New model in OGS2.0 | DPOGS208713  |
---|---|
Genomic Position | scaffold338:+ 105048-114873 |
See gene structure | |
CDS Length | 4095 |
Paired RNAseq reads   | 317 |
Single RNAseq reads   | 777 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007735 (1e-08) |
Best Drosophila hit   | CG7627 (0.0) |
Best Human hit | multidrug resistance-associated protein 4 isoform 1 (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to ATP-dependent bile acid permease [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to ATP-dependent bile acid permease [Nasonia vitripennis] (0.0) |
GeneOntology terms    | GO:0005215 transporter activity GO:0042626 ATPase activity, coupled to transmembrane movement of substances GO:0043190 ATP-binding cassette (ABC) transporter complex GO:0008559 xenobiotic-transporting ATPase activity GO:0055085 transmembrane transport GO:0016021 integral to membrane GO:0005524 ATP binding |
InterPro families    | IPR001140 ABC transporter, transmembrane domain IPR003439 ABC transporter-like IPR011527 ABC transporter, transmembrane domain, type 1 IPR003593 ATPase, AAA+ type, core IPR017940 ABC transporter, integral membrane type 1 IPR017871 ABC transporter, conserved site |
Orthology group | MCL10006 |
Nucleotide sequence:
ATGGATACAGGTCCGAAACAGAAAAGAAAGATAAATCCCAGATACAAAGCAAACCTCTTT
TCAAAACTAACTTTTGGATGGACCTTAGAGACATTTATGCTTGGTTACAGCCGTGATATT
CTGGAAAACGATCTGTATGCCCCCTTACCAGAACATCGATCGGATTTGCTAGGAGATGCC
ATACAAAATGCTTGGGAGCTTGAGGTAGAGAAATCTAGATCTCGCAACAATGAGAGACCA
AGTTTAAGAAAGGCATTAATTAAAGTATTTGGTTCAGAGCTCATGCTGTATGGATTAATA
TTAGCAGCTATGGAATTTTTAATCAGGTTGCAGCAGCCGCTCTTTCTAGGTTTACTACTG
CGTTACTACAGCCCTATTCAAGAAGCGTCCAATGTCACATCAAATGCAACGTATTTCCTT
CGACTTTTTAAATATTATGATATAACAACCGGAATTTCATATGGAGAGGCTGTTTTTTTC
TCATTCGGTGTTATATTTTCGAGTATGATAAACATTATTGTGCAGCATCCGTTCATGATG
GGTGTCATGCACATAGGGATGAAAATGCGTGTAGGAATATGTAGTCTTATTTACAGGAAG
GCTTTAAAAGTAAATCTGCAAGCTATGTCTGAGAACAGAGGCGGGCTGGTGGTAAATCTC
TTAGCAAACGATGTCAACAGGTTTGATTCAGGCCCTCTATTTATTCATTATCTCTGGATA
GGTCCTATGGAAACTTTTCTGATAACATTTTATTTATACCGAGAAATGGGTGTCTCTGCG
GTTTACGGCGCGTTAATGGTCGTGGCTGTTGTTCCATTTCAAATATTTTTGGGCACCAGA
ACCTCGTATTATAGGCGGAAAACTGCTTTGAAGTCGGATGAAAGAGTTAGACTTATGGAA
GAAATTGTTATGGGTGTTGAGGTCATAAAAATGTACACATGGGAGAAGCCATTCCGAAAA
ATTATTGATACTGTGAGGAGACAAGAGGTTTATTTCATTAAGATGACTTCCTACATCCGT
GGAGTGATCATGTCGTTTATTATGTTCACCGCTCGGTTCAGCATCTTCATCACGGTGCTG
CTGTATGTTCTCTCAGTTAAACGGATTACCGTTGAGAACGTGTTCTTCCTGACCTGCTAT
TATAACATTTTAAAACAAACTATGACACTCTTCTTTCCCCAGGCTGTTGGACAGATCGCA
GAAATGAATGTGGCTATCCAGAGGATAAATGACTTCTTACTGTCAGAAGAGTGTCACCTA
CCTCCTAGGGAGCATATTGGTTTTACCAATCAGTTTCAACAAAAACCAAAAAAACACGTA
AGGATATCGCTTAAACCCATAAGTTCACCCGTGAGACAATCGCCAAGAATCGAACCAAGT
ACATCTGAGACGAAGGACCCGAATAATCAAAAAGGAGGAGAAATTCATAAAAATAAAGTT
GTCGTTAAATTTGACAAAGCCTGCAGCCGTTGGATCAAAACCTCGGAAAAGGATGATGTC
GAAGACATATCGTTTGATATATACGAAGAATCTCTTACTACCATAGTAGGGTCAGTCGGT
TCAGGAAAATCAACACTTTTGTTGATGATGCTCTGTGAACTACCTTGTTCTACAGGAAGT
GTGGATGTCACAGGAAGCGTCAGCTACGCTAGCCAGGATCCTTGGCTTTTTATTGGATCG
GTTCGCCAAAATATTCTATTCGGACAACCATTCATCAAATCCCGATACATGGAAGTGTGC
AAGGTTTGCGCCCTCGAAAGGGACATTTCACTGTTTCCTCACGGGGACAAAACGATCGTC
GGCGAGCGAGGAGTGTCGCTCAGCGGAGGCCAGCGTGCAAGAATAAATTTAGCTAGGGCA
GTTTATAAAGAAGCTGACATTTATTTGTTAGATGATCCATTATCAGCTGTGGATACACAA
GTGGCGAGACATATTTTTGAGAACTGTATTAAAAGATATCTGGGTAACAAAACCGTAGTT
CTCGTGACACATCAGATTCAATTTATCAAAGCGGTAGATCAAATTGTAATATTAGATAGG
GGAAGAGTTGCCGCTGAGGGAAGTTATGAAGATTTGAGTCTGCAAGACTTGCCCATCATA
CAATTGATGAGAGATAAATCGCATGAAATCCGTCAAGAAGACTCGATGACTTCCACACAA
AAATCATTGCAACACCCCAGCTCAATCAGTTTAAAGCGATCCCATTGGTCACATTGGTCG
ATAATATCCAATTACACTGATCAAAAACAAGAAGCTGAGGCGCAGACAGTCGGTAGAGTG
AAGGGATCGGTTTACCAGGAGTACTTTCTCGCTGACGCGGCATGTCCCTTTGTTTCTGCG
GTTATTTTGATGTTTTTGTTAGCGCAGTTTTTCGCTAGCGCTAGTGATTTCTGGATTAGT
CGATGGAGTCACGCTGAAGATCATTTAACTGGTGACCAAACTATGGACAATCTGCTGTGG
TCTCAGCACGGCTTGAGGCGAAAGGACTTTGCTCTTATATTCGGTATTTTGACAGTAGCC
ACAGTTGCTGTCGCATTGATTAGGGCATTCCTGTTCTTTTCATTGTGCATGAAATCTTCT
ATTAAATTACATGATCTCATGTTTGAATGTATATCCTTGTCGCCGATGAGTTTCTTCCAT
CTAAATCCATCGGGGAGGATTTTAAATCGCTTCAGTAAGGACATGGGTTCCGTTGATGAG
TTACTACCGCAGGCGATGCTTGATTGTTTTCAGATAATGCTGAACTTGCTCGGCGTTATT
GTGGTGATATTGATGACGGAAATGGCTCTCCTTGTACCAATCGCTACATGTCTCATTATA
TTTTACATATTCCGATTGATATACATTCGTACCACCGGTGCGATTAAACGCTTGGAAGGG
ATAACTCGCAGTCCCGTGTTTAGCCACGTGAATGCCACGGTCCAAGGTATACCAACAATA
CGTTCTTTTGGTGCGGGCGCTCTTCTTGCGGGGGAATTTGATCGTCATCAGGATTTACAC
AGCGCCGCCTGGTACCTCTTCATAACTTGCAGCAGAGCTTTCGGATATTGGCTGGATGTT
GTCTGCCTTTTGTTTATAGTCTGTGTGACATTTAGCTGTTTGATGAAAACTGATATCGAC
GGCAGTAACGTAGGTCTCATCATAACGCAATCTATTTCACTGACCGGAATATTCCAATGG
GGTATGAGACAGTCTGCCGAGATGGAGAATCAAATGACTAGCGTTGAGAGAGTCTTGGAA
TACACGAAACTACCTCTGGAATCTACGGAACCGGACGTGAAACCTCCAAGCGGTTGGCCG
ACGGACGGTGAGATTCATTTCGACAATCTCAGTCTGAGATATACTCCCGAAGGCAATACA
GTCCTCAATAAATTGCAATTCAAGATTTTGCCTCGGGAAAAAATAGGAATTGTCGGAAGG
ACGGGAGCTGGGAAGTCGTCAATAATTCAGGCGTTGTTTAGACTGGCGTATCTAGAAGGG
ACTATTACAATCGATGGGTTGGATATAGCATCCATTGGTCTCAAGTATTTGAGACAAAAG
ATATCTATTATACCGCAAGAACCCGTACTGTTCAGTGGTTCTTTAAGAAAAAACTTAGAC
CCTTTCGACGAGTTCCCAGACGAACTACTACTCGAAGCTTTGGACAAAGTCAAACTTACA
ACTGCTGAAAATAGATTAGACAGTCTGTACAAACAAGTAGCTGATTCGGGGTCGAACTTC
AGCGTCGGGGAGCGACAGCTCGTCTGTCTCGCGAGAGCTATCATCAACAACGACAAGATA
CTTTTACTGGACGAAGCGACCGCAAACGTCGACGCTCAGACGGACGCGCTCATACAAACA
ACTATCAGAGAACACTTCAGTGCCTGCACCGTACTAACAGTGGCTCACAGACTCAACACT
GTTATAGACTCAGACAAGATCTTAGTACTAGACGCGGGTCATTTGATGGAGTTCGACCGT
CCGTACATCCTACTACAGAACAAGAAAGGATATTTCAGAAAAATGGTCGCAGAAACAGGA
ACCGCAATGACGCAGATGTTACACAAAATGGCGAGCGAAAATTACAACAGAATGAAAGAC
ACAGATACAAAATGA
Protein sequence:
MDTGPKQKRKINPRYKANLFSKLTFGWTLETFMLGYSRDILENDLYAPLPEHRSDLLGDA
IQNAWELEVEKSRSRNNERPSLRKALIKVFGSELMLYGLILAAMEFLIRLQQPLFLGLLL
RYYSPIQEASNVTSNATYFLRLFKYYDITTGISYGEAVFFSFGVIFSSMINIIVQHPFMM
GVMHIGMKMRVGICSLIYRKALKVNLQAMSENRGGLVVNLLANDVNRFDSGPLFIHYLWI
GPMETFLITFYLYREMGVSAVYGALMVVAVVPFQIFLGTRTSYYRRKTALKSDERVRLME
EIVMGVEVIKMYTWEKPFRKIIDTVRRQEVYFIKMTSYIRGVIMSFIMFTARFSIFITVL
LYVLSVKRITVENVFFLTCYYNILKQTMTLFFPQAVGQIAEMNVAIQRINDFLLSEECHL
PPREHIGFTNQFQQKPKKHVRISLKPISSPVRQSPRIEPSTSETKDPNNQKGGEIHKNKV
VVKFDKACSRWIKTSEKDDVEDISFDIYEESLTTIVGSVGSGKSTLLLMMLCELPCSTGS
VDVTGSVSYASQDPWLFIGSVRQNILFGQPFIKSRYMEVCKVCALERDISLFPHGDKTIV
GERGVSLSGGQRARINLARAVYKEADIYLLDDPLSAVDTQVARHIFENCIKRYLGNKTVV
LVTHQIQFIKAVDQIVILDRGRVAAEGSYEDLSLQDLPIIQLMRDKSHEIRQEDSMTSTQ
KSLQHPSSISLKRSHWSHWSIISNYTDQKQEAEAQTVGRVKGSVYQEYFLADAACPFVSA
VILMFLLAQFFASASDFWISRWSHAEDHLTGDQTMDNLLWSQHGLRRKDFALIFGILTVA
TVAVALIRAFLFFSLCMKSSIKLHDLMFECISLSPMSFFHLNPSGRILNRFSKDMGSVDE
LLPQAMLDCFQIMLNLLGVIVVILMTEMALLVPIATCLIIFYIFRLIYIRTTGAIKRLEG
ITRSPVFSHVNATVQGIPTIRSFGAGALLAGEFDRHQDLHSAAWYLFITCSRAFGYWLDV
VCLLFIVCVTFSCLMKTDIDGSNVGLIITQSISLTGIFQWGMRQSAEMENQMTSVERVLE
YTKLPLESTEPDVKPPSGWPTDGEIHFDNLSLRYTPEGNTVLNKLQFKILPREKIGIVGR
TGAGKSSIIQALFRLAYLEGTITIDGLDIASIGLKYLRQKISIIPQEPVLFSGSLRKNLD
PFDEFPDELLLEALDKVKLTTAENRLDSLYKQVADSGSNFSVGERQLVCLARAIINNDKI
LLLDEATANVDAQTDALIQTTIREHFSACTVLTVAHRLNTVIDSDKILVLDAGHLMEFDR
PYILLQNKKGYFRKMVAETGTAMTQMLHKMASENYNRMKDTDTK