New model in OGS2.0 | DPOGS210436  |
---|---|
Genomic Position | scaffold758:- 16886-21805 |
See gene structure | |
CDS Length | 2775 |
Paired RNAseq reads   | 939 |
Single RNAseq reads   | 2211 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001956 (0.0) |
Best Drosophila hit   | CG5360 (1e-22) |
Best Human hit | ND |
Best NR hit (blastp)   | PREDICTED: similar to conserved hypothetical protein [Tribolium castaneum] (6e-40) |
Best NR hit (blastx)   | PREDICTED: similar to conserved hypothetical protein [Tribolium castaneum] (2e-33) |
GeneOntology terms    | GO:0007300 ovarian nurse cell to oocyte transport GO:0040018 positive regulation of multicellular organism growth GO:0008054 cyclin catabolic process GO:0007113 endomitotic cell cycle GO:0045931 positive regulation of mitotic cell cycle GO:0008284 positive regulation of cell proliferation GO:0051726 regulation of cell cycle |
InterPro families   | ND |
Orthology group | MCL12998 |
Nucleotide sequence:
ATGAGAAGTTTTAACGTTGTTAATAGCTTTAACGATAACAATAAAGAAATCAATGAACCA
TCTAGTAACTGTGAAAGTTCTAATAGTGGTGGTAATATAGATCTTTCAACTGTAATACAA
TCAAATTTATCAAATCATATTGATGTAAATTCAGTAAAACCAGAATATAGTCCAATACAG
ACTATTTTGGACGATGTGGATAAGGTATCTGATCCAGACATAGTTAAAGTTGGGTCGCCT
TGCAATTCACTTGCCGCGTCTCTGACGGAAACTTCTTCCGCAACAAACCCTTGTTTGAAT
GATAAGTCTGACAATACAGACGTTCCTGTATCCTCTGAAGAGTCCAAATTTGAAGGATTC
AGATCAGTTTTTATAACCTCTACAATGGAAAACAGTAACAATGCGGTGGATAGTGTACCT
TTGTTTCGTGACGTAAAACAAACCGAAAGTGTTTTTAAATTACCAATTTGTGAATTATCA
TTTAATGGTACCATACTAAAACATGTTCAGAAACTTAAACCTATAGTTGATCCATTAACT
GCTTTAAGCATGTCAAATAATGTTCTTAATTTAAATTACGAGCGATGCACAGATGTAATA
TCAAATTGTTGCAAAAATGAGTCTAGTGTTGATAGAAAATCACAAATATCAAGTGATATG
GAAGACAAAAACTCAAATGAATCTGTTAAAAACTTAAATCCCACTGAGAGTAGCGAGAGC
TCATGTGGAGAGGATAGTTCAAAGAAGGAACAGACTAATAATGATGGAAATTCTAAGTGG
AACTTGGACCACAGTTATTCATCCCTGGAGGCATCCTTTGATAGTGGGATGCGCTCTCCT
GACATGTTTTCAGATGAAGATGAACCTGAACCGAGTCCACCGCCTGAACCATTTTGGAAC
TTTTTAAAAGATTTTGAGCAATATGATAAACGAAAAGTTAGAAAGATAGAGGAAACATTA
CAAGGCGTACTACCACCTCCGTCTGTAACAACACTTAAGACTGATGTGACTCAAATGTTG
AAGAAATATTACTGTTTTCTGCCAGCTTTCAATGGGGAGGAGAATCTTAATATTGAAGCT
AATTCTATGACACCCACAAAAAAGGTTTCATTCGTACAAATACCGGAGACAACAAATGTA
CACAGTTTTTCAGAAACTGTACATTTGGATAAGACTGATACGAGTTCAATACAGCCAGAT
GTTTTGCAAAAATCTCAAGCTAACACAAGTATCAGCGATAAGAGCATAGAGATAAAAATG
TGTTCGGAAATTGAGGTTTTAGAAGCGTCATGGCCGGATGTGTTGAAATGCAAATACTAT
GATGTTTACTACAATCTAACGTCCCACTCGGAAAAATATGAGATGCTCATGCAAAAGTAT
GCGGAAAGGTTCATTGGTGCTGAAACTGATACGAGCGTCAATATATACTCTGGAGGATTG
CAGTCACCAAGTAGTGCTTGCAAAAGGAAAGCGCTGAGATTGAAGATGTCTCAAGTCAAA
TCTCCCGGTCGGAGGCTGTCTCACTTAGCACGTCGTCGGCAGGCCTTTTGCAGCGCGGCC
ACTATCAATGAGAAGGCACAGACGTCTTCCAAAATGGTGTTAATTGATAAAAATTTCTTT
CCACATAGAAAGCTAATCAACTCTGCGGAGAGGAAAAGTCCTAGAACCCGTCGCACACCA
GGTAAGAAGACCCCCGGGAAGAAGACGCCGTCGAAGACACCAAAGACAAAGAGCGGGGGC
TCCAGTAAGAAGAAAGCGATGCGGCGACTTCTCATGGATTCGGATCTGTCGAAGACTCAA
CCGTCCAGGGATACGCTGAAACGAGCTTTGTTCATCAGCCCGGATAACAAAAAGCCCGTC
GCCACATGTTCCTCCGTCCCAAATCAGGCTTTGAAATCCAAACGAGCGTTATTCGGATCG
CCGGTGAGGCAAGCGGAAACCAAGAGCCTGGATGGAACAGCCAGCGATCAGTTCCTGAAG
CGGAAAAGAGATACGCTGGATGATGAACCGGAAACCAGTAGGAACAAGATAGCGAAGAGT
CTCTCGTTCGGTGGGGATAGTCGACTGTCGTTCAGTTCAGAAAATAGATTGACGTTTGGC
GTTGAAAACCGAAGGGCGTCAGAGTGTTTGACGACGAAAACTATGGCTGAACTTAACGAA
ACCCATAAGAAGAAACTTCTTTGGGCCGTGACCGAAGCCCTACGTCTCCACGGCTGGCGC
ATGTCTTCCCCGGGTTTCCGTGAGAAAGCTTCATCCCTGGCTCGCCTGACACGCAAGCTG
TTGACTCTTCCGCCTCACGCGGCTCGGCTTGCAGCACCCAACCTGTCGACTTCTGATACT
ATGTTTAAGTTAGCTCGCCAATATGTATTTGCAATAATTCAAGGCCGTACAGTCGATGAA
TGCTATCAAGATGAGGTCCTCAAAATCTCTAACGAGAATAACAAGATAACTGGCTACATA
TCAGCCACGGCCTACCAACAGATGAAGACCAAACAAGTTCCGTCGACGCTGACCTCGCAG
ATCAAAGAAAACACTTTTGGGGAAAGGTCAACTAAACTGGAACAGCCTAGGAGCACCTCC
AAGAATATACTACAAGACAAATGGATGAATATAGACTGTAATTCAAACTCAAATAGCAAC
AGCAGTGGTAGTTTTAGTGTTCTAGATAAGGCTGGAGTTTTCAAGTCCAATTCGATGCCT
TCATTCGAAGAAGCAGCCAAGATGAGGGCGAGGAGACAAATCAGTTTTGATAATGTAGAT
TTTCCAAAGAGGTGA
Protein sequence:
MRSFNVVNSFNDNNKEINEPSSNCESSNSGGNIDLSTVIQSNLSNHIDVNSVKPEYSPIQ
TILDDVDKVSDPDIVKVGSPCNSLAASLTETSSATNPCLNDKSDNTDVPVSSEESKFEGF
RSVFITSTMENSNNAVDSVPLFRDVKQTESVFKLPICELSFNGTILKHVQKLKPIVDPLT
ALSMSNNVLNLNYERCTDVISNCCKNESSVDRKSQISSDMEDKNSNESVKNLNPTESSES
SCGEDSSKKEQTNNDGNSKWNLDHSYSSLEASFDSGMRSPDMFSDEDEPEPSPPPEPFWN
FLKDFEQYDKRKVRKIEETLQGVLPPPSVTTLKTDVTQMLKKYYCFLPAFNGEENLNIEA
NSMTPTKKVSFVQIPETTNVHSFSETVHLDKTDTSSIQPDVLQKSQANTSISDKSIEIKM
CSEIEVLEASWPDVLKCKYYDVYYNLTSHSEKYEMLMQKYAERFIGAETDTSVNIYSGGL
QSPSSACKRKALRLKMSQVKSPGRRLSHLARRRQAFCSAATINEKAQTSSKMVLIDKNFF
PHRKLINSAERKSPRTRRTPGKKTPGKKTPSKTPKTKSGGSSKKKAMRRLLMDSDLSKTQ
PSRDTLKRALFISPDNKKPVATCSSVPNQALKSKRALFGSPVRQAETKSLDGTASDQFLK
RKRDTLDDEPETSRNKIAKSLSFGGDSRLSFSSENRLTFGVENRRASECLTTKTMAELNE
THKKKLLWAVTEALRLHGWRMSSPGFREKASSLARLTRKLLTLPPHAARLAAPNLSTSDT
MFKLARQYVFAIIQGRTVDECYQDEVLKISNENNKITGYISATAYQQMKTKQVPSTLTSQ
IKENTFGERSTKLEQPRSTSKNILQDKWMNIDCNSNSNSNSSGSFSVLDKAGVFKSNSMP
SFEEAAKMRARRQISFDNVDFPKR