| New model in OGS2.0 | DPOGS202687 |
|---|---|
| Genomic Position | scaffold2557:+ 146-12063 |
| See gene structure | |
| CDS Length | 3660 |
| Paired RNAseq reads | 2433 |
| Single RNAseq reads | 7420 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011220 (3e-136) |
| Best Drosophila hit | CG9270, isoform A (6e-132) |
| Best Human hit | multidrug resistance-associated protein 4 isoform 1 (7e-106) |
| Best NR hit (blastp) | PREDICTED: similar to ATP-dependent bile acid permease [Nasonia vitripennis] (1e-165) |
| Best NR hit (blastx) | PREDICTED: similar to ATP-dependent bile acid permease [Nasonia vitripennis] (5e-149) |
| GeneOntology terms | GO:0008559 xenobiotic-transporting ATPase activity GO:0042626 ATPase activity, coupled to transmembrane movement of substances GO:0005215 transporter activity GO:0043190 ATP-binding cassette (ABC) transporter complex GO:0016021 integral to membrane GO:0005524 ATP binding GO:0055085 transmembrane transport |
| InterPro families | IPR003593 ATPase, AAA+ type, core IPR003439 ABC transporter-like IPR001140 ABC transporter, transmembrane domain IPR017871 ABC transporter, conserved site IPR017940 ABC transporter, integral membrane type 1 IPR011527 ABC transporter, transmembrane domain, type 1 |
| Orthology group | MCL10006 |
Nucleotide sequence:
ATGATATCTTGCGTGAAGCTCAATTCCAAGATCGCGATATTTCTGACCCTGGTGTCGTTC
ATATCGTTCAAGAACGAGCTGACAGCCTCCAAGGTGTTCGTGGTGTTTTCCTATTACAAT
ATCTTGAAGTATTCCCTGGTGGACTTCCTGTCTCTCGCCATCTCCTTCACCCTGGAGGCG
CAGGTGAGCGTGCACAGGATGCAGGAGTTCCTGATGCTGCCGGAGGTCGATAACTGCGAC
GGAACCGACCTCGTCACCATCGAGGGGACCAAGACTGTAGCTATGAGCGGAATCTTCGAG
AAAATTGGCAACGGACAACAGGAGTACATTAAGTCTGAGTCTAACCTGGAACAGCTAAAA
CCAGCTGTACTCGTTAGTTTCAAAGATTACACCGCGCACTGGAAGAGCTCAGAAGACGAA
GACATGAAGAATAGAGTGCTAGCGCTCGACGACATTAACTTAAACATCAAACCGGAAACG
TTGACCACTATAGTAGGTACCGTTGGTTCGGGGAAGTCGACCCTCCTGCTCGCCATGCTG
CGGGAACTGTCTCCTACCTCCGGTCACCTCGCCGTCCGAGGGAGCATCGCCTACGCTGCT
CAGGAGCCTTGGCTGTTTGAGGCTTCGGTCCGCCAGAACATCCTGTTCGGTCAAGACCTG
GACTTGCGCAGATACAAGCAGGTCATCAAGTGTTGCCAGCTGAAAAGTGACCTGGAAATA
CTGCCTTATGGAGATAAGACGGTTGTAGGCGAGCGGGTCAGTGACAACTCAGACAACACT
CAAATATCGCAGAAGATCATTGAGATTAGCTGGAGCTCTATAACCGATGTTGCTGGAGTG
TCCTCTATCAACTTCACCTCTGACCCCTGCCCTTGTCCAGGTGCGTCGTTATCCGGGGGA
CAGAGAGCTCGTATCGCGCTAGCTCGCTGCGTCTACCAACACGCAGACGTCTACTTGTTG
GACGACCCACTAGCAGCTGTGGACGCTAAGGTGGCTCAGGCTATATACGAGGAGTGTATC
CGATCTTTCCTCCGCGAGAAGGCCACGGTTCTGGTCACCCACCACGTGCAGTACGCCAGG
CACGCCGCGCAAGTGTGCGTCATGAAACTGGGCAAGGCGAGTGCGTCGTTATCCGGGGGA
CAGAGAGCTCGTATCGCGCTAGCTCGCTGCGTCTACCAACACGCAGACGTCTACTTGTTG
GACGACCCCCTAGCAGCTGTGGACGCTAAGGTGGCTCAGGCTATATACGAGGAGTGTATC
CGATCTTTCCTCCGCGAGAAGGCCACGGTTCTGGTCACCCACCACGTGCAGTACGCCAGG
CACGCCGCGCAAGTGTGCGTCATGAAACTGGGCAAGATCGTAGCTCAAGGGACCTACAAC
GACTTGAAGAATGACGTCAAGGAGTTTGAGAAACTGATCGAGATGGAGGCCAAGGACGAG
GAGAAGAAGATGAAGCAGAAGGTGGCCTCGTACGAGAACCAGGACAGTCTGGAGCACGGC
CACAAGCTCCGCTCGCAGCGGTCGCTGTCCGAGGTGTCCCAGCTGTCCTTCAACACGGAC
GGCGAAACTAATATCGGTCCGGAGTTTGAAGGTGAAAAACAGAGCGAGGGTTCCGTAGAC
TTCGGAGTGTACTTCTCCTTCATAAAGAGCGGTGGGACTCAGTTCACGATGTTGGTTCTG
GGGTCGCTCTTCCTCCTAGCTCAGTTCTTCTACTCCGCGACGGACGTGTGGCTCAAGGAT
TGCCAGCTCAGGTACGAGGATCTTCCTACCAACCATTTCCACCTGTCCCGGGAACACTGC
ATCTATATCTACGCGGCTCTCATCGTGGTGTCGATGTTCTTGACCTGGAACAAACTGCTG
GTGTTCTACAACACCTGCATCAAGGCCTCCGTAGTGCTGCACGATACTATGTTCAGGGGT
GTGACGAACGCTCCGATGTGGTTCTTCCACCACAACCCGTCAGGTCGAATCTTGAACCGC
TTCTCCAAAGACATGGGCCAGATAGACACGTTACTTCCCGTGGCGTTGGTCGACTGTCTC
GGGTTCTTCCTGGAGGTGATCGCCATTCTGGCTGTAGTGTGTATCGTCAACTGGTGGCTA
CTCCTGCCGACCGCCGTCCTGGCGTTCCTGCTTCACCTCATGAGATCTCTCTACTTGTGC
ACGAGCCGCGAGCTGAAGAGAGCGGAGGCTATCGCTCGTAGTCCGTCGTTGTCTCACTGC
GGCGGCACCGTCCACGGCCTGACCACCATCAGGTCGTGCCACAAGCAGGTGACGCTCGCC
AAGGAGTTCGACAAACTGCAAGACCTGCACTCCTCGGCCTGGACCTTAGTCATCACCACT
AACAGCGCCTTCGGCTACTGGATGGACATGGCCTGCTGCTTATACTTAGCTGCCGTGACC
TTTAGCTTCTTCTTCTTCAGCGAAGAAGACTCGAGCGGCGGTAACGTTGGGCTCGCGATC
ACCCAGGTGATGGGTCTAGTGGGGATGTGCCAGTACGGCATGAGACAGACGGCTGAAGTG
GAGAACCAAATGACATCAGTTGAAAGAATTTTAGAATACATCAAACTGCCAGCGGAACAC
CCTGTAGAACCTGACAGCAGGGCGCTGAAGAATGAACATCCTGGGTTTGACTTCAGCAAG
TGGCCCAGTGAAGGTGAGATAGTATTTGAAAATGTATCTCTGGAATACGAAAAGCCTCCG
AAGAGTGACGGAAAAGCCGACACCGAGCCGGCTTTCGCGATAAGGGGGGTGAACTTTAAG
ATAAGGGCCGGGGAAAAGGTCGCTGTGGTGGGGAGAACCGGCGCCGGCAAGAGCTCGCTG
ATAGCTGCCTTATTCAAACTGAGCAAGATCACCGGTCGTGTGACGGTGGACAACATCACG
TCGGACGAGGCTGGTCTCCGGGCGTGGCGGGCCCGTCTCTGTGCTCTGCCGCAGCGACCC
GCGCTGTTCGCGGCCTCCCTCAGAGACAACTTGGACCCTGAGAGAAAATACACAGACGCA
GAAATATATACAGCGCTTAATGAGGTGGAGCTCCAGGAAACCGTGGCCAGCATGCCCGGG
GGCCTCGCGTCCAAGGTCGGGGACGGCGGCGGCAACCTGTCCAGCGGGCAAAGACAGCTG
GTGTGTTTGGCTCGAGCGGCGCTGGCGAGGCGCGCCGTGCTCATACTAGACGAGGCCACC
GCTAACGACGGACAAACACATCCAGAGAACGATACGGACAAAGTTCGCAGACTCCACCGT
GCTCACGATCGCCCACAGACTCAACACGGTCATGGACTACGACCGAGTCATCGTCATGGA
CAAGTGAGAGAGAGAGAGAGAGGGAGCCCCTCGCGCCGGCCCGCGCCTGGCAAGACTCAG
GTCAGTGACTCGGCAACAGGAACCCCTCCTCCGCGCAGTCAGTTAACCTCACATCTATTC
CAGGCTCCCCTGGCGCTCCCTGAGGACTTCCTGGCGGCTCCCGAGAGACTGGACGAGGAT
GAGGAGGCGTTGGTGACGTCACGCGACCGACACAGAACATACTCCAACAGGTCGGAGGCT
CCCGAATACTTGGGGCTGTTCCGGTCCCTGGTGGAGCAGACGGGGCGAGCCACGGCCGAC
CAGCTCATGACACTCGCCAAGGAGAGTTACGAGCGTATGTTGGAGAAGAAGACGCGCTGA
Protein sequence:
MISCVKLNSKIAIFLTLVSFISFKNELTASKVFVVFSYYNILKYSLVDFLSLAISFTLEA
QVSVHRMQEFLMLPEVDNCDGTDLVTIEGTKTVAMSGIFEKIGNGQQEYIKSESNLEQLK
PAVLVSFKDYTAHWKSSEDEDMKNRVLALDDINLNIKPETLTTIVGTVGSGKSTLLLAML
RELSPTSGHLAVRGSIAYAAQEPWLFEASVRQNILFGQDLDLRRYKQVIKCCQLKSDLEI
LPYGDKTVVGERVSDNSDNTQISQKIIEISWSSITDVAGVSSINFTSDPCPCPGASLSGG
QRARIALARCVYQHADVYLLDDPLAAVDAKVAQAIYEECIRSFLREKATVLVTHHVQYAR
HAAQVCVMKLGKASASLSGGQRARIALARCVYQHADVYLLDDPLAAVDAKVAQAIYEECI
RSFLREKATVLVTHHVQYARHAAQVCVMKLGKIVAQGTYNDLKNDVKEFEKLIEMEAKDE
EKKMKQKVASYENQDSLEHGHKLRSQRSLSEVSQLSFNTDGETNIGPEFEGEKQSEGSVD
FGVYFSFIKSGGTQFTMLVLGSLFLLAQFFYSATDVWLKDCQLRYEDLPTNHFHLSREHC
IYIYAALIVVSMFLTWNKLLVFYNTCIKASVVLHDTMFRGVTNAPMWFFHHNPSGRILNR
FSKDMGQIDTLLPVALVDCLGFFLEVIAILAVVCIVNWWLLLPTAVLAFLLHLMRSLYLC
TSRELKRAEAIARSPSLSHCGGTVHGLTTIRSCHKQVTLAKEFDKLQDLHSSAWTLVITT
NSAFGYWMDMACCLYLAAVTFSFFFFSEEDSSGGNVGLAITQVMGLVGMCQYGMRQTAEV
ENQMTSVERILEYIKLPAEHPVEPDSRALKNEHPGFDFSKWPSEGEIVFENVSLEYEKPP
KSDGKADTEPAFAIRGVNFKIRAGEKVAVVGRTGAGKSSLIAALFKLSKITGRVTVDNIT
SDEAGLRAWRARLCALPQRPALFAASLRDNLDPERKYTDAEIYTALNEVELQETVASMPG
GLASKVGDGGGNLSSGQRQLVCLARAALARRAVLILDEATANDGQTHPENDTDKVRRLHR
AHDRPQTQHGHGLRPSHRHGQVRERERGSPSRRPAPGKTQVSDSATGTPPPRSQLTSHLF
QAPLALPEDFLAAPERLDEDEEALVTSRDRHRTYSNRSEAPEYLGLFRSLVEQTGRATAD
QLMTLAKESYERMLEKKTR