| New model in OGS2.0 | DPOGS207818 |
|---|---|
| Genomic Position | scaffold1255:- 11292-20139 |
| See gene structure | |
| CDS Length | 3450 |
| Paired RNAseq reads | 68 |
| Single RNAseq reads | 214 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA007494 (0.0) |
| Best Drosophila hit | multi drug resistance 50 (0.0) |
| Best Human hit | multidrug resistance protein 3 isoform A (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to Multi drug resistance 50 CG8523-PA [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to Multi drug resistance 50 CG8523-PA [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0042623 ATPase activity, coupled GO:0015238 drug transmembrane transporter activity GO:0015893 drug transport GO:0042626 ATPase activity, coupled to transmembrane movement of substances GO:0005524 ATP binding GO:0016021 integral to membrane GO:0055085 transmembrane transport |
| InterPro families | IPR003439 ABC transporter-like IPR017940 ABC transporter, integral membrane type 1 IPR017871 ABC transporter, conserved site IPR003593 ATPase, AAA+ type, core IPR011527 ABC transporter, transmembrane domain, type 1 IPR001140 ABC transporter, transmembrane domain |
| Orthology group | MCL10102 |
Nucleotide sequence:
ATGACTGCACATAAAGATTCTTTTATATATTCTATACACCAATTTGGCATATACTACTCT
TGCGTCGGTGTAGTCCTATTTTTTGGAGGTTATTTGGGAACAGCCTTAATATCTATTGCT
GCAATCAATCAGATATTTCGGATACGAATTTCATATTTAAGGGCCGCTCTTAATCAAGAT
TTTGCATATTTTGACCTTCACCAGACTGGAGATTTCGCTTCAAGGATAGCTGAAGACATG
ATCAAATTGGAGGAAGGTATCGGAGATAAGGTATCTTCTTTGGTACACAACGCGGCCGTT
TCATTAAGTTGTATAATAATGGCTCTGATAAAAGGTTGGAAACTAGCTTTATTGTGCCTT
AGTACAGCTCCAATAACATTTTTTCTAGTTGGTGTTACTGGTAAGATTGCCAATAACTTA
TATAAGAAACAAGCCAAAGCGAAAGCCCAGGCTAGTGCCGTAGCCGAAGAGGTTCTCGGT
TCTATTAAAACAGTTTATGCCTTTAATGCTCAACAATATGAAATAAAACGGTATAAGAAA
CATCTGGCCAATGCAAGAAGGATATTTATTAGAAAGGAAACTTTCACTGGAATGTCGATG
GGCCTATTGTATTTATGCGTTTTTAGTTCCTACGCCATGGCGTTCTATATAGGAATATAC
TTAATAATAAACGAGCCCGAAAAATACAATGCCGACGTCATGTTTTCTGTGTTTTTTGGA
GTTATGACTGCCTTAACATATGTGGGTATGATAGGATCTCTAATGTCGTCTTTCGGATCA
GCTCAGGGGGCAGGTGCCCAAGTCTTCCACATTCTGGATAACGTTCCCACTATAAACCCA
TTACTTGATCGGGGTATTAGGCCCGATGGTATAAATGGCGTTATAGAGTTGAAAGACGTA
GTTTTCCACTATCCTTCTCGACCTTCAGTCCTTGTATTGGATTCGATAAATATAGATGTA
CGTAGCGGGCAGACTATCGCCTTGGTTGGAAATTCCGGTTGCGGAAAAACTACCATTATT
CAACTTATATCAAGATTCTACGACGTGGATCGTGGAAGCGTTCGCATTGACGGCCGTGAC
GTTCGCGAACTATCTGTGAGGTGGCTACGTCATCAAATAGGCCTTGTTAGACAGGAACCG
GTGCTGTTCAATACCAGCATATTTGAGAACATTCGCCTAGGAAGCGTGGATGTTTCTTAT
GATGACGTCATCACCGCTTCTAAACAAGCAAATGCCCATGAATTCATTATGGAGCTCCCT
TCAGGTTACGAAACGCTAGTAGGAGATCGAGGAGCATCTTTATCAGGTGGACAAAAGCAG
AGGGTGGCGATAGCGAGAGCCCTCGTTAGGAATCCCCGCATATTATTACTCGATGAAGCA
ACAAGTGCCCTTGACACTGTATCAGAAACAAAAGTTCAGGAAGCGTTAAATCGGGCAGCT
AAAGGCCGCACAACTATAGTCATCGCACATCGCTTGTCAACCATTCGAAACGTTGACAAA
ATATTTGTGATGCAAAAGGGACGTGTTGTAGAAACTGGGAATCATGAGGAATTAATAAAA
AAGGGGGGCGAGTACTATCACATGTTCACGACATCTGAGCAGCTACCACTAAATGAAGAG
TTACAAGTAGATGACGAGCCTTCCAGAGAGCGTTCAAATATATCAAAGGAGACTGTGGAT
TTAAAAAAGGATGTAAAGTATGAAAAAGAAACGTCTATACAAGCACTTTCTTTCCGGGAA
GTCATAATGCTAAACGCTCCGGAATGGAAGATCATTACATTGGGCAGTATTTGTTCCATC
ATTAGTGGATTTTCTATGCCGTTATTCATAGTGGTCTTTGGTGATTTGTTCGGTACTATG
TCAAGTCCCGATCCTGCTATTTTAATGAACAAAGTAAAACACGTATCGGTTATCTGTATT
ATCATCGGAAGCGCTATGGTTATGAGAATTTACGAGACCACGCTATCTTTCGGTGCCGCG
GGCGCGTACCTCACGGAACGCCTGCGTATGCGCATGTTCAAAAATCTTCTGGTTCAGGAT
GTGGCGTTTTATGACGAACGGGAGAATTCACCAGGAGCTTTGTGTGCCAGACTGTCTGCT
GAAGCGGCTTATGTGCAAGGAGCCACAGGTCAACGTATTGGTATAATTTTACAAGGAGTT
GGATCCATTGGCTTAGCGCTGTTTCTAGCTATGTGGTTCGAATGGCGAGTCGGTATGGTC
GCCCTTGCTTTCTTGCCATTAGTTGTTATAGTAATCTGGCAACAAACAAAAGCCACAGAT
AAGGAATCACAAGGATACGCGAAAGCTCTCGAAAATAGCACAAAGATTGCTGTCGAGGCC
TTATCTAATATACGCACCGTTGCGTGTCTCGGCCGAGAGCCTGCGATGGTGGTCGAGTAT
GCTCACTGCCTCAGACCTGCGCGGAGGCCTGCGGTGCTCGCGGCCCACTGGCGGGGGGTG
CTGTCAGGCCTGTCGCGGTCTATGTTTAACTTTATTAACGCAGCTGCGCTCACCTACGGC
GGGCACGTGGTCGCCGACGGAGTACCCTACCAAGATATACTCATAACGACGCAATCTTTA
CAAATGGCGTCATCCCAGGCCCAGAGCGCGTTCGCTTACGCACCAGACTTCCAAAGAGGA
ATTAACGCAGCTGCCAGAATTGTTAACCTTATAAATATGAAACCCACTATAGTAGACCCC
GAGGAGCCAACTAGGAACTTTGTATCTAAGGGGAATGCGTGTTTCGAACAAGTGAGATTC
AAATATCCCTGTAGACCTACAGTGAAAGTCCTTCGAGGCGTTGATTTGAAACTATCAGAA
GGAGAGACCGTTGTTTTAGTGGGTGAAAGCGGATGTGGGAAAAGTACTGTTATTCAACTC
CTACAAAGATACTACGATCCTGATTCGGGCACTATTACTTTAGAAAACAAACCCCTAACA
CATTTACGAGTAGACGAAGTCCGTGCGAACTTCGCACTAGTATCTCAAGAACCGACACTC
TTCGAACGCAGCATCCGCGAAAATGTTGAGTATGGAGACATCTCCAGACCGGTCACTATG
AAAGAGATCGTGGATGCCACCAAGCTTGCAAACATTCATGACTTTATAGTTTCCCTACCG
CAGGGTTATGAGACCAACATCGGTTCGAAGGGCATACAACTGTCTGGAGGACAGAAACAG
AGAGTCGCAATAGCGAGAGCGCTGATAAGGCAGCCAAAGATCTTGCTCTTAGATGAAGCC
ACCAGCGCTCTCGATGGTGAAAACGAGAAGGTGGTGCTGTCATCTTGCCGTGCTGGCCGT
ACATGTATACTGGTCTCTCACCGGCCGCGTGTGATAGCTTCGTCGTTGATACACGTGCTG
GCTGCGGGCCGTGTACTGGAGCGAGGGACACACGAACAGCTCATGGGGAAACGGGGCCTA
TACTACACTTTAAATGCTAAAGGACAATGA
Protein sequence:
MTAHKDSFIYSIHQFGIYYSCVGVVLFFGGYLGTALISIAAINQIFRIRISYLRAALNQD
FAYFDLHQTGDFASRIAEDMIKLEEGIGDKVSSLVHNAAVSLSCIIMALIKGWKLALLCL
STAPITFFLVGVTGKIANNLYKKQAKAKAQASAVAEEVLGSIKTVYAFNAQQYEIKRYKK
HLANARRIFIRKETFTGMSMGLLYLCVFSSYAMAFYIGIYLIINEPEKYNADVMFSVFFG
VMTALTYVGMIGSLMSSFGSAQGAGAQVFHILDNVPTINPLLDRGIRPDGINGVIELKDV
VFHYPSRPSVLVLDSINIDVRSGQTIALVGNSGCGKTTIIQLISRFYDVDRGSVRIDGRD
VRELSVRWLRHQIGLVRQEPVLFNTSIFENIRLGSVDVSYDDVITASKQANAHEFIMELP
SGYETLVGDRGASLSGGQKQRVAIARALVRNPRILLLDEATSALDTVSETKVQEALNRAA
KGRTTIVIAHRLSTIRNVDKIFVMQKGRVVETGNHEELIKKGGEYYHMFTTSEQLPLNEE
LQVDDEPSRERSNISKETVDLKKDVKYEKETSIQALSFREVIMLNAPEWKIITLGSICSI
ISGFSMPLFIVVFGDLFGTMSSPDPAILMNKVKHVSVICIIIGSAMVMRIYETTLSFGAA
GAYLTERLRMRMFKNLLVQDVAFYDERENSPGALCARLSAEAAYVQGATGQRIGIILQGV
GSIGLALFLAMWFEWRVGMVALAFLPLVVIVIWQQTKATDKESQGYAKALENSTKIAVEA
LSNIRTVACLGREPAMVVEYAHCLRPARRPAVLAAHWRGVLSGLSRSMFNFINAAALTYG
GHVVADGVPYQDILITTQSLQMASSQAQSAFAYAPDFQRGINAAARIVNLINMKPTIVDP
EEPTRNFVSKGNACFEQVRFKYPCRPTVKVLRGVDLKLSEGETVVLVGESGCGKSTVIQL
LQRYYDPDSGTITLENKPLTHLRVDEVRANFALVSQEPTLFERSIRENVEYGDISRPVTM
KEIVDATKLANIHDFIVSLPQGYETNIGSKGIQLSGGQKQRVAIARALIRQPKILLLDEA
TSALDGENEKVVLSSCRAGRTCILVSHRPRVIASSLIHVLAAGRVLERGTHEQLMGKRGL
YYTLNAKGQ