New model in OGS2.0 | DPOGS215598  |
---|---|
Genomic Position | scaffold446:+ 90683-96642 |
See gene structure | |
CDS Length | 2556 |
Paired RNAseq reads   | 128 |
Single RNAseq reads   | 582 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA008821 (2e-45) |
Best Drosophila hit   | CG5599 (3e-76) |
Best Human hit | lipoamide acyltransferase component of branched-chain alpha-keto acid dehydrogenase complex, mitochondrial precursor (2e-74) |
Best NR hit (blastp)   | PREDICTED: dihydrolipoamide branched chain transacylase E2 [Taeniopygia guttata] (1e-90) |
Best NR hit (blastx)   | PREDICTED: dihydrolipoamide branched chain transacylase E2 [Taeniopygia guttata] (5e-82) |
GeneOntology terms    | GO:0008415 acyltransferase activity GO:0042645 mitochondrial nucleoid GO:0005739 mitochondrion GO:0016740 transferase activity GO:0043754 dihydrolipoyllysine-residue (2-methylpropanoyl)transferase activity GO:0005515 protein binding GO:0048037 cofactor binding GO:0008152 metabolic process GO:0046949 fatty-acyl-CoA biosynthetic process |
InterPro families    | IPR001078 2-oxoacid dehydrogenase acyltransferase, catalytic domain IPR000089 Biotin/lipoyl attachment IPR004167 E3 binding IPR000477 Reverse transcriptase IPR011053 Single hybrid motif IPR003016 2-oxo acid dehydrogenase, lipoyl-binding site IPR015761 Lipoamide Acyltransferase IPR023213 Chloramphenicol acetyltransferase-like domain |
Orthology group | MCL13098 |
Nucleotide sequence:
ATGGCATTCGCAACTAGAAGATTTATTTTGCTTAACTTAAGGAATTTGAAATATAGTCTG
TATTCTGCAAATGCCAGAAAAAACACTCTCAGACATTACTCGAAAGCACTGGTGTCATTT
AAAATTGACGATAAACAGAATACGAGAAGGTTGCAAACAACAAACACATACAACAAGAGC
GTTGCCTTCAAACTATCGGATATTGGTGAAGGCATACGAGAAGTTGTAGTTAAAGAATGG
TACATCAAAGTAGGAGACAAAGTTCAGCAATTTGACAACATATGCGAAGTCCAGAGCGAT
AAAGCAGCGGTAACAATCAGTAGCCGATACGACGGTGTTGTCACCAAACTATACTATGAA
GTTGATCAAACAGCCCTCGTTGGTCAACCTCTAGTTGACATAGAAGTAGAAGATGCAGAG
GAAGACTCGTCTCAAAAGAGTGCTATTCCTGAAATAACTAAAGAAGTTCCGAAATCAGAA
GTTAAAAGTGAACGAATCAAGGTATTGACAACACCAGCTGTAAGAAGAATTGCTGCACAG
TTCAGATTTAATAATATATACACAGGACCCATCTTAGCCTTCGCTGACGATCTAGCAATA
CTGACACGTAACCCCCAACACTGTCAAGTACTATTAGATGAAGTAGATAAATTCTGTGAG
TGGAAGAATGGTTGGAGGACAAAACAAAATAAATGTCTGTGTCTCGGTAGGCGAAATACA
AAATATACCTCATACGATCCGGGATTATCGTTAGGAAGTCAATGCGTTTCTACGGTTACG
AAAAATGCACCATTTAAATTTCTCGGTCGTAAAATTGATAATATAGATCCTACTCCATCT
TTAGACGGAATAGTAGAAAGCTTTTTAAACGATCTCAACAAAGTAGATAGCCAACAGATC
AGTAACGTCAAAAAAGGTGCATCGACAACAATTAACTTCACGTTTAAATGTAGGCGTCAT
AAAGATGTTGAATTTGTGACTCGGGCTCGCGGTACGGATGATTCATCAGCTTTATTCAGG
GATCACAATAGTTTTGGGACGAGTCTAAAAAGGCCATCGGAGCTCTATAAACACCAGAGA
GTTTCCAAGGGATATATCCTGAGGAAATCCCATGATGACATTGTTACATCGCTCCCAAAA
GACAAAGGTGCCCCAGAGCTAGAGTCAAGACTTCAATTCCATAAGCAGTTTATGATACAA
GCACAAAGGAACAAAGTAGGGTTAGAATCAAATAAGAAATTCCAAGATACGGATATATTG
AAGTCTTTTATTCGGCAAGATGAGAATGATAAATATAAGATCCATGCAATGAGTTTAGAG
ATGCAGAACGAGGGGTTAGACGTAGGAGATTTTTACGTCCCATTAGCATTAAAATGGCGC
ACCTTAATTTATGATTGGTCGCCAGCATTGCTAAAATTTTATCTCAATGAGTTCCAAATG
ACGCTCCCAGATCAGAGTAATTTAGAAACCAACATCCCCAAAGATCATGCGATCAAGGTC
AATAAATATTACGAGCTCACAAACGAACTCCCTAGAAATAGGTTCATCGTGGATTTGTAC
GTTGTAGAAGTGGAAGCGAGAGGTATAACGGCAAAATCTCTCTACAACCTACTAAAAGAC
TTGGGCCTGTCCAGAACTAATATCAATTCATACCTGGAACGTACTTCTATGGCAGCTCTA
GTAGACTTGAGTAACGTTAACGCCACTGGCAAAAACGGAAGAGTACTTAAAGAAGATGTT
TTATCCCATTTAAATATGAGTTCTGATAAATCTAATGATATACCACAGAATGACTTGTCA
GTTGAAGCTTTGTCAATACCTGTCACAACTGGTTTTGCTAAAATGGAAACTATAGTGGAA
GATAAAATAGTTCCCATCACAGGCTTTACAAAGGCTATGGTAAAATCTATGACAGAAGCT
ATGAAAATACCTCATTTTGTATTTAGTGACGAATACGATGTAACAAAATTAGTAGAATCA
AGAGAAAATCTGAAAATTATGGCTAAAAATAGAGGAGTTAAATTAACCTATATGCCCATA
ATAATAAAAGCTGCGTCGCTGAGTATTGCTAAGTATCCAATAATAAACAGCAGTCCTGAC
AGCAATTGTGAAAACATTATATACAAAGCCAGTCATAATATTGGAGTGGCGATGAACACT
CCTAACGGTTTAGTGGTGCCAGTTATAAAGAACGTTCAAAATAAAAATATTATTGAATTA
GCGAGAGAACTGAATTCGCTCCAAGAAAAAGGCTCTAAAGGACAATTTGGATTTAATGAT
CTAAGTGGAGGAACCTTCACTATTTCAAACATTGGAATTGTAGGTGGAACTTATACAAAG
CCCATAATATTTTCGCCACAAGTGTCGATTGGTGCTCTAGGAAAGATTCAGGTTTTGCCT
AGATTCGATTCAGAAGGTAACGTAGTAAAGGCTCACATATTATCTGTGAGTTTTGCAGCT
GACCATAGGATTATCGACGGAGTCACTATGGCAAGTTTTTCGAATCAACTAAAGGAATAT
CTAGAGAATCCACAAGTACTACTTTTAGATCTGTGA
Protein sequence:
MAFATRRFILLNLRNLKYSLYSANARKNTLRHYSKALVSFKIDDKQNTRRLQTTNTYNKS
VAFKLSDIGEGIREVVVKEWYIKVGDKVQQFDNICEVQSDKAAVTISSRYDGVVTKLYYE
VDQTALVGQPLVDIEVEDAEEDSSQKSAIPEITKEVPKSEVKSERIKVLTTPAVRRIAAQ
FRFNNIYTGPILAFADDLAILTRNPQHCQVLLDEVDKFCEWKNGWRTKQNKCLCLGRRNT
KYTSYDPGLSLGSQCVSTVTKNAPFKFLGRKIDNIDPTPSLDGIVESFLNDLNKVDSQQI
SNVKKGASTTINFTFKCRRHKDVEFVTRARGTDDSSALFRDHNSFGTSLKRPSELYKHQR
VSKGYILRKSHDDIVTSLPKDKGAPELESRLQFHKQFMIQAQRNKVGLESNKKFQDTDIL
KSFIRQDENDKYKIHAMSLEMQNEGLDVGDFYVPLALKWRTLIYDWSPALLKFYLNEFQM
TLPDQSNLETNIPKDHAIKVNKYYELTNELPRNRFIVDLYVVEVEARGITAKSLYNLLKD
LGLSRTNINSYLERTSMAALVDLSNVNATGKNGRVLKEDVLSHLNMSSDKSNDIPQNDLS
VEALSIPVTTGFAKMETIVEDKIVPITGFTKAMVKSMTEAMKIPHFVFSDEYDVTKLVES
RENLKIMAKNRGVKLTYMPIIIKAASLSIAKYPIINSSPDSNCENIIYKASHNIGVAMNT
PNGLVVPVIKNVQNKNIIELARELNSLQEKGSKGQFGFNDLSGGTFTISNIGIVGGTYTK
PIIFSPQVSIGALGKIQVLPRFDSEGNVVKAHILSVSFAADHRIIDGVTMASFSNQLKEY
LENPQVLLLDL