| New model in OGS2.0 | DPOGS206960 |
|---|---|
| Genomic Position | scaffold4061:+ 2692-10268 |
| See gene structure | |
| CDS Length | 4878 |
| Paired RNAseq reads | 3460 |
| Single RNAseq reads | 9205 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013151 (0.0) |
| Best Drosophila hit | CG17374 (0.0) |
| Best Human hit | fatty acid synthase (0.0) |
| Best NR hit (blastp) | p260 [Bombyx mori] (0.0) |
| Best NR hit (blastx) | p260 [Bombyx mori] (0.0) |
| GeneOntology terms | GO:0004312 fatty acid synthase activity GO:0006633 fatty acid biosynthetic process GO:0005835 fatty acid synthase complex GO:0000036 acyl carrier activity GO:0016491 oxidoreductase activity GO:0055114 oxidation reduction GO:0008270 zinc ion binding GO:0048037 cofactor binding GO:0016788 hydrolase activity, acting on ester bonds |
| InterPro families | IPR020841 Polyketide synthase, beta-ketoacyl synthase domain IPR020801 Polyketide synthase, acyl transferase domain IPR020843 Polyketide synthase, enoylreductase IPR016039 Thiolase-like IPR016035 Acyl transferase/acyl hydrolase/lysophospholipase IPR011032 GroES-like IPR016036 Malonyl-CoA ACP transacylase, ACP-binding IPR016038 Thiolase-like, subgroup IPR001227 Acyl transferase domain IPR016040 NAD(P)-binding domain IPR014043 Acyl transferase IPR014030 Beta-ketoacyl synthase, N-terminal IPR014031 Beta-ketoacyl synthase, C-terminal IPR013149 Alcohol dehydrogenase, C-terminal IPR000794 Beta-ketoacyl synthase |
| Orthology group | MCL10068 |
Nucleotide sequence:
ATGGCACCGAAGCCCAATGAATTTATATCTTTTAAGGACGGTTTGAACGATGCCAGTTCT
GGAGAGAGGGTGGTCATTTCGGGAATGTCTGGATTATATCCCGACTCCCAAAATATTAAG
GAACTTTCTGATATTCTGTACAACAAGATCAATCCTGTAAGTGATGAAAATTCACGTTGG
GTCTATGATCATCCTGAGGTAGCCCAGTTTACTGGTAAGCTGCCAGGTCTGAAACTTTTC
GACGCTCAGTTCTTCAAAGTGCACTTTCGTTTAGGAAGCAACATGGACCCCATGGGTCGT
AAAATCTTAGAACAAGCCTATCAAGCTATATACGACGCGGGAATAAGCCCAGAACAACTA
TCGGGAAAAAAAGTCGGCGTGTATGTGGGCAGTTGTTTTTCTGAGACCGAAAAGGCTTGT
TTTTATGTAGCAAGTTCAAGAACTGGTTTCGGTATCGCAGGATGTAGTAAGACCATGTTT
GCGAATCGAATCTCTTACTGGTTGAACGCCAAAGGACCTTCCATGTCTGTTGACGATGCC
TGCTGCAGTTCGACTGTGGCTCTAGAGTTGGCCTACCAAGCCATTAATCGTGGTGAATGC
GAGGCCGCTATTGTCGGAGGTTCCAATTTATGCTTACACCCGCAGTCGTCAATTCATTAC
GGAAGAATTATGAAGCTCAGTATGGATGGAAAAACGAGATCCTTCGACGCTAATGCATCT
GGATGTGCAAAATCTGAAGCAGTTAATGTACTATTCCTTCAAAAGGCTAAAAATGCTTTG
CGAGTTTATGCCGAACTTGTTCATATGAAGTGTGAATACACATCAATTCTTGAAGGAGAA
TCTGGTCCGAAGTATGGGTTTTATCGTGACCCTCTTAATATGGCTAACTTCATTGAACAG
TTCTATAAGGAAGCTAAAGTTTCTCCGCTAGAAGTTGAATATGTCGAAGCTTTTGGATCA
GCTGTACCAGAAGTCGATAAAACGGAATTAGAAGCAATAGATAATATTTATTGTAAGGGA
AGAAAAGAACCACTTTTAGTTGGGAGTGTTATGTCAAATATCGGATACGGTGAAGCAGCT
TCAGGCATATCAGCTGTAACCAAAGTTCTTCTGGCATATCAAAATGGTAAAATTGCTGCC
AATCTGGACTGTGATTCACCTCGTAACGATATTGAGGCTCTGCGTGATGGAAGGATACGT
ATTGTCACGGAGCATCAGAGTTTTGGTCGTAATTATACAGCTATAAATGGTCTTTCGATT
ACCGGAGTCAATAGTCATATACTCTTAAGTGGTCATTACAAACCAAAGGATCTCTCTCGT
TACAAAAGTGCTATTCCTCGTCTGGTAACAATATCAGGCCGACAGGAGTCATCCGTCGAA
AAAGTGCTTAAGGATTTAAAATCGAGACCAGTAGATCCAGAGCAGTTGGCACTTTTGTAT
AACATCCACCAAACACGAATTACTGGACATTTGGGAAGGGGTTACGCAATACTAGATACT
GATGAAAATAATCAAACTGTGTGTCTGGCTGAAAAGTCCAACTACTTCGACGACGTCAAA
AGACCCCTTTGGTTTGTGTACAGTGGAATGGGTTCTCAATGGGCAGGAATGGGAACTCAG
CTTATGAGGATTCCAATTTTCGCAGCGGCCATTGAACGATGCCATCGTGTTTTGGAGCCC
AAGGGTATTGACATTGTTCACATCATTACGTCGCCAGATAAAACCATATTCGACAATATT
CTTCATTCTTTCGTTGGAATAGCAGCTGTGCAAATTGGTTTGACAGATATACTCCGAGAA
TTGGGAATATTCCCGGATAAAATAATAGGACATAGTGTGGGTGAACTGGGATGTGCGTAT
GCAGATGGATGTTTTACAGCAGAAGAGATGATCCTGTCAGCTTATTCCCGAGGTCTTGTC
TCTGTGCAAACTCCATTTATTCGTGGTTCTATGGCGGCCGTTGGCATTGGATACCAGCAG
GTTTCAAAAATGTGTCCACCGGAGATTGAAGTTGCTTGTCATAATGGTCCAGACTCTAGC
ACGATATCAGGACCGGCTGAAATAATGAAAGAATTTGTCGCCGAATTAACAAAGAAGGAT
ATTTTCGCGAAGGAGGTGCCATGTTCTAATATAGCCTATCACTCTCGATACATCGCAGAA
GCAGGTCCCGGATTACTGAAGTATCTGAAGGAAGTGATACCAAATCCCAAACTCCGGAGT
GAACGTTGGCTTTCAACGTCTGTACCACAAGACAGATGGGAAGAACCAATTGCTAAATAT
TCTTCTGCAGAATACCACACGAACAACCTGCTTAATTCAGTCCTGTTTGAGGAAACATCA
AAGTTGATCCCGAAAAATGCAGTACTAATTGAAATTGCCCCGCATGGTCTTCTACAAGCT
ATTTTGAAAAGATCATTGGATGAAAACTGTAGACACGTGCCACTTACACGAAGAGGCCAT
CCTGATAATGCCAAATTCTTATTGGATGCCATTGGAAAGCTTTATATGGAAGGATATAAC
CCTAAAGTTGAAGCACTTTATCCCAAGGTCGAATTTCCCGTGTCTTCGGGAACACCAATG
CTTTCTCACCTAGTCGATTGGGCCCACCATGAAAGATGGAATGTGCCATTGTATGCCTCT
GCACATAGAAAAACTGCCGCCTCATGTAAATTTGTGTTATCTATCCACGATGATGCGCAT
GCTTACTTAAAGGGAAATGTTGTTAGAGGAATAAATGTTTATCCATTTTCTGCGGTTTTG
GTAGCTGTATGGGACACTTTAGCAATGATTATGAATGTTCCTAAAAGGCAATTGTCGATA
CAATTCAATAATATTCACTTCAATACGCAACCTATTCTTCATGATCAACGACAATTACGA
TTAAACGTATCGATACAGAGAGGAACAGGTCGATTTGAGGTATTTGATGAGAATATTGAA
GTCGCGACCGGTACCATAACTGGTAATTTAAATAGTTATTTCAATCGACCTGAAGATATT
ATTCCAGAAGAAAAAACATGGTTGGATTCGAATGATTTGTACAAAGAATTAAAAACGAGA
GGATATAGTTATTCGGATGATTTCCGCAGTATTCACAGCAGTAATTTATCTTTAAGTAGC
GCTCAATTGATCTGGAAAGATAACTGGGTTACGATTATTGATAGTATGATGCAAATAAAC
ATTTTGAAACGGTCACATGACTATATCTCATGCCCTAATTTCATCAGAAGCATAGCTATC
GATGTTGAAAAACACGCTAAAACAGAGATGGTTGAAGTAGACGGCGTAACAGTTATGAAC
GCGTCTATTTCAGAAAAGCAAGATTGGACGAGATGTGGAGGAATTTCGGTAGAGGATATA
CAATTCATCGATATACCTAAAAATGAAAAAGAAATAGACGTCAAGGCTTTGAAGTTTGTT
CCCCATATCACCACCAATAAAATCGATGATGATACTGCATTAACCTGCTTTTTACATTTG
GTGGCTGAAAATATTAATAAAGAGGTTTTACAAATAGTGCAGATTTCAGACAATGCTAAT
GATTATCATCTTTTTGAAAAAATTAAACATTTAGCAACTAATAGCATTACTGGGATTAAG
ACTCAATTTTGTTATGTCACTCGTGAAAAACTTTTTGAAGATCCGAATAACTTTATATCC
AACGCTGACTTACTTTTGATAAATAATTTATCAAATGACGACAAAATTTGTCAAATTTTC
TACCGACATTTAAGACGTGATACTTTCGTAATCAGCAAAGAAAATCGTCTAGAAGACATG
TCTAAGCAAAGGCCATCAGCTTTATACCGATCTGTTTGTTCGCATGGAATTGGTGATGTT
TCCTGGGAATTAGTTCATTGGAGACCATCTGAAACGAATGCTGGTACAAGTGCTTTAACA
ATACTTTCGGAATCTGACCTTCCATCTCTTGTATCGTCGCTGACAACTCTCCCACAGAAA
CAGAGATTAGTAATTCTGACTTCATATCCAGCGGTGTCAGGCTTAAAAAGTCTTATTAAA
GAATGGAGACAGAAAAATCGCTGTATTAATTTGATCATGATTAATCACAAAATAGCTGGA
GATCAGTCTATGGATCAAATTTCGTTTACAAATTTGGCTGTAAACATTTTAGATCATGGT
ATTTGGGGAGGCGAGTACTTCTTGCCGTTGGAAGAAAATACAATTAAAGGCCGTGATATG
TCGTTAGACATCGCTCGATTGGGTGATCTTGATTCCTTGCATTGGGTTGAAGCTCCAGAG
TTAGATGAACAAGGAGTTATTGTCAAGGTTCATTATGCTGGAGTGAATGATGTTGATTTA
AAAACAAAAATGGGAGCGGTTGAAACTGTCAAATCCAAGAAACTCGTAGATTTTGACTTC
AGTGGTAAAACTGAAAGTGGAATTTCCGTTATGGGCGTCGCACAAGGAGAATCTATAACA
ACACGAGTGAATGCAAGACCGGAAGCATTGTGGCCAATTCCAAGCCATTGGAGTCTCGAG
GATGCTGCCACTGTGCCTTTGGCATACCTTATGGCGTTCTATTGCCTTACAGTTAAAAGT
GGTCTGAAATATGGATGTACTATTTTAGTACATAGCGGGACTGGAGCCGTGGGGCAAGCG
ATCATATCAATAGCTTTGGCGTTTGGTTGCGAAGTTTTTACAACGGTTAATGACATCAGA
AAGAAAAAGTTCTTACTCAAGCTTTTCCCAGCACTTAAAGCTGATAACATTGGAAGTTCA
CAAGACGTAAGTTTCTCTGATATGGTCCTGAAGGCAACTAATGGTCAGGGTGTTAATATC
GTTATAAGCTGTGTTAAAGGTGATCTGAAAAATGTAGGCATCGCTGAAATGTTGTCATTC
GTCAGGATCAGTGATTGA
Protein sequence:
MAPKPNEFISFKDGLNDASSGERVVISGMSGLYPDSQNIKELSDILYNKINPVSDENSRW
VYDHPEVAQFTGKLPGLKLFDAQFFKVHFRLGSNMDPMGRKILEQAYQAIYDAGISPEQL
SGKKVGVYVGSCFSETEKACFYVASSRTGFGIAGCSKTMFANRISYWLNAKGPSMSVDDA
CCSSTVALELAYQAINRGECEAAIVGGSNLCLHPQSSIHYGRIMKLSMDGKTRSFDANAS
GCAKSEAVNVLFLQKAKNALRVYAELVHMKCEYTSILEGESGPKYGFYRDPLNMANFIEQ
FYKEAKVSPLEVEYVEAFGSAVPEVDKTELEAIDNIYCKGRKEPLLVGSVMSNIGYGEAA
SGISAVTKVLLAYQNGKIAANLDCDSPRNDIEALRDGRIRIVTEHQSFGRNYTAINGLSI
TGVNSHILLSGHYKPKDLSRYKSAIPRLVTISGRQESSVEKVLKDLKSRPVDPEQLALLY
NIHQTRITGHLGRGYAILDTDENNQTVCLAEKSNYFDDVKRPLWFVYSGMGSQWAGMGTQ
LMRIPIFAAAIERCHRVLEPKGIDIVHIITSPDKTIFDNILHSFVGIAAVQIGLTDILRE
LGIFPDKIIGHSVGELGCAYADGCFTAEEMILSAYSRGLVSVQTPFIRGSMAAVGIGYQQ
VSKMCPPEIEVACHNGPDSSTISGPAEIMKEFVAELTKKDIFAKEVPCSNIAYHSRYIAE
AGPGLLKYLKEVIPNPKLRSERWLSTSVPQDRWEEPIAKYSSAEYHTNNLLNSVLFEETS
KLIPKNAVLIEIAPHGLLQAILKRSLDENCRHVPLTRRGHPDNAKFLLDAIGKLYMEGYN
PKVEALYPKVEFPVSSGTPMLSHLVDWAHHERWNVPLYASAHRKTAASCKFVLSIHDDAH
AYLKGNVVRGINVYPFSAVLVAVWDTLAMIMNVPKRQLSIQFNNIHFNTQPILHDQRQLR
LNVSIQRGTGRFEVFDENIEVATGTITGNLNSYFNRPEDIIPEEKTWLDSNDLYKELKTR
GYSYSDDFRSIHSSNLSLSSAQLIWKDNWVTIIDSMMQINILKRSHDYISCPNFIRSIAI
DVEKHAKTEMVEVDGVTVMNASISEKQDWTRCGGISVEDIQFIDIPKNEKEIDVKALKFV
PHITTNKIDDDTALTCFLHLVAENINKEVLQIVQISDNANDYHLFEKIKHLATNSITGIK
TQFCYVTREKLFEDPNNFISNADLLLINNLSNDDKICQIFYRHLRRDTFVISKENRLEDM
SKQRPSALYRSVCSHGIGDVSWELVHWRPSETNAGTSALTILSESDLPSLVSSLTTLPQK
QRLVILTSYPAVSGLKSLIKEWRQKNRCINLIMINHKIAGDQSMDQISFTNLAVNILDHG
IWGGEYFLPLEENTIKGRDMSLDIARLGDLDSLHWVEAPELDEQGVIVKVHYAGVNDVDL
KTKMGAVETVKSKKLVDFDFSGKTESGISVMGVAQGESITTRVNARPEALWPIPSHWSLE
DAATVPLAYLMAFYCLTVKSGLKYGCTILVHSGTGAVGQAIISIALAFGCEVFTTVNDIR
KKKFLLKLFPALKADNIGSSQDVSFSDMVLKATNGQGVNIVISCVKGDLKNVGIAEMLSF
VRISD