| New model in OGS2.0 | DPOGS206135 |
|---|---|
| Genomic Position | scaffold4:+ 317142-328481 |
| See gene structure | |
| CDS Length | 3936 |
| Paired RNAseq reads | 4854 |
| Single RNAseq reads | 11588 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA000724 (0.0) |
| Best Drosophila hit | multi drug resistance 49, isoform A (0.0) |
| Best Human hit | multidrug resistance protein 1 (0.0) |
| Best NR hit (blastp) | GK20875 [Drosophila willistoni] (0.0) |
| Best NR hit (blastx) | GG22536 [Drosophila erecta] (0.0) |
| GeneOntology terms | GO:0006855 drug transmembrane transport GO:0005887 integral to plasma membrane GO:0015238 drug transmembrane transporter activity GO:0042623 ATPase activity, coupled GO:0015893 drug transport GO:0005524 ATP binding GO:0055085 transmembrane transport GO:0016021 integral to membrane GO:0042626 ATPase activity, coupled to transmembrane movement of substances GO:0008354 germ cell migration GO:0001666 response to hypoxia |
| InterPro families | IPR017871 ABC transporter, conserved site IPR011527 ABC transporter, transmembrane domain, type 1 IPR003593 ATPase, AAA+ type, core IPR003439 ABC transporter-like IPR017940 ABC transporter, integral membrane type 1 IPR001140 ABC transporter, transmembrane domain |
| Orthology group | MCL10102 |
Nucleotide sequence:
ATGGGACATAAAAAGAAAAAATCGCAGAAAAATGAGGTCCAGCTTGAGTCTAATGTATCG
TATTTTCAAATTTTCCGCTACGCTACTTGGTGTGAACTATTGGCTACAATTATCGGAGTG
ATCGCTGGTTTGTTAAGCGGCGGAGGAGTATGCTACAATCTGGTACAGTTTGGAGAGCTC
AGCACATCCTTTGTTGAGAGAACAGCTTACCAAGAGACATGTTCAAGCTATCTGCCAGTA
ACATCGCTGTTCGGTGGCGGAAGACGATTATGCAACGCGACTTACGAAGAAAACATGAAC
GCTCTCGTCGAGGACGGCGAATCAATGGCCATTGGCATGTTTATAAGCATTGGCATTTCT
CTAATCCTCTGTATGGCATCGGTCGGTCTGATAAGTTGGAGTGCCATGCGACAGATAACC
AGAATCCGTTTACTGTTTCTGGAGGCGGTAATGCGTCAGGATATGGCTTGGTTCGACACA
GATTCCGAATTTAACTTGGCATCGAAAATGTCTGAGAATATGATGAAATTAAAGGAAGGC
ATGGGTGACAAGTTAAGCGTTGTGTCCAACTTGGTGGGCACCGCTATCATTTGTCTATGT
CAAGCGTTCCCGATGGGCTGGGAGCTAACGCTGGCCTGCGTTACCGTCGTGCCATTCTCT
ATAGCAGCCTCCGTTATATTATCAAATTATCAAACAAAGTCTTCCATTCGTGAAATGGAA
TCCTACAGTCAAGCTGGGAAACAGGCCGAAGAAGTTCTGAAATCCGTTAGAACTATTGTT
GCATTTGGAGGAGAAAATAAAGAAGTTGACAGGTATTGCAAGCTGTTAGAACCCGCAGAA
CGTTATGGCCGCAAGAGAGGTCTGTACACCGGCCTGGGAACAGGGTTTAATTGGGTGCTG
ACATATTCTCTTAACGCAATCGGTCTCACCTATGGCACTAGACTTGTGCTTCATGATTTC
GACAAACCCACCGATGAAAAGAAATATCTCGTCGGCGTCGTGTTCAGTATACTTTTCAGT
GTATACATGGCAACTCAATCCATAACATTTTGTGTACCCCATGCTGAAGTGTTCGCTAAC
GCGCGCGGTGCTGCGGCTAGCATATTCAAGCTCCTGGACAGAGTTCCTACCATTGATGCG
CTGGATAAAGGAGGAGTGTCTCCACGTAGAGTTATAGGCGAGATAACATTAGAAGACGTC
TACTTCAGTTATCCTTCTAGACCAAACGTTAAGGTATTGCAAGGATTCTCTTTGCATATT
AAAGCCGGTGAATGTGTCGCTCTCGTGGGATCCTCTGGATGCGGGAAATCTACAATCTTA
CAGCTCTTGCAGCGGCTTTACGAACCCCATCTTGGAACTGTAAAGCTCGATGGCAAAAAT
ATCAAAAATTTAAATCTTAGTTGGCTCCGATCATCACTTGGTGTAGTTGGACAGGAACCA
GTTTTGTTCAGGGGAACAATTTTCGACAACATAGCTATAGGTTGTCCCGAAGCTACAAGA
GAGGATGTACAGAGGGTTGCCGAAATGGCCTATGCCCACGATTTTATTACCCATCTACCA
CATAGTTACGACACGGTGATAGGCGAAAGAGGCGCTTCTCTGTCAGGAGGTCAAAAACAG
AGAATCGCTATCGCCCGTTCTTTACTTCGTGAACCAGCGGTGCTTCTACTTGATGAAGCT
ACCTCAGCACTTGATCCTCACTCCGAAAGACAGGTACAAGCTGCCTTGGACCGAGCAAGT
GAAGGAAGAACTACACTCATGGTTTCACATCGTTTATCAACAATAGTTAACGCTGATCGT
ATTATTTGTATGGACCAAGGCGCGATCGTCGAACAAGGGACCCATGAAGAACTCATGAAG
ACTAAAGGTTTTTATTATAAGCTTGTAACCTCTGGCAACGAAAACAAAGAACCAGACGTA
ATCGAAACCTTGCCTGAAGAAGAGAACGATGCGGCAGAAGATGGAGAACTGACCATTTCG
AATCCAATATCTCGAGTTGAGGTTAAACGACGGTCTACTCGGAGAATAGCTAGACATCAT
TCTGTTAAAAGAGATTCCCACGATTGGATGACACCTAGAGGTTCCATTTCTTCGGTGATG
TCGACAGGTTTGCAAAGTTTCATATACAACAGCGACTTTGATGACGAAGACGAAAAGGAT
GACGAGGATGAGGTTAAACCTGTAAGCGATTGGCAATTGATGAAATTAAATGGTCCAGAA
TGGCCCTATATTGTTGTAGGATCGATAGCCGCGTTTGTACAGGGTTCCTGTTTTCCAGTT
TTCGCTCTTATTTTCGGCTATACGTCCGGTATATTCATTTTACCAGACCGCAACGATATA
ATTTACTACGCTGATTTTTATTCTGGTATGTTCCTCGTGGTAGCTGCAATAGCTGGGATA
TCTATGTTCCTCCAAAGCACAACCTTCACTCACGCAGGACTGAGAATGACTAGTAGACTA
AGACAGCAATACTTTTCGGCGCTACTTAAACAAGAAATTGGTTTCTTTGACAAAGAATCG
AATACGGTGGGAGCTATGTGTGCACGGCTGAGTGGTGATGCAGCAGAGGTTCAAGGAGCG
ACAGGATTGAGGATAGGCCTCATCCTTCAGGGCTGCAGCTCAGTTGTAGTTGGTTTCATT
ATGGCCATCATCTATAATTGGAAGCTCACCCTAGTTGGCACAGCCTTCCTACCACTAATG
GTAGGTAGTATATGGTTGGAAGGTATAATTTCACAAAAGTCACAGGCTGATGAGCGCGCT
GCTATGGAATCTGCTACTGCCATCGCAACTGAAGCAGTCATAAGCATCAAGACCGTGCAA
AGCTTGGGCGTCGAACACACGTTTCTAAAGAGGTTCCACGAAGCTTTAATAGAATCGTGT
GCAGCTATTTCGAAAAAATCCAGATGGCGAGGGCTGGTACTAGGTCTTGGTGTGTACGTG
CCTTTTATGTCGTACTGCAGTGCCACAGTGTATGGCGCTGTTCTAGTAGCATACGAAGGA
TTAGAATACAAAGTTGTTATGCTTGTAAACGAAGCCCTTATGTATGGAGCATATATGTTA
GGTCAGTCATTAGTTTACGCACCAAGTTTCAACTCGGCCAAAGCTTGCGGTGCGAGAATT
TTATCTATAATCAATAGAGAACCCAGAGTTAAAACTGAACCTGGAGTTAAGGATAGAAAG
GATTGGGTAGCTACAGGAAATTTCAGCATTAAAGACGTTGAATTCAGCTATCCCACACGA
CCTCACCAAAGAATACTCAAGGGCATAGATTTAAAGGTTGAAGCAGGAAAAACTATAGCA
CTAGTCGGTTCCTCAGGATGTGGCAAATCCACCATATTACAACTCATGCAAAGATTCTAT
GATCCTGATACTGGCAACTTTGAATTGGACGGGCGGGACACACGCATGTGCCTCACCTTG
CCGAGACTCCGACGACAACTGGGCGTTGTTCAACAAGAGCCGATACTTTTCGACAGGACC
ATAGCCGAAAACATAGCATACGGCGACAACAACCGTAAAATAAGCACCCACGAAATCATA
GCTGCAGCTAAAGCAGCTAATATACACAGCTTCATAGTATCATTACCCAAAGGTTATGAT
ACCAACTTGGGTTCAAGCGGAGCCCAACTATCAGGAGGGCAGAAACAACGCGTTTGCATC
GCAAGGGCACTCATCAGATCACCGCGTCTGTTGCTATTGGATGAAGCAACTTCAGCTTTG
GATGCTAACAGTGAAAGAGTGGTGGCAGAAGCTTTAGAAAAAGCTGCCAAGGGTCGAACC
TGCGTCACTATAGCACATCGCCTCTCTACTATCAAAGATGCAGATTTAATTTGCGTGTTA
GATAAAGGCAAAATCGTCGAAAAGGGTACGCACACAGAATTAGTCAATGCAAAAGGCTAT
TATTGGAAAATGTGTAAGGGTCAGAACATGGCGTAA
Protein sequence:
MGHKKKKSQKNEVQLESNVSYFQIFRYATWCELLATIIGVIAGLLSGGGVCYNLVQFGEL
STSFVERTAYQETCSSYLPVTSLFGGGRRLCNATYEENMNALVEDGESMAIGMFISIGIS
LILCMASVGLISWSAMRQITRIRLLFLEAVMRQDMAWFDTDSEFNLASKMSENMMKLKEG
MGDKLSVVSNLVGTAIICLCQAFPMGWELTLACVTVVPFSIAASVILSNYQTKSSIREME
SYSQAGKQAEEVLKSVRTIVAFGGENKEVDRYCKLLEPAERYGRKRGLYTGLGTGFNWVL
TYSLNAIGLTYGTRLVLHDFDKPTDEKKYLVGVVFSILFSVYMATQSITFCVPHAEVFAN
ARGAAASIFKLLDRVPTIDALDKGGVSPRRVIGEITLEDVYFSYPSRPNVKVLQGFSLHI
KAGECVALVGSSGCGKSTILQLLQRLYEPHLGTVKLDGKNIKNLNLSWLRSSLGVVGQEP
VLFRGTIFDNIAIGCPEATREDVQRVAEMAYAHDFITHLPHSYDTVIGERGASLSGGQKQ
RIAIARSLLREPAVLLLDEATSALDPHSERQVQAALDRASEGRTTLMVSHRLSTIVNADR
IICMDQGAIVEQGTHEELMKTKGFYYKLVTSGNENKEPDVIETLPEEENDAAEDGELTIS
NPISRVEVKRRSTRRIARHHSVKRDSHDWMTPRGSISSVMSTGLQSFIYNSDFDDEDEKD
DEDEVKPVSDWQLMKLNGPEWPYIVVGSIAAFVQGSCFPVFALIFGYTSGIFILPDRNDI
IYYADFYSGMFLVVAAIAGISMFLQSTTFTHAGLRMTSRLRQQYFSALLKQEIGFFDKES
NTVGAMCARLSGDAAEVQGATGLRIGLILQGCSSVVVGFIMAIIYNWKLTLVGTAFLPLM
VGSIWLEGIISQKSQADERAAMESATAIATEAVISIKTVQSLGVEHTFLKRFHEALIESC
AAISKKSRWRGLVLGLGVYVPFMSYCSATVYGAVLVAYEGLEYKVVMLVNEALMYGAYML
GQSLVYAPSFNSAKACGARILSIINREPRVKTEPGVKDRKDWVATGNFSIKDVEFSYPTR
PHQRILKGIDLKVEAGKTIALVGSSGCGKSTILQLMQRFYDPDTGNFELDGRDTRMCLTL
PRLRRQLGVVQQEPILFDRTIAENIAYGDNNRKISTHEIIAAAKAANIHSFIVSLPKGYD
TNLGSSGAQLSGGQKQRVCIARALIRSPRLLLLDEATSALDANSERVVAEALEKAAKGRT
CVTIAHRLSTIKDADLICVLDKGKIVEKGTHTELVNAKGYYWKMCKGQNMA