| New model in OGS2.0 | DPOGS203904 |
|---|---|
| Genomic Position | scaffold2:- 957440-963794 |
| See gene structure | |
| CDS Length | 2904 |
| Paired RNAseq reads | 5783 |
| Single RNAseq reads | 17045 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002013 (0.0) |
| Best Drosophila hit | moleskin (0.0) |
| Best Human hit | importin-7 (0.0) |
| Best NR hit (blastp) | importin-7 [Culex quinquefasciatus] (0.0) |
| Best NR hit (blastx) | importin-7 [Culex quinquefasciatus] (0.0) |
| GeneOntology terms | GO:0006606 protein import into nucleus GO:0008320 protein transmembrane transporter activity GO:0005737 cytoplasm GO:0005643 nuclear pore GO:0008536 Ran GTPase binding GO:0007169 transmembrane receptor protein tyrosine kinase signaling pathway GO:0005938 cell cortex GO:0007173 epidermal growth factor receptor signaling pathway GO:0005634 nucleus GO:0008565 protein transporter activity GO:0005488 binding GO:0035311 wing cell fate specification GO:0007474 imaginal disc-derived wing vein specification GO:0008586 imaginal disc-derived wing vein morphogenesis GO:0007476 imaginal disc-derived wing morphogenesis GO:0000189 nuclear translocation of MAPK GO:0008283 cell proliferation GO:0016318 ommatidial rotation GO:0043524 negative regulation of neuron apoptosis GO:0045465 R8 cell differentiation GO:0042052 rhabdomere development GO:0048749 compound eye development GO:0042675 compound eye cone cell differentiation GO:0048471 perinuclear region of cytoplasm |
| InterPro families | IPR001494 Importin-beta, N-terminal IPR016024 Armadillo-type fold IPR011989 Armadillo-like helical |
| Orthology group | MCL11645 |
Nucleotide sequence:
ATGGACACCAGAAAGCTGACGGAAATTTTGCGAGCTACTATTGATCCTAACCAAAGGCAA
CAAGCAGAAGAACAGCTTTCCCAGATTCATAAAATAATTGGATTTGCTCCCTCTTTGCTG
CAAGTGGTTATGCTTAATGATGTTACAATCCCTGTCCGTCAAGCTGGAGTTGTATATCTG
AAGAATTTGGTAACCTCGGGTTGGTTAGAGAAAGAGGCAGAAGATGGAGAGCCAATACCA
TTTAGTATTCATGAACAGGACAGAGCCATGATAAGAGATATCATTGTGGATGCCATAGTA
CAGGCACCTGATATAATCAAAGTTCAGCTCTGTGCTGATCAATCTCCAGAATCTGTTACC
ATACAAAAACAAATACTTAAGTGTTTCTATGGTCTCATAAAGTTTAATTTACCACTGGGT
TTAATCACAAAAGAAATATTTACGAAATGGATGGAAGTTCTCCGTTCTGTAATGGAGCAG
CCTGTCCCAGAACACACTTTGCAGGTTGATGAGGATGAACGCATGGAACTTCCTTGGTGG
AAATGCAAAAAATGGGCAGTTCATACCCTTTATCGTTTATTTGAAAGATATGGAAGCCCA
GTAAATGTTCGAGATGAATATGTTCAGTTTGCAGAGTGGTACTTAACTACTTTCACTGGT
GGGATATTAGAGGTTCTTCTCAGAGTTCTGGATCAATACAGAAACAAAATCTATGTGTCA
CCACGTGTACTGCAGCAGACCATTAGCTATATTGATCAGTGCATAAGTCATGCACATTCT
TGGAAATTACTGAAGCCTCACATGTTTGCTATTATTAAGGATGTGCTATTTCCACTTATG
TCCTACTCTGAAGCTGATGAGGAGTTATGGTTCTCTGATCCCCATGAATATATACGTATC
AAATTTGATATATTCGAAGATTTTGTTTCTCCCGTAACAGCAGCACAGACATTACTCATA
TCATGTTGTAAAAAGAGGAAAGACATGTTGGAAGAAACTATGCATTTATGTATGCAAGTC
CTCAGAAACCAGAATGGTGAATATGGACCCCGCCAAAAAGATGGTGCTTTACACATGGTG
GGAACACTTGTTGATATCCTTATAAAGAAAAAGTTTTACAATGAAGAAATTGACCCACTC
CTCAGCGAATTTGTTATTCCTGAGTTTCATAGTCAGTTGGGTTACATGAGGGCCAGAGCT
TGCTGGGTGCTTCACTGTTTCTCAAGTATTCGTTTCAAGAGTGAAATGCTATTGGTAGAA
GTTGTCCGTCTCACAGTTAATGCTTTCCTTAATGATACTGAGCTGCCTGTGAAAGTTGAG
GCAGCTATAGCCATACAAATGCTACTGACATCACAAAACAAAGTTCATAAATTACTAGAA
CCTCAAGTTAAAGCTGTCACCACAGAGCTTCTAAATGTAATTCGTGAAACAGAAAATGAC
AACATTGCTAATGTTCTGCAAAAGATTGTACCTTTGTACACAGAACAATTAATGCCAATG
GCCTATGAGATCACAGATCACTTAGCAACTACATTTAGTAAAGTTATTGAGACAGATTCT
GGAACTGATGAAAAGGCTATCACAGCCATGGGTCTTCTAAACACTATGCAAGCAGTACTC
ACTGTTATGGAAGATAACCCAGAAATTATGTTGCAGCTAGAAAGTACAGTTCTTCGTGTA
GTTGGACACATTTTACATCACAATATTATAGAATATTATGAAGAAGCTATGACTTTATTG
TGTAATTTAACTGCAAAATCAATATCCAAAGATTTATGGACAGTTCTTGAGATGTTGTAC
CAGGTGTTTGAAAAAGAAGGTTTTGACTACTTCACAGACATGATGCCAGTATTGCACAAT
TATATCACAGTTGACACAAATGCTTTTCTCTCCAATGAAAATCATATATTAGCTATGTTC
AATATGGTTAAAGTGATCCTAAATTCTGATGCTGAAGATGAATCTGAGATATATGCAGCA
AAACTTCTAGAAGTAATAGTCTTACAATGTTCTGGTAAAATAGATAATTGTTTACCATCA
TTTGTGGAACTAGTTCTTAGCAGACTTACAAGGAAAGTTAAGACTTCAGAACTTAGAACA
ATGCTACTGCAGGTGCTCATAGCGATTTTATACTGCAACCCTCACCTCCTGTTTACGATT
CTGGAAAAACTCCAAGAGTCTGTGCCGAATGCCTCAATTACCCAACACTTTATAAAACAA
TGGATACACGACACAGACTGTTTTATGGGTTTGCACGACCGGAAGCTGTGTGTGTTGGGC
ATTTGTACTTTACTAGAGATGGGCCCCCAGAGACCCAATCTAGACGAGGTAATACCAAAA
TTATTGTCCTCGTGTTTGGTGCTGTTTGATGGTCTCAAGAGAGCATACGAAGCAAGAGCC
GAAGCTGACGAAGACACGTCGTCTGAAGAAAATGATGAGGAAGAAGATGAAGAAGTTCTT
TCAAGTGACGATGACGACGTTGATCAAATGACAAACGAATATCTTGAAAATCTCGCACGA
ATGGCGACAAAGAATAGCAGCCAACAGGGCGTCAACCTTACTGCGAAAATAGAAGAATAT
GAGAGTGACGATGATGATGAAAGCTATGAGCCAGATGAGACTGCTATTGAATGTTACACA
ACACCACTTGATGAGAAAGACTGTACCGTGGATGAATACATAAAATTCAAAAACACATTA
TCTGCACTATCAACCAATGAACCTACATTGTACCATGCTCTGACAAGTGTTCTGACTGAG
GAACAGAGGAAACAATTACATGCAGTTTTTGTACTAGCTGATCAACGCAAGGCACAACAA
GATAGTAAACGGATTGAACAAAGTGGCGGTTACTCATTTACGGTTCCCGCACAAGTACCT
ACAACATTTAAATTTGGTTCATAA
Protein sequence:
MDTRKLTEILRATIDPNQRQQAEEQLSQIHKIIGFAPSLLQVVMLNDVTIPVRQAGVVYL
KNLVTSGWLEKEAEDGEPIPFSIHEQDRAMIRDIIVDAIVQAPDIIKVQLCADQSPESVT
IQKQILKCFYGLIKFNLPLGLITKEIFTKWMEVLRSVMEQPVPEHTLQVDEDERMELPWW
KCKKWAVHTLYRLFERYGSPVNVRDEYVQFAEWYLTTFTGGILEVLLRVLDQYRNKIYVS
PRVLQQTISYIDQCISHAHSWKLLKPHMFAIIKDVLFPLMSYSEADEELWFSDPHEYIRI
KFDIFEDFVSPVTAAQTLLISCCKKRKDMLEETMHLCMQVLRNQNGEYGPRQKDGALHMV
GTLVDILIKKKFYNEEIDPLLSEFVIPEFHSQLGYMRARACWVLHCFSSIRFKSEMLLVE
VVRLTVNAFLNDTELPVKVEAAIAIQMLLTSQNKVHKLLEPQVKAVTTELLNVIRETEND
NIANVLQKIVPLYTEQLMPMAYEITDHLATTFSKVIETDSGTDEKAITAMGLLNTMQAVL
TVMEDNPEIMLQLESTVLRVVGHILHHNIIEYYEEAMTLLCNLTAKSISKDLWTVLEMLY
QVFEKEGFDYFTDMMPVLHNYITVDTNAFLSNENHILAMFNMVKVILNSDAEDESEIYAA
KLLEVIVLQCSGKIDNCLPSFVELVLSRLTRKVKTSELRTMLLQVLIAILYCNPHLLFTI
LEKLQESVPNASITQHFIKQWIHDTDCFMGLHDRKLCVLGICTLLEMGPQRPNLDEVIPK
LLSSCLVLFDGLKRAYEARAEADEDTSSEENDEEEDEEVLSSDDDDVDQMTNEYLENLAR
MATKNSSQQGVNLTAKIEEYESDDDDESYEPDETAIECYTTPLDEKDCTVDEYIKFKNTL
SALSTNEPTLYHALTSVLTEEQRKQLHAVFVLADQRKAQQDSKRIEQSGGYSFTVPAQVP
TTFKFGS