New model in OGS2.0 | DPOGS203258  |
---|---|
Genomic Position | scaffold261:- 182458-219430 |
See gene structure | |
CDS Length | 5226 |
Paired RNAseq reads   | 1955 |
Single RNAseq reads   | 4556 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000241 (0.0) |
Best Drosophila hit   | CG31048, isoform C (0.0) |
Best Human hit | dedicator of cytokinesis protein 4 (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to CG31048-PA [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to CG31048-PA [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0005525 GTP binding GO:0051020 GTPase binding GO:0005085 guanyl-nucleotide exchange factor activity |
InterPro families   | IPR010703 Dedicator of cytokinesis |
Orthology group | MCL10152 |
Nucleotide sequence:
ATGTATCAGGAGCGGGAGACGTACCGGTTCACAACAGTCGCGAAGGTGATGAGGGAACTG
TTGAGCGGCCGTCGCGCTCTGTTGACGGGGACTCTGACACAGGACCAGACCAGGGCCTTG
AGGCTGAGGCTCGTCGGGAAACTTGACTGGGGCAACCGGAAGCTAGGTCTGGAGTTGGTT
CCAAGACGCGGTGCGGAAGCCGTTGACCCAGAGGATACCAGCCTCGTTGAATTGTATAGA
GTTCATGCCGACAGCGCTGAGAGGGCGGCAGCTTTTCGCGGTACACTGCGTAGAGCTGGT
GGCTCGGGTAGCAGCTTCAATTCCGGCACATTAACGAACAATACAAATATAACACCGGTC
AGTCAATCTTACTACCTCATGTGTAGTATGAGGGACTTTGGTCACACCGCTGGAGGTGAT
GAAGCGGAACTTCTACTTTGGCTTCACGACGCTCGACGAGCTCAACCGCTCTCAGAAAGA
TTCAGGGTTAGAATAGCGAGGGACGGCTTCTCTAACTACGTGGACAGACTCCACGCTAAT
AGCACCCTTTTCTCCGATTTATCAAGTACGGATCTCTCTCGGGAGCTGTGGCTGGTGGCG
TGGGTGGTGCGTGTCGGTCGCTGGTCAGGGGCTGGTGGAACGGGAGAGAGACGAGGCCCT
GTAGCCAGAAGACCTTTAGGAGCGGGCGTCCTCAACCTAGCCGAGTTCCTCAAACAGACC
GAACAACATACTATTGAAAAGGAGTACACTTTTAAGGTTTACCAAAGCGAAGAGAAAGAT
TTCCATCAGCTGCATGAGATGTTGATAAGGAAACAGACAAATAAATGCAATATTTTGCCT
GGACAACCAAATTACGGCATCGTAGTAGCGCTACGTCTCTTAACAAATACCGGCAGTATA
TCCGAAGCTGTAGCCTCCGGGGCGACTGTGACAGCAAAGAGGGGATTCCCCGACGTCATA
ATGCCGGGGGATGTCCGTAACGACCTCTACTTGACCTTGGAGAGGGCAGAATTTGAGAGA
GGGGGTAAAAGTACGGCGAAGAACGTCCTCGCTACAGTCAGTGTGTACGATAGTTCTGGA
CAAGTCATCAATGATTGTGTGTGGGGCGCCAGCGGTACGGGCAGCACTTGGTACGAGTCA
CTAGTGTTGTACCACAACAACAGCCCAGCCTGGGGCGAACAGCTGCGTCTCACTGTACCA
TTGGATACTTTCACACACGCGCACGTCAGGATCGAGTTCAGACACTGTTCCACACGGGAT
AAAAGCGAGCGTAAGCTGTTTGGTTTCTCGTTCGCCCGTCTGATGGAGCCGAGCGGCGCC
ACCCTCAGAGACGCCGCCCACGACCTCTACGTGTACAAGTGCGACGACGCTAACAAACTC
GCGACAGCAAGCTACCTCTCACTACCGTCCTGCGCGAGCGACGCGACTCGTTCAAATACA
AACGGAGTAATGGCAACATTCCAACGGAGTACGAAGGAGAATTGTATTATAAGTACTGTG
CTGTGCTCCACGAAACTCACACAGAATGAGGATCTCCTAGCTTTATTACAATGGCGTGCT
CGACCTGAGAAGGTCCAGGAGACCTTACTACGTGTGTTGCGCCTCGGCGACGGGCTGAGT
TGCGAAGAACTCATCAAGTTCCTTAGAGATGTATTAGACGCTCTCTTCGCTCTGTTCTCT
ACTGAGGATGGTAACAGTACACCACACTCGGGAACTGTGTTCCTGGTTCTGGTTTCTATC
TGCAGTCTCCTGGACGAGAGTCGCTTCCAACACTTTAGGCCTGTCCTCGACGTTTATATA
GAAGAACACTTCTCAGCTGCCTTGGTCTATAAGGGTCTCCTATCATCGGTCCAGCATTGT
GCTGAATGGGCGGCTGGTGCTGAAGGTCAGGAGCCAATACGCAAGTGTCTCCGTTCTCTG
GGCGCTGTGTTCCGTCTAGCGGTCCGATCGCGCTGTCTGTTCGCTCGAGCCACCGGCGGA
CAATACGAGGATAGCTTTAGACGGGATGTTCGTGCAGCGCTGCACGCGCTTAAAGCGTTG
GCTCAACATCCGCATAGGGAGCATCTCGCGCCCGCACAGATCGCACTGATGACGTCATGG
GCTAGCGTGGCAAAGGAAGTGGCGTCAGCCCTGGGCCCAGTAGAGGCCGGACGTATAACC
GCAGCGATGTTGGATGCACCTGCAGCGAATGCACCACCAGCTTTGGCCAAGGCTAGACTT
GCAGCAGCTCAGGAGATATTGAGAGGACCTCTGGGACAGGATCCTGAGGCTCGAAACATT
GTTTTGACAACGGCGTGTCATCACCTCCGAGTGCATCTCGCTCGTAGGGACGAATTAACT
CAATGTGCGGATATGCTGGGAGAGTTAGTCACGTTGTTGTGGAAGAAGGAAGATCCTGAT
GCGCCCGTGGACGAGGACGAACTGGACCCGGATGTAGACGTGCTCTGCTTAAATACCCTG
GACGTACTGGTCGAGACGGTACTGCATCTGATTGGCGGAAATTCGCCAGTCCTGGGTTCA
ATGGTAGCTGGTCTACTAGGAGTAATGGAACTTCTAAAACCAGCTCACTATCAGCGTCTG
TGGAGTCACTTAGCTCCACACCCTCACGACAGAAAGCCTTTAAAAGATTTTCTTATGAGG
GCCTTCCTTGTGTTTAGACATTTGATAGAACAGGAAGTGTTTCCATCTGACTGGATGGTA
CTCAGAGTGCAGAGCTGCAAGGTACTGTTGTCTGCATTACAAGATTTGGCAAAACCGTTG
TTAGAAAGATTCTTGGGCGACGAGCCTCCACAGTTTGACTCTCAACTATGGGCGGGTTAC
CTGGAGTTGGGCGTGTCGCTAGTGACAGCGAGTGCGCTTCAGGCGGAGCGTTGGGCGCGA
GGACCACAACGAGCGGCCATGAGGGCGGCCGCAGCCTTACATCTGCTCGCCGTCTGGACC
AGACTCGGTGCGGCCCAGCTCCAGCTGATCGGTCCAGCGGTTGGCGCTCTGTTGGAGGTG
ACGTTGGTGCCAGAGCTGCGCAGGGCTGCCCTCGGCGCTCTGGTTAGTCTCATGGCCGCT
GAGCGAGCAGCTACAGGCTCGGCCAGAAAGACGGAGGCAGCCCTGGTGGATAAGTTGGAC
TCGCTGGTAGCCGACAACAAAGCTGATGATCATTATCGACGTCTCTTTGACACTGTATTG
ATGGAGCGTGTTTCGACGGAGGGTTGGCGGGAGGCGGGCGCTGCTTTCGTGGGCTGCGTC
ACCAGACTGCTGGAGAGACTTCTGGACTATCGCGCGGTGATGCAGGGAGCGGAACATCGA
GATAAGAGGATGGCTGCCACTGTTAACTTGCTTAATTTCTACAAAAACGAAATCGATCGT
AAGGAGATGTATCTACGTTACGTGTACAAGTTACACGACCTTCACATCGCCTCTGATAAC
TGGGTGGAGGCTGGGTGCACACTATTACTGTACGCAGAAACATTAAGTTGGGAGAGCGAT
CAGATGGGCGTTGACCCCGAACATCCAGATACAGTGGAGTGGAAACGGAAAGAGGCGCTC
TACAACCAAGTGTTACAGTACTTTGATAGGGGCAAGTGCTGGGAGAAAGGCTTGCCCCTA
CTACGTGAACTGAGCACGTTATATGAAGTGAGATGCGACTACGCGCGTCTGTCGCACGTG
CTCCGCACTCACGCGAACTTCCTGGATGCTGTGCTCGAACAACTCAGACCCGAACCGGAG
TACTTCAGAGTAGGGTTCTACGGGAAGGGATGTCCGCTATTTGTTAGGAATAAGCAGTTC
GTGTATCGCGGTCAGGACTACGAACGTATAGGTGCGTTCACACAACGTCTGCAGGCCGAG
TACGTGGCGGCTCACATCCTCATGAGGAACACACCGCCAGACGATTCTGTCATCGCTGCT
GACGGACAGTATATCCAAATCTGTAACGTGAAGCCCGTATCCTCGCGTCGCTCGTGGCCG
CCGGGTGTGCCGGACCCGGTGCGGAGGTTCTACGTGTGTAACGACGTGGACACCTTCCTG
TGCGACCGACCGCTGCACAAACCACCCATTGACAAAGATAATGAGTTCAAGAGCTTATGG
ATCGAACGTACAACACTAGTGACAGAGAATACTCTCCCAGGAATACTGCGGTGGTCGGAA
GTAATATCAAGATCAGTCGAGGAAATACCACCGGTTGAATTCGCCTGCGAAACAATGGAA
GCCACGGAACGTGAACTACGGTCTCTCATAACTCAATACACGGCGGATCCAACACAGAAT
CTGAACCCGTTCTCTATGAGGCTACAAGGAACGATAGACGCTAATGTTCAGGGCGGGATC
ACCAAGTACGAGCAGGCGTTCCTCACACCTGAGTTCAGTAGAAACGCCACACCCAGAGAA
GCTGCGGCCGCTGCCAAGTTAAGAAGACTCGTGTCCTCACAGCTGGCGGTCGTCGAGGCA
GGTCTCACCTTACATGGTCGTCTAGCGCCGGAGGATGTGAAGCCGTTGCACAGGCGTCTC
GTAGAACGTTTTACTCAATTAAGACAGAATCTAGGACCGGGTCTAGCACGAGCTAGACGT
CAGCTGTCTGAAAGCATTGTGAACACTCCCTTGCCTCCGGTTCCTGCGATGGATAAGAGG
TCGCATAGTATTCAACAAAACGACGGCTATTATGAGGAAGGACATCTATACAATAAGCCA
ATCTATTCAATAGAGGATACGATAGAGCAGCAGAGCGTTATAATGTCTTGCAGTCTACCG
TCAGCCGACAACCGCGATAGTGAGGAGTCTATGGTGAAGTCCGCACCGCCGCTACCGTGC
AGACCCAAGTCAGGGGACCCGCGGAGTCCCACCAGGCCCTTAGAAAAATATCGGGAGGAG
GAGGTGGAGGCCCGTCGTCACAGTCGAGTCAGTTGGAGCGAGCCGGCCGACGCGCCGCCA
TTACCGCCGCGAGTTTCAGGCGGTGATAAGCGTTGGGGCGAGGCACCCGCGGTCCCTCGC
CGTGGCAGGACGGACGAACGTGATTCAGGCGTCAGCGTTGACCATCACTACTCTAACGCG
GATCACAGCGCTGACCACGATTTGGAGCTAGTGGAGTCTCTGCGATACGAGGAGATAATA
TCAATGATGTCTGAACCGCTTCAAGTGGACGAGAGTGAAACACCACCGCCGATACCACCG
AAGGGATTGGGGCATTTAAGCAGCTTCGATTCCGGACACCACGAGAACGGGGAGTCGCAT
TGCTAA
Protein sequence:
MYQERETYRFTTVAKVMRELLSGRRALLTGTLTQDQTRALRLRLVGKLDWGNRKLGLELV
PRRGAEAVDPEDTSLVELYRVHADSAERAAAFRGTLRRAGGSGSSFNSGTLTNNTNITPV
SQSYYLMCSMRDFGHTAGGDEAELLLWLHDARRAQPLSERFRVRIARDGFSNYVDRLHAN
STLFSDLSSTDLSRELWLVAWVVRVGRWSGAGGTGERRGPVARRPLGAGVLNLAEFLKQT
EQHTIEKEYTFKVYQSEEKDFHQLHEMLIRKQTNKCNILPGQPNYGIVVALRLLTNTGSI
SEAVASGATVTAKRGFPDVIMPGDVRNDLYLTLERAEFERGGKSTAKNVLATVSVYDSSG
QVINDCVWGASGTGSTWYESLVLYHNNSPAWGEQLRLTVPLDTFTHAHVRIEFRHCSTRD
KSERKLFGFSFARLMEPSGATLRDAAHDLYVYKCDDANKLATASYLSLPSCASDATRSNT
NGVMATFQRSTKENCIISTVLCSTKLTQNEDLLALLQWRARPEKVQETLLRVLRLGDGLS
CEELIKFLRDVLDALFALFSTEDGNSTPHSGTVFLVLVSICSLLDESRFQHFRPVLDVYI
EEHFSAALVYKGLLSSVQHCAEWAAGAEGQEPIRKCLRSLGAVFRLAVRSRCLFARATGG
QYEDSFRRDVRAALHALKALAQHPHREHLAPAQIALMTSWASVAKEVASALGPVEAGRIT
AAMLDAPAANAPPALAKARLAAAQEILRGPLGQDPEARNIVLTTACHHLRVHLARRDELT
QCADMLGELVTLLWKKEDPDAPVDEDELDPDVDVLCLNTLDVLVETVLHLIGGNSPVLGS
MVAGLLGVMELLKPAHYQRLWSHLAPHPHDRKPLKDFLMRAFLVFRHLIEQEVFPSDWMV
LRVQSCKVLLSALQDLAKPLLERFLGDEPPQFDSQLWAGYLELGVSLVTASALQAERWAR
GPQRAAMRAAAALHLLAVWTRLGAAQLQLIGPAVGALLEVTLVPELRRAALGALVSLMAA
ERAATGSARKTEAALVDKLDSLVADNKADDHYRRLFDTVLMERVSTEGWREAGAAFVGCV
TRLLERLLDYRAVMQGAEHRDKRMAATVNLLNFYKNEIDRKEMYLRYVYKLHDLHIASDN
WVEAGCTLLLYAETLSWESDQMGVDPEHPDTVEWKRKEALYNQVLQYFDRGKCWEKGLPL
LRELSTLYEVRCDYARLSHVLRTHANFLDAVLEQLRPEPEYFRVGFYGKGCPLFVRNKQF
VYRGQDYERIGAFTQRLQAEYVAAHILMRNTPPDDSVIAADGQYIQICNVKPVSSRRSWP
PGVPDPVRRFYVCNDVDTFLCDRPLHKPPIDKDNEFKSLWIERTTLVTENTLPGILRWSE
VISRSVEEIPPVEFACETMEATERELRSLITQYTADPTQNLNPFSMRLQGTIDANVQGGI
TKYEQAFLTPEFSRNATPREAAAAAKLRRLVSSQLAVVEAGLTLHGRLAPEDVKPLHRRL
VERFTQLRQNLGPGLARARRQLSESIVNTPLPPVPAMDKRSHSIQQNDGYYEEGHLYNKP
IYSIEDTIEQQSVIMSCSLPSADNRDSEESMVKSAPPLPCRPKSGDPRSPTRPLEKYREE
EVEARRHSRVSWSEPADAPPLPPRVSGGDKRWGEAPAVPRRGRTDERDSGVSVDHHYSNA
DHSADHDLELVESLRYEEIISMMSEPLQVDESETPPPIPPKGLGHLSSFDSGHHENGESH
C