| New model in OGS2.0 | DPOGS202685 |
|---|---|
| Genomic Position | scaffold2557:- 14722-26785 |
| See gene structure | |
| CDS Length | 3750 |
| Paired RNAseq reads | 16308 |
| Single RNAseq reads | 39247 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011223 (1e-19) |
| Best Drosophila hit | CG11198, isoform D (0.0) |
| Best Human hit | acetyl-CoA carboxylase 1 isoform 3 (0.0) |
| Best NR hit (blastp) | acetyl-CoA carboxylase, putative [Pediculus humanus corporis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to ENSANGP00000015662 [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0003989 acetyl-CoA carboxylase activity GO:0005524 ATP binding GO:0006633 fatty acid biosynthetic process GO:0009374 biotin binding GO:0005811 lipid particle |
| InterPro families | IPR000022 Carboxyl transferase IPR013537 Acetyl-CoA carboxylase, central domain IPR011762 Acetyl-coenzyme A carboxyltransferase, N-terminal IPR011763 Acetyl-coenzyme A carboxyltransferase, C-terminal |
| Orthology group | MCL10763 |
Nucleotide sequence:
ATGAAAATTTGTGATAGACATGATGATGAAGTATCCCCTGAGGAGTGGAAATTTCCTACA
GTTGTATGGATATTTATATATTATACGGTGTGCAACGCTGCGTTGGAGGTTTACGTCCGG
CGCGCTTACACCTCGTACGACATAACATGCCTGCAGCATCTGGCTTTGTCCGGGGAATTG
GGTGTGGTGCACTTCCAGTTCGTGCTCCCGACGGGACATCCGAACAGTATTAACCAAACA
GCTATCCGTAACCAGGAGTTGGAGCCGATCCACATCCTCATGATCGGTATCCGGGACAGC
GGGGAGAGCGATGACGTCACCGTGTCCCGGCGCTTCGGTCACTTCTGCAGGGTCCACATG
AGAGAGCTGCACCACAAACGTATAAGAAGGATCACATTCATGTTGCTCATCAAGCGTCAG
TTCCCCAAGTTCTTCACGTACCGCGCGAGGAATGACTTCTCCGAGGACACTATCTACCGA
CACTTGGAGCCGGCGTCCGCCTTCCAGCTGGAGCTGTACCGGATGAGGAGCTACGAGCTG
GAGGCGCTGCCGACCAGCAACCAGAAGATGCATCTGTACCTGGGCAAGGCCAAGGTGAAG
AAAGGCCAGGAGGTGACGGATTACCGCTTCTTCATCAGATCCATCATCAGGCACCAGGAT
CTCATCACCAAGGAAGCGTCCTTCGAGTACCTACAGAATGAAGGGGAAAGGTCTCTGCTG
GAAGCGATGGATGAACTGGAGGTGGCCTTCTCTCACCAGCTCGCCAAGAGAACGGACTGC
AACCACATCTTCCTTAACTTTGGCCCAACCGTCATCATGGATATTGCCAAGATCGAGGAA
TCAGTGCTGGGAATGGTTATGAGGTATGGACCTCGTCTGTGGAAGCTCAGGGTACTGCAG
GCGGAGATAAGATTCACTTTGAGAACAGGCCCCGGCGTGCCCACTAAGAACGTCCGTCTA
TGTCTGTCCAACGGTTCCGGATACTCCCTAGACGTGTACACATACGAGGAAGTAGTCGAC
CCGAGGACGGGAGTGATAATATTCCAGTCCTTCGGCCCCAAGCAAGGTCCAATGCACGGT
CTTCCAATATCGACGCCCTACGTCACCAAGGACTACCTGCAGCAGAAGAGATTTTTGGCT
ACATCCCAGGGCACTACATACGTGTACGACATCCCGGATATGTTCAGGCAGGTGGTAGAG
GGGCAGTGGAGGGAGAGCATCGAGGAGGGGGCTGTGGACGGTGAGATTCTTCCTTTGCCT
CCTTTGTGTATCCAGGCTACATCCCAGGGCACTACATACGTGTACGACATCCCGGATATG
TTCAGACAGGTGGTAGAGGGGCAGTGGAGGGAGAGCATCGAGGAGGGGGCCGTGGACGGT
CCTATGCCCGACACCGTGATGGTGTCCTTGGAGCTGGTGGTGGAGACAGACGGTGAGAGA
CGCATCATGGAAGTCACAAGGCTACCTGGACAGAACACCGTCGGGATGGTCGCGTGGCGG
ATGACGCTCTACACTCCCGAAGTGCCGTCGGGTCGGGATGTGGTGCTGATAGCGAACGAT
CTGACACATTACATGGGGTCGTTCGGACCCCAAGAGGACTGGGTCTATTATCGCGCATCC
GAATACGCCAGGGAACACAAGATACCCCGGTTGTACGTGAGCGTCAACTCCGGCGCCCGC
ATCGGCGTTGCTGAAGAAGTGAAATCAGAATTCAAAGTAGCCTGGCTAGATTCAGAGCGG
CCCGAGAGGGGCTTTAAGTATCTGTACCTCAGCCCTGAGGCGTATTCCCGTCTGGGGGCA
TTGAACTCCGTGAAGACCGAATTGATCGATGACGAAGGAGAGTCCAGATACAAGATAACC
GATATCATAGGCAAGGAGGACGGTCTGGGAGTGGAGTGTCTCCGGGACGCCGGGCTCATA
GCGGGGGAGACGGCCCAGGCTTACGAGGACATCGTCACCATCTCTATAGTCACGTGCAGG
GCTATCGGAATAGGGTCCTACGTTGTGAGATTGGGTCACCGTGTCATCCAAGTGGATTCC
TCGTACATCATCCTGACCGGCTACATGGCGCTGAACAAGGTCCTCGGCCGCTCCGTGTAC
GCGTCTAACAACCAATTAGGCGGTGTACAGATCATGCATAACAACGGAGTGACACACGCA
GTGGCGCCCTCCGACCTGGAGGCCGTGCGGACGGCGCTCAGGTGGCTGGCATATGTACCT
AAGATAGGCCCCTTAAACCTACACCTGGGTCGCAAGTCCCAGGCACTGTTGAAGCTCCTC
TCCCTGCATCATGGACCCGGCATCCGCGCGGACAAATTAAGTATGGTGCCGATAATAAGG
AGCGTGGACCCCATAGACCGGCCGGTGGAGTGGGTCCCTCCCCGAGCGGCGCACGACCCT
CGCCTCATGCTGACGGGAGACGGCATCCGGGCCGGCTTCCTCGACAACGGCTCCTTCGAC
GAGATCATGAAGCCCTGGGCACAAACTGTTGTTACAGGTCGTGGTCGCCTGGGCGGTATC
CCCGTGGGCATCATCGCCGTGGAGACGAGGACTGTGGAGCTGACGCTGCCCGCCGACCCC
GCCAACTACGACTCCGAGGCCAAGACTGTGCAACAGGCCGGGCAGGTGTGGTTCCCCGAC
TCCGCCTACAAGACCTCCCAAGCGATAAACGACTTCTCCAGAGAGAATCTCCCCATCATC
ATATTCGCCAATTGGAGAGGTTTCAGCGGAGGTCAGAAAGACATGTACGAGCAGATCTTG
AAGTTCGGCGCCGAGATAGTCCGGGCCCTACGCGGGGCCACCGCTCCCGTGCTGGTGTAC
ATACCGCCCGGGGCCGAGCTCCGCGGCGGGGCCTGGGCCGTCGTGGACCCCAGCGTCAAC
AACCTCAGGATGGAGATGTACGCCGACAACGAGGCACGGTCAGTTGAGCACGTCTATGTT
TGTTACAGCTGTACTCAGAAACTGCTTCCAGTGGTTTCGGCGGCGTGTTGGATGTTGGAG
GCGGAGGGGATCGTTGAGGTGAAATTCAAACAACGAGACATACTCAAGACCATGAACAGG
CTGGACTCCAACCTACTCAGACTCAACTCCAGAGTTAGTGAAATTAAGGAACAAATCAAA
GAAATCTCAAAGAACCTGGACAGGCGGGGATCCATAGACGACGTGTTGATAAAGACCGAG
ACCGGCAAACAAGCGGAAGCGAAAATACACGAATTGGAAGCAGAATTAGGCACCGCTGAG
AAATCTATAAAGGCCAGGGAGAAGGAATTGAGTCCGATATACCATGAGATAGCGGTTCAG
TTTGCTGAGCTCCACGACACAGCTGAGAGGATGTTAGAGAAGGGTTGTATATTTGATATA
ATACCCTGGCGCGAGTCCCGTCAGTTGTTGCACTGGAGGCTTCGAAGGTTGTTGCTGCAG
AACGAACAGGAGAGGAGAGTGCAGGCAGCGACCCGACCAGCCAGGATGGACCAGAGGGCT
GCAGCGGCCACACTGAGGAGGTGGTTCACAGAAGACCGGGGAGAGACACAGTCACACCAG
TGGGAGAATGACAACCAAGCGGTCTGTAGCTGGCTGGAGAACCAGGTGAAGGACAACGAG
TCCGTGCTGGAGAGGAACCTCAGAGCTATCACAGAGGATGCAGCGCTACAGGCCTGTAAC
GAGCTAGTCAGGAAACTGAGTCCATCACAGCGGGCAGAGTTCATCAGAAAGATCACAGCA
TTGGACATGGAGACGGAGTACAACAACTAG
Protein sequence:
MKICDRHDDEVSPEEWKFPTVVWIFIYYTVCNAALEVYVRRAYTSYDITCLQHLALSGEL
GVVHFQFVLPTGHPNSINQTAIRNQELEPIHILMIGIRDSGESDDVTVSRRFGHFCRVHM
RELHHKRIRRITFMLLIKRQFPKFFTYRARNDFSEDTIYRHLEPASAFQLELYRMRSYEL
EALPTSNQKMHLYLGKAKVKKGQEVTDYRFFIRSIIRHQDLITKEASFEYLQNEGERSLL
EAMDELEVAFSHQLAKRTDCNHIFLNFGPTVIMDIAKIEESVLGMVMRYGPRLWKLRVLQ
AEIRFTLRTGPGVPTKNVRLCLSNGSGYSLDVYTYEEVVDPRTGVIIFQSFGPKQGPMHG
LPISTPYVTKDYLQQKRFLATSQGTTYVYDIPDMFRQVVEGQWRESIEEGAVDGEILPLP
PLCIQATSQGTTYVYDIPDMFRQVVEGQWRESIEEGAVDGPMPDTVMVSLELVVETDGER
RIMEVTRLPGQNTVGMVAWRMTLYTPEVPSGRDVVLIANDLTHYMGSFGPQEDWVYYRAS
EYAREHKIPRLYVSVNSGARIGVAEEVKSEFKVAWLDSERPERGFKYLYLSPEAYSRLGA
LNSVKTELIDDEGESRYKITDIIGKEDGLGVECLRDAGLIAGETAQAYEDIVTISIVTCR
AIGIGSYVVRLGHRVIQVDSSYIILTGYMALNKVLGRSVYASNNQLGGVQIMHNNGVTHA
VAPSDLEAVRTALRWLAYVPKIGPLNLHLGRKSQALLKLLSLHHGPGIRADKLSMVPIIR
SVDPIDRPVEWVPPRAAHDPRLMLTGDGIRAGFLDNGSFDEIMKPWAQTVVTGRGRLGGI
PVGIIAVETRTVELTLPADPANYDSEAKTVQQAGQVWFPDSAYKTSQAINDFSRENLPII
IFANWRGFSGGQKDMYEQILKFGAEIVRALRGATAPVLVYIPPGAELRGGAWAVVDPSVN
NLRMEMYADNEARSVEHVYVCYSCTQKLLPVVSAACWMLEAEGIVEVKFKQRDILKTMNR
LDSNLLRLNSRVSEIKEQIKEISKNLDRRGSIDDVLIKTETGKQAEAKIHELEAELGTAE
KSIKAREKELSPIYHEIAVQFAELHDTAERMLEKGCIFDIIPWRESRQLLHWRLRRLLLQ
NEQERRVQAATRPARMDQRAAAATLRRWFTEDRGETQSHQWENDNQAVCSWLENQVKDNE
SVLERNLRAITEDAALQACNELVRKLSPSQRAEFIRKITALDMETEYNN