New model in OGS2.0 | DPOGS202739  |
---|---|
Genomic Position | scaffold485:+ 165872-174237 |
See gene structure | |
CDS Length | 3807 |
Paired RNAseq reads   | 1401 |
Single RNAseq reads   | 3390 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005358 (0.0) |
Best Drosophila hit   | CG9259 (3e-26) |
Best Human hit | WD repeat-containing protein 75 (2e-36) |
Best NR hit (blastp)   | PREDICTED: similar to WD repeat domain 75 [Nasonia vitripennis] (1e-57) |
Best NR hit (blastx)   | PREDICTED: similar to WD repeat domain 75 [Nasonia vitripennis] (7e-53) |
GeneOntology terms    | GO:0005730 nucleolus GO:0005634 nucleus |
InterPro families    | IPR011046 WD40 repeat-like-containing domain IPR011009 Protein kinase-like domain IPR004119 Protein of unknown function DUF227 IPR001680 WD40 repeat IPR015897 CHK kinase-like IPR015943 WD40/YVTN repeat-like-containing domain |
Orthology group | MCL13277 |
Nucleotide sequence:
ATGGTTACGCAAACGGCAAGTAGTGACAAAGCGTCAGCAAAATATGTTTTTAATAGAAAA
GCCGGTAGAAGTATTATAGAACACCGTCCTATATTTTCACCGGATGGACAATCAATTGTT
GTGGTTGTAGAGGACCTAGCCCGAGTGTATAACATACAAACGGGGGATTGTGTTCGTACA
CTCCAAACGGAAGGCTCAGTGGGACAGTTAGTAGGAGTACAGTTCACAGAGGATGACGGT
TATAACTTGTATGGATGTTCAGAATACGGATACGTCACTACATGGACTTGGGAGCAAGGC
GCAGTGCTTCGTGAAATTAAACTAAGCCTGTCAAGTGACTTGAAAATAATATCATTCAAT
ATAGTTGACAACAATGAATGTTTTATAATTGCCATTCAACCAGACAAATCACTCCATCTT
GGAACATATTCAGTGAAAGACGGCATATTATTGTATGAATATTCTGTAGTTAAGTGTTTC
TACTATGGAATCATATCGGTGGCTCTTGGCTGGTGCAATGGTGACAGATACGCAGCTTTT
ACAGTTGGAACTAGGAAACTCTACATACAAAATTTATCCCAACCGCATTTGAAATCAGAA
ATACAAAACCATAATCGTCTTCGAGTCATGGCTGTAGCGGCTCATCAGAAAGATAGTACA
GTTGCTATAACTGATGCAATCGGGAGAGTTACAATTCTAAGAGGAAATTTATATGATTCC
AACAGTATAGCAAGAGAGGTGATGCATTGGCATTTCCTTCCACCATTAGCGGTGTGCTTT
TCAGTTCAAGGTAATTACCTTATGACTGGCGGTATGGAAAAAGTGTTGGTAAAATGGACA
CTAGGTCCATTGGCCACCAAAACCAACGAGAAGAGCTTTATTCCACGACTACCTGGTATT
GTGAGATTCATAACAGCGAGCAGTTCCCATATAGCAGTCACATTGTCTAACAACTCTATA
GTGATAGCCAGTCCGCAGCTGGTTGTATCCCGTACTATCTTAGAATGTGGTGGAACATCT
CCTCACGTGAGATTCCTGGCTTCAACATTAGTATGGGACAGATCGCGAGCAGCCCTACTA
CTCCCTGGCCGTACTGGACACTTGCAACTCTATTCCACAAGCAGTGATACTGTTCTTTGC
AATGTTGATATAACTGAAATGAATAGTTTGCCATCGGAACGACAAAATTTAATACCATTG
GAAACGGAAGTCACTTGCACAGCGATGAGCGCTGATGGATCGTGGCTGGTCACTTCCGAG
TACAGAAACGACGGAGTCTTATATCCAGAAGAGAAATTAAAATTCTGGGCCTCCCAACAG
AACACCGCTACACCGTTTAAACTAAACACTTGTGTGAATCTGTCTCACGGTGGATGCAAT
GTTGTGGCTTTGGCCCTTAATAATAAGGGCGAGTTTTGCGTATCATCAGGCGCCGATCAG
AAGTTCAGAATATGGAAACGCAGTACCAGTTCACAGGATAATAGAAAGAAAATAACCTGG
ACCTGTCTAACGGCTTGCTACTACTCATCGGGGATTTCACATTTCCTATCAAACCCGGTC
CTCAATCAGTACAAAGGGAACAAAACACCTAACACAGACGATTCAGACTTGCCATATATG
AAAAAATGTTTCATGGAAAATGATATTCTGACAAAGATTGTCAATATTCATAAGGAAAAT
AATTTGCAATTGAATACCGGGGAGAATAGAGATGATGAGTTTTCTATGGGCAGTGTTGCC
ATATCGCAGGATGGGTCGTTGATAGCGGCTTGGTTTGGTTGCAAGTTGACTCTATGGGAT
ACACATTTATGTAACTTGCGGACAACGCTGTCCCATCCCGCGTTACGACCGAGAGGTATC
AACGTACAGTTCGGCAATAACGACGCTGCTCATTATTTGGTATGTACAACTAAGAGATGC
CTCGCCGTATGGAGCCTTCTATCTTTAACCATGAAATGGATTGTGCCATTAAATACAACT
TGTCTCGTAGCCGATCCTTGTTCAAACAAAATGGCCGTCGTAACCAAAAATAATGACGTG
TTCGTATTCACGCCCCACAGCTCAATACCGATATTGAATCTGAAGAGTTTGATAGATTGT
AAAAGTGGTGTGTTCAGACATTGTGTGTTCGGAGCGGCTCCCGGCGATGACGTCAGATTG
TATATGATGAGGAATGATTCAGAAATATACTGTTTGGAGCCCGAAAAGTGTCAAGATCAG
TTGGAGGTCATATCTCAGAGGAACCAGCCCAGGTCTAAATTCAGCGTCCTGGTCGCTGAG
CAACAGCTGTATGACGTCCGAAAAGCTGCACCAGCTGGAACGGAACAGCTGAACAAGGAA
CAGCTGGGTAACAACGCTATTAGTCAGTTCCTTTCTGGAGCACCTCACATGGTACCGCCA
GTGAGCCTGCTGTGTCCTCTCTTCCTACAACATATATCGGGATACGAGGAAAGTGAGCAA
GTTGAAGACGAAGTGATGGAAGTAGACTCTCAGTCCAGTGATGATGAAGACATACAGTCG
AAGTATACACCGAAGGCAGTACAAATGTGGGCTCCGAACTACGACGGTGTTAAGGAAAAG
AGATTGATGCATATATTAAAAACACCGCTATTAGATAAAGAATCTATTGTTACTGTTTTT
GTGAATAATATGAATTGGTTGCTTACGAATTATTCCAACAGTCTGGTGGGATACCTCGGG
GAACATCTCAGTCTCACAGTCAGCTTCGATTTGAATGGTGCATTTAAGAATATAAAATTT
TTCGTGAAATGCCTACCAAGATTTGAAAAATGGAAGGCAGATTTTTTGAAAGATTTGATA
TTCTTCGATAAAGAATATACGATGTTGGCTGATCTGTTTGAAAAATTCTCGGAGCTCGAC
GGATCTAGAAGATATCGACCTAAAGCCCTATTACTTAAGAAGGATTTATTTGTTTTTGAA
GATGTCAGGGAATGGGGATATAAAATGCCATGTCAAAGAGAAAATCTAACATGGCTCGAA
TTAAAAGCAACTATTTCTGCTATGGCAAGATTCCATTCTCAGTCTTATATTTTTGAGGAA
CGTAAAAGCAAATTATTGGGAAGGTCATATCGTATATGGGAAGACTATAGCGAATACTTG
GCAGAACCAGCTCAAGGTCAATCATGGCGAGACACAGGAATGAACGCCGTTATCGATCTC
CTAAAAGTTTTTTCAAAATATAGAACAAAAGATAACTTCGAATCAATTGTAGATAAAAGA
ATTCCTGAACTTTTTCATCTCGCTGAAGATCAAATAAAGCCTAGCTCAAGAAGCAGAAAC
GTTGTAGTTCATCGCGACGTTTGGTCTAACAATATATTTTTAAAACAACATACGGATGGA
AATATTCATGCCCTCATAGTTGACTTCCAGACTGTGGTATATGCTGATCCCATGATAGAT
CTCGCTTCAATGATATGTTTTAATACCAACCTAGCGTTTAGAGAAGAATATATAGAGGAA
GTAATCAATATTTATCACGATTCTCTCACTAGAGAACTTATCGTGGAAGGAATCGATGTA
GGATTGGTTCCTGACAAAAAAATTCTTAGGGAGAATTACAATGAAAGCATGTTGTTTGGC
TTGACCCAAGCTGCTATAATAGTTCCTATAGTAATATTTGACGAAGATATAAAGAAAAAT
ATATTTTCAGATGCTGATAAAAGTTATCGCTTTAATACTGTAAGCAGAAGTCAAGAATTT
ATAGACTTCGCTGAAATAGATGAGACGTATCGACTGAGGACTTGTGAAATTATCGATGAA
ATACTTGATAGATTTGTGTTCCTCTGA
Protein sequence:
MVTQTASSDKASAKYVFNRKAGRSIIEHRPIFSPDGQSIVVVVEDLARVYNIQTGDCVRT
LQTEGSVGQLVGVQFTEDDGYNLYGCSEYGYVTTWTWEQGAVLREIKLSLSSDLKIISFN
IVDNNECFIIAIQPDKSLHLGTYSVKDGILLYEYSVVKCFYYGIISVALGWCNGDRYAAF
TVGTRKLYIQNLSQPHLKSEIQNHNRLRVMAVAAHQKDSTVAITDAIGRVTILRGNLYDS
NSIAREVMHWHFLPPLAVCFSVQGNYLMTGGMEKVLVKWTLGPLATKTNEKSFIPRLPGI
VRFITASSSHIAVTLSNNSIVIASPQLVVSRTILECGGTSPHVRFLASTLVWDRSRAALL
LPGRTGHLQLYSTSSDTVLCNVDITEMNSLPSERQNLIPLETEVTCTAMSADGSWLVTSE
YRNDGVLYPEEKLKFWASQQNTATPFKLNTCVNLSHGGCNVVALALNNKGEFCVSSGADQ
KFRIWKRSTSSQDNRKKITWTCLTACYYSSGISHFLSNPVLNQYKGNKTPNTDDSDLPYM
KKCFMENDILTKIVNIHKENNLQLNTGENRDDEFSMGSVAISQDGSLIAAWFGCKLTLWD
THLCNLRTTLSHPALRPRGINVQFGNNDAAHYLVCTTKRCLAVWSLLSLTMKWIVPLNTT
CLVADPCSNKMAVVTKNNDVFVFTPHSSIPILNLKSLIDCKSGVFRHCVFGAAPGDDVRL
YMMRNDSEIYCLEPEKCQDQLEVISQRNQPRSKFSVLVAEQQLYDVRKAAPAGTEQLNKE
QLGNNAISQFLSGAPHMVPPVSLLCPLFLQHISGYEESEQVEDEVMEVDSQSSDDEDIQS
KYTPKAVQMWAPNYDGVKEKRLMHILKTPLLDKESIVTVFVNNMNWLLTNYSNSLVGYLG
EHLSLTVSFDLNGAFKNIKFFVKCLPRFEKWKADFLKDLIFFDKEYTMLADLFEKFSELD
GSRRYRPKALLLKKDLFVFEDVREWGYKMPCQRENLTWLELKATISAMARFHSQSYIFEE
RKSKLLGRSYRIWEDYSEYLAEPAQGQSWRDTGMNAVIDLLKVFSKYRTKDNFESIVDKR
IPELFHLAEDQIKPSSRSRNVVVHRDVWSNNIFLKQHTDGNIHALIVDFQTVVYADPMID
LASMICFNTNLAFREEYIEEVINIYHDSLTRELIVEGIDVGLVPDKKILRENYNESMLFG
LTQAAIIVPIVIFDEDIKKNIFSDADKSYRFNTVSRSQEFIDFAEIDETYRLRTCEIIDE
ILDRFVFL