| New model in OGS2.0 | DPOGS203300 |
|---|---|
| Genomic Position | scaffold6:- 1029003-1050285 |
| See gene structure | |
| CDS Length | 4818 |
| Paired RNAseq reads | 1976 |
| Single RNAseq reads | 4847 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012252 (0.0) |
| Best Drosophila hit | trio, isoform C (0.0) |
| Best Human hit | triple functional domain protein (0.0) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC003063 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | hypothetical protein TcasGA2_TC003063 [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0005089 Rho guanyl-nucleotide exchange factor activity GO:0005622 intracellular GO:0035023 regulation of Rho protein signal transduction |
| InterPro families | IPR000219 Dbl homology (DH) domain IPR011993 Pleckstrin homology-type IPR001251 Cellular retinaldehyde-binding/triple function, C-terminal IPR018159 Spectrin/alpha-actinin IPR001849 Pleckstrin homology domain IPR002017 Spectrin repeat |
| Orthology group | MCL10996 |
Nucleotide sequence:
ATGGAGGTGGGGGCACGTGCTTTGGATGTGCTTCCACTCCTCCAGGAGCGCGTGGCTTCC
CTCACCGGTGGTCGTGACCGCCGTGGAGGACCCATCATATGGTTCCCAGCAAATTCACGC
CGTGATCGAGTAGCGCCCGACGATTATCGGCGCTTATTGCATTACCTTATCAACATACCC
AGCGACAATTTAAGATCTATTGGGTTTACTATTTTAATTGATATGAGAGGTTCAGCATGG
GCAGCCATCAAGCCTATACTGAAAGTTCTTCAAGAGCATTTTTCTTCATCCGTCCACCAA
GCACTTGTAGTTAAGCCGGACAATTTCTGGCAGAAACAACGCACAACCATCGGAGCACAT
AAATACAAATTTGAGACAACCATGATAAGCTTAGAAGCACTGCCCAAAGTAATAGATAGC
TCACAACTAACACCAGACCTGGAGGGCACTCTTCAATATGACCATGCGCAATGGATAGAT
CTGAGATTGGCATTGGAAGAGCTGATGTGGCAGGCTGGCGAACTCTTGGACCGTTTAGAC
GACCTACAAGAAGACGTGGCTCGTGCTGACTTCGCTAACGACGTTAGTGGAGCGAGACGA
GCTATTGACAATCACGCCGACATCAACAAGCGCCTGGCAAAAATGCCCGTCGACGAACTA
GAGGCTCAAGGTGAACTGGTGGTGCAACGGTTGGAATCGGCTGCAGCGGCTTGCACGGAG
GCGAGCGGCGCGGCTGTCGAGAGTACATTCCATTGCGGCTCCCCGGGGGCTCTGCGGGCC
CAGCTAGCGGCTGTGCGGTCGGCACATCAGCACGCGCACAAGCTGTGGCAGCACAAGAAG
ATACAACTGGACCAGTGCTTCCAACTCAGGCTTTTCGAACAGGACTGCGAAAAGATGTTG
GAATGGATTGTTAATCATCGTACGGCATTTTTATCTACCTACGTTGAAATTGGTCGTTCC
TGCGCAGCGGCTAAACGTCTCCAGGAAGAACACGCTCGTTTTGCCGCTGCCTGCACGGGT
GGGGGCAGACCGAGTGTGACGCGCGTCACAGCTGCCGCGAGACGCCTTGCTGACAAAAGA
CACTACGCGGAACCAGAAATCACAGCCCTCGCACATCGCCTCGAAAGAGCCTACAAACAA
CTTTCTAATGGTCTGGAAGAGCGTTCAGCTGTGCTGTCACTGTCCGTGGTGTTTCACCAC
AAGGCGGAGGCGTACGCTAGCGCTGTAGGCGGTTGGGGTGCTCAATGTGCTGTGGCTCTA
CAGCTGGCTACAGGCGGTCCGGGTGCACCGCCCTGCTCCGATCCTCGCGCCCTCGAACAG
CACACACAGAGACACAGACAGCTGTACGAACATATGTGCCAGGCTTATACTGAGGTCCAT
TCGACAAGCAAGAAACTGCTGTACCAACTTGACCACCTCGTACAAGTTTGTCATCAGACG
GATCCTGCGGATATGAGCGAGGGCTCTATGAGTTCAGCGGGTGGTAGCGGTGGTGACCCG
GCCGCTGACTACAGCTCGGGCGCCAACCACGTGCTGGCGGTCATCCATCAGATACTGGGC
CACCACCGTGCACTAGAAGCGCGTTACCATCAGGCACGACTTAAATTGCACCAGCGACTT
GCCTTGCTATTGTACAAGGAGGACTGTCGGCAGGTGCTCGACTGGCTTGGCAATCACGGT
GAAAAATTTCTCATGAAAAACACTGGTATTGGAAGGAATCTCCACAAAGCTCGAATGTAT
CAGAAATCTCACGAACATTTTGAAAATGTCGCCCAGAACACTTACACGAATGCGGAAAAG
CTGCTATCGGCTGCTGAGGAGTTGGCGAGGTCCGGCGAGTGTGAGGCGGAGGAGGTGTTG
GGCGTGGCTCGGGAACTAGAAGCGCACGTCGCGGCCTTCGCGGCACGCGTCGACCGGCGA
CGGAGACGACTAGACCTCGCCGTGCTCCTTTATACACACGAGAAAGAACTGATCCAATGG
CTGGAGACTCTGCGTGGTGGTGGCGGTGGTGGGGTTGGTGGTGGCACGTCCGACGAGAGT
CCCGAGGCGGCGCGTCGTGCTCTCGAGCAGTGCGCTCAACACCGTGCCGCCTCGCTCGAG
GCTTGTGCTGCCACCATCGCACACGGAGAGGCCTTGCTGCAGGATTTAAGGTCGTCTGGA
GAAACGGAGGCAGCGAGCACAGCGGCGGTGGAGTCGACGCTGGAGAGACTTAGAGGAACC
CGAAGTGCCCTTGAAGAACTCTGGTCCGACCGTGAGAGAAGACTGGAACTCACACTGCAA
CTGCGACATTTCGAGAGAGATGCCCTGGAGGTGTCGTCACGTTTGGAACTATGGGGTGAA
GAGTTGCAGCGCACGGAACCGCCTCGGGACCCTCAACAGGCGGAACAAGCTCTTGCAGCA
CATAACGAGAGCGTGGCCAGGATGCAACACGCCACCTTCCAGGTGGTGCAACAAGGACAG
GAACTGGCGGCCGCAATAGCTGAGGCATCAGATGTGATGGCTTCTAGTTCCGACAGCTCG
GAGGGCGCTCCTATGGATGCTCAAGCTCGCGTTCAGCTTCTTCTAGAGTTCTTACATGAC
AGACAATTGGATTTGGAAGAACTGGCTGAAGAGCGCCGTGCACGTTTCGAGCAATGCGTT
CAACTTGGTCAGTTCCAAAAAGACGCAGCCCAAGTCGTGAGTTGGATAAGAAATGGTGAG
GCGATGTTGTCAGCGTCATTCTCAATACCCGGAACACTGTCTGAAGCGGAGCAGCTGAAA
CGAGAACATGATCAATTCCAAGTGGCCGTCGAGAAGACCCACGCTAGTGCTGTGCAAGTT
AAATACCGGGCGGACGCTCTTCGCGCTGCTAACCACTACGACCCACACACCATAAGAGAG
ATATCTGAGGAGGTGACAGAGAGATGGCAGCGTCTGGTGACTTGTGCGGAGGAACGTCAC
AAATTGGTGACGGCGTCGTTGAACTTCTACAAGACAGCAGAGCAGGTGTGCTCTGTGCTG
GACTCGTTGGAGCGCGAGTATCGTCGTGATGAGGATTGGTGTGGTTCAACGAGCGCACCG
GCCGCAGCCGCCTCCAACCTGGACAAGGCTTCACAGGTTGCGGCGTTGATAGTGAAGCAC
GGCGAACAGAAGGAGGCGTTCCTGAAAGCGTGTACTCTAGCTCGTCGCACGGCTGAGACG
TTCCTAAAGTACGCGGCTCGTTCAGCTCAGGTTCACGGACAGACTGCGGCCGCTAGTAAG
GCTCACCACGAACAGACACGTGCTATACTCGACACTCTACTGGCGCAAGAGAACAAGGTC
CTCGAGCATTGGACGGTCCGTAAGAAGCGCCTGGAGCAGTGCCAGCAGTTCGCGTTGTTC
GAGCGCTCAGCCCGCGCGGCCGTCGAGTGGATCCGCGAGACTCAGGAGCGGTGCGGTGCT
GCTGCCGCTGCTGCTGCCGGCGGCGTCGCTCGCGAGTCACGGGAACGAGTCAGACTGTTG
GCGCAGCTCGCCGACGGGCTCGTAGAGAAGGGTCACCCGCACGCCGTGCAGATCAAAGAG
TGGGTCGCCGCCGTTGATGCCAGATATGCGGAGTTCAGTGGGTCCATGGAAGGCGGGGAG
AGCGAGGCTGAGAGTGATTCTGGTGTAGCGGCGTCGTTGAGCTCCGGACAGACCAGTGAG
ACTGAGACTCGCGTGGAACAACCGCCGGCCGCCTCCGCTGACGATAAACGTCGGAGTGCA
CGTCGCAAAGAGTTTATAATGGCGGAGCTCCTGCAGACAGAGCGCGCATACGTCAAGGAT
CTGGAGACTTGCATAACATGTTATCTGCGGGAGATGAGAACAGACCCAGCCTCCGTACCG
ACCGCACTTCAGGGCAAGGAGGAGCTGATATTCGGTAACATAGAGGAGATACATCGGTTC
CACGAGCGTGTGTTCTTACGCGAGTTGGATAAGTACGAGACTATGCCAGAGGATGTTGGT
CATTGTTTCGTGACCTGGGCGCGAGAGTTCGATATGTACGTCTCGTACTGTAGGAACAAA
CCCGACAGCAATGCTGCGGTCGTCCAACACGCCGGCGACTACTTCGATAGAGTGCAGCGC
AGGAAGAAACTAGAGCATCCGTTGGCCGCTTACCTCATAAAGCCGGTGCAAAGAATCACT
AAATACCAGCTGCTGCTGAAAGACCTCCAGGCGTGCTGTGCCGAGGGTCAAGGAGAAATT
AAGGACGGGCTGGAGGTGATGTTGTCTGTACCGAAGAAGGCCAACGACGCCATGCACCTG
TCGAACCTCGAGGGCTGCGACGTGCCAACGGACAGCCTGGGCGAGGTGGTGCTCCAGGAC
TCGTTCCAGGTGTGGGACCTGCGTCAGATCATCAAGAAGTGCCGCGAGAGACGCGTCTTC
CTCTTCGACCTGCACCTCCTGCTAGCCAAGGAAGTGAAAGACACACACGGAAAGGCTAAA
TACATATACAAGACTAAATTCATGACATCCGAGCTGGGTGTGACGGAGCACATCGAGGGC
GATGATTGTAAATTCTCAGTGTGGACCGGTCGTGAGCCTATGGCCAGCGACTGCCGCATA
GTTCTCAAGGCGCCCTCCCTCGACGTCAAGCAGACGTGGGTCAGGCGCTTACGAGAAGTC
ATACAGGAAACCTACTTCAGTGCGGCTCTGCAGCAGCCACCGCGCAGCCCGGCCCGGGCT
CCGCCACCCAGCTCGCAGAGATCGAGCCGTGACTTCGAAGACACGGACACAGAGAATCTG
GACCGCAACTCACTGGCTTCATTCGGCAGCGGCAACACTACAGACTCCGATAAGGTCAGT
CGAATTAACGATCAATGA
Protein sequence:
MEVGARALDVLPLLQERVASLTGGRDRRGGPIIWFPANSRRDRVAPDDYRRLLHYLINIP
SDNLRSIGFTILIDMRGSAWAAIKPILKVLQEHFSSSVHQALVVKPDNFWQKQRTTIGAH
KYKFETTMISLEALPKVIDSSQLTPDLEGTLQYDHAQWIDLRLALEELMWQAGELLDRLD
DLQEDVARADFANDVSGARRAIDNHADINKRLAKMPVDELEAQGELVVQRLESAAAACTE
ASGAAVESTFHCGSPGALRAQLAAVRSAHQHAHKLWQHKKIQLDQCFQLRLFEQDCEKML
EWIVNHRTAFLSTYVEIGRSCAAAKRLQEEHARFAAACTGGGRPSVTRVTAAARRLADKR
HYAEPEITALAHRLERAYKQLSNGLEERSAVLSLSVVFHHKAEAYASAVGGWGAQCAVAL
QLATGGPGAPPCSDPRALEQHTQRHRQLYEHMCQAYTEVHSTSKKLLYQLDHLVQVCHQT
DPADMSEGSMSSAGGSGGDPAADYSSGANHVLAVIHQILGHHRALEARYHQARLKLHQRL
ALLLYKEDCRQVLDWLGNHGEKFLMKNTGIGRNLHKARMYQKSHEHFENVAQNTYTNAEK
LLSAAEELARSGECEAEEVLGVARELEAHVAAFAARVDRRRRRLDLAVLLYTHEKELIQW
LETLRGGGGGGVGGGTSDESPEAARRALEQCAQHRAASLEACAATIAHGEALLQDLRSSG
ETEAASTAAVESTLERLRGTRSALEELWSDRERRLELTLQLRHFERDALEVSSRLELWGE
ELQRTEPPRDPQQAEQALAAHNESVARMQHATFQVVQQGQELAAAIAEASDVMASSSDSS
EGAPMDAQARVQLLLEFLHDRQLDLEELAEERRARFEQCVQLGQFQKDAAQVVSWIRNGE
AMLSASFSIPGTLSEAEQLKREHDQFQVAVEKTHASAVQVKYRADALRAANHYDPHTIRE
ISEEVTERWQRLVTCAEERHKLVTASLNFYKTAEQVCSVLDSLEREYRRDEDWCGSTSAP
AAAASNLDKASQVAALIVKHGEQKEAFLKACTLARRTAETFLKYAARSAQVHGQTAAASK
AHHEQTRAILDTLLAQENKVLEHWTVRKKRLEQCQQFALFERSARAAVEWIRETQERCGA
AAAAAAGGVARESRERVRLLAQLADGLVEKGHPHAVQIKEWVAAVDARYAEFSGSMEGGE
SEAESDSGVAASLSSGQTSETETRVEQPPAASADDKRRSARRKEFIMAELLQTERAYVKD
LETCITCYLREMRTDPASVPTALQGKEELIFGNIEEIHRFHERVFLRELDKYETMPEDVG
HCFVTWAREFDMYVSYCRNKPDSNAAVVQHAGDYFDRVQRRKKLEHPLAAYLIKPVQRIT
KYQLLLKDLQACCAEGQGEIKDGLEVMLSVPKKANDAMHLSNLEGCDVPTDSLGEVVLQD
SFQVWDLRQIIKKCRERRVFLFDLHLLLAKEVKDTHGKAKYIYKTKFMTSELGVTEHIEG
DDCKFSVWTGREPMASDCRIVLKAPSLDVKQTWVRRLREVIQETYFSAALQQPPRSPARA
PPPSSQRSSRDFEDTDTENLDRNSLASFGSGNTTDSDKVSRINDQ