGGCGACGAGGTGTTCGCCGAGGTGGCCCTGCCC
GAGGAGGCCGCGAACACGGTCGACGCGTTCGGGGTGCACCCTGCGCTGCTCGATGCCGCC
CTGCACGCCATGAACTTCGCCTCTGTGACCATGGGTTCGGGCACACCGCTGCCGTTCGCC
TGGACCGGAGTCACCCTGCACGCGGTCGGTGCCACGGCTCTGCGGGTGCGGATCGCACCG
GACGACGCGCGCGGCGCCGTGAGCGTGGAGCTGTTCGACCAGGCCGGATTGCCGGTCGCG
TCGGTGGAGTCGCTGGCGCTGCGCGAGGTGAGCCCGGAGCAGTTGGCGGTCGCGGACGAT
CCCGACTCGTTGTTCGAGGTCGAGTGGGTTTCCGCCGCCGACGGTGGCTCGGCCGAGGCC
GGGGCCCCCTCTTGGGCGGTTCTCGGGGACTCGCCTCTGGCCGAGGGCGGACCGGTGTTC
GCGGATGTGGAGGCGTTGGTCGCGTCGTCGCAGGACCTGCCCGGCACGGTGGTGTTGCAG
TGCCCGGCAGTGGAAGGTGCCCCGGTGCCCGATGCCGTACGGGACCGGCTCACCGGCGTA
CTGGATGTGCTGCAGCGGTGGGTTGCTGACGAGCGGCTGGCGTCCTCACGACTGGTCGTG
GTGACCCGGGGTGCCGTGGCCGCGTCGGCGAATGAGCCCGTGGACGTGCGCGTCGCGCCG
GTATGGGGTCTGGTGCGCGCGGCACAGGCCGAACACCCGGACCGATTCGTGCTGGCGGAC
CTCCCTGCGGGTGCCGGTGCGCGGGAGCTGTCCGTCGGACTGGCCTGCGATGAACCGCAG
TGGGCCGTACGGGACGGTGCCGTACGCGTCCCACGACTCGTGCGGGCCCAGGCTGCGGTC
TCCGGTGTCCCGGCGTTCGGGAACGGTCCGGTGCTGGTCACCGGGGCGTCTGGTGCACTG
GGTGGTGTCGTCGCCCGGCACTTGGTGTCAGTGCACGGGGTGCGAGAGCTGGTACTGCTC
AGCCGGCGCGGGCCCTCCGCCGACGGCATGGCCGAGGTGCAGCGCGAGCTGGCCGAGGCG
GGCGCGTCCGTAGAGGTACTGGCATGCGATGCAGCCGACCGCGACGCGTTGGCGCAGGTG
CTGGACGGCCGTGAGCTGACCGCCGTGATCCATGCGGCCGGAGTCCTCGACGACGGCGTC
CTGGAAGCGTTGGACGCCTCCCGCCTCGACACGGTGCTCCAGCCGAAGATGGACGCGGCA
TGGAACCTGCACGAACTCACCCGCCACCTGGACCTGACCGCCTTCGTACTGTTCTCATCC
GCCACCGGCGTCCTCGGCAACGCCGGCCAGGCCAACTACGCAGCCGCCAACGTCTTCCTC
GACGCCCTCGCCCAGACCCGGCGCACCGAAAACCTCCCCGGACACTCCCTGGCCTGGGGC
CTATGGGCCGAAGCGAGTGCCATGACCGCCGGACTCAGTGAAACCGACCGACACCGGATC
GCACGACTCGGCGCGCAACCACTGAACGAGACCGAAGCCCTCGCGCTGCTCGACCGAGCA
CTCGGCGAGGACGCCCCGGCTCTCCTCGTACCGGTGCGACTCAACCTTGCTGCTCTGCAA
GGTCGTTCCCAGGCTGTGCCCGCGGTGCTGCGCGCGCTGGTGCCCGTCAGGGCGCGGCGG
CAGGCGGCGGTTGGAGCGGCCGCGGGCTCAGGCGGCGGACTGGTCGAGAGGCTGGCGGCG
ATGAGCGAGAGCCGACGGGCGGCGCATCTGCTGGACCTCGTGCGTACGGAGGTCGCCGGG
GTGCTGGGACACCGTTCCGCCGCGACGATCGAGCCGGAGCGTGCCTTCAAGGACCTCGGG
TTCGACTCGCTCACGGCGGTGGAACTGCGCAACCGGCTGCACGCGGCCACCGGTCTGAAG
CCGGCCGCCACGGTCGTCTTCGACCATCCGACCTCCGCCGACCTGGCCCGTCATCTGCGC
ACGCAGATCCCGGACCTGCCGGCGGCGGGCCCGGAGTGCCTGCTCGGCGAACTCGACCGG
ATCGAGCAGATGCTGACCGACGTCGACCCGACCGACGAGAAGAGCGGCGACATCCAGCGG
CGCCTCACCGCCCTGCTCGCCCGCTTCGACGAGGCGGCGGGGCCGGTGGAGGCCGCGCAG
GTCGCCGACAAGATCGACGCCGCGACGGACGACGAGATCTTCGCCTTCATCGACAACGAA
CTCGGCTGA
[2] KS34..409
[2] AT574..893
[2] methylmalonyl-CoA765..769
[2] DH939..1105
[2] KR1417..1593
[2] ACP1702..1772
[3] KS1797..2174
[3] AT2321..2626
[3] malonyl-CoA2510..2514
[3] DH2678..2843
[3] KR3149..3325
[3] ACP3430..3500
[2] KS100..1227
[2] AT1720..2679
[2] methylmalonyl-CoA2293..2307
[2] DH2815..3315
[2] KR4249..4779
[2] ACP5104..5316
[3] KS5389..6522
[3] AT6961..7878
[3] malonyl-CoA7528..7542
[3] DH8032..8529
[3] KR9445..9975
[3] ACP10288..10500

close this sectionFeature

BLASTP
Database:UniProtKB:2011_09 		show BLAST table
InterPro
Database:interpro:38.0
IPR001227 Acyl transferase domain (Domain)
[572-696] G3DSA:3.40.366.10 [765-882] G3DSA:3.40.366.10 [2311-2442] G3DSA:3.40.366.10 [2510-2622] G3DSA:3.40.366.10
G3DSA:3.40.366.10   Ac_transferase_reg
IPR006162 Phosphopantetheine attachment site (PTM)
[1730-1745] PS00012 [3458-3473] PS00012
PS00012   PHOSPHOPANTETHEINE
IPR009081 Acyl carrier protein-like (Domain)
[1705-1771] 8.40000000000001e-12 PF00550 [3433-3499] 3.60000000000001e-12 PF00550
PF00550   PP-binding
[1695-1813] 3.1999989904635e-28 SSF47336 [3421-3505] 3.60000433965927e-21 SSF47336
SSF47336   ACP_like
[1700-1776] 6.29999999999997e-45 G3DSA:1.10.1200.10 [3429-3504] 6.29999999999997e-45 G3DSA:1.10.1200.10
G3DSA:1.10.1200.10   ACP_like
[1702-1772] PS50075 [3430-3500] PS50075
PS50075   ACP_DOMAIN
IPR013968 Polyketide synthase, KR (Domain)
[1417-1592] 6.80000000000006e-56 PF08659 [3149-3324] 7.79999999999999e-57 PF08659
PF08659   KR
IPR014030 Beta-ketoacyl synthase, N-terminal (Domain)
[34-284] 5.09999999999993e-95 PF00109 [1797-2049] 7.90000000000016e-96 PF00109
PF00109   ketoacyl-synt
IPR014031 Beta-ketoacyl synthase, C-terminal (Domain)
[292-409] 8.79999999999995e-48 PF02801 [2057-2174] 1.09999999999999e-45 PF02801
PF02801   Ketoacyl-synt_C
IPR014043 Acyl transferase (Domain)
[574-893] 7.69999999999997e-109 PF00698 [2321-2626] 1.5e-66 PF00698
PF00698   Acyl_transf_1
IPR015083 Polyketide synthase, docking (Domain)
[1-27] 1.3e-13 PF08990
PF08990   Docking
[5-34] 1.6999992228405e-06 SSF101173
SSF101173   Polyketide_synth_docking
IPR016035 Acyl transferase/acyl hydrolase/lysophospholipase (Domain)
[572-863] 9.80000272130214e-69 SSF52151 [2318-2619] 2.89997807423186e-78 SSF52151
SSF52151   Acyl_Trfase/lysoPlipase
IPR016036 Malonyl-CoA ACP transacylase, ACP-binding (Domain)
[699-764] 1.39999892049878e-17 SSF55048 [2444-2509] 6.79998707392904e-17 SSF55048
SSF55048   Malonyl_transacylase_ACP-bd
IPR016038 Thiolase-like, subgroup (Domain)
[34-295] G3DSA:3.40.47.10 [296-461] 6.10000000000004e-130 G3DSA:3.40.47.10 [1800-2061] G3DSA:3.40.47.10 [2062-2227] 6.10000000000004e-130 G3DSA:3.40.47.10
G3DSA:3.40.47.10   Thiolase-like_subgr
IPR016039 Thiolase-like (Domain)
[26-408] 1.19999063421924e-101 SSF53901 [1789-2173] 6.59996953923913e-103 SSF53901
SSF53901   Thiolase-like
IPR016040 NAD(P)-binding domain (Domain)
[1419-1600] 1.99999999999999e-66 G3DSA:3.40.50.720 [3151-3325] 1.99999999999999e-66 G3DSA:3.40.50.720
G3DSA:3.40.50.720   NAD(P)-bd
IPR018201 Beta-ketoacyl synthase, active site (Active_site)
[197-213] PS00606 [1962-1978] PS00606
PS00606   B_KETOACYL_SYNTHASE
IPR020801 Polyketide synthase, acyl transferase domain (Domain)
[576-873] 2.59998233910302e-118 SM00827 [2322-2613] SM00827
SM00827   PKS_AT
IPR020806 Polyketide synthase, phosphopantetheine-binding domain (Domain)
[1703-1775] 1.90000694315261e-34 SM00823 [3431-3503] 1.10000150671642e-32 SM00823
SM00823   PKS_PP
IPR020807 Polyketide synthase, dehydratase domain (Domain)
[939-1105] 4.30000170645869e-90 SM00826 [2678-2843] 2.99998750445706e-82 SM00826
SM00826   PKS_DH
IPR020841 Polyketide synthase, beta-ketoacyl synthase domain (Domain)
[36-462] SM00825 [1799-2227] SM00825
SM00825   PKS_KS
IPR020842 Polyketide synthase/Fatty acid synthase, KR (Domain)
[1417-1593] 7.49999605851445e-48 SM00822 [3149-3325] 1.90000694315261e-51 SM00822
SM00822   PKS_KR
SignalP No significant hit
TMHMM No significant hit
Alip_00130 Alip_00130   Alip_00150 Alip_00150
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