New model in OGS2.0 | DPOGS207938  |
---|---|
Genomic Position | scaffold202:+ 1-28534 |
See gene structure | |
CDS Length | 4167 |
Paired RNAseq reads   | 921 |
Single RNAseq reads   | 2251 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000379 (5e-157) |
Best Drosophila hit   | still life, isoform D (0.0) |
Best Human hit | T-lymphoma invasion and metastasis-inducing protein 2 isoform a (2e-170) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC013483 [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | hypothetical protein TcasGA2_TC013483 [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0005089 Rho guanyl-nucleotide exchange factor activity GO:0005085 guanyl-nucleotide exchange factor activity GO:0045202 synapse GO:0030036 actin cytoskeleton organization GO:0007268 synaptic transmission GO:0050803 regulation of synapse structure and activity GO:0005622 intracellular GO:0005057 receptor signaling protein activity GO:0035023 regulation of Rho protein signal transduction GO:0005515 protein binding GO:0050770 regulation of axonogenesis |
InterPro families    | IPR001331 Guanine-nucleotide dissociation stimulator, CDC24, conserved site IPR000219 Dbl homology (DH) domain IPR001478 PDZ/DHR/GLGF IPR011993 Pleckstrin homology-type IPR001849 Pleckstrin homology domain IPR003116 Raf-like Ras-binding |
Orthology group | MCL10313 |
Nucleotide sequence:
CACTCCAGTGGTGGTGAAACCGGAGACAAAGGCGAGGGCGGTGGCGGTGCGATATCAAAA
GAACCAAAACCGAAAACTAAACACCACCATCACCACCACCATCATCATCATCATAAGATA
CACAATTGTCCTTATCATGATGTCAGACCACCCCCCGAAGATGAACCTGAAGAGAAAACA
ATAGTTCCAAAGAAAACTGTATCTCCGTATCTATATATTCCTAGTAAACTGGAACCAAAT
GTCCAGCAGCTTTTCAGTTTTATAGAAAGTGTACTAAGTGCATGGGCTGCTGAAGAAGGT
CTCACGAGTACTGGAGAATACTCAGAGCCTGATGAACGTATAGTTCGTAGACGCAAATTA
AATAAGTATAAGAAACGCACAGATGTACTAAATATTCGGCGCATCGTGTATGAAGTATCA
ATACTTCAAGGAGCCAAGCTACTTGGAAATGTTAGGTTTCGACATTACCATTGGAAGGGA
ACTGCTCAAACTTGCAATGAAGCTTTCTTAAGAAAGATATCAGACGATGATCGCATGTCT
TTGACGACGGCTGTATCTGATGAAGAGGATCCTGGCGAGAGCGCAATGAACTCTCCTTAC
AAGGGAAAGCAGACGGGAGCCGCTGCTGCCTCCTTTAACTGCACTGGGGCTGTAAGAAAG
GCTGGATTCTTAAGTGTGAAGAAATGGTTGCTGCGTAAAAAGCATCAGATTGAATTGGCT
CGAAAACGAGGCTGGAAAGGGTATTGGGTGTGTTTGAAAGGCACTACTCTATTATTCTAT
CCTTGCGATTCAAGAGAGGGACGCTCTGTGGAAGCTGCACCTAAACACCTCATAATAGTC
GATGGTGCCATCATGCAACCTATCCCAGAACATCCCAAACGAGATTACATATTCTGCTTA
AGTACGGCTTTTGGTGACGCCTACCTATTTCAGGCTCCTTGTCAGGTGGAGCTTGAAAAC
TGGGTAAACAGCATACATAGTGCATGCGCAGCAGCTTTCGCACGTCATCGGGGTAAGACG
GGGACGCTTCATTTACTGCAAGAGGAAATTTATCGATTGGAAAAAGCAATAGAAACGGAT
CACAAACTCAAACACATGGCAGATCTTCAGCAGTCGGTCGTATCAGACCCGGAAACAAGA
GCTCAATTGGCCGTTCAAATGCTGCAATGGGAGGAAAACCTCGAGAGATTGCACTGCGAA
CAATTCAGACTCCGATGTTACATGGCGAGCTTACAGAGCGGTGAACTTCCTAATCCTAAG
TCGTTGCTGACGCACGTATCTCGAGGCACCAAGACCACTTTGAACAAGCTGGGGGTGTTT
ACGGTGTCCTCGTTCCACGCGTTCATCTGTGCTCGTTCTCCATCTTTACTCAATAACTTA
CTGGCTGGTCGCGGCGCCACCAAACGACGCGCTCCCAACCTGTCCAGATCAAATTCTGGA
TCTAGCCGACGTTCTATGCAGATGTCTCGCGAGGAAGGTGAAGCGGCCGTCAGGGTATCG
TTACCCGAGGGCACCACCGCAACTGTGGGCGTCAGGGAGGGTATGTCTGTGGAGGAATTC
CTCGCTGCAGCCTGCGCTAGACGATCACTCAACCCATTAGAGCACTTCGTCAGAGTTAAG
AAACGACGGGATATGGAAGATCATAATTATTTTGTACCACACAGGAGCGACCTCATCGAG
ACATATCTCCATACACATGAAGTCGTGGAAGTATGTGCGAAGATTCTGTATCAAGTAGAG
CTGCAGCGGAATACCCTGGAACAAATGTGGGGCTTCAGTGTGGAGGCTGAACTCATAGAA
AACGCGGAACGTCAAGACGAACTCTGCTGTTACGTCAGTCGTGTTGAGGACAAAAGCGTT
GCTATGCAAAATGGTATAATTAAAGGCGACGAAATAATGGTGATTAACGGGGCGATCGTA
TCTGACCTAGATATGATGTATTTGGAAAGCGTATTGCAAGAGGAACTCTCGCTAGTTATG
ATGATGAGGTCATCTAGGACGGAGCCGCCAGAACTAAGCGGAGTAATGCGAGCTGCCACA
GACGACATAATCGATTCCTTAGTGTGTCCGCCGCCGCCCAGCGAGCCTCCAGTCATCTCC
GATGACATGATATCAGGACTCATCGTACCAGCGCCCGCATGGAGCAAAGAATTATACAGT
CCGGAGACAGAAGTTCATGGAGAAGCAACTAGTACGGGCCCACCGAAAGTAAGCTCTCGT
ACTAATTCCTTCGAGATCGAGAACCTACTCAAGAGCGCGGAGCAGGTGACGGGGTGGTGT
CGTTCCCCTGCGGACACGCGCCGTGGGAGTCCCACCGGCAGCACCAGCGCCGCTGTCACA
CCATCAAGGCATCTGTCGGACGCTGACAAGCTGAGGAAGGTGCTTATGGAGCTTGTGGAC
ACTGAACGAGCTTACGTCAAGCATTTAAACAATCTATTGGAAAATTACCTTGAACCGTTG
AAGAAGGAAACTTTCCTATCAAACGCTGAAATCAACGCTCTGTTCGGAAATATTCAGGAG
ATAGTAACTTTCCAAAGACAATTCTTGCAAAACTTGGAGGAGGCGCTCGAGGCCGAACCG
AACTTTAATCATTTCGAATTTTCAAATCAGTTTAAGAACGTTCTGTTCGCTGTTGGGAAT
GCCTTCCTCTATTACGTCAACCATTTTAAATTATACAGTTCCTTCTGCGCCAGTCACAGT
AAGGCACAGAAAGTTTTACATCCAAATGAAGGCAATCAAGCGCTTCAAGAATTTTTAGCA
GCTCGTAATCCAAAGCAGCAACACTCGTCAACGTTGGAGTCGTATTTAATTAAACCAATT
CAACGAATCCTAAAGTATCCATTACTTCTACAACAATTGCGAAACTTAACTGACGTAAAT
TCCGAGGAACATCTTCATTTAGTAGAGGCTTTGAAGGGAATGGAAAAAGTGGCGGAACAC
ATAAATGAAATGCAACGAATCCACGAGGAGTACGGTGCTATATTTGATCATTTGTTTAGA
CAACACCAGAAATCATGCAAACAACCGATCGATCTGAGTCCTGGAGATCTGTTGTACTAT
GGGGGAGTAGAATGGTTGAATATATCAGACTTTTTAGGTAAAATAAAGAAGGGTTTGGAG
TTGCACGCTATGTGTTTTGTATTTAAATCAGCCGTTGTCTTCCTTTGCAAAGAAAGACTG
AGACAAAAGAAAAAGTTAATGGGTGTATCCACAAAAAATAATTCGAATGAAGTGGAAATA
ATACGTTATCAAGTACTAATACCGGTGACGGAGGTCCAGGTCCGAGCCTCTTCTGCTAAA
GACATGGATAGCCACTTCCTTTGGGAACTTATACACCTGAGGAGCCAACTGCAGCGGCGC
TCCGAGAAAGTATACGTTCTGTCCAACAGCACGGCGGATTTCCGTAACGCATTCCTCAAG
ACAATCAGACAGATCATTCGGGAGTCGGTCCGCAATATGTCCCTCCCGAGCTCTCGGCCT
GCGCCTGCGCCACCTCGGGCGCCTAACACACTCGACCGACCAAAACATCAGGTGCAGGTT
ATGCAGGGATCGCAAACTCTTGGCAAAACTAAGAAACCTAAAACGTCCGGTCAGAGATTG
TCTGCCGGTAATATAGAGGTTGGAGATTTGTCTCGTGAAAATTCACAAGATGCAGAAGAA
CCTCCCCAAGTTTCGGAACTATCGTCTGATGAAACTACATTCAGACACAGAAGCAAGACT
GTGGGGGACGCAGCAGACAGCATCGTGAAACGTCCTGTTCCTTCCGCTGCGACGACCACT
GACACAGACAAGTCTGAAGGGGGTTCCAAGTCGGAGGGTGAGGACGAGCCGCCACCGCCA
CCCGCTAAGCGAGGGTTAGGACGCACTCCCAACCATCTCACCCTCAGCACAACTTCAACA
CTAAGCGCTGGTAGCACGGGTAGCCAGGCTAGACTTATTCAATCGTCTCACCAACCTACA
CAATACCAGCCGACTATGATCAAAGAACTAGGGTCGCCCGTGTGGAAGCCGCGTGAGGCG
AGCGGTGAGGCGGGGGCGGCAGTCGGGCTCTCCGCCGCCGCCCCTGCCCCGGCTCCTACC
ACGCTACCACGCTCACAGCGACCCGTACCACGAGCGCCGCATCTCTCCGCCAGTCGCAAG
TCTCTCGCGCCGGACCACCGACACTAA
Protein sequence:
HSSGGETGDKGEGGGGAISKEPKPKTKHHHHHHHHHHHKIHNCPYHDVRPPPEDEPEEKT
IVPKKTVSPYLYIPSKLEPNVQQLFSFIESVLSAWAAEEGLTSTGEYSEPDERIVRRRKL
NKYKKRTDVLNIRRIVYEVSILQGAKLLGNVRFRHYHWKGTAQTCNEAFLRKISDDDRMS
LTTAVSDEEDPGESAMNSPYKGKQTGAAAASFNCTGAVRKAGFLSVKKWLLRKKHQIELA
RKRGWKGYWVCLKGTTLLFYPCDSREGRSVEAAPKHLIIVDGAIMQPIPEHPKRDYIFCL
STAFGDAYLFQAPCQVELENWVNSIHSACAAAFARHRGKTGTLHLLQEEIYRLEKAIETD
HKLKHMADLQQSVVSDPETRAQLAVQMLQWEENLERLHCEQFRLRCYMASLQSGELPNPK
SLLTHVSRGTKTTLNKLGVFTVSSFHAFICARSPSLLNNLLAGRGATKRRAPNLSRSNSG
SSRRSMQMSREEGEAAVRVSLPEGTTATVGVREGMSVEEFLAAACARRSLNPLEHFVRVK
KRRDMEDHNYFVPHRSDLIETYLHTHEVVEVCAKILYQVELQRNTLEQMWGFSVEAELIE
NAERQDELCCYVSRVEDKSVAMQNGIIKGDEIMVINGAIVSDLDMMYLESVLQEELSLVM
MMRSSRTEPPELSGVMRAATDDIIDSLVCPPPPSEPPVISDDMISGLIVPAPAWSKELYS
PETEVHGEATSTGPPKVSSRTNSFEIENLLKSAEQVTGWCRSPADTRRGSPTGSTSAAVT
PSRHLSDADKLRKVLMELVDTERAYVKHLNNLLENYLEPLKKETFLSNAEINALFGNIQE
IVTFQRQFLQNLEEALEAEPNFNHFEFSNQFKNVLFAVGNAFLYYVNHFKLYSSFCASHS
KAQKVLHPNEGNQALQEFLAARNPKQQHSSTLESYLIKPIQRILKYPLLLQQLRNLTDVN
SEEHLHLVEALKGMEKVAEHINEMQRIHEEYGAIFDHLFRQHQKSCKQPIDLSPGDLLYY
GGVEWLNISDFLGKIKKGLELHAMCFVFKSAVVFLCKERLRQKKKLMGVSTKNNSNEVEI
IRYQVLIPVTEVQVRASSAKDMDSHFLWELIHLRSQLQRRSEKVYVLSNSTADFRNAFLK
TIRQIIRESVRNMSLPSSRPAPAPPRAPNTLDRPKHQVQVMQGSQTLGKTKKPKTSGQRL
SAGNIEVGDLSRENSQDAEEPPQVSELSSDETTFRHRSKTVGDAADSIVKRPVPSAATTT
DTDKSEGGSKSEGEDEPPPPPAKRGLGRTPNHLTLSTTSTLSAGSTGSQARLIQSSHQPT
QYQPTMIKELGSPVWKPREASGEAGAAVGLSAAAPAPAPTTLPRSQRPVPRAPHLSASRK
SLAPDHRH