| New model in OGS2.0 | DPOGS204685 |
|---|---|
| Genomic Position | scaffold3745:- 11278-23487 |
| See gene structure | |
| CDS Length | 2880 |
| Paired RNAseq reads | 889 |
| Single RNAseq reads | 2062 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010132 (0.0) |
| Best Drosophila hit | holocarboxylase synthetase (2e-91) |
| Best Human hit | biotin--protein ligase (1e-38) |
| Best NR hit (blastp) | PREDICTED: similar to CG14670-PA, partial [Apis mellifera] (1e-142) |
| Best NR hit (blastx) | PREDICTED: similar to RE09732p [Nasonia vitripennis] (1e-123) |
| GeneOntology terms | GO:0004080 biotin-[propionyl-CoA-carboxylase (ATP-hydrolyzing)] ligase activity GO:0004077 biotin-[acetyl-CoA-carboxylase] ligase activity GO:0006464 protein modification process GO:0009408 response to heat GO:0005700 polytene chromosome |
| InterPro families | IPR004408 Biotin--acetyl-CoA-carboxylase ligase IPR004143 Biotin/lipoate A/B protein ligase |
| Orthology group | MCL14458 |
Nucleotide sequence:
ATGAAAGAGACCCCAACGCTCAGTTCAAAATTATGTACTAACCCAAAGAATGCATATCTA
TGTGATCTCCTTGATTATACTAATGCATCACGGATATGCAGCATGAAGCCCACACAATGC
ATTGATATAAACGACTGGGTGGCATGTACTGGTGGACTGCCTTTAGGAAACGAATACAAT
TTACCTATCGATGATCTTAATGTTGAAGTGCTTTTTGAATGCGAGATGGATCCGCATGGG
GATAGCTCATATCAAAATATAATAACTTTGGAATCGATGGGTCAACCTATAGCTTGGAAG
GCCGGTTCGCATTTAGCTATTGTATTAAAAACGAACATTGAGCATCTGAGTCTGGTCGGC
TTCCATTTTGTTGGTGGGGAATTCATTATTGATCACAAGTTGCCCGTTGTTAGGATACAA
ACTGTCAAACTTTCCGGGGAGCCAAATAAAGCTGTCGACTTATCAATGCGAGGACTCCGT
AGTGAAATTCAGCATAGTTTGAAATTATCCCACGAGGAATTCCAATGGCCTCTCCACGCG
GCGCTCTTAAGGAAACTTTCGAAGGTCGTTGACATTAAGTCAGAAAGAAGGAGCATAGAA
ATGAATGGGGGCAGTGATAAGGTTATAGACACGTCACCAAGAAAGAAAGTCACGCTTCAC
GATGTCAGTACAATCACAACTAAATCACTGGGAGAGGAAGAAAAGCCGGATGTATCGAAA
GAATTGAGTGCAGTTGAAGTGAAGCCGGAGAAAACTGAGATACTTGTCGAGAAAATTGTG
AAGGAAATCGTCCATAAATCACCAGAAAGGAAAATAAGGAGGTCTCCAGAAAAGATCATA
AACAAATCACCAGAAAAGAAGCTGGTGGTGCCAGAAAACGGTGAACTAGTAGTGGAAAAC
GTGACCGTAGAAATACAACATAACATAACACCAAAAAAATCCAGTCTCAAGTTGGATCTC
AAGAAGGGCACGAGCCAAGCTTCCTCGTCGCTACTCAACATCTCCAGTCAAATTAAATCA
ATTACGACACACAAAAGAGTAGTCAGCACGACCGCGCCGAGACGTCCACAGAGTTCGGCT
TCAAATTATTCAAACGTTAAAGAGGATACACCAAAGAGTTCGCCCTCGCAGATGACGCCC
AAGTCAGCCAAAAGTTCCCGTCCGTTAGTGAATACTAAGTCCCTGAACGTATTAATATAT
TCCGATAGTGTAGTGGCTAGGGATAACCTGGAATCGTCCCTGAGGAAAGTCTTAGACTGT
GATCGGTATACAGTATATAGCGTGTCTGCGGCTTCTCTCCTTGGAGGTGCGTGGCGTGGG
CGGGCGGCGTTAGTGGCAGTGGCAGGTTGTGCTGGAAGGGCGGCACCCTTACTACTGGCA
CACCTGTTAGACGGCGGAAGACTTCTGGCTCTCTGCTCCGACCTGCTGCACACTGTGCTA
CCTCACTATAAGACCGCTGAGATAAGGGAAAACGAGGTGGTTCAATTCTCATACGACAAA
TGGGAGTCGGTTAAAATGAAACATCACATATTCTGCTACCAGGCGTCGCCAGCAAAGAAA
CAGTTCTCAACTGAGAGCGACAGACAGCCATCCAAATACACGGGTCATCCAGGTCATGAG
CTGGATATCCAGGTGTTAGCTTCTGAAGAAACCTGGAGGACGCCATCACTGCTGCAAGCC
ACTGACACAACTAACAAAGGAATGGCCATTTTCTCGCAGATCCACTTAGAAGCTGATCCC
TGTGACTATCTCGGGGAGGAAGGTGTGAGGAGCAACGAGGCCAGGATTGAAATACTCCAC
AAGATACTAGGAGACGTTCTCGGCCTACACGTTAAAGATCCCAAAGAACTCACCACCGTC
GAATACACCAGGGGATACTTCCTGGGAAACCACCTGCAAAAGATCTCGCTAGTGGAGGCG
TGGTGTGGGGGTGTCGGGGGTGCGACGAGGGTGCAGGATGTGGGGGGTGTGAGGGTGCAG
TGGTGCGGGAGGGGGGAGGAGGGTGATCCCCCCGGGGATGCCAGCCTGCCGGTGTCACTC
TACGAGTGTCCAGAGAACTTTGACACTGTTGAATATTTTGATAATCTTACCTCAAGATCG
CTGGGCCGCCTTTTGATATACGCGGATGTGTTGGCTAGCACTCAATTCATCAGCGGATGT
TCGCTGGCTCATGGCGTGGGGGCGACTGCCAGGAGACAGGTCAAGGGTCGCGGAAGAGGA
GGAAACACCTGGATCACACCACACGGACAGGCCGCCATTACTGTACAGATATGGCAGAAG
ATTTCGCCCTTACTACCATTATACCAGCACGCGGCTGCGCTCGCCGCCACGAGGGCTGTA
CGACTACAACACGGATACGATCAGATAGACATACGTATAAAATGGCCGAACGACATCTAC
TACGGGCGGGAGATGAAGGTGGGCGGCACCATCGTCACGGCGAACTGCATCGGCGATGAC
GTCATCATCGGCATCGGCACGGGTATGAACGTCTCTAACAAGGTGCCGACGACCTGTCTC
GATGATATAATAACGGATTACAACAAGAGCCGCGGCACATCACTAGCGTTGATATCGATA
GAAAAGTTCCTCGCCCGATACTGTTCAGAACTGGAAATTATTCTGGATGATCTTGAGAAA
AATGGCGTGGAGGGATTCCTTGAGGATTATTATAAATACTGGATGCATTCTGGCGATGAG
ATCACAATAACCGGCGCCAGCGGGGCCGCCGTGCCCGGGGTGGTCAGAGGCGTCGACGAT
GCCGGCTGGCTGTTGGTAGAGACGGGAGGCGAAGCCGGGGGGCGAAGCGATATAGTGCGG
GTGGCGCCCGACGGCAACACCTTCGATATCATGGCCGGCCTCATTGCACCCAAGTGCTAG
Protein sequence:
MKETPTLSSKLCTNPKNAYLCDLLDYTNASRICSMKPTQCIDINDWVACTGGLPLGNEYN
LPIDDLNVEVLFECEMDPHGDSSYQNIITLESMGQPIAWKAGSHLAIVLKTNIEHLSLVG
FHFVGGEFIIDHKLPVVRIQTVKLSGEPNKAVDLSMRGLRSEIQHSLKLSHEEFQWPLHA
ALLRKLSKVVDIKSERRSIEMNGGSDKVIDTSPRKKVTLHDVSTITTKSLGEEEKPDVSK
ELSAVEVKPEKTEILVEKIVKEIVHKSPERKIRRSPEKIINKSPEKKLVVPENGELVVEN
VTVEIQHNITPKKSSLKLDLKKGTSQASSSLLNISSQIKSITTHKRVVSTTAPRRPQSSA
SNYSNVKEDTPKSSPSQMTPKSAKSSRPLVNTKSLNVLIYSDSVVARDNLESSLRKVLDC
DRYTVYSVSAASLLGGAWRGRAALVAVAGCAGRAAPLLLAHLLDGGRLLALCSDLLHTVL
PHYKTAEIRENEVVQFSYDKWESVKMKHHIFCYQASPAKKQFSTESDRQPSKYTGHPGHE
LDIQVLASEETWRTPSLLQATDTTNKGMAIFSQIHLEADPCDYLGEEGVRSNEARIEILH
KILGDVLGLHVKDPKELTTVEYTRGYFLGNHLQKISLVEAWCGGVGGATRVQDVGGVRVQ
WCGRGEEGDPPGDASLPVSLYECPENFDTVEYFDNLTSRSLGRLLIYADVLASTQFISGC
SLAHGVGATARRQVKGRGRGGNTWITPHGQAAITVQIWQKISPLLPLYQHAAALAATRAV
RLQHGYDQIDIRIKWPNDIYYGREMKVGGTIVTANCIGDDVIIGIGTGMNVSNKVPTTCL
DDIITDYNKSRGTSLALISIEKFLARYCSELEIILDDLEKNGVEGFLEDYYKYWMHSGDE
ITITGASGAAVPGVVRGVDDAGWLLVETGGEAGGRSDIVRVAPDGNTFDIMAGLIAPKC