| New model in OGS2.0 | DPOGS214789 |
|---|---|
| Genomic Position | scaffold907:- 34746-51266 |
| See gene structure | |
| CDS Length | 5151 |
| Paired RNAseq reads | 2258 |
| Single RNAseq reads | 5438 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012100 (4e-46) |
| Best Drosophila hit | CG14215 (5e-18) |
| Best Human hit | protein ELYS (2e-35) |
| Best NR hit (blastp) | hypothetical protein AaeL_AAEL010978 [Aedes aegypti] (4e-76) |
| Best NR hit (blastx) | hypothetical protein AaeL_AAEL010978 [Aedes aegypti] (2e-54) |
| GeneOntology terms | GO:0005694 chromosome GO:0055085 transmembrane transport GO:0031080 Nup107-160 complex GO:0045449 regulation of transcription GO:0005737 cytoplasm GO:0000910 cytokinesis GO:0007049 cell cycle GO:0016363 nuclear matrix GO:0051292 nuclear pore complex assembly GO:0000777 condensed chromosome kinetochore GO:0051028 mRNA transport GO:0003700 sequence-specific DNA binding transcription factor activity GO:0005654 nucleoplasm GO:0000785 chromatin GO:0005643 nuclear pore GO:0005634 nucleus GO:0015031 protein transport |
| InterPro families | ND |
| Orthology group | MCL18142 |
Nucleotide sequence:
ATGAGCACCGCGAGGTGTCCTGAGATCAGCCGCGGGTCATGCGTCACGTTAGACTTGAGG
TTGGATTCAGAATCAGTCACGCCATACTCACACGCCACGCGACTCGAAGAACATTTCTTT
CCTAATTCCTTGCAATACAACTGCGTGGCTCTCAGTACGTGGTCGACGGCGGTGGTTCAG
ACGGCGGGCGTCCAGCGTCAGCTGGTCCGCGGTATGAGCGCGGCGGGCCCGGCGTGTCTG
CTCGCCCCGGCCAGATTGTACGCCGCGTGTAAAACCGCCGGTCTGACACCGCTCTACGCT
CCCTCTGGGGACACACCGGAGGATCAACGTCGTTTTCTTCTGTCTGTGGCATTAGAGGCG
AGGCTGTCGTCGTTCCTGAAACGATGTGCTCACGACTGGGCTACGGGGACCCACAGTGGT
GTCGGATGTACATTGCCTTTCTTGGTGGATTGGTCGTGGAGTAGAGCTATTGAATTGAAA
GAAAACGCTAAAGAACTGACCGCGCCGCTGTTTACTTCCTCTATGATGCCAGACAGGAAT
GTTATAAGATGTCTGGAGCATTGTGTGCAACAACTGAGTCAACTGACTGGTCTGTTAGAC
GCCATCCTCACTAAATGTTGTAATCTAGTTGTACCAGACGCGTTAAGCGAAATGGAAGAA
AAATATAAAGGCATAGGCACAGTATCCTTATACTTCCAAGTTGTACAATGGTTTGTTAGG
GTCGGACTGTTGCCTGAGAAGAGTTCGGACAGACATTCCCACACGTTACCCTACCCGGTG
CATCAGCTATGTGGGATATATAACAAGCGTCGCATTAAGCTCAACCGTCTTCAAGACAAG
TCGGACGACGAGTCGAGCAACGAGTCGTGTTCGCTTCTGTACATAGATCAACTCATTGAA
CACGAGTTCGGGGGAGATAGAGTCCATCAACTATGGATGGTATGTGGATCGAGCGGCGGT
CTCTATCCCCCCCCTTCTCTGTTTTCCCTCTTGAGACTATACTTGCTGCCGGATGTTCCC
GAGGAACACAAGCACTCTCTCCTACTCTACTTACTCCTGGATTATTCTATGATCTATGAT
GATATGCGCCACGAGTCCGTGATACGTCGGTTGATGCAGTTCCCAACTATGTTCGGTCTC
AGTAACACGGCGATTAAAGCCACCCAAGCCTTCTGGCATCTCGACCACAGAGACTTTGAT
TTCGCTCTCGACCAACTTCAATGTCTAACTGGCAACACTCTCTCCGACTGGCAACATCAC
GTAGTCCTGTCTTCGTTACTGGCGCAGAAGAAAACTCAATCAGCGTTACAATACTTACAC
GTGAGAAAACCGGCTCCGATACACGTTAGTGACAACAATGATTATGACAAACTAGACGAT
TGGCAAACCTCCTGCAACCTGTACCTGGCCCGGGGCCTGGTGTTCGAAGCTTTGGATGTT
ATAAGGATGTGCGTAGAAAATGCCGGCTCCAGCGACGATAAGACGCAATTGTTGAACTAT
TTCTATAAAGGCTGTAGGAACAGCGGTCAACTGGCTAAGGTGCTGCAAGTAACGTTGTTG
CCGTTTGAGGAGGAAGTGTTCATCAGATATCTCAAGGAGTGTAACGAATCCCACACATCA
GACATCCTCGTTATGTACTACTTGCAACAGGCGAGGTACCTAGAAGCGGAACAGTATAAC
AGTAAGTTAAAGACTCGTCACGAACAGTCTGACCGTGGGTCGGCTCGCGACGCGCTGGTG
GCGACGCTGTGTAGAGACCTGCCGGATGTCACAGGAGACGTACTGAGATGTGCTATGAAC
GAAGCCGAGCCCAGGAAGGTACCGGAGAACAAAGACAAGTTCGTGTACATCTGTTCAACT
GCTGTTGCTCTTTCAGTATACAAGAACACAACACACCCTCTCGAATCTCCGCCTAAGAAG
TTCGCCGCCGAAGATATATCTCCCAGGAAGTCTTACAAGGATAACGTTCGTGCGAGGCGT
TCCTTATCCATATCAGCGAACAGCAGTCTGTCAGAGGATCCGAACACGTCCATAGAGAGT
ATAGCGGATATCCCGGTGACGCTCATCAACCCGAGATACACGGGCGAGAGATACATGAGA
GATACTGAGGAAGAGAGAGATAGAGATACTAGGAACAAGATACACGTTGAAACCGAGAAG
AGAGATACTAGCTATGTACCGAACACACCTAAAGGGAGACGAGCTATCAGGAGCGATGGA
GATAATACACCACTGAGCGGAAGTCGGTCAAATACGCCGGACCGATGTGATTCACCCATC
ATCACGCCGAAGCGAGTTACCAGAAGTACCAGGAGTCGATCTCGTACGCCAGAAATAAGT
CCAAAATCATCTCTCACGCCCATAGAGGAGCTGCCGAGACAGGAAACTGACACCGCGTCA
TACAAATCTAAATACATACCATCGCCTAGAAGGTCCCGTACGCCCGAGAGGATAGAAAAA
GTAATAGAGCCTCCGCGTCTTGAAGCAATCAGTGAATCACCCACCAAGTCATCACAGCCG
CCACAATCACCCACCAGACGTAGTCTCAGAAGCCGTTCCCGTACGCCGGAAGTGGAAATT
AAAGTTGATCCGCCTGTTATAACAAGTCCTCGTAGCCTAAGAAGCCGATCGAAAACACCC
GAAAAGTTGATGTCACCGAAGAAAGATCACGGAACCCGGAAGAAGTCGCTCTCGAGAATA
GTTCTAGAAGCTAACGCGTTCGCTAAAACTAAGCAGATAGAAAAAATGGACGAGGAAGAT
AAACCGGATGCAACCGGTGTTATAGAGTGTACTCCTGTGAAGCCTTCCAAACACACCGAA
CCGCCCCATCCCTGTCTCATGGACGTTGAATTCTCGCCAATAGTCAACAAATCAATCCTA
CACAGTTCATCCGAGAGCTTCTCGATCACAGAGAAAATATCAAAATCGAGCGAAGATCAA
ATAGAAATTAATCAACTACCCGCATTCACTATCAACGAGATATACACCGACAAGTCGGTT
CTGCACAGCTATCAGAGCAGTATCGGCGGCACAGAGTCGATACACGACACACGGGAGAGT
ATTAAGGAAACAGTCGAAATCTGCAAACCCCTCCCAGCGTTCACGAGCATTACTGATGAC
TTCGGCAAATCGGTGCTGCATAGCTTCGAAAGCACCATCGACTCTAGTAATATAGAAAGA
AAGGAAACGCCTAAATCAAAGACAACGGATTATGGAGTTCTGAGTACCGACACGAGTGCG
AGTGTCGGTCAACAAAACGAAAGCCTCATGACCAGTGACAGTGAAATCGACGATAGAGAA
TGGAGTCGACTCGACAATCAGAACGCGAGAGTTATACAGAAGGAGAAGGAGAGGATAGTG
GAGATAGAGAGAGAGATAAACGAGATAGAAGAGATGTCGGATGAGTGTCGCGAGACTTGT
AGTGATTCTAACGACAGTGCTGAGAGCGAAGAGGAAGAAGAGGGCTCCGAGTCAGAAAAT
GACAACGAGGTTATTTCCATCGAAGATTCCGACGAGTCATCGGATACATACAAGTTGGAA
ATTGAAGAAGACAATGTTATAGAACGAAACCAACAAGAACAGCTTGTACAGGCTACTGTC
GGGACAGCTAGAGATGACGTCGCCGAACCCCAAGCATCCGGTTCCGGTATCCAGGAAAAT
AATGAAGCAGATTCAGAATTATTCCAAGCATCACAAGAAAAACCTGATGCACTCAACCCA
GCGCGTGATATATCGATTCTAACAGATGATAACTCTGTCACAGAAACAGAAGGCGCTGAT
AAACTTCACTACTCCGATGAAATCAAAAATGACGATCAAAGCGTTGCCATGGAGACAGAT
CAGCCTGTGATAGCATCCGTGACTGTAGAACAGATAACGACTATTGAACAGAATATAGAA
CAAGAAATTCCCTCCAGAGAAGTAGATGTTATAGATTCGGGTCCCTCTAGGAGAGAAGAT
CACAAAGTAGAAGAAAGTGAAACTGTCAAAACAACTGAGGCACAGATGGAAAGTCAAGCA
AAGTGTGTCCCAGATATAAAAGATAAAGATATCCCTGAAGAAATAGAAAATAGTGTCGTG
GCCCAAGAAGAAAGCGACAAAGTTGAGATAAAAACACAGACAGAGGACATTGAGAGAACA
GAAGACACGGAGCAAGTTCCGAAAACAAGAAAACGCACGAAATCTACGACCTCGACCAGG
TCTAAAGAAGGTTCAGAGGTTAATGAGAAGGTGGAACCGAGAACGCCTCGCAGGCGACGG
CAGTCAGCGAGCAAAGCAGAAGTCGAAGGAACTCCCGACAATAATGAACACACGCCCAGA
ACACGAGCCAAGACACCCAGCTCTGAAGTGAGAAAAATATTAACACGCCGCGCCTCCAAG
GAGCTGGAGAAAACGGACGAACATAGACAGGAAGAAGTGCCAGAGCTAACGCCGAGGAGA
TCCACACGGAGGACTAAGAAAGAGGACGATAACGCTAGTGTTACCTCGGATTCCTCTGTC
AAATCCGGCAGAAGCAGAGCTAGCGAAGACGGGAAACCAGCGAGGAAAGGAAGGAAGTCG
GTGATGAACGTTAAACCGGATCTGACAGTCATACCGGAAGTCGCCGCCGAGGAGTCGAAG
GCTTCAGATGATATCATCAAGGAATACTCGAGTGCTAGACGGTTGACGCGCAATCAGAAG
GCCGTGTTGGACTCGTGGTTGGAGCCGGAGCTGCCTCGGAGGAAGAACGACAACGACTCG
GATTCCAGCCTAACGAGGACCGACTACGACGGCTCCCCCGAACCAGATCAAGACTCGGAC
TTAGAGACCGCCGTCAAACCACAGCGCTTAGCAAGAGCTGCCTCTGAGACGAAAACAACT
CCGAAGGCTGCGAGGATCGGTAGAAGGGTTTCAGTGGATATAGGTGTGACTCCTGACGAG
GGTTCTCCTGTTTCTGGTCTTTCCCGCGGACGTCGCGCCTCCTTTACGCGAGCCTGTGAA
GCTCTTCACACACCCAGAAGGGGTTCCACCGATGTTAAGGGTTCCCCTATGTCAGAGGTC
GAGTCGACCCCACGGAGAGGTCGACGACCTTCAGCTACGAGCGTCAAGGGAGATGTTAAC
ACGCCCAGGTCGAAAAAAGCTGCGGAAAAAAATAAAGAAACAAACGAATAA
Protein sequence:
MSTARCPEISRGSCVTLDLRLDSESVTPYSHATRLEEHFFPNSLQYNCVALSTWSTAVVQ
TAGVQRQLVRGMSAAGPACLLAPARLYAACKTAGLTPLYAPSGDTPEDQRRFLLSVALEA
RLSSFLKRCAHDWATGTHSGVGCTLPFLVDWSWSRAIELKENAKELTAPLFTSSMMPDRN
VIRCLEHCVQQLSQLTGLLDAILTKCCNLVVPDALSEMEEKYKGIGTVSLYFQVVQWFVR
VGLLPEKSSDRHSHTLPYPVHQLCGIYNKRRIKLNRLQDKSDDESSNESCSLLYIDQLIE
HEFGGDRVHQLWMVCGSSGGLYPPPSLFSLLRLYLLPDVPEEHKHSLLLYLLLDYSMIYD
DMRHESVIRRLMQFPTMFGLSNTAIKATQAFWHLDHRDFDFALDQLQCLTGNTLSDWQHH
VVLSSLLAQKKTQSALQYLHVRKPAPIHVSDNNDYDKLDDWQTSCNLYLARGLVFEALDV
IRMCVENAGSSDDKTQLLNYFYKGCRNSGQLAKVLQVTLLPFEEEVFIRYLKECNESHTS
DILVMYYLQQARYLEAEQYNSKLKTRHEQSDRGSARDALVATLCRDLPDVTGDVLRCAMN
EAEPRKVPENKDKFVYICSTAVALSVYKNTTHPLESPPKKFAAEDISPRKSYKDNVRARR
SLSISANSSLSEDPNTSIESIADIPVTLINPRYTGERYMRDTEEERDRDTRNKIHVETEK
RDTSYVPNTPKGRRAIRSDGDNTPLSGSRSNTPDRCDSPIITPKRVTRSTRSRSRTPEIS
PKSSLTPIEELPRQETDTASYKSKYIPSPRRSRTPERIEKVIEPPRLEAISESPTKSSQP
PQSPTRRSLRSRSRTPEVEIKVDPPVITSPRSLRSRSKTPEKLMSPKKDHGTRKKSLSRI
VLEANAFAKTKQIEKMDEEDKPDATGVIECTPVKPSKHTEPPHPCLMDVEFSPIVNKSIL
HSSSESFSITEKISKSSEDQIEINQLPAFTINEIYTDKSVLHSYQSSIGGTESIHDTRES
IKETVEICKPLPAFTSITDDFGKSVLHSFESTIDSSNIERKETPKSKTTDYGVLSTDTSA
SVGQQNESLMTSDSEIDDREWSRLDNQNARVIQKEKERIVEIEREINEIEEMSDECRETC
SDSNDSAESEEEEEGSESENDNEVISIEDSDESSDTYKLEIEEDNVIERNQQEQLVQATV
GTARDDVAEPQASGSGIQENNEADSELFQASQEKPDALNPARDISILTDDNSVTETEGAD
KLHYSDEIKNDDQSVAMETDQPVIASVTVEQITTIEQNIEQEIPSREVDVIDSGPSRRED
HKVEESETVKTTEAQMESQAKCVPDIKDKDIPEEIENSVVAQEESDKVEIKTQTEDIERT
EDTEQVPKTRKRTKSTTSTRSKEGSEVNEKVEPRTPRRRRQSASKAEVEGTPDNNEHTPR
TRAKTPSSEVRKILTRRASKELEKTDEHRQEEVPELTPRRSTRRTKKEDDNASVTSDSSV
KSGRSRASEDGKPARKGRKSVMNVKPDLTVIPEVAAEESKASDDIIKEYSSARRLTRNQK
AVLDSWLEPELPRRKNDNDSDSSLTRTDYDGSPEPDQDSDLETAVKPQRLARAASETKTT
PKAARIGRRVSVDIGVTPDEGSPVSGLSRGRRASFTRACEALHTPRRGSTDVKGSPMSEV
ESTPRRGRRPSATSVKGDVNTPRSKKAAEKNKETNE