| New model in OGS2.0 | DPOGS211984 |
|---|---|
| Genomic Position | scaffold1283:- 48779-56748 |
| See gene structure | |
| CDS Length | 5028 |
| Paired RNAseq reads | 2891 |
| Single RNAseq reads | 6448 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA000109 (1e-14) |
| Best Drosophila hit | CG30115 (1e-46) |
| Best Human hit | pleckstrin homology domain-containing family G member 1 (1e-59) |
| Best NR hit (blastp) | PREDICTED: similar to Pleckstrin homology domain-containing family G member 1 [Apis mellifera] (7e-96) |
| Best NR hit (blastx) | PREDICTED: similar to Pleckstrin homology domain-containing family G member 1 [Apis mellifera] (8e-82) |
| GeneOntology terms | GO:0005085 guanyl-nucleotide exchange factor activity GO:0035023 regulation of Rho protein signal transduction GO:0005089 Rho guanyl-nucleotide exchange factor activity GO:0005622 intracellular |
| InterPro families | IPR001849 Pleckstrin homology domain IPR000219 Dbl homology (DH) domain IPR011993 Pleckstrin homology-type |
| Orthology group | MCL39408 |
Nucleotide sequence:
ATGGAGCGTCTCGCTGAGCTGGCGAGGACAGACAGCGCCAGGGAGTTCAGGGAGCGGCAG
ATCGTACTGCAACATCCGCTACCCCTCGCCTCATACCTACTGAAACCCGTCCAGAGGATA
TTGAAGTATCATTTGTTGTTACAGAACGTGGTGAAGCAATGTTCATCCCAAGAGACGGAG
TACGCTCTGTTGAAGATGACCGGCATCGCGCAACATATTGACGACATGAAGAGGCGACAC
GAACACGCGGTGCGAGTACAGGAAATACAGTCGTTACTGTACGGTTGGAACGGACCCGAT
CTAACCACATACGGAGAGTTGTGCGCTGAAGGGACTTTTAGAGTGTTCGGCGCGAAGGCA
ATGAGACACGCCTTCCTCTTCGACAAGATGCTGCTGGTGACGAAGAACAGGGAAGATGGC
ATACTGGCCTACAAGTCACATATTATGTGTAACAACATGATGTTAGTGGAGTCTATAGCG
GGTGCTCCACTGTCGTTTCACGTAATACCGTGGGACGCGCCGCGGTCTCAGCTTACTTTA
CAGGCACGATCAGCTAGACACAAACGAGAATGGACCTTATTGTTGAAGCGGGTCATTTTG
GAGAACTACAACGCCGTGATACCGTCACACGCGAGGCAGTTAGTGATGGAGCTGGGGCAG
AACAAAACTGACGACGACATACTCGCTGAGAAATCCCACAATCTCATCACCCAAGCCTCT
ATGAGGAAACAGTTGTCCGCACCGGAATATCTAGAGAAGCGAAAAATTGAAAGAGAGAGA
AGGAAATCCTTTGAGAACGGAGTCAGAGGGAGATTTAAGAAGGCAAATAGGAAATATAAC
ACAGCGAGGGAGACGAGGGACTGCGATTGTGTTCAATATTCCGTTGATAAAGGAATTGAT
TACACCTGTGACAACTGCTATATAGATCTCTGTTCGGATTGTGAGGCGGACCTGAACAAG
TGCAGCGGAAAAGATGAAACACGAGACAAATGCAACGAATGCGAGACAATCGCTAATGCT
ATGGACGGAGGCAGCGCTGACAGGATTGAGAGAAAGGTGTGCAAGTGCTTGGATTTCAAA
TCGTCACAGGAGAGCATCACCAAAGAATTCGGTGGATCCTTGAATAAAACGAGAGGTTAT
CACTCCTCTGATAACATTATCAGTTACACTGATAATAACAGCAAGGAAGACGTGACCGAG
GCTAATAGTACGTTAACCGCTAAACCTATAACGAGAACATGCTTGAAATGCTCCAAGATC
AAAGAAAATATACCAGTGACGGATACATTCGTGTTGAACAGGCGGAAGTCGAGATGCAAT
GAAATCGAGAAGTATAGAACGGACACGCTGAGATCCAAGTCAAAGGACGATCCACAGAGA
TCGAAATTATCGAAAATTGGCACCTGGAGGCGGAAATCGGAGCCAGGGCTGCAGAATACC
ATCATCATAACGAAGAAAACACAAGACAGTGACACCGAGAGGACTGATGGTAAGGGAGGA
GAGAAGATTGAATTCGAATGCAGGAACTGTGGATCCAACAAGATCTCAAGAAAGGTTCGC
AATGAAGGCATCATATCAGACCCAGAAGTCGATAACAGAAAGCGACCTCCGAATACACTC
AAACAGAACATAGAAATAAAAATGTACAACACCAAACACATACCCAAGAAGATCTCCAAG
ATAAAGAAGAACAGGGCGAAAGGGCTGCGGCTCGGCTCCGACACTACCACACGGTTCTAT
ACAGACTTCTCGACGGATGTGTCCACAGAAAATATATTACATATCACAGAGTCCAACGAG
AGTCTACACGTAGAGAAACCTATCAACGCTGTGCCGGCCACTATCAGCAAGGACGAAGAT
ATTGATGAAGAGACGTACAAGAAACTTATAGAAAAGACCGATTCGTTCAAAAAGAACGAA
CTAGAAAAGGTTAAGTATTTAAATAAACAGAAGGTCATCAATGAAGCGGTCGAAACGGAT
GACAGATCTGGCGAAACCCATGAACAAGTCCAAGAAAGTTGCGAAGACACAGAACAACCT
CTGGAACAGATTATATCACAACTACTGATGCAGAATCGAGAGTTCCAGAAGCTACTAAAG
AAACAACAACTAAGGAACACAGCTCAAAGAAGACACCAGCGACTGCTGAAATCACATTCC
AATCCCGACACGGTGATAACAAAGAACGAACTGTCGAAACTCAAACCGAAATATATAAGG
CAGATGTCCGATAACATAGAACTCAATATAGAAGAAAAGGATGACGTCTCAAACAATCAG
AGCGAAGCCGAGGATCTGTCTGACGGAGATCACATATACGAGACATTGAGAATGGATAAC
ATGCACGGTCTCAGTGACAAGAGCAAAGTTAGTCAACACACACATACGAGAACCAAACGT
CTGTTACCCGCCGATACAGACGCAGTAGGCGGACCTGAACCAGATTATATATATCTGTCC
TTCGATGAAGTCAAAAACGAGAGCTCCGCTGACGGCATATACGACGTGCCAGCTAAAACA
CCAGAGAAAGTTACTAATGTGACAACAAACGATTACTACGTTAGTATGGAGAAAAAAGGC
CCGGCTACGAACGACGACAATATATATGACAATCTGATAGACGTGCGACGGAGGAAGAAA
GACGTACCGAATACATCACAGAGCGATTACCTGCCGATGAGTCCTGAACAACAGAGTCCG
AACACCCCAGAAGTATGGTTGAGTCGACAAAAGGAACATTTCAATGTATCCAGAGATCGT
AAATCCGGGTCCTTACCGCGGAGCTTCCAAGTGGTCACCCCTGGACAGGAAGACCCCAAT
CTGAGCACGTTCAAATGTAAACCTAACAGCAACAGCAAAACGTATTTAAACAGGGACGGC
AAAGTCATGAGCGTCGATAGACCGTTCACTATCGCGTCCGATCAGAGCGAAATCAGTTAC
GACGACGTCGAGGCTTACATGAGCGAAGGAGACATCTTGAAGTTCAACAACAAACAGAAA
ACCAAAGAGGACGACTACACCCAGGACATCAGCAGATCAACGCTGGAGCTAGAAGAGGAA
ATTGATAGATGCTATAAGAACAATTTCGAGAAAGTCGACTTAGACGCCAACAAATGTGAA
AACCGATTGAATTCATCGCAACCTAATTTGAACGTGTCGATGACGTCATCGTGCGAGGCT
CTGACCATAGAGCAGAACGATGACAAAAACAAACATAACGTGGTACATCCAGAACATAAG
ATATACAAACCCACTACGAACGTTCTGTCCCTTAAAAATGTTCTCAGTCGTTTCAAAACC
CGGACTCCTCCTAAAAGTGTTGACGACTGCGAAGTCAATACAAACGACTGTGAAAAGACT
GAACTTAAAAGTCCGACCAGTGAGAAACGATCAGCTCTGAATCCCAGGAGTTATTCCAAA
AATTTACTCCAAAGATTCAGGAGCATCATCAGCGATGAACATCCTGAAGAGACTCAGAAC
AGAACGGAACAAAACAGAAACAAGAACGATGATACAACGAAGAGTGAAATCAAAGTCATT
ATAACTTCAACAGACAACAGTCCGACCGCGTCTAGCATTGTTTACACACTGAACAGTGAC
GCGCTCAGTAAAAGTGTGTGCGATCACACAACTATGAGCGAAAGTCAAAAAGAGATTAAC
AAATTGGAGATAATGTCCCAAAGCTGTGAAGACATACAGAAACAGGCGTTCAGACCGACT
TATGAAAAGAGTATGAGCTTGGTCACCAATATGACCAGTTCTGTAAGCAGTACGCCGTCA
CCGTCAAAGTCAAACAATAGCTCCTACCAAAGTTTAAACAAATTGCCCGTTTATATGCAA
GGCAGCAAACACTTGGGCGCGAGGATAGCGCAATCCGATTACGTGGATCCGACGACATTG
ATCAACGAGAAGAACAGTTTGAATAAAGTCAATGTCCTCATCAACAAGAACGCTCTGAGA
CCGGACAGTTTATTCTCAAATTCGTCCTTCGTGACGTCATCCAGCGAAAGTACATATCAA
GAGAGTCACACTAAGGTCACGAGCCAAATAAGCGATAAGTCGTTGACCTCAAAAGTAAAT
TCAGATGAAAGTTTCTATGAGAAATCCTTCGAAAAAATAGAAAATATCACTGACGAAGAC
ATGTTCAGAGATTCGGCTGTTTACTCTGATCAAGAGGAAATAGAGGATCACGTTGAAACG
AAAAAAACAGTTGCTAACAAACATACAGCGAGACGCGATACATGCGACGCCCAGCGGGTT
ACAGTCACTACTGGCAATACAGAGAAATGTAACGTGCAGGCGAAAATTATCAATAAGATC
GAAACACAGAAGAATATACATCACAGAATAGAAAAATCTGGAAGCAGAGAGAAGATCAAT
AAACCGAAACTAGCTCCGCCGGTGCCGGCTAAACCAAAAATTACAAGCGCCCAAACTGTA
ACAACAACCCAAGTTAACAACAGCAGCAAAAACATAGTTAAATACAAAGAAGTATCGTCG
TCGTCCGAGTCAATAAATAACCGCACCCTCAAAAGAAATACCAGCTATAGGACGTCGAAT
GCCAAATCCGAATTCATGAACCCGACAAAGGAGAAAACAAAAGTCGACTCAGTGAACGTT
AAAAACGAAGAGATGAAAAATGCAAATAAAACACAAGAGACCATACAAATTAAAAGAATG
AGCTTCGAAAGAGCCAGTCTGGATTCAGCGACAAGAAAGCTGAGAGTTGGCGAGAGGAGA
TCAGCAACAGAACAAACGACGTCGAAATCAGTTCTGGAGAGGAGATTGGAATTGGAGAAA
ATAACTAAAAGCCAGTCGCACGATAACCAACCGGTTAAACCCCAAGCGAACAGACCAGCC
GTTAAACCTAAATCCATCACCTCAAAAGTCGCGTCCTTCGAGAGGAGTGTCAGCGAAAAC
GGCAGGGAAAGTAAAACTACCTCCAGGAACTTCACAAATAAAGTCGATAACGAAGAACAG
GACCCCAAGGAGAGTTGGGTGAAACAAGTTGTCAATAAATTCCAATAG
Protein sequence:
MERLAELARTDSAREFRERQIVLQHPLPLASYLLKPVQRILKYHLLLQNVVKQCSSQETE
YALLKMTGIAQHIDDMKRRHEHAVRVQEIQSLLYGWNGPDLTTYGELCAEGTFRVFGAKA
MRHAFLFDKMLLVTKNREDGILAYKSHIMCNNMMLVESIAGAPLSFHVIPWDAPRSQLTL
QARSARHKREWTLLLKRVILENYNAVIPSHARQLVMELGQNKTDDDILAEKSHNLITQAS
MRKQLSAPEYLEKRKIERERRKSFENGVRGRFKKANRKYNTARETRDCDCVQYSVDKGID
YTCDNCYIDLCSDCEADLNKCSGKDETRDKCNECETIANAMDGGSADRIERKVCKCLDFK
SSQESITKEFGGSLNKTRGYHSSDNIISYTDNNSKEDVTEANSTLTAKPITRTCLKCSKI
KENIPVTDTFVLNRRKSRCNEIEKYRTDTLRSKSKDDPQRSKLSKIGTWRRKSEPGLQNT
IIITKKTQDSDTERTDGKGGEKIEFECRNCGSNKISRKVRNEGIISDPEVDNRKRPPNTL
KQNIEIKMYNTKHIPKKISKIKKNRAKGLRLGSDTTTRFYTDFSTDVSTENILHITESNE
SLHVEKPINAVPATISKDEDIDEETYKKLIEKTDSFKKNELEKVKYLNKQKVINEAVETD
DRSGETHEQVQESCEDTEQPLEQIISQLLMQNREFQKLLKKQQLRNTAQRRHQRLLKSHS
NPDTVITKNELSKLKPKYIRQMSDNIELNIEEKDDVSNNQSEAEDLSDGDHIYETLRMDN
MHGLSDKSKVSQHTHTRTKRLLPADTDAVGGPEPDYIYLSFDEVKNESSADGIYDVPAKT
PEKVTNVTTNDYYVSMEKKGPATNDDNIYDNLIDVRRRKKDVPNTSQSDYLPMSPEQQSP
NTPEVWLSRQKEHFNVSRDRKSGSLPRSFQVVTPGQEDPNLSTFKCKPNSNSKTYLNRDG
KVMSVDRPFTIASDQSEISYDDVEAYMSEGDILKFNNKQKTKEDDYTQDISRSTLELEEE
IDRCYKNNFEKVDLDANKCENRLNSSQPNLNVSMTSSCEALTIEQNDDKNKHNVVHPEHK
IYKPTTNVLSLKNVLSRFKTRTPPKSVDDCEVNTNDCEKTELKSPTSEKRSALNPRSYSK
NLLQRFRSIISDEHPEETQNRTEQNRNKNDDTTKSEIKVIITSTDNSPTASSIVYTLNSD
ALSKSVCDHTTMSESQKEINKLEIMSQSCEDIQKQAFRPTYEKSMSLVTNMTSSVSSTPS
PSKSNNSSYQSLNKLPVYMQGSKHLGARIAQSDYVDPTTLINEKNSLNKVNVLINKNALR
PDSLFSNSSFVTSSSESTYQESHTKVTSQISDKSLTSKVNSDESFYEKSFEKIENITDED
MFRDSAVYSDQEEIEDHVETKKTVANKHTARRDTCDAQRVTVTTGNTEKCNVQAKIINKI
ETQKNIHHRIEKSGSREKINKPKLAPPVPAKPKITSAQTVTTTQVNNSSKNIVKYKEVSS
SSESINNRTLKRNTSYRTSNAKSEFMNPTKEKTKVDSVNVKNEEMKNANKTQETIQIKRM
SFERASLDSATRKLRVGERRSATEQTTSKSVLERRLELEKITKSQSHDNQPVKPQANRPA
VKPKSITSKVASFERSVSENGRESKTTSRNFTNKVDNEEQDPKESWVKQVVNKFQ