New model in OGS2.0 | DPOGS213319  |
---|---|
Genomic Position | scaffold784:- 9848-20017 |
See gene structure | |
CDS Length | 3186 |
Paired RNAseq reads   | 4137 |
Single RNAseq reads   | 10375 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA009503 (0.0) |
Best Drosophila hit   | CG34120, isoform D (4e-84) |
Best Human hit | ATP-binding cassette sub-family A member 12 isoform b (6e-62) |
Best NR hit (blastp)   | PREDICTED: similar to ATP-binding cassette, sub-family A (ABC1), member 1 [Apis mellifera] (5e-166) |
Best NR hit (blastx)   | PREDICTED: similar to ATP-binding cassette, sub-family A (ABC1), member 1 [Apis mellifera] (9e-134) |
GeneOntology terms    | GO:0042626 ATPase activity, coupled to transmembrane movement of substances GO:0043190 ATP-binding cassette (ABC) transporter complex GO:0005215 transporter activity GO:0006810 transport GO:0005524 ATP binding |
InterPro families    | IPR003439 ABC transporter-like IPR003593 ATPase, AAA+ type, core |
Orthology group | MCL10038 |
Nucleotide sequence:
ATGAAGCTGCGTGAGAACAGGACCATCCTAATGACAACTCATCATCTTGATGAAGCTGAA
CTGCTCAGCGATCAGATTATCATCTTACACAAGGGCCAAATCCACACCACCGGTTCCCCA
ATAGAGATCAAACGAACCCTCGGCACTGGATACAAATTATCTATAACTTTCCCAGAGGAG
AAAGTAGAAGGAGATGGAATAGAAGAGAAAACCAAAGACACGCTAGCAGTTGTCAAGAGT
GTTGTTAAAAATGCTAATTTAATCGACGTCAACGGCTCTGAAGTTGAGATCAATTTACCT
TTCTACGACGCAAATGGAGTCAGTAACGATATACAGGGTGTATGTCAATTAGTGGAGAGT
ACTCTGGTCTCCGGCCGCGTGTCTCTGGACTGCAGCACTCTGGAACAGGTTTTCCATGAC
CTGTGTCGCGCACCTGACGAAGGACCAATAGCAACTCCCACTATGGACACGCCTTCTCTA
CCCGAGTCTTCTAAGAGCGCTTCTGGCAGCAATAAATCAGACCATACACCACTGGTGGAG
CCCGAAGGACCCTTGAAGGGTTCACTCTCGCAGCAGTTCCGCGCCCTTATGTACGCGAGA
TATCTACATTATATTAGAAACAAATGGCTGGTGCTGATATTGATAGTACTGCCGTCGTTG
TTCCTGGCAGCTGCGATGGCCTTCTCCAGCATCCGACCGCCCGCTGACGTCGAGATATCT
CTCAAATTAGATAAAAATCTATATGAACCATCGACGCAGTTTATGATAAAACCATCTCTA
CTGTCGGATGTGGACAACACGTTTGCCATGCGTGTTCTAGACACGTTACAATCTGGAAGA
CAAACCCGAAATTGGACTAATGAGGATTCTCCTCCATGTCGATGTGTGGACTCTTTCCAA
CAGTGCGTGTTATCTGATGAGAAGTACGATCTGCCGGAGATGATGTTGTTACCGGACGTC
GCCACGCTGAACAACTGGCTGGTTGATTCACAGAAAATTTATATCCAAAAACGTTATGGC
GGCTTCACGTCTTCTGTCCGCAACAACCGCTCCTATCTCATCGCGTGGTACGACAACAAC
GGGCACCACGCCCTGCCCGTGTTCCTGAACTCCTTAAACACGGCCGTCCTAAGGTCTACA
AGCGGCGACCCTCGTGCCACCATCACCACCTACACGCACCCGCTCAAGATATCCACCGAA
CAGCTCAATAAAGACAACGTTTACCAGCATATAGCGGACGCCGGCATCTCTGGTATGTTG
TTGATAGCGTACAGTCTAGCGGGCGCGGGCGGAGCGGCGCTGGTCGTCAGCGAGAGAGTC
GGAAGACAGAAGCGCTTGCAGCTGCTGTGTGGCGTGTCGCCAGCACTGCTTGCAGCGCTT
CAGCTGCTGTGGGATATGATTGTCATCATCATCAATATGATCATCACAGCCATCATCCTA
GAGATATTCCAGTTTCCGGTGTTCGTTGAGAAGAACAACCTGCCGGCCATATGTATCCTC
ATTTTACTATACGGTTACGCGTGTTCTGGTGTGGTGAGTGTGATGGAGAAGCTGTTCCAG
GAGTCCAGCCTGGCCACCATGTTGTTGTTCTGCGGGAACGCCTTCATTGGACTCGTCGGT
ATAGCGATGCTCCTCATACTAGACATCATATCGGATTCCGATGCGACGGATAGCGCTCGT
TACATTCTTCATAAGATCCTGCTGGTGAGTCCCCAGTTCGCACTCGGAGATGGACTTCTG
GAAATCGCCAAGAATACCATACAAGCGCAGGTCCTCCGTCAATTCAATATGGACACGTAC
CGAGACCCGATCTTCTCCAGCCTGGTGTGGCTCCACTTCGGTTACCTGCTGGTAGTGGGA
ACAGCGTTCATCATCACCAACTTACTCATCGAGTATCATTGCTTCGAATCAATATTGGAC
ATATTGTTTGGGTCGCCTGAGGAATCTGATGAAGCAGTGGTCGGTTGTAAAGACGGCGGG
GGGCCGGCCAACGAGACAGGCGTCAAAGAGGAGGTGGTCAGAGTCATGAGGTCACTGACC
CCGCTAACTCTGCGAACCGTGGGGAATATTAACGCTGGTTTTGTTGATACCGAGGAATTG
TCCAAGCCCCGATCTCCGCCCCGCTCGTTATCTCGATCCACGGACACGTGTTCTGTATTG
CGGCTCACGAGACGGTACGGGACTCACGTGGCGCTGAGAGAACTCACACTGGGTTTACCA
CCGGGACAGTGCACAGTTCTGTTAGGAGAAAACGGTGCTGGCAAGTCCACAACCTTCTCT
ATACTGGCCGGAGAGTTGAAGCCTACTTCCGGGGAAGTATACCTACAAGGACGAAGAGTC
ACTACCAGAGATCTCTGTCAAGGACTCATTAGTTACTGTCCACAAAGTGATGCCGTGGAT
CCTTTACTAACGGTGCAGGAGACACTATACATATTCTGCCAAATCAGAGGAATACAAAAT
ATAAAGCAGGTCGTTTCTCGTACTTTGGAAGCTTTCGAGTTGCGTCGATATGAGAGCGTC
CGCGCGGGCTCTCTCAGCGGAGGAACCAGACGCAAGCTGTGCACGGCCTTGGCCACTACA
GCGCGAGCACCCCTACTACTGTTAGACGAACCCACCAGCGGCATGGACCCTCTCTCTCGT
GCGTGTGTCTGGAGGTCTGTGCGTGCGTGGTGTGCGTCAGGGTCAAGCTCCCGAGCCGCC
CTCCTCTCAACACATGCTCTGGACGACGCGAGGCGACTCGCCAGGAGAGTAGCACTACTA
AGACTGGGCGAGCTTTGCGCCGTGGCACCACTAGAGGAGTGCCTCAGACGATTCGGTGGT
GGTTACGTGGTGTCGTGTCGCGTCCGTGAAGGATCCTCGTTGTCGTCGTGGCGTCGTGTC
GTCGCTCGTTGTCCTCTCGCCGTGCTCCGCGTGTCTTTACCGACTGCATTACACTTCCTA
CTGCCGCTACATTCTAATGTGGACGGTAAGGAATCTGAGTTGCTCCTCAGCGACATCTTT
CGTCTCATGAACGAATTACAGAAGAGCTGCGATATTGATGACTACACCGTCAACCAGAGC
TCACTAGACCAGATGTTCCTAAGTTTCACGGATAAAAAGAGCATCGTAGAACAAGAAGAT
GATAACGACACGACGACGAGACGACGACGACACAGCGACGAACTGGACTCCGTCACCGCC
TTGTGA
Protein sequence:
MKLRENRTILMTTHHLDEAELLSDQIIILHKGQIHTTGSPIEIKRTLGTGYKLSITFPEE
KVEGDGIEEKTKDTLAVVKSVVKNANLIDVNGSEVEINLPFYDANGVSNDIQGVCQLVES
TLVSGRVSLDCSTLEQVFHDLCRAPDEGPIATPTMDTPSLPESSKSASGSNKSDHTPLVE
PEGPLKGSLSQQFRALMYARYLHYIRNKWLVLILIVLPSLFLAAAMAFSSIRPPADVEIS
LKLDKNLYEPSTQFMIKPSLLSDVDNTFAMRVLDTLQSGRQTRNWTNEDSPPCRCVDSFQ
QCVLSDEKYDLPEMMLLPDVATLNNWLVDSQKIYIQKRYGGFTSSVRNNRSYLIAWYDNN
GHHALPVFLNSLNTAVLRSTSGDPRATITTYTHPLKISTEQLNKDNVYQHIADAGISGML
LIAYSLAGAGGAALVVSERVGRQKRLQLLCGVSPALLAALQLLWDMIVIIINMIITAIIL
EIFQFPVFVEKNNLPAICILILLYGYACSGVVSVMEKLFQESSLATMLLFCGNAFIGLVG
IAMLLILDIISDSDATDSARYILHKILLVSPQFALGDGLLEIAKNTIQAQVLRQFNMDTY
RDPIFSSLVWLHFGYLLVVGTAFIITNLLIEYHCFESILDILFGSPEESDEAVVGCKDGG
GPANETGVKEEVVRVMRSLTPLTLRTVGNINAGFVDTEELSKPRSPPRSLSRSTDTCSVL
RLTRRYGTHVALRELTLGLPPGQCTVLLGENGAGKSTTFSILAGELKPTSGEVYLQGRRV
TTRDLCQGLISYCPQSDAVDPLLTVQETLYIFCQIRGIQNIKQVVSRTLEAFELRRYESV
RAGSLSGGTRRKLCTALATTARAPLLLLDEPTSGMDPLSRACVWRSVRAWCASGSSSRAA
LLSTHALDDARRLARRVALLRLGELCAVAPLEECLRRFGGGYVVSCRVREGSSLSSWRRV
VARCPLAVLRVSLPTALHFLLPLHSNVDGKESELLLSDIFRLMNELQKSCDIDDYTVNQS
SLDQMFLSFTDKKSIVEQEDDNDTTTRRRRHSDELDSVTAL