New model in OGS2.0 | DPOGS208494  |
---|---|
Genomic Position | scaffold28:+ 210556-229850 |
See gene structure | |
CDS Length | 3462 |
Paired RNAseq reads   | 4598 |
Single RNAseq reads   | 14471 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA010330 (5e-22) |
Best Drosophila hit   | Multidrug-Resistance like protein 1, isoform N (0.0) |
Best Human hit | multidrug resistance-associated protein 1 isoform 1 (0.0) |
Best NR hit (blastp)   | ATP-binding cassette sub-family C member 1 [Trichoplusia ni] (0.0) |
Best NR hit (blastx)   | hypothetical protein TcasGA2_TC012253 [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0008559 xenobiotic-transporting ATPase activity GO:0042626 ATPase activity, coupled to transmembrane movement of substances GO:0055085 transmembrane transport GO:0016021 integral to membrane GO:0005524 ATP binding GO:0043492 ATPase activity, coupled to movement of substances |
InterPro families    | IPR003439 ABC transporter-like IPR017940 ABC transporter, integral membrane type 1 IPR011527 ABC transporter, transmembrane domain, type 1 IPR017871 ABC transporter, conserved site IPR001140 ABC transporter, transmembrane domain IPR003593 ATPase, AAA+ type, core |
Orthology group | MCL10006 |
Nucleotide sequence:
ATGTCTTACAATTCGACGCTCGACGACTTTTGCGGATCAAAATTTTGGGATGCCAACTTA
TCTTGGTACACTGAGAATCCAGAGTTCACTCCCTGCTTTGAAAAGACTGTTCTTATATGG
ATACCCTGTTCATACTTGTGGGTGGCAGCCCTTTTGGATGCTTACTACATATACAACAGC
AAAGAGAGAAACATACCATGGAATGCATTAAATATAATTAAATTAGTGATCACATTTCTA
CTGATTGTATTGAAGTTTGTCGATTTGGGAGTCACAGTTCACAAGTCCTCAAGAGACGAA
GCCGTCTTCAACGTTGACTATTATGCACCCGTTGTGAAGATTCTTACATTTGCGTTATCG
GCGACGTTGCTTTACTACAACCGGAAATATGGCATGAGAGCTTCCGGGGTGCTTTTTTTC
TTCTGGTTTTTCTTAATACTGGCCGGCCTGCCCCAACTGAGGTCCGAAATTATGATGCAC
TACGAGCTCGCCGAAGACGAGAACGTTCAATACAACTTTGTTAGCTATATGATATATTAT
CCGTTGATAATTTTAATGTTCATACTGAACTGCTTCGCGGATCTCCCTCCGAAAGAATCG
CCTTATAAATATAATAAGAATCAATGTCCAGAGAGTGCCTCAGGGTTTCCCAGTCGGCTG
ACCTTCAGTTGGTTCGATCCCTTAGCGTTGACGGGATTCAGAAGGAGTTTGGTGGAAAGC
GACCTGTGGGCCCTCAACCCACAGGACTCATCCAAAGAGGTCGTACCAAAATTCGACAAA
TTTTGGGAGAGAACATTAAGCAAGAGAGAAAAAGCGAACGGCACCAAAGCGACGTACAGC
AATACATCGGCCAGCGTTAACTTCAAACCGGATAAGGAAGTCAAACCAGCTTCCATCCTG
CCGGCGCTATGCTTAGCGTTCGGCGGAGAGTTCCTCTTCGGAGCACTCCTCAAGCTCGTC
AACGACGTACTAATGTTCCTATCCCCGCAACTATTGAAACTCCTAATAGGTTTTGTCGAC
ACGAAGGAGACCGTGTGGAAAGGTTATTTGTACGCCGTTGGTTTGTTCGCGTGCGCGACC
GCTCAGACGCTGCTGCTCTCGCACTACTTCACGAGAATGTACCTTGTGGGTATGAGAATA
AGGACGGCTTTAACCAGCGCCGTGTACAGGAAGTCAATGCGGATATCCAACTCGGCTAGG
AAGGAGACGACCGTTGGTGAAATTGTTAACCTCATGGCTGTTGATGCGCAGAGGTTTGTG
GAGCTGACGGCCTATCTGAACATGATATGGTCGGCTCCTCTACAAATAGCCCTGGCCCTA
TACTTCCTGTGGGGTATCCTAGGTCCGTCGGTACTGGCCGGGCTGGCGGTTATGATCGTC
CTCATACCGGTCAACGGGCTCATAGCGAACAGGGTCAAGACCTTACAGATCCGGCAGATG
AAGTACAAGGACGAGAGGGTCAAACTCATGAACGAAGTGCTCAATGGAATTAAGGTCCTA
AAAATGTACGCCTGGGAACCTAGTTTCGAAGCTCAGATACTTAAAATAAGGAACAAAGAA
ATGAACGTTTTAAAACAGACGGCATATCTTAATTCAGCTACCTCGTTCATATGGTCTTGT
GCACCTTTTCTGGTGACCTTCCTAACTTTCTTCACTTACGTTATTTCCGATCCAGTAAAC
AATGTCCTGAAACCTGATACGATATTTGTATCGATGTCACTGTTCTATATAATGCACCTG
CCGTTAGGGTTGCTCCCCATCATCGTGGTGTCCATCATAGAGGTGTCGCTGATGTCATTT
GGGTGCTTTGTTCTGGTAAATGATAAGGAGGTATTGGATTCAAAGCGCGCTTTCGTAGCG
TTGTCTCTCTTCAACATCCTACGTTTTCCACTATCCATGCTGCCTAACGTTATATCGAAT
GTAGTTCAAACATCAGTTGGTATAAAACGTCTGAACAAATTCATGAATTGCGACGAATTG
AACCTCAGCGCGGTGGAACACGATCCGAAAGAACCGAACCCGATTGTCATCGAGAACGGT
CACTTCTCATGGAGCGACGAGTCCGAGCCGGTGCTGAAGAACATCAACCTTCAAATACCC
CGCGGGGGTCTAGTGGCGGTGGTGGGGGCCGTGGGCTCAGGGAAGAGTTCCCTACTGTCG
GCGCTGTTGGGAGAAATGAACAAGATCTCCGGACGAGTTAACACCAACGGCGTTATAGCG
TACGTGCCACAACAGGCGTGGATACAGAACGCCACGCTCCAGGACAATATCCTCTTCGGC
AAACCCTTGGAGAAAGTCAAATACAACAACGTCATCAACGTGTGCGCTCTCAAACCTGAC
TTCGATGTACTGCCGGGGGGGGATCAGACAGAGATTGGAGAGAAAGGTATAAACTTATCC
GGCGGTCAGAAGCAGCGGGTGTCGTTAGCCCGGGCGGTGTACTACGATGCGGATAATTAC
TTCCTGGACGACCCGCTCAGCGCAGTCGACTCGCACGTTATAGGTCCCAACGGCCTCTTA
AAGGGCAAGACGCGTGTGTGGGTGACGCACAACGTGTCGTATCTGGCTCAGACGGACCTC
GTGCTAGTGTTGAGGGACGGAGTGGTCTCCGAGGCCGGGACCTACCAGCAGCTGCTAGAA
AAGAAGGGAGCCTTCGCTGACTTCCTCCTGCATCATCTCAGTGACAAAGAAAGAACTACT
CCAGAAGAACTGGACGTTATCAAGCAAGAATTAGAAAGCAAGTTGGGTTCAGAGTTCCAG
AACAAACTGCAGAGGGCGCGGTCGTTGTCGGAAAGTACTTCGGAATCGGAACAAGCGACG
GGCGATCGCAGCGGCAGCGTGAAAAGAAAAACTCCAGAAGCAAAACCAAGCGAGTTAAAA
GAAAAGAACAAACTGATTGAAGCAGAAAAAACGGAGACCGGCAGCGTTAAGTGGAGCGTC
TATAAGCATTACTTGACAAGCGTTGGACTAGTTGCATCTGCGCTAACGGTGCTCATGAAC
CTGGTGCTGCAGGTGTTCCAGGTCGGCTCCAACTACTGGCTGTCCGAGTGGTCCAACGAC
AACTCTATGCTGGTGAACGGTACTGTTGACAAAAGCAGGAGAGATCTATACTTGGGTGTG
TATGGAGGTCTGGGGATCGGACAAGTTGTGTCGGTGTCGGTGTCGTCACTGGCGTTGTAC
CTGGGCACACTGTGCGCGGCGAGGGCGCTGCACGCGGCTCTGCTGATGGGCGTGCTGAGA
GCGCCCACCATCGGCTTCTTCGACTGCACGCCGGTCGGCCGAGCCCTCAACCGGTTCAGC
AAGGACGTGGACGTGCTGGACAACGTGCTGCCCATGACGCTGCGAGGGTGGACCTCGTGC
TTCTTCTCGGTACGCGGCCAGGCGCTTCTGAATATTGATAGACGCATCACAAACGACACC
TCCACCTATCCAACGAGACAAGAGAAATTTTGTAAACAATAA
Protein sequence:
MSYNSTLDDFCGSKFWDANLSWYTENPEFTPCFEKTVLIWIPCSYLWVAALLDAYYIYNS
KERNIPWNALNIIKLVITFLLIVLKFVDLGVTVHKSSRDEAVFNVDYYAPVVKILTFALS
ATLLYYNRKYGMRASGVLFFFWFFLILAGLPQLRSEIMMHYELAEDENVQYNFVSYMIYY
PLIILMFILNCFADLPPKESPYKYNKNQCPESASGFPSRLTFSWFDPLALTGFRRSLVES
DLWALNPQDSSKEVVPKFDKFWERTLSKREKANGTKATYSNTSASVNFKPDKEVKPASIL
PALCLAFGGEFLFGALLKLVNDVLMFLSPQLLKLLIGFVDTKETVWKGYLYAVGLFACAT
AQTLLLSHYFTRMYLVGMRIRTALTSAVYRKSMRISNSARKETTVGEIVNLMAVDAQRFV
ELTAYLNMIWSAPLQIALALYFLWGILGPSVLAGLAVMIVLIPVNGLIANRVKTLQIRQM
KYKDERVKLMNEVLNGIKVLKMYAWEPSFEAQILKIRNKEMNVLKQTAYLNSATSFIWSC
APFLVTFLTFFTYVISDPVNNVLKPDTIFVSMSLFYIMHLPLGLLPIIVVSIIEVSLMSF
GCFVLVNDKEVLDSKRAFVALSLFNILRFPLSMLPNVISNVVQTSVGIKRLNKFMNCDEL
NLSAVEHDPKEPNPIVIENGHFSWSDESEPVLKNINLQIPRGGLVAVVGAVGSGKSSLLS
ALLGEMNKISGRVNTNGVIAYVPQQAWIQNATLQDNILFGKPLEKVKYNNVINVCALKPD
FDVLPGGDQTEIGEKGINLSGGQKQRVSLARAVYYDADNYFLDDPLSAVDSHVIGPNGLL
KGKTRVWVTHNVSYLAQTDLVLVLRDGVVSEAGTYQQLLEKKGAFADFLLHHLSDKERTT
PEELDVIKQELESKLGSEFQNKLQRARSLSESTSESEQATGDRSGSVKRKTPEAKPSELK
EKNKLIEAEKTETGSVKWSVYKHYLTSVGLVASALTVLMNLVLQVFQVGSNYWLSEWSND
NSMLVNGTVDKSRRDLYLGVYGGLGIGQVVSVSVSSLALYLGTLCAARALHAALLMGVLR
APTIGFFDCTPVGRALNRFSKDVDVLDNVLPMTLRGWTSCFFSVRGQALLNIDRRITNDT
STYPTRQEKFCKQ