| New model in OGS2.0 | DPOGS205086 |
|---|---|
| Genomic Position | scaffold62:+ 119255-129329 |
| See gene structure | |
| CDS Length | 4977 |
| Paired RNAseq reads | 1306 |
| Single RNAseq reads | 3026 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA006882 (6e-59) |
| Best Drosophila hit | sulfonylurea receptor (2e-48) |
| Best Human hit | ATP-binding cassette sub-family C member 9 isoform SUR2A (1e-52) |
| Best NR hit (blastp) | PREDICTED: similar to ATP-binding cassette transporter sub-family C member 8 (Sulfonylurea receptor 1) [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to ATP-binding cassette transporter sub-family C member 8 (Sulfonylurea receptor 1) [Apis mellifera] (5e-179) |
| GeneOntology terms | GO:0004872 receptor activity |
| InterPro families | IPR003439 ABC transporter-like IPR017940 ABC transporter, integral membrane type 1 IPR017871 ABC transporter, conserved site IPR003593 ATPase, AAA+ type, core IPR001140 ABC transporter, transmembrane domain IPR011527 ABC transporter, transmembrane domain, type 1 |
| Orthology group | MCL18391 |
Nucleotide sequence:
ATGGATGCAATTTGTATGAGCGGTGACCGTTTGTGTCACGTCCACGCTCTGGCCGCAGCG
TTACACTCGCTGATCCTGTACTGCACAGTCATCTCCGCCGCCTTAATATGTTGCTGTTCA
ACGTCACGATCAAACTGGTCGGGGACTCATTGGAGATATCAAAATGTTAGAGGCATAGCG
AGTCTTACGTTGGGTGTGATCTGGTGTTGCGGAGGAGCTGCTGCGTCATTGAGACCTGCT
GATACAGTGAGCCTTGTAGCAGCCCTGATGCCACCACTGGCTTGGCTCTCAGCCGCGGCG
CTGCACGTGTCACTGTGGACTAGGCGCTCCTCAGCACCGATACTTTATTTAGCAATCTAT
TGGTTGCTATCCGCAGCGTCATCTGCCTCAGTTTTATATCAACTGGTTCAAGTTGAAAAT
ACTTCCAAAAATATAGAATTCTATATACATGGTACTGCTATGTTATTAACATCGATAATA
GCTCTCATAGACTGTATCTGTTTCTATGACGAGGTAGTCAAAAGATATCATTGCAGTCCA
AAATCGACTACGGAACCTGACACCGCAATATATAATTATAAGCAAACACATTTTTATTCA
AAAGTAACATTTTTCTGGTTGAACTTATTTATGTGTAAGGGCTATTATGTACCAGAGGCT
ACAAATGACATTGGTGAAATACCTGACGACGAACGCTCTAAAGTGCATTTTAATAAATTT
AAAAAATATTACAAACAACAGAAGATGTCACCAGATAAAACAACGGGTTTTAATATTTGG
AAATGTTACGCTCGCATGGTTTGGCCGAATTTTTATATCGCTGGTATTTTAAAGTTGTTC
GGAGATATTACAGGCATTGTACCAGCAATAGGAATAGCTGTTATAATTCAATACATAGAA
AACCCAAATACATCGTACAATATTAATACGCATGTCACTGTTGACGAATTTACTTCAAAT
GGATTCGTCATGCTACTAATTATATCGTTAGCACTAATTGTGCAGGCTTTATTATCACAG
AATTCGACTCATTTGGTTACCGTAGAAGGTACCCGACTAAAGATGGCATTACAAAGCGTA
ATCTATGACAAATGCATGAAATTAGCGTCATGGTCAGTGAATCCCGAAGTGGAAGAAGAG
ACTCCGTTGTTGCATAACCCCGAGCAGGAAGCCAACACACAGTCGGGGCTCCTGATGAAT
TTAATATCACAAGATACTTATAATATAATGTCGTGTGTATGGATTTGCCACTACATATGG
TCTATACCTTTAAAGGTATCAGTAATACTGTACCTTCTCTACGCTCGTTTAGGACTGAGT
GCCATTATAGGTACCGCTTGCAGTTTATTGATAGTAACGCCCTTACAATTTTATATCGGG
AAGAAAATTGCTTGTAATTCAAGAAATATATCGAAATGCACAGATCACAGAGTTTCAAAA
ATATCTGAAATTTTACAAGGAATAAATGTTATAAAACTATATGTTTGGGAGGATTTATTT
AATGAAAAAATACTACAGTTCCGAGAAGTAGAGTTGAAACTCCTTAATAAAGATTCTGTA
TATTGGGGTTTTTTAACCTTCACGACACAAATCTCTGCTGTCCTAGTAACCGTTGTAACT
TTTACGACCCACTACATCCTTGAGGACAGCAGCACATTAACAGCCACGAAAGTATTTTCT
GGTTTAGTGCTATTCAACCAATTGACGATACCACTTCTTATTTTACCCGTTACTATATTA
ATGATGATCCAAGCGATGGTCAGCACAAACAGAATTAAAGACTTCTTGGAACTTCCGGAG
GCTTTTAATGTACCCGATGATAACATTCATAGTGATTCATATAATATAGACTCGGAAAAA
AACACTGACGACTTTTTAGATAATCCTCTATCTGAGAGAGATGAATTTGAAGACGAAGAG
GCTGACAGAAGTAAAGAAAATAAAGAAGCAATTCAGAGCGAAGACGTGTTGATCTCTTTT
AAAAATGCAGCTTTTTCTTGGAGGATGAAAGATAATGCCTGGCTAGAAATAGATGAATTG
GACATTCCAGCGGGAAAATTAATCATGGTTGTCGGATCATCTGGTTCGGGGAAATCATCA
CTGCTTTCAGCAATCTTGGGAGAGATGTATCGAGAACGTGGAGACGTTAAAATAAGCGAA
AAATGTTCAATGTGGTATTCTGGTCAGCCGCCTTGGCTTCTGGAAGGTTCTATACGAGAC
AACGTGTTGATGGGCGGTACATGGAGCGCGATCAGATACAACCGGGTGATGCGCGCCACT
GGTTTGCGGCCAGATCTGCAGCTTTTACCTGATGGTGATAACACACAATTAGGTATCTCA
GGTGCGCCTCTGTCGGGCGGACAACGCGTGCGGCTGAGTGTAGCTCGCGCACTGTATTCT
CGCTCGCGTCTCATCGTATTAGACGAACCTTTGGGAGCCTTGGACGTACCTCTGGCCCGC
CATTTAGTAGCGAGGGCACTGCTTCCAGCCGCGCGGGCCGGTCGGACGATCATACTGGCT
ACCAATAGACTTGAGCTGCTCCACTACGCAGATTTAGTAATCGCAATGGAGGACGGACGT
GTCAGTGTGTGTGGTCGTGTGAGCTCGACGTGTAACGGTTCTATCAAGCAGTGGGCTCAG
CTGGCGGCGGAGGCTCGGGAGTCGGCGTCGCGGGGAAGTCAGGGGCCCACTGGCGGAGCC
GCAAGAGAACGATCACATTTAATACGCGCCATTAGCCGAACGCAATTTCAGATGCATATA
TCGGAGGAATCCCTGCCGCAAGTGGGAATCAACGAAGTGGCGGGCGCACATCTATTGGCG
GAAGTCCCCACATGTGCCGGCGGAAGCTGGAGAAACACGATGAGTCGAATAAGACCTCCT
TTACCGCGCCAGTTTTCCACGCCATCCCCAGATATGCCTCGCGCTAAATGGCTACGAGAA
GTAAGACGAGCCGCGAGCGTGGACGCCTCGAATGAGGCTTTGCAGCATGAAGCAAATTTG
ATAAGACGCGTACTACCCAGTCGCCCTTACAGGACACTTTACAGCAGATGGACTCCGTGG
CGTTTACGTCACTTCCTGAGTTCCGACTCGGATAAGGAAACACAACATAGTCGTCAGAAC
TCCAACAACGGCCCCGTGGAGGTCCCCGACTTGACGTTGACTTCGGTAACTCGTAATGGC
ATTGAGACATCCGTGACCATTCCAGATCTCCCGCTTACTAATGAAGAACAAGAACCTGTT
CTACGCGAGTCCGCAGCGTGGTGGCAGTACTGCCGCGCGTGTGGCTGGTGGGGCGCCGCG
TACCTGGCAGCGGCGACTTTGACTCAGGGCTTAGCGATGACTGCCGACTGGTGGCTGACT
CGACTCACAGATTCTAATAACCGAGACCCTCTATCCGACAATCAGATTTGGGATATGATC
CTCAGTTATTCTCTGTGGTGTGCGGGCGGCGTCTTGCTAGCAGGGTGTGCCCAGGTTGCC
TGCGCCTGTGCAGGAGCCAAGTCACGTCGCAGGCTTCACGAGAGACTTCTCCACGCCACA
TTACACGCTCCGCTGTACTATCACCACACACATCCCGCTGGAGACGCCTTACACCGTTTC
TCCTCTGACACTCTAGTTATTGACAAGAAACTGTCGACGGCTGTTAGTAGATGGGTGCAG
ATAGCGCTGCTCTGTGGAGGGGCGGTGCTAATCAACGTGTTCATATCAGCCTGGACGTTG
TTCGCTTTAATTCCCGCTCTTCTATTTTATATGACTTTACAGTCTGTTTATTTACGAAAC
GCCAGAGAGTTGCAGCACATAGAGGCGTCAAGTGCTGGTCGAGCGATCTCCCTGGCGGTG
GAGACGCTGGGCGGTGCGGGCGCCGTGCGAGCAGCGCGACTACAACACAACATGAGGGAA
GCCTTCCACACACGACTAGATCGGAACCACAACGCCCTACTGCTGCTAAATTCCGCCAAT
AGATGGTTAAGCCTGTCCCTGGACTTAGTGGGCGCGGCAAGCGTATTTGTATCGTTAGCG
GTGGCTCTGTACAGCGGCAAAAATGGAGCTCTGACTGGGTTAGCGGGGACGTACTCGCTC
CTACTGCCCGTGTACCTCGCACACCTCGCCAAGTGTCGCGCTGACCTGGACCTGCATCTA
GCATCCGTACAGAGACTCCTCAACAATACGAATATACCACAAGAAGATTATAGAGATGAC
TGTCCAATACCTGCCGGCTGGCAGAGAAATGGAAAGATTGAATTTGAAGACGTCAGTGTA
CAGCATCAACCGAATAGACCTCCAGTGCTTAAAAATATTAATTTCACTATAAATCCTGGA
CAAAAGGTCGCCATTTGCGGAAGGAGCGGAAGCGGCAAGTCAACGTTACTTCTAACTTGT
GCAGGAGCCACAAGAATATGTGGTGGTCGAGTGTTGCTTGACGGCAGGGATGTAACAAAG
GTCCCGCTTCGAGCCTTACGACACAGAGTGGTGGTCTTGCCACAAGAAGCTATTTTGTTT
TCGGGTACTCTGAGAGAGAACCTAGATCCTCTCGGAATGCACACAGATGAAGAGATTTGG
GAGAGTTTAAAAGCCGTTGGACTCTATGACTACATATCAGCTCAACCCGCTGGTTTAGAG
TGCGGTGTGTGCGGTTGGCGCGGCTCGTGGGGCGGAGGTCGCGGGGCGCGGGTATGCGGG
GCGCGGGCGGCGCTCCACGCTCGCCTCGCAGCCGCGCTGTTGCTGGACGAGCCGGGCGCC
GCGCTGGAGGCGACGGCCGAGCGCACTCTCCTACACGCTATAGCCGCCGTCGCTCCAAAC
ACTACAGTCCTTACCGTGGCCCATCGCGTGTCCTCTGTACGTGACTACGACACCGCGGCC
GTTCTTCAAGACGGATGTCTGTGCGAGCGCGGGAGGGTCATCGACCTGCTGGAGACACCC
GCTTCTGCACTCGCCAGGCTACACTCCTCTGAACATAGACTAATACACCTTTATTAA
Protein sequence:
MDAICMSGDRLCHVHALAAALHSLILYCTVISAALICCCSTSRSNWSGTHWRYQNVRGIA
SLTLGVIWCCGGAAASLRPADTVSLVAALMPPLAWLSAAALHVSLWTRRSSAPILYLAIY
WLLSAASSASVLYQLVQVENTSKNIEFYIHGTAMLLTSIIALIDCICFYDEVVKRYHCSP
KSTTEPDTAIYNYKQTHFYSKVTFFWLNLFMCKGYYVPEATNDIGEIPDDERSKVHFNKF
KKYYKQQKMSPDKTTGFNIWKCYARMVWPNFYIAGILKLFGDITGIVPAIGIAVIIQYIE
NPNTSYNINTHVTVDEFTSNGFVMLLIISLALIVQALLSQNSTHLVTVEGTRLKMALQSV
IYDKCMKLASWSVNPEVEEETPLLHNPEQEANTQSGLLMNLISQDTYNIMSCVWICHYIW
SIPLKVSVILYLLYARLGLSAIIGTACSLLIVTPLQFYIGKKIACNSRNISKCTDHRVSK
ISEILQGINVIKLYVWEDLFNEKILQFREVELKLLNKDSVYWGFLTFTTQISAVLVTVVT
FTTHYILEDSSTLTATKVFSGLVLFNQLTIPLLILPVTILMMIQAMVSTNRIKDFLELPE
AFNVPDDNIHSDSYNIDSEKNTDDFLDNPLSERDEFEDEEADRSKENKEAIQSEDVLISF
KNAAFSWRMKDNAWLEIDELDIPAGKLIMVVGSSGSGKSSLLSAILGEMYRERGDVKISE
KCSMWYSGQPPWLLEGSIRDNVLMGGTWSAIRYNRVMRATGLRPDLQLLPDGDNTQLGIS
GAPLSGGQRVRLSVARALYSRSRLIVLDEPLGALDVPLARHLVARALLPAARAGRTIILA
TNRLELLHYADLVIAMEDGRVSVCGRVSSTCNGSIKQWAQLAAEARESASRGSQGPTGGA
ARERSHLIRAISRTQFQMHISEESLPQVGINEVAGAHLLAEVPTCAGGSWRNTMSRIRPP
LPRQFSTPSPDMPRAKWLREVRRAASVDASNEALQHEANLIRRVLPSRPYRTLYSRWTPW
RLRHFLSSDSDKETQHSRQNSNNGPVEVPDLTLTSVTRNGIETSVTIPDLPLTNEEQEPV
LRESAAWWQYCRACGWWGAAYLAAATLTQGLAMTADWWLTRLTDSNNRDPLSDNQIWDMI
LSYSLWCAGGVLLAGCAQVACACAGAKSRRRLHERLLHATLHAPLYYHHTHPAGDALHRF
SSDTLVIDKKLSTAVSRWVQIALLCGGAVLINVFISAWTLFALIPALLFYMTLQSVYLRN
ARELQHIEASSAGRAISLAVETLGGAGAVRAARLQHNMREAFHTRLDRNHNALLLLNSAN
RWLSLSLDLVGAASVFVSLAVALYSGKNGALTGLAGTYSLLLPVYLAHLAKCRADLDLHL
ASVQRLLNNTNIPQEDYRDDCPIPAGWQRNGKIEFEDVSVQHQPNRPPVLKNINFTINPG
QKVAICGRSGSGKSTLLLTCAGATRICGGRVLLDGRDVTKVPLRALRHRVVVLPQEAILF
SGTLRENLDPLGMHTDEEIWESLKAVGLYDYISAQPAGLECGVCGWRGSWGGGRGARVCG
ARAALHARLAAALLLDEPGAALEATAERTLLHAIAAVAPNTTVLTVAHRVSSVRDYDTAA
VLQDGCLCERGRVIDLLETPASALARLHSSEHRLIHLY