| New model in OGS2.0 | DPOGS208474 |
|---|---|
| Genomic Position | scaffold964:- 48919-52440 |
| See gene structure | |
| CDS Length | 3183 |
| Paired RNAseq reads | 2095 |
| Single RNAseq reads | 7468 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010657 (0.0) |
| Best Drosophila hit | embargoed (0.0) |
| Best Human hit | exportin-1 (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to nuclear export factor CRM1 [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to nuclear export factor CRM1 [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0000776 kinetochore GO:0003723 RNA binding GO:0005515 protein binding GO:0005634 nucleus GO:0005642 annulate lamellae GO:0005654 nucleoplasm GO:0005730 nucleolus GO:0005737 cytoplasm GO:0005829 cytosol GO:0006611 protein export from nucleus GO:0006886 intracellular protein transport GO:0008565 protein transporter activity GO:0009615 response to virus GO:0010824 regulation of centrosome duplication GO:0015030 Cajal body GO:0030529 ribonucleoprotein complex GO:0034504 protein localization in nucleus GO:0042176 regulation of protein catabolic process GO:0046825 regulation of protein export from nucleus GO:0051028 mRNA transport |
| InterPro families | IPR001494 Importin-beta, N-terminal IPR011989 Armadillo-like helical IPR016024 Armadillo-type fold IPR014877 Exportin 1, C-terminal IPR013598 Exportin-1/Importin-beta-like |
| Orthology group | MCL14051 |
Nucleotide sequence:
ATGGCAACTTTAGAGCAGCAAGCTTCTAAACTTCTTGATTTCAACCAAAAATTGGACATA
ACACTTCTTGATAATATCGTTGGATGTTTATATTCCACTGTTGGAGAACAGCAACGTGTT
GCACAAGATATTTTAACAGCACTCAAAGAACATCCCGATGCTTGGACCCGAGTTGATACC
ATACTTGAGTATTCTCAGAATCAGGAAACAAAATATTATGCTCTGCAAATTTTGGAACAA
GTGATTAAAACTAGGTGGAAAGTATTACCAAGAAACCAGTGTGAAGGTATTAAAAAATAC
ATTGTGGGTCTGATTATAAAGAACTCGTCGGATCCTGCCACTATGGAAAGCAATAAGGTT
TATTTAAAAAAATTAAATATGATACTTATTCAGGTCTTGAAAAGAGAATGGCCTCATAAT
TGGGAGACATTTATAAGTGACATTGTTGGAGCATCTAAAACTAATGAAAGCCTGTGCCAG
AATAATATGGTTATCTTAAAACTTCTCAGCGAAGAAGTGTTTGTATTCAGTACAGGTGAA
CTAACTCAGACAAAAGCAAAACATCTAAAAGATAACATGTGTTCTGAATTCAGTCAAATT
TTTAATCTATGTCAATTTGTATTAGAGAATTCACAAAATGCACCCCTCGTTGATGCAACA
CTTCACACACTTCTGAGATTTTTAAATTGGATTCCTCTTGGCTACATATTTGAAATGAAA
TTAATAAGTACACTTATTTTCAAGTTTCTGAATGTTCCCATGTTCCGCAATGTTACCCTT
AGCTGCCTTACCGAAATAGCTGGTGTCACAGTAAGTAATTATGAAGAGCAGTTTGTTGCT
TTACTTGTTCAAACAATGGAGCAATTGGAAGTTATGCTTCCCCTATCAACTAACATACGA
GAAGCTTATGCAGCAGGTCGAGATCAAGAACAGGTTTTTATTCAAAACCTTGCTCTATTT
CTATGTACTTATTTAAAAGAGCATGGACAATTAATTGAAAGGAAGGGCCTTACTAACACT
CTTATGAATGCCCTCAGATACCTTGTATTAATATCTGAAGTAGAAGATGTAGAGATTTTT
AAGATATGTTTAGAATTTTGGAATGCCTTAGCTGCTGATTTGTATAAGATAACGCCATGT
TCCCATTCAGTAGGATTTTATAGTTTAGGGAAAAATGTTGGACGAAAAGCATTGTATGCT
GATGTTCTGAGCAGTGTTCGATATATTATGATTTCAAGAATGGCAAAACCTGAAGAGGTT
TTGGTTGTCGAAAATGAAAATGGTGAAGTTGTAAGAGAATTCATGAAGGACACAGACACT
ATAAATTTATACAAAAATATGAGAGAAACTTTGGTATATTTAACACATTTGGATTATCAA
GATACTGAAAGGATTATGACTGAGAAACTTCAAAATCAAGTGAATGGCACTGAGTGGTCC
TGGAAAAATCTGAATACCCTTTGTTGGGCAATTGGTTCGATATCAGGTGCCTTGACAGAA
GAAGATGAAAAGAGATTTTTGGTTATTGTTATTAAAGAGCTTTTGGGGTTGTGTGAGCAA
AAAAAGGGAAAAGACAATAAAGCTATTATAGCTAGTAATATCATGTATGTTGTGGGTCAG
TACCCCCGCTTCCTAAGAGCTCATTGGAAATTTTTGAAAACTGTTGTTAATAAACTTTTT
GAATTCATGCATGAAACCCACGATGGCGTTCAGGATATGGCATGTGATACATTTATAAAA
ATCGCTTTAAAGTGTCGCCGTCACTTTGTAACTACCCAAGTTGGAGAAGCTTGTCCTTTT
ATTGAAGAAATTTTAAGTACCATCAGTTCTATCATCTGTGATCTCCAGACACTACAAGTT
CACACCTTTTACGAAGCTGTAGGGTACATGATCAGTGCACAAGTAGACCAGGTTGCACAA
GAACAGCTCATTGAGAAGTACATGTTGCTTCCGAATCAGGTATGGGATGATATAATATCC
CAAGCCTCTCATAATGTAGACATCTTGAAAGATGCTGAGGCTGTTAAACAACTTGTTAGT
ATTCTTAAAACAAATGGTCGAGCTTGTCGTGCCCTGGGCCACCCATATGTTGTCCAATTA
GGCAGAATATATCTAGATATGCTCAATGTGTATAAGGTCATGTCGGAGAATATCAGCCAA
GCTATAGCGTTAAACGGTGTAGTTGTGACTAAGCAGCCACTCATAAAGAATATGAGGATA
ATAAAAAAAGAAACTCTTAAACTAATTTCAAGTTGGGTTTCTCGTTCAACAGATAACAGT
ATGGTATTGGAGAATTTCATTCCTCCCTTACTTGATGCTGTTCTATTGGATTACCAAAGA
ACTGCAGTGCCTGATGCAAGAGAATCAGAAGTTTTATCCTGTATGGCAGCAATTGTTTAT
AAACTCGGAGGGCATATAACATCGGAAGTACCGAAAATCTTTGACGCGATCTTTGAATGT
ACTTTGGAAATGATCAATAAAGATTTTGAAGAATATCCAGAGCACAGAACCGAGTTCTTC
TTGTTGTTACAGGCTGTGAACACACACTGTTTCAAAGCATTCCTAAGCATACCTCCGGCG
CAATTTAAATTAGTGCTTGATTCCATTATATGGGCATTTAAACATACAATGAGAAATGTT
GCTGACACTGGTCTTCAGATATTATATCGGCTGCTTCAAAACGTCGAACAACATCCCCAG
GCCGCGCAGAGTTTCTACCAGACCTATTTATGTGATATACTGGAACACGTTTTTAGTGTG
GTAACAGATACTTCTCACGGCGCAGGTTTGACGATGCATGCTACCATTCTAGCACATATA
TTCTCCTTAGTAGAAACGGGTAGAGTGACTGTTCCTCTGGGTCTCACTCCAGATAATATT
CTTTATATACAGGAATATGTTGCCCGTCTTCTCAAAACAGCATTCCCTCATTTGAATGAT
AATCAAATTAAGATTACCGTACAGGGACTGTTCAATTTGGATCAAGACATACCTGCCTTC
AAAGATCATCTCAGAGATTTCTTAGTTCAAATTAGAGAGTACACGGGTGAGGACGACAGC
GATCTATTTTTGGAAGAACGGCAGTTTGCTCTCAGCAAGGCACAAGAGGAGAAGAGAAGG
GTCCAGTTATCTGTGCCGGGGATTATCAATCCGCATGAATTGCCGGAGGAAATGCAGGAT
TAA
Protein sequence:
MATLEQQASKLLDFNQKLDITLLDNIVGCLYSTVGEQQRVAQDILTALKEHPDAWTRVDT
ILEYSQNQETKYYALQILEQVIKTRWKVLPRNQCEGIKKYIVGLIIKNSSDPATMESNKV
YLKKLNMILIQVLKREWPHNWETFISDIVGASKTNESLCQNNMVILKLLSEEVFVFSTGE
LTQTKAKHLKDNMCSEFSQIFNLCQFVLENSQNAPLVDATLHTLLRFLNWIPLGYIFEMK
LISTLIFKFLNVPMFRNVTLSCLTEIAGVTVSNYEEQFVALLVQTMEQLEVMLPLSTNIR
EAYAAGRDQEQVFIQNLALFLCTYLKEHGQLIERKGLTNTLMNALRYLVLISEVEDVEIF
KICLEFWNALAADLYKITPCSHSVGFYSLGKNVGRKALYADVLSSVRYIMISRMAKPEEV
LVVENENGEVVREFMKDTDTINLYKNMRETLVYLTHLDYQDTERIMTEKLQNQVNGTEWS
WKNLNTLCWAIGSISGALTEEDEKRFLVIVIKELLGLCEQKKGKDNKAIIASNIMYVVGQ
YPRFLRAHWKFLKTVVNKLFEFMHETHDGVQDMACDTFIKIALKCRRHFVTTQVGEACPF
IEEILSTISSIICDLQTLQVHTFYEAVGYMISAQVDQVAQEQLIEKYMLLPNQVWDDIIS
QASHNVDILKDAEAVKQLVSILKTNGRACRALGHPYVVQLGRIYLDMLNVYKVMSENISQ
AIALNGVVVTKQPLIKNMRIIKKETLKLISSWVSRSTDNSMVLENFIPPLLDAVLLDYQR
TAVPDARESEVLSCMAAIVYKLGGHITSEVPKIFDAIFECTLEMINKDFEEYPEHRTEFF
LLLQAVNTHCFKAFLSIPPAQFKLVLDSIIWAFKHTMRNVADTGLQILYRLLQNVEQHPQ
AAQSFYQTYLCDILEHVFSVVTDTSHGAGLTMHATILAHIFSLVETGRVTVPLGLTPDNI
LYIQEYVARLLKTAFPHLNDNQIKITVQGLFNLDQDIPAFKDHLRDFLVQIREYTGEDDS
DLFLEERQFALSKAQEEKRRVQLSVPGIINPHELPEEMQD