| New model in OGS2.0 | DPOGS200426 |
|---|---|
| Genomic Position | scaffold1563:- 37053-52597 |
| See gene structure | |
| CDS Length | 4695 |
| Paired RNAseq reads | 977 |
| Single RNAseq reads | 2980 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA008999 (3e-32) |
| Best Drosophila hit | CG30460, isoform F (9e-14) |
| Best Human hit | hypothetical protein LOC51101 (3e-10) |
| Best NR hit (blastp) | GM20008 [Drosophila sechellia] (2e-27) |
| Best NR hit (blastx) | PREDICTED: similar to CG10999 CG10999-PA [Tribolium castaneum] (9e-21) |
| GeneOntology terms | GO:0005575 cellular_component GO:0003674 molecular_function GO:0008150 biological_process |
| InterPro families | ND |
| Orthology group | MCL40360 |
Nucleotide sequence:
ATGAAGAAAATGACAATATTTAAATTGAAATCGATTTTTGGTTCCAAGAAAGGCAAACGA
CATCAACAACAATTATCGTCGAAGTCTTCTCGCTCGCCGTCTCCGGAGTCTGTGGGGCCG
GCGTCTCCTTCCAGCGGGGAGTCCTTTCGACCCATACTTAGGACTCCACCTCCCTCTCGC
GTCGGCCCTCCACCTTCCCCGCCGGTGCCAACACATCCTATCGCACCAGTGACCCCTGAA
CCCTCGGCTCCACTTCCTCTAAGTCCATGCCCAGTATGCGGTCGTACTTTTGTACCTGCG
TCTTTGGCCAAACATGTCAAAATATGCGAGAAGATGACGGTAAAGAAGAGAAAGACCTTC
GACTCCTCAAGACAGAGACGTGAAGGCACGGACTTAGAACAATACTTGCCAAAGAATTTC
GGTCTTCCAGAAAACAGCCCCTTCTTGGAGAAGAGTCCTCCGAATACTGCCAAAGCTACG
CCGAAGCCTAAGACTGTTTCAGTGAGGAGTGCCATCATGAAGCCAACCGCGGATCTACAA
AAATGTCCTCACTGTAACCGTGCGTTTGGTGTGCGTGCGTTCGAGCGTCACGTTGAATGG
TGTGCTGACAAGGCGAAGATCCTTCCAGCGGCGCCCGCGCAACCTCCGCCCCACATCGCC
GACGCAAAACAAAGGCTCAACGCACGCACACAGTACAAAGCACCGCCAGTGCGGACGAGA
CGGTCATCACAATCGAGAGACAAATCTTCTAATAGCCGATCAGCATCCGTAGAAAGTTCT
CGCGGTATTTCTCCGCCGCGAGAGTTTGGCGACTATAGACATCAGCGCACGAGAGCCTCA
GAATCTGCTTCCAGCAATGACTGCCACGAAGATTCCTCTCCACACATTCCTATCATAAGG
AACTCTAGGGCATCGCAGAACAACTCATCAGGCGATGCCAATGTTAAAGCAAGACAAGCC
AGACTCGCTAGAGACATCAGCAGCTCTAGAAGTTCCCAAGAACCTCATATCACCTCCGCA
CAAGAATCCAACACCGTTCCTAAATTAGTTAAAGACGAGCCATGTAAACCAAAAAATAGA
CTAAATGTAAAAAAAAGGCAACAGCTCAAAAAGTTAGAAGAAATTACTAACAAGTACAAT
GAACGAAAGCAAACAACGAAAAATGTTGCGCTCAAGAATTCCGCAGAATTAGAATCAGTT
ACCAAAAATATAAAGAAAGTAGAAAAAATCGAGATTCCAGTCAAAAGCCAAATCCCAGTG
CCAAAGAAAATAAAACAGAACAAACGCCAACTAAAACAGGATAAAAATTCCCCAAATACA
GATAATAATATGCAAGATGATGAAATGAAAAATAACTTTCCTTTAAAAGATTTAGATCCT
AATAAAGATGTTCTTAAAGTAAACATAAAAGAAAAGAAAGTTAAAACAAAAAACACAAAG
GAGGTTAAAAAAAGAACAAAGGAGAGTACAATAAGTTTAGATAGCTTAGAGGGGTGTTCA
TCAGATATGGCTAACAAAGATAAAAATTGTCAATCGATAGGAATAAACACGGAATTACTA
TGCCCATGTATCCCTTGTGTCATACATGATGTGCCAGATTTGAAATTCGTAAATTCAAAG
AGAACAACATCAAATAAAAAGAAAATCGATAAAAACAACCAAAGCGCTTTAAGCATACCT
CAGCCTGTGGTTGAACTTTTGTACAAGAACCCAAATATGACTAATTCGTGTGACAACGAA
AACAAGCACTTCATAGAAGAACAATTAGATTCAAATGAAAATATACGTATACAAGATTAT
GAACAATCAGTAACTGCTTTATCCAATTGTTTAAGCACTACAAAAGAGCCAGTTTCAAAA
GATAGTTTTGAAATGTATATAGAAATATCCAAAGACACTAATGATTGCGATCATGAGTCA
ACCCGCGACAGTTTACATGATGATGTACCTAATTTGTCTGAAGAAAATATTGAACTAAAT
AACGAACACGATATGAGCGCTGAGAGTTTCGAGGATTCATTTGAAACTAATGACAATTCT
AATAATAAAGCAAACGACAATGATGAAGATGGATGCCGTCACGGCAGTGGTGAAACATAT
ACTAAGTTTACTGAAGATCCCTCAGATTTTGATGAGTTTCTAAACATAACGGATAAGTTG
ATCTCTAATTCAGAGATGGAAAAATGTGTCGAAAATATTCACACACCCCAGACGGATTCC
CTCGAGTCTATAGATAAAAATGTAGAAAATGACACTAAGACTTCGACCACGCAGCACACT
TTTTCAAATTCTTTAGAAGAATTGAAAAATGATTTAAAAGACCTTTTATATGAAGCCGAA
AAAGATGTGAATGTTACAACAGTTGTTGAAAAACATGAAAACAAAGAGGAAAATATTGAA
ACGCAAAAAAATGTTAATAATATGGAGCACATAACAGTTTATGGCCTTCAGTTTGTAGAT
CAGGAAAAAATTGTTCCAAATCTTAATCTACGTGAAAATCCGTCAGAATTAAAATTGCCA
TCTATAAACGACACTAATAAATGCTCAATAAAAACTAATTCTATTAAGAAAATTTCAAGT
CTGTATAAAGGAAATAAAAAATGTAAAATGTTAGGTCAACAGAAAAGGTCAAATAATGAA
AATAGAACGTTTATTATAAATGAAAATCAAGATGAAGTTAGTGACGAAGCGCCGCCACTA
AAGTTGCCACGCATTGATGACAAAAGAATTGATGATAATTATGATCCCTTCGCATCAGCG
GCTAGACAGATGAAGGAACTCATGTCATCTGACACAGACATTCCTAAAAAAACCCTAAAT
TCCTCTAAAAATTCCACAAACGGCACCTTACCTAGTTTACGTCCCACGAAAGATAAAACA
CCCCTCCATAAAAAAACAGATAATAGTAAAATGATAAAAGACACTATCAATAAGACATAT
CAGAAAACACCAACTCTCTATAGGATGAAGTCGTTCGGTAGCACTAGTAACGATAACAGT
GCGGTCAATAATAGCTTCGGCGGTAGATGCAGTTCGTTTAGAATCAACAGAAATGAAAAG
AAACCTAACATACAAACGAAACCAAACGCAACAAAACTAAACACAACATTTACAAAGTCT
AGTAAAGAAAACGTCAGTTCCAACGATAAAACATATTTTAACCGTAACAGCAGTTTGAAC
AGATCATTTTCTAGTTATTCTAATTCTAGTTATAGTACACCAAAATTAAAGGATAAAATT
CCAAAAATATCTCAGTCGATGCACCACGGTTTCCAACGCAGCACTATTAAACAACCAATA
AAATTAGATAAAATAAACAAGGACGAGGAAAAGAAAAGTTTCGTTAACTTGGATTCCATT
CTTGCTTTCGACAACACATCTATGAACGACAGCAACTATATAGATCCCAGACTCATCAAC
GAAAACGATAATCTCCCTATCGATGTCAATACAATACTAAACAATCCTGACATAATTAGT
AGTATGGAATCTTTACTCACAACTGAAAACTTACCAGCTAAATTTGATTCTTTCAATTCA
AACAAAAATAAAAACTATGAAAATAACATAACACAGTCGCTGACCCTCAAATTAGAAAAC
AATAATAATATAAATAAAAACGCCATAACTGACTTTAGTTCTCAATATGATAAGTTAATG
TCTTCTTTAGAGCAAAGTATAGCGTCAAAGACTTCCGTTAGAGATGATGATTCTCTATGT
GGAGACTTTGACCTCGAAGAATTTATGTCGAACTTTGACGACGCAATGCATAAACAAACA
ATAGATAAAAGGACTTACAGTTCAACTACGAGGGTAGTAACATCTGAACTATCTAAGGAA
GTTAGGTCCACAGACACTAAAGTTGTAAACTCTCCAAAAGTAGTCAATAGTGGTAGTAAT
GGTTTAATACCTGTTAACAAATCAACGTCTCTTGTTTTTAGCAATAACAATATAATGAGC
GATAAAATATTCCCATCCTCTATTAAACGATCCACTTCCCTCCTCGACTCCATACAAAAG
AAGTCTGGACCAAAGATCGACAATACAAAGAGCCGTCACAAAACTGATCAACTCGAAGAA
GACCTGATGCAATCTCTTAAAGATTTTGATAAATTCTATGAATCTGAGAGGAATGAAAAT
CAATCGACCATGAAAGAGACTGCTCACGCAAATAAAAATGCACATGATTCATCAAAAAAA
GATTTCAAACGAAAGACAGATCATAAAAGCAAGAAATCTGACAGTACGAATGGGAATTAT
ACACCGAATGGAAAAAGCAGCAACGATTCGGCGTATAGCAGCCTTAACAGGATTTCGCCA
TCGAAACTGTCGTTGTGTAATACAAAAGAGAACAATGGAATTTCGTCGTTGGAGAAAATC
CCAGCTGACGTTAGATCGATATCTAGCGAGGAGTTCCTGGCTATGGAACGCTCCACTGAG
CTGGATGAAACATTACTGCGACCAGAACAGAAAGAAGTCGCGATAACAAATAATGATAAA
CGTTCGTGCTCGCGACAGTCTCGGCACAGTTCAGGCTGGGGGCGGAGACCAGAAGCTCTA
AGCTCCAGTGGCTCGGAGAGCTCTCTCCACAAACCCGCCCCGAGACTCTCACGTTTCTGC
CATGAATGTGGAAGCCGATTCCTCGACACGGCCAAGTTCTGTATAGAATGTGGCGTCAAA
CGACTACTTATCTAG
Protein sequence:
MKKMTIFKLKSIFGSKKGKRHQQQLSSKSSRSPSPESVGPASPSSGESFRPILRTPPPSR
VGPPPSPPVPTHPIAPVTPEPSAPLPLSPCPVCGRTFVPASLAKHVKICEKMTVKKRKTF
DSSRQRREGTDLEQYLPKNFGLPENSPFLEKSPPNTAKATPKPKTVSVRSAIMKPTADLQ
KCPHCNRAFGVRAFERHVEWCADKAKILPAAPAQPPPHIADAKQRLNARTQYKAPPVRTR
RSSQSRDKSSNSRSASVESSRGISPPREFGDYRHQRTRASESASSNDCHEDSSPHIPIIR
NSRASQNNSSGDANVKARQARLARDISSSRSSQEPHITSAQESNTVPKLVKDEPCKPKNR
LNVKKRQQLKKLEEITNKYNERKQTTKNVALKNSAELESVTKNIKKVEKIEIPVKSQIPV
PKKIKQNKRQLKQDKNSPNTDNNMQDDEMKNNFPLKDLDPNKDVLKVNIKEKKVKTKNTK
EVKKRTKESTISLDSLEGCSSDMANKDKNCQSIGINTELLCPCIPCVIHDVPDLKFVNSK
RTTSNKKKIDKNNQSALSIPQPVVELLYKNPNMTNSCDNENKHFIEEQLDSNENIRIQDY
EQSVTALSNCLSTTKEPVSKDSFEMYIEISKDTNDCDHESTRDSLHDDVPNLSEENIELN
NEHDMSAESFEDSFETNDNSNNKANDNDEDGCRHGSGETYTKFTEDPSDFDEFLNITDKL
ISNSEMEKCVENIHTPQTDSLESIDKNVENDTKTSTTQHTFSNSLEELKNDLKDLLYEAE
KDVNVTTVVEKHENKEENIETQKNVNNMEHITVYGLQFVDQEKIVPNLNLRENPSELKLP
SINDTNKCSIKTNSIKKISSLYKGNKKCKMLGQQKRSNNENRTFIINENQDEVSDEAPPL
KLPRIDDKRIDDNYDPFASAARQMKELMSSDTDIPKKTLNSSKNSTNGTLPSLRPTKDKT
PLHKKTDNSKMIKDTINKTYQKTPTLYRMKSFGSTSNDNSAVNNSFGGRCSSFRINRNEK
KPNIQTKPNATKLNTTFTKSSKENVSSNDKTYFNRNSSLNRSFSSYSNSSYSTPKLKDKI
PKISQSMHHGFQRSTIKQPIKLDKINKDEEKKSFVNLDSILAFDNTSMNDSNYIDPRLIN
ENDNLPIDVNTILNNPDIISSMESLLTTENLPAKFDSFNSNKNKNYENNITQSLTLKLEN
NNNINKNAITDFSSQYDKLMSSLEQSIASKTSVRDDDSLCGDFDLEEFMSNFDDAMHKQT
IDKRTYSSTTRVVTSELSKEVRSTDTKVVNSPKVVNSGSNGLIPVNKSTSLVFSNNNIMS
DKIFPSSIKRSTSLLDSIQKKSGPKIDNTKSRHKTDQLEEDLMQSLKDFDKFYESERNEN
QSTMKETAHANKNAHDSSKKDFKRKTDHKSKKSDSTNGNYTPNGKSSNDSAYSSLNRISP
SKLSLCNTKENNGISSLEKIPADVRSISSEEFLAMERSTELDETLLRPEQKEVAITNNDK
RSCSRQSRHSSGWGRRPEALSSSGSESSLHKPAPRLSRFCHECGSRFLDTAKFCIECGVK
RLLI