New model in OGS2.0 | DPOGS204307  |
---|---|
Genomic Position | scaffold1204:- 49071-60934 |
See gene structure | |
CDS Length | 4005 |
Paired RNAseq reads   | 3725 |
Single RNAseq reads   | 9436 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007581 (6e-71) |
Best Drosophila hit   | pebble, isoform D (1e-158) |
Best Human hit | protein ECT2 (5e-103) |
Best NR hit (blastp)   | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (0.0) |
GeneOntology terms    | GO:0005085 guanyl-nucleotide exchange factor activity GO:0000910 cytokinesis GO:0005634 nucleus GO:0007443 Malpighian tubule morphogenesis GO:0007422 peripheral nervous system development GO:0000915 cytokinesis, actomyosin contractile ring assembly GO:0005089 Rho guanyl-nucleotide exchange factor activity GO:0007155 cell adhesion GO:0008360 regulation of cell shape GO:0005622 intracellular GO:0035023 regulation of Rho protein signal transduction GO:0007111 cytokinesis after meiosis II GO:0007110 cytokinesis after meiosis I GO:0051225 spindle assembly GO:0007509 mesoderm migration GO:0008078 mesodermal cell migration GO:0050770 regulation of axonogenesis GO:0045184 establishment of protein localization GO:0007399 nervous system development |
InterPro families    | IPR000219 Dbl homology (DH) domain IPR001357 BRCT IPR001331 Guanine-nucleotide dissociation stimulator, CDC24, conserved site |
Orthology group | MCL15002 |
Nucleotide sequence:
ATGGGTCCGACTAGGTTACCACCGACACCTGAAGAGGAAGAACCTCCTCAACATCTTTCC
ACAGACGCAAAAACGTCAGACAAAGATCCAGCTAAATATGAAATGGTACTGGGTCCAACG
GCGGTGCTACAGCTTGCTGAGCGAGATGAGCCCTCGCCGGCCAACTCGCGGCCGCTATAC
TCGCTTGCGATGCGAGGGGCTGTTATATGCTTCTCGGGATTTCGACAAAAAGATGAACTT
ACGTACCTGATAACGTTGATACATTATATGGGCGGTTCTATACGTAAAGACATGTCTAGT
AAAGTGACGCACCTCATAGCGGCTTCGGCCACTGGTGATAAGTATCGCTATGCGGCCGGG
TTCGGGCTGCCGGTGTTGGCGAGGTCGTGGGTCGACGCCTGCTGGGAGAGGCGAGACAAC
CCCGCCTGCATCGCCACCGATGAGGCCTTCATCAAAGAACACAAGCTGAGGGTGTTCGCG
GGTGCTCGCGTTTGTTTCGTCGGCTTCCCTGAGGACGAGACACAGCATATGGCGGAGGTG
CTCGCGAGTAACGGTGGTACCACCTGCGCCCTCGACCACCCAGACTGTACACACGTTGTA
ATGGCCAATGGGGAGACTTTCGGTTGTTCGCTTGTCCTATCACCTCACCTGAACACTCCC
AATAATTCCGCAAAGCCTTCCCGCTCTCCACCGAACCGTTCCCAAACCACTCCAAAGAGC
TCACTCTACCGTAGGCTATCGGCACGACTCTCGGGCCGCCGCGCTAGTACGAACGAACCC
AACGAAGAAAATACTCGAGACTATAGAGAAAAGAGCTTACAAGATATGAGAGACAGTATT
AGAAACAGTATTAGTGATAGGAAGGATAGATCTCACTCTGAAGATATCAGTATTCATAAC
GTAGAGAAATCATATTTAGATGATATGTGTCCCAACATCCATGATAAGAGTAGTTGCCAC
GTTGAACTGCGTAAGCACAAGAGTAGCGATAAAGAAAATAAATATGTATCCCAAATAATA
CAAAGCAGTGGAAAAAATAACAGTAAAGATAAAAGAGAAGTGTTCAGAAATAAGTCTATC
AACGTTTTCAACATGGTAGATTGTCTAACAGAGACAGGTTCTCTGAGATCATCTCTTACC
AAGAGTCTTTGTGATCTGGATCCTAAAGACGAACCGGGATTTGCCTTACCAGCTGCGGGC
GATAAGGAACTGCAGCAGTCCAATACAACAATATCCTCTGGTAAAAAAAGAAGTAGAAAC
TCCACTGATTCCAATTTCCAAATAAGCATTATTGACGGCAACAACCTGTCTCCGGACAAA
TGTGAAGACTTAAATTGGAAGTCTATAAAAAGGTTGAAAATTAAAGATTCATTCAAATTT
AAAACAAGACCCACTATATTCAAAAAGACGAAAAAAGAATCAGTGTCGAAAGCATCCGGG
GATATTACTGTAGAGCCCGTAAGTCCAGAGAGCATGAAGCCAACAGATCCGGCAGGGGAA
TTCGTCGCCTCTACATCATCTCCTATTCGAGAATACGATAATGCTTCTGTGTCTTCACTA
AACATAAGCAAACAATCTGGATTTTTCGACATATCCTTCGCCTCTATAAGAAGCTCCAAA
ACCGTAAAGTCCGCATCAAAATTGCGAAGAAGCGTAAAATCATTTACAGCTTCCTTCAGA
AGCGAAAGAAAAAAGAAATATGAAAAAAGAGCTGAGAGGAACACAGTGGAAGTAGATCCC
AGTCATCTGCCGCCCGAGCTCAAAAACGTTTCAACACCAAAGAGAGATCTCGACGACATA
CACTTCGATATATCTCCCGTGCAAGTAGACACAGTGGACAGCACAGACATGAGAACGCCG
GTAACAAACAACCAGGACATAGACGAGCTGGACGATTCTAGTGTTTTTAAAACGCCGCAT
AGCGTCTGGCTCCGGGCCCATCGGCACTCCCCGTGCGGTGGTCCGGAGACCAGCTCGCGC
GGCGGCCCCGTCCCCCGCCCCTCCCCCGCGCCGTCTCCGCGCCGCACCGAGCCTCGCCCC
GAGACGACCCCCACTCGAGACGCTCGTGCCTTGTCTCAATGCCATGGACTATCGCTGCCG
GTGGTGGACGAGCATAATACAGTATTAGCACCAGAATGTTCCCCGCGAGTCCACGTCGTC
AAGGCGGAGTGGTTCTGGGCGTCGGTACAAAACGAAGAAGCTCAAGATGAGAGAGAATAT
CTTTTCAAAGACTACTTAGAAGAGGCGTCTGCACGATGGTCGACGATCGGTGTCGCGGGG
AGTGCGAGTGGTACTAGTGGATCGTGTACCGCTGCGGCGTCGTCAGGAGAGGAGGCGGGA
CCGGTAGCGACTGGCACGCCGGCAGCGCTGCAACGTCTCCGTAAGCGCAAACTACGAGGA
GGCGATGCTGCGCTACATAAACGACGATCCTCGGTCGGTGATGCCGTTCTGCTCAGCCTG
TCCGGGAATCTACTGGACTGCACGACCTCTCCTGACGGGAAACAGCTACTCGAAGAATCA
GAAGTACCCGATAATGTAGTGCGAAAATTAATGTCACCCCGACAACAAGTCTTTATGGAA
TTGCTTCAGACGGAGTCAAATTACGTGGGGATTTTACACACTATAGTTAACATGTTTAAA
CAACCTTTAGAAGAAATGGCCGAAGATGACTGTAGTAATGGGAAAAATCAGTCGCTGCTC
AATAACACAGAACTTAAAATTATTTTTGGAAATTTACCCCCTATTTATGAATTACACCAA
CGTATGTTGGAGGACCTTCGTTCGGCGCAGGCCAACTGGAGTGAGGAGGTGAGCATCGGT
CGCCTCGTCAGGAGGTACACACCCGATATGGTAAAGGCCTACCCTCCGTTCGTCAACTTC
TTCGAGAACACTAAAGAGATGCTGCAACAGTGCGATCGTGAGAACCCAAGATTTCATGCA
TTCCTGAAAATCTGTCAGACGAAACCTGAATGCGGTCGACAGAGTTTGCAGGAACTTTTA
ATACGGCCAGTGCAGCGGTTACCGAGCATAAGTCTACTGTTGGACGATATTCTGAAGCAC
ACTCATAAGAGTAATCCGGACCACGCGGCGCTGGTGTCAGCGCTGGCGGGGCTGAGGGAG
GTCATGTCGCACATCAACGAGGACAAGCGGAAGACGGAGGGACAACTACAGATGTTTGAC
ATCTACAACGATATCGACCAATGCCCGGCTCACCTCGTATCGTCTCATCGTTCGTTCGTG
TCTCGGTGTGAGGTCGTTGAACTGTCAAAGGAACTCTCAGGTCGAGGGGACCATCTTGTG
CTCTTCCTCTTCACAGACACGATGGAAGTTTGCAAAAAACGATCCAAGGCTTTTAACACT
AAAAGTCCTACAAACGGTACGGGCACGATGCGGATTGGTTCCAGTAAGCCGTACAGACAC
ATCTCGCTCATGCCGCTGAGCACGGTGAAGAGAGTCGTCGATATAAGGGAGGCGGAAGAT
TGTCACAACGTGTTCGCACTCATGTGTCGCAGCAACCAGGAGCTGAAGGAGAAGCTGTAC
TCGTTCATGATCACGGACGAGACGGTCGACAAGACGCACTTCCTCCGACAGCTGTGCCGG
CAGATGGCCAACACTGTCTGCAAGGCTGACGCTGATAAATTCCTCGCGTGTCTGGAGTCC
CATCAACTGGACATCGACACGAGTGATCTCGCCTTGAGCACACTCTCCAAAGTCTCCAAA
TTCGCGGCTCGCACCAGAATAAAGGTCGGACGAGCTCTGTCCTTCAACAAGACTCCTTCC
AAGCTGAAGAGGGCCATGTCGTCTATGATCCCCCCCCTCGGATCGACCTCCAACCTGACG
CCGGCCTCACAGCTCGCACAGATGAGACTCGCCAGTTGTAATAACATTAATGAGATGGGT
ACGAGTGGGTCGGGCGGCGGGGAGGCGGGTGTGCTAGTGGCGCCGCTGTCCGTGCAGCCC
ACGCGCAAGGCGACGGGCGCCGCCGCCGCTCTCAGGCGCTTCTGA
Protein sequence:
MGPTRLPPTPEEEEPPQHLSTDAKTSDKDPAKYEMVLGPTAVLQLAERDEPSPANSRPLY
SLAMRGAVICFSGFRQKDELTYLITLIHYMGGSIRKDMSSKVTHLIAASATGDKYRYAAG
FGLPVLARSWVDACWERRDNPACIATDEAFIKEHKLRVFAGARVCFVGFPEDETQHMAEV
LASNGGTTCALDHPDCTHVVMANGETFGCSLVLSPHLNTPNNSAKPSRSPPNRSQTTPKS
SLYRRLSARLSGRRASTNEPNEENTRDYREKSLQDMRDSIRNSISDRKDRSHSEDISIHN
VEKSYLDDMCPNIHDKSSCHVELRKHKSSDKENKYVSQIIQSSGKNNSKDKREVFRNKSI
NVFNMVDCLTETGSLRSSLTKSLCDLDPKDEPGFALPAAGDKELQQSNTTISSGKKRSRN
STDSNFQISIIDGNNLSPDKCEDLNWKSIKRLKIKDSFKFKTRPTIFKKTKKESVSKASG
DITVEPVSPESMKPTDPAGEFVASTSSPIREYDNASVSSLNISKQSGFFDISFASIRSSK
TVKSASKLRRSVKSFTASFRSERKKKYEKRAERNTVEVDPSHLPPELKNVSTPKRDLDDI
HFDISPVQVDTVDSTDMRTPVTNNQDIDELDDSSVFKTPHSVWLRAHRHSPCGGPETSSR
GGPVPRPSPAPSPRRTEPRPETTPTRDARALSQCHGLSLPVVDEHNTVLAPECSPRVHVV
KAEWFWASVQNEEAQDEREYLFKDYLEEASARWSTIGVAGSASGTSGSCTAAASSGEEAG
PVATGTPAALQRLRKRKLRGGDAALHKRRSSVGDAVLLSLSGNLLDCTTSPDGKQLLEES
EVPDNVVRKLMSPRQQVFMELLQTESNYVGILHTIVNMFKQPLEEMAEDDCSNGKNQSLL
NNTELKIIFGNLPPIYELHQRMLEDLRSAQANWSEEVSIGRLVRRYTPDMVKAYPPFVNF
FENTKEMLQQCDRENPRFHAFLKICQTKPECGRQSLQELLIRPVQRLPSISLLLDDILKH
THKSNPDHAALVSALAGLREVMSHINEDKRKTEGQLQMFDIYNDIDQCPAHLVSSHRSFV
SRCEVVELSKELSGRGDHLVLFLFTDTMEVCKKRSKAFNTKSPTNGTGTMRIGSSKPYRH
ISLMPLSTVKRVVDIREAEDCHNVFALMCRSNQELKEKLYSFMITDETVDKTHFLRQLCR
QMANTVCKADADKFLACLESHQLDIDTSDLALSTLSKVSKFAARTRIKVGRALSFNKTPS
KLKRAMSSMIPPLGSTSNLTPASQLAQMRLASCNNINEMGTSGSGGGEAGVLVAPLSVQP
TRKATGAAAALRRF