| New model in OGS2.0 | DPOGS202910 |
|---|---|
| Genomic Position | scaffold273:+ 54699-73358 |
| See gene structure | |
| CDS Length | 4899 |
| Paired RNAseq reads | 2165 |
| Single RNAseq reads | 5045 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004187 (3e-19) |
| Best Drosophila hit | CG1718 (3e-120) |
| Best Human hit | ATP-binding cassette sub-family A member 3 (1e-79) |
| Best NR hit (blastp) | PREDICTED: similar to ATP-binding cassette sub-family A member 3 [Tribolium castaneum] (1e-176) |
| Best NR hit (blastx) | ATP-binding cassette sub-family A member 3, putative [Aedes aegypti] (1e-166) |
| GeneOntology terms | GO:0000166 nucleotide binding GO:0005524 ATP binding GO:0016887 ATPase activity |
| InterPro families | IPR003439 ABC transporter-like IPR017871 ABC transporter, conserved site IPR003593 ATPase, AAA+ type, core |
| Orthology group | MCL18749 |
Nucleotide sequence:
ATGAATACGTTAGGAGTTCTTATGTGGAAACATATGGTGGTTAGGAAGAGAAGATTCATC
CACACTACAGTTGACATATTATCTCCTTTAGCATTCTTTGTGCTCCTGTATTTATTTAAG
GGATATATAACCTCTGGTAGGAGATCTGCGATGTCTGATGAGTTTATAGTCCAAAATACT
GAACCAGTGGATTTAGACAAGTTGCAAGGGCCCACAGCTGTATTCTACAGCCCTGACACA
GATCTCACTGGCCTCCTCATGGACCAGGTCGGTGAAAGCTTACACTTGCAGAGGAAGAAA
TACACTCCAGGTTATCTTGAGGAGTTTGGATACATGCCCTTCCAAAATCTATCTGATATA
CTTGATGCTAATAGGAAGCTAACAGATACAGATGCCATAGTATTGTTTGAAAACATGAAC
AGCACGTGGCCTGAACGACTAAACTATACCATCAGGATGAAAGGTGACTTCCAGACGAAC
AAAGTGACCGTCAACGACGAGTCCTTGGGGCCACACGAGAGCTTCGGTACGATATATGAG
CCCTTCATGAGACTGCAGTGGGCCATAGACACCAGCTACCTCAAACTGTTATCCGGCTCC
GACATCAAACAGCGTGTGACGATCCAAGAGTTTCCTTACGTCCGCCAGCAAGAAGTGCCA
GCAATAAAGAACGTCTGCAACCTTCTGCCCTTCATCTGCTGGATATCCTTACTGCTGACA
TTCGTGTATGTAATGTCGAAGCTTCTGGAAGAAAGGATCACTGGTATTCAGGAGCTGATC
AAAATGGCGGGAGTGTCAAACTTCCAGATATACCTGTCCCATTTCCTAAATATGTTGCCT
GTCGGCGTGATTTTCTGTGTTTTTGGGACCCTCGTTATGACACTGACCGCCACTCCCATC
ATACCACAAACCAGCGCCTTTCTCATCATGATATTCTTGATTTTGCACTTTATGAACGTG
ATGTGTATGGCGTATTGTAGCAATTTCCTCATCACCAACACTCAGTACTCGACGTCAGTG
GCGGCTGTGGTGTACATCGTCGCGGAACTTCCAATAAGCTTAATTGGAAAAAGCTATCCT
ACCTGGGCGCGGCCGATCGTAGGATTGTTACCCTTTATGCCCTTGCACTGGTTCTGGTGG
GAGGTCGGCGAGATGGAAGCGTACGGGAAGGGCGCTGGATTCGGATCTATTGCGACGATC
CACGACGCTGGATCTGGTAGTATCTTGGCCGCCTTCGCCTTCTTGCTGGTACAATCAGTG
ATTTTCCTCTTACTGGGCTGGTACCTGTCACTCATCAACCCTGGACCTTACGGACAACCG
CTGCCCATTAACTTCCTCTGTAGCTCGAGTTTTTGGACTAAGAAGCAAGTTGTCCCTGAG
GAGACGATCGAGGAGGAAACTGAACTCGCAGAAAGGCAGGACCCCGCGTACTTTGAAACT
CCGCCCAAGGACATGTATCCCGGGATTAGAATCGTGAACGTGTCCAAGGTGTTCCCTAAA
CACCGCGCACTGAATAAAGTATCCTTGGACGTGTACCGCGGAGAGATCACAGTACTGCTG
GGACACAACGGAGCCGGGAAGACTACGCTGATGTCAATAATAACGGGAATGATGAATGCG
ACTGAGGGTAAGGTATACGTGGAGGGGTACGACACGACCACCCAGAAGAGCCAGATGAGA
AAGCTGCTGGGTCTGTGTCCACAACACAACCTGTTCTTCCCGGACCTCACCATACAGGAG
CACGTGATTTTCTTCACCATGCTCAAGGGGAGCTCGTATCAAGAGGCGGGCCAGTCATCG
GCGAAGCTGCTGCAACAGCTGGGGCTGGGAGACAAGATGTCGGCGAACAGCAGCGACCTG
TCCGGGGGCATGAAACGTCGTTTGCAGCTGGCTTGCTCATTGGCGGGAGAAGCGGCTGTA
CTGATCCTGGACGAACCGACTTCTGGACTGGACGTGGAAACTCGCAGGGAACTCTGGGAT
CTGCTGTTGTCGCTCCGCGGCTCCCGCACAGTCCTGCTGTCGACTCACTTCATGGAGGAG
GCGGATGCTCTCGGCGACCGCGTGGCAGCGCTGCACTCCGGCAGGCTGGTGTGCCACGCC
ACCACCATGCACCTCAAGAAGGCTATCGGGACCGGCTACCGTCTGTCGTGCATCACCGTG
GGCGTCCCTAACGAGCCCGCCATCACCTCCCTCATCACGTCCTACGTGCCGGACGCGACC
CTCAAAGAGCAGACCCTCAATTCCCTCTCGTACAACCTCCCATCGAAGGACACCAGCAAA
TTCCCAAAACTCTTCAACAGCTTAGAATCAAAAAAATCCGAATTGGGAATCAACTCTATC
GGAGTCGGCATTTCGACGCTGGAGGAAGTGTTCTTGAAACTATGTAGCGACACAAGCGCT
GGACTGACGCTCGACGAGGTGGACACGGGACCCAGTGAACCCCAGTACGAGGTCCTCACG
GGTATGAACCTGTGCGCGCGCCAGTTCGTGGCGCTGGTGAGGAGACAGCTGAAATATTTA
AACGCGAGGAGATCGATTTTTTTGACTGTGAGTGTACTGCTGCCGATCAGCATGATGTTA
CTAATGACCTTCGCATTGAACACCGACAAGGCAAAGGAACAGAGCGACGACAGCGTGGCC
CTGGACCTGGACCTGTACACGCAGCCGCACAGGAGGGTCATGGTGAACGTGGAACCCGGA
ACCAACGTCAGGGCCCTCGGAGACTCCTACCCCACCGTGGACTTTGAACTCACCAGCGAC
GTGGCCGACGCGATCTTCCGAACCAGCAAGAAGGATGTGTTTGAATACAACAAATACCTG
GTCGGCATCGAACTGAACGAGACGCACGCCAATGCGCTATACACGACGGTGGTGCGTCAC
GCGGCGCCCGTGTCCTTGAGCATGTTGTCCAACACCCTGGCGACCCTGCTGCTGCCGGCG
GCGGACGGGCGGGTGCTCTCCACCCACAACGACCCTCTCCAGGAACGGAATTCCCAGCGC
CTGATCCAGCCCAAGTCATCCACACACGCGATGCTGTGGGGTATCGTGATCTGCATCACC
GTCTTGACCACCGCGGCCAACTACATGTCTCTGGCGTGCAACGAGCGGGCGTCGGGCACC
CGTCACCTGCACGTGCTGTCCGGCTGCTCGGTGGAGATCCACTGGGCCGCGACTCTGTTG
TGTCACCTGGTGCTGTGTATCGTCACCCTGGCCCTGCCCGCCAGCATCGCCCCGCTGCTC
GACGAGGACAGCACCATCGACGCTCCGGAATTCATGGGCGCCGCGTTCGTCCTGTTGGTG
TGCGCGTTGCTGTCGTTCCTATCCTTCACGTACTTCCTGAGCCTGTTCTTCAAAGAGAGC
ACCGCGGGGATCGTCGCGATGATCTGCCTTATACTATTCGGTTTCTTCACGCCGACTCTG
AAGACGGCCACGGAGGCGGTGCAGCAGAATCTAGACAGCTTCTGGGACTACCTGGTGCTG
TTGGTGAGCTACACCATGCCACCGCACACTTGCGTGCGCGGGTTCATCAAGGCCACGGAC
GACGCCTGCGTCAACGCCATGTGCAAGCTGAACAGACCAGACGGCTGCAAGCTGGAAGGA
CACCTCACCGGAGCCGACCTCGACAAATGCTGCGTACAAAACATAAACCCGAGATGTTAC
ATGTGCTTCGACAAACACGCGCCCATGGCTGAGTGTGCCGTCCTGCTGGGGCAGTTCGTG
TTCTACATGGCCTTGGTGATTATATGTGAGAACGGTATCCCGAATAAATTGAAAGAGATG
ATATTCAACTCTTCGTACAGACCCACCAGCACCTCCGCCACGACCATGGTGTCCGCTGAG
AAACAGTACGCTGATGAGGCGATAGCACTGCCTCCCCGGGATATTCCTGACGCGGTGTTG
GTCAGCAACATCTACAAGAGATACTTCTCTGTCCTGTGCAAGCCGTTCGTAGCCGTCAAG
GGACTCAGCTTTTCGGTTAAGAGAGGCGAATGTTTCGGTCTACTCGGCGTGAACGGGGCG
GGCAAGTCCACCACCTTCAAGATGCTGGCCGGCCTCGAGTACCCCTCCAAAGGATCCATC
TTCGCCAACGGACAGTTCATGAGCCGCTCGAGCAGCAAGTACCTCCACTCTCTGGGCTAC
TGTCCCCAGTTCTTCGGTCTGGACTCGTTCCTGTCGGGTCACGATAACCTGGCTTTACTG
CTAACCCTCAAGGGACTCAGCCAGGACGACGTGGAAAGAGAAGTTGACACGTGGATCAGG
ATCGTGGGTCTCGAGCGCTACGCCCTCCAGGCCGTGTCGGGGTACTCCGGGGGCTGTGCC
CGCCGTCTGTCCGCGGCGGCGTCGCTGTGCCCGGGAGCTCCGGTGGCGCTGCTGGACGAG
CCCACGGCCGGCGTGGACGTAGCGGCCAGGAGACGAGTGTGGACCGCGCTCAGGAGGGCC
GCGCCTAACAGAGCCATCATCATCACCTCGCATAGCATGGACGAGATGGAGGCGCTGTGC
AGCCGCATCGGCATAATGGTGGCCGGTCGCCTGAGGGCGCTGGGCTCGGCCGCGGAGCTG
CGCGCGACACACGCCTCGGGACACGCCGTGCGCCTCAAGCTGTCGTCCCCCCTCACGGAC
GCTGACGAGACCGACAGCACCGTGTCGGACATCGCGCGACTCAAGGCGACGCTCCACGAC
ATGTTCGAGTGCACGCTGAGGGACGAGCACAAGACGATGCTGCACTATCACATAAACGAA
ACTCTACGATACAGCCAGCTGTTCACTCAGCTGGAGCAGCTCAAGAGGGACTTCCCCTCC
CTGGTGGAGGACTACGACATCACGGAGACAACGCTCGAGGAAGTGTTCCTCACACTGGCT
CGGGAACAGGAGGAGGAGGCGTATGAAGCGAGAGTCTAG
Protein sequence:
MNTLGVLMWKHMVVRKRRFIHTTVDILSPLAFFVLLYLFKGYITSGRRSAMSDEFIVQNT
EPVDLDKLQGPTAVFYSPDTDLTGLLMDQVGESLHLQRKKYTPGYLEEFGYMPFQNLSDI
LDANRKLTDTDAIVLFENMNSTWPERLNYTIRMKGDFQTNKVTVNDESLGPHESFGTIYE
PFMRLQWAIDTSYLKLLSGSDIKQRVTIQEFPYVRQQEVPAIKNVCNLLPFICWISLLLT
FVYVMSKLLEERITGIQELIKMAGVSNFQIYLSHFLNMLPVGVIFCVFGTLVMTLTATPI
IPQTSAFLIMIFLILHFMNVMCMAYCSNFLITNTQYSTSVAAVVYIVAELPISLIGKSYP
TWARPIVGLLPFMPLHWFWWEVGEMEAYGKGAGFGSIATIHDAGSGSILAAFAFLLVQSV
IFLLLGWYLSLINPGPYGQPLPINFLCSSSFWTKKQVVPEETIEEETELAERQDPAYFET
PPKDMYPGIRIVNVSKVFPKHRALNKVSLDVYRGEITVLLGHNGAGKTTLMSIITGMMNA
TEGKVYVEGYDTTTQKSQMRKLLGLCPQHNLFFPDLTIQEHVIFFTMLKGSSYQEAGQSS
AKLLQQLGLGDKMSANSSDLSGGMKRRLQLACSLAGEAAVLILDEPTSGLDVETRRELWD
LLLSLRGSRTVLLSTHFMEEADALGDRVAALHSGRLVCHATTMHLKKAIGTGYRLSCITV
GVPNEPAITSLITSYVPDATLKEQTLNSLSYNLPSKDTSKFPKLFNSLESKKSELGINSI
GVGISTLEEVFLKLCSDTSAGLTLDEVDTGPSEPQYEVLTGMNLCARQFVALVRRQLKYL
NARRSIFLTVSVLLPISMMLLMTFALNTDKAKEQSDDSVALDLDLYTQPHRRVMVNVEPG
TNVRALGDSYPTVDFELTSDVADAIFRTSKKDVFEYNKYLVGIELNETHANALYTTVVRH
AAPVSLSMLSNTLATLLLPAADGRVLSTHNDPLQERNSQRLIQPKSSTHAMLWGIVICIT
VLTTAANYMSLACNERASGTRHLHVLSGCSVEIHWAATLLCHLVLCIVTLALPASIAPLL
DEDSTIDAPEFMGAAFVLLVCALLSFLSFTYFLSLFFKESTAGIVAMICLILFGFFTPTL
KTATEAVQQNLDSFWDYLVLLVSYTMPPHTCVRGFIKATDDACVNAMCKLNRPDGCKLEG
HLTGADLDKCCVQNINPRCYMCFDKHAPMAECAVLLGQFVFYMALVIICENGIPNKLKEM
IFNSSYRPTSTSATTMVSAEKQYADEAIALPPRDIPDAVLVSNIYKRYFSVLCKPFVAVK
GLSFSVKRGECFGLLGVNGAGKSTTFKMLAGLEYPSKGSIFANGQFMSRSSSKYLHSLGY
CPQFFGLDSFLSGHDNLALLLTLKGLSQDDVEREVDTWIRIVGLERYALQAVSGYSGGCA
RRLSAAASLCPGAPVALLDEPTAGVDVAARRRVWTALRRAAPNRAIIITSHSMDEMEALC
SRIGIMVAGRLRALGSAAELRATHASGHAVRLKLSSPLTDADETDSTVSDIARLKATLHD
MFECTLRDEHKTMLHYHINETLRYSQLFTQLEQLKRDFPSLVEDYDITETTLEEVFLTLA
REQEEEAYEARV