| New model in OGS2.0 | DPOGS202137 |
|---|---|
| Genomic Position | scaffold1360:+ 14692-39120 |
| See gene structure | |
| CDS Length | 4773 |
| Paired RNAseq reads | 3132 |
| Single RNAseq reads | 7734 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001510 (0.0) |
| Best Drosophila hit | Calmodulin-binding protein related to a Rab3 GDP/GTP exchange protein, isoform B (0.0) |
| Best Human hit | C-myc promoter-binding protein isoform 1 (0.0) |
| Best NR hit (blastp) | AGAP001102-PA [Anopheles gambiae str. PEST] (0.0) |
| Best NR hit (blastx) | AGAP001102-PA [Anopheles gambiae str. PEST] (0.0) |
| GeneOntology terms | GO:0005516 calmodulin binding GO:0005085 guanyl-nucleotide exchange factor activity GO:0008105 asymmetric protein localization GO:0005938 cell cortex GO:0070831 basement membrane assembly GO:0055037 recycling endosome |
| InterPro families | IPR001194 DENN IPR005113 uDENN IPR005112 dDENN IPR023341 MABP domain |
| Orthology group | MCL10954 |
Nucleotide sequence:
ATGGATGAACGACGAGTTGCCGATTATTTTGTAGTAGCTGGCCTACCAGAGGTGCCAGAA
ATACTGGATGATTCTGATTCTGGACATTTAAAAGGCTATAGCACTAGAGCCCCTATAACT
GATATCGGAGTAATGTTCCCGGGGCTGGGGGAGAAGGTGCCAGATGGTTATGAAATGCTG
GAACTGACTCCTACAGGTCTGCCAGCTGATTTGAACCATGGCTCGATGAGGTCACCAGAG
TGTTTCCTATGTATCAGACGAGGACGGGATAGACCTCCCCTCGTTGATATTGGTGTAATG
TACGAGGGTAAGGAACGTCTGATGGCTGATGCGGAAATGGTCCTGCGTTCCGTCGAAGAT
AGAGTTGCTAACGTGAACAACTCGTCAGCCAAGACGTTTATAACGTACAGACGGGCGCAT
CCGAACGCGCCGTGTAACGCGCTCGTCGTGGTCGACGTTTGCGTCATAGTCGAGAGCAGA
GGAGAGACGCCGCCTCACGCCTTCTGTATGATACCCAAGAATTTGAATAAAGGTCTAATG
GGGAGTAACGTTTTCCTCTGTTACAAGAAGTCAATGAACCGCCCGCCGCTAATTGCTTAT
AAGCCAGAAGTATTGTTTAGATACCCTCAAGTAGACCGTCGTAGTCTAGCGTTTCCTACA
TCAGTACCATTATTCTGCCTTCCAATGGGAGCTACCTTGGAAGTGTGGCCGAACAACGCG
TCATCACCCAAGCCAGTCTTCTCAACCTTTGTACTGACGGTCGCTGACGCTACCGACAAG
GTGTACGGTTCCGCGGTGACGTTCTACGAGCGTTACACCAGCCCGCTGTCTGAGAGCCAG
ATGGACCAGCTGGGTTGGAGGGCCGGTGTCACTCACATGACACACTCGCTACACGCCAAC
AAGTCAATATGTTTACTATCCAGGTGGCCCTTCAGTGACACGTTCGAGAGGTGGCTGTTG
TATATACTTGAGATGTCTTGGAGCAAGGAACCACTAAACATACCTATTGAAAGATACATA
ACACATTTATTGGAAGAAGTACCGTTCCCCGAGCCCAGGATATTATTACAGTTATCACCA
ACTAATCCTCACGACCGTGTGATAGTGACCCGGCGGGATGATCAACCTTTAGTGCGGAGC
GGGGCCGGCTTCAGACAACTTCTGCTTAATTTAGGACCAGACAACTGTTTGTTACTCCTG
GCGTTAGCTATCACAGAACAAAAAATACTTATACACTCTCTTAGGCCAGACACATTAACT
GCAGTCTCCGAGGCAGTGTCTAGTTTCCTCTTCCCCTTCAAATGGCAATGTCCCTACATA
CCTCTATGTCCTTTGGGGCTGGCAGAAGTGCTACACGCTCCTCTGCCTTACTTGATAGGT
GTTGACTCAAGGTTCTTTGATCTTTATGAACCACCGCCTGACGTGACATGCGTTGATCTA
GATACTAATAATATTACGATATGCGAGTCACAACGGCATATATCATTGAAACTGTTACCT
AAAAGACAAGCGAGGGTCCTGAGACAAACATTGGACCAGTTACTATCAAACATACGACCC
GCGTCTCCGGTAAATTCATCTGGTGATAAACACAACGGCGAACCAACTACCAGTTTAGAT
AGAGATTTCCAGAAGAGAAAGAAAGAGCAAGCATTGGAGCTTAAAATCCAGGAAGCCTTT
CTAAGGTTCATGGCGGTGACCTTTCAAGGTTATCGTTCATTTCTAATACCTATCACTAAA
GCGCCGACCGTGGGTACAACAGACCCGCACGCTCTGTTCCATATGGACTCATTTTTGAGA
TCAAGGGACAAGACCCACCAGCGTTTCTTCGCTCTGACGATGCGGACACAGATGTTCACT
CGTTTCATAGAAGAACGTTCGTTCGTATGCGACGCTGATCAAGCCTTGTCCTTCTTCGAC
GAATGCATAGAGAGAGTTGCTAGTGAGGAACCCTTACTAGGAATGGACGATAGTAATACG
TCTGAGAGGACCGTGTTTGTACTACCTCCGGACCCGCCGGATACCGAACAGCAGTACACG
TACAATAAGTTTATATTGGACGAGCAGCTGGTATCTCTATGTCATAGTACCCGCGGGTCA
TTGACCTGCGCCCCCGCCGCCGCCCTCGCCTCAGTAGAGTCGCTAGCTGACGCCTCACCC
ATGGCGAGACGAACAAAACAGGAGATAGCGGCCGCGCAACGTATTATGTATATATATATA
TATATATATATATATATAACTTTACGTTTTGCGTTCGAGCTACTGGAACGAGCTACTAAG
CTGAGGGTACCCTGCGATGAGGTGTGTTACCGTGTCATGATGCAGCTGTGTGGTATCCAC
TCACTGCCGGTGCTGGCTGTGCAGCTATTGTTTCTGATGAAGCGGGCTGGTCTTCAACCT
AATGCCCTTACATATGGTTACTACAATAGATGTGTGTTGGAAGCCGCCTGGCACAAGGAT
ATGCCCAGCGGATCTCAACTCATGTGGAACAAAGTTCGTATAGCGATAATGGGAGTGACT
TTGTTCCGTAAGGCGGGGGCTTTGAGAGCCAGTCGAGCGGCAGGAGCTGCGGGAAGTACG
GGTACGTTGCCTCGTGTGCGTACGGTGGGCGGCGAGGGTGCAGATCTGACTGCATTGGCT
CTCGCTGAACCGACGCGTAGCAGATGTAGCCTGGATTCGGCATGCGATTTGAACGCGTCG
GTCAGCACCAATACGGCTTCGACGACGGCCTTCGAAGCCCTATACTGTAGAGGTAACATC
GTCCGCGCCCCTGCCAGTCACCCGCGGGCTCATCAAATTTCATCGACCGCCGGTATACTC
ATTTCCGGCCTTCCATCAGATCCAGATCTTAGTTCTACAACCAGACCTAGAAGTAATTCG
TTAGGCAGCGAAGAAGTCGAATCTTCTGTGTCTATAACGGAGAAGAGACAGACTATCCAC
GTAAGTCCCGACAGTCCATCCGATCTCAGGATACTGACACGATCAGAGAGCTTCGCTGGG
GACGCACAGATAGTACAGAACCTACAAAGGCTATCGTTTTCTAGTAGCACATCAAATACG
AAATCTCGATGTTCGAGGACGCTGAGCTTCCCCGAGGAACCCGAAAAAGAAACGGCGCTC
GTCGACAAAGTCGAGAAAACTATCTCGTCACCTCTCAAGGTGTCCCCCCGCACCCCGGTG
TTGGCGGATGACCCGCTGGGCGCTCTGTCCGTGGAGCCGAGTAGCCCCGCCCCCGCCCCT
CCTACCACGGACGTGCCTCTACCACGACACGAGTTGAGCGTCAGCCCACGACTGTTCCAG
AGGAGCAACTCTTTCACTGAGGAACCGGAAACAGTCGGGAAACTCCACAGAAGCGAGACG
GCGCCAGCAACAGTGTCATCAAGCCTGGCCTCTATAGGAAATACGCTCAAAATCAGTTTT
GGACGTTATTCACCAGCAAGACTGTCGTTGAGGAAGGATAATATGAACATCGGAAAGGCT
ATGATCGAGAACTATTTCAGTCCAACGAGCATAGCTGGGAAGAAATCGAACGAGCTCTTA
CAGAGCGGTCTCAGCAGCTTGAAATCAGCAGCTACGAGTATGGCTAAGAAATTCGATGAG
ATGAAAGAAGTGATATCGGCTAATTCGACTCCGGTCAAAGGCGCTATAGGCAACGCCACG
AGCGCCCTCACTAACTTCAGAGGCGACGATGACTCGGGAGACGGCTCATCAGAGGTCAAT
CAGAATGAGTGGTCGGGCGGCGTGGGCTTCAGGCGCGCGTCCAGTGACGCGGAACTGGCG
TGTTCTATGGAGAGAGGTTCTCTGGCTACACTTTTATCACATCTACCCGACAATCTGTAT
CCCACGCAGTATGATAATTCAAAGTCCGAGAACCCGTCGGTGGAGGTCCGTATGACGTCA
TGTTCTCAGTGTCACCAGTGCCTGGCGCTGTTGTACGATGAAGACATCATGGCGGGCTGG
GCGGCCGACGACTCCAACCTCAACACGCGCTGCACGGCCTGCGGGCGACACACGGTGCCG
CTGCTGTCTGTACAGATCGTACGAATGGATCAAACACAGGCGGAAACATTGACTGTGCCT
TATTTAAATCCTTTAGTACTGAGAAAGGAATTTGAATCTATATTAGGAAGAGAAGGCGAC
GCTTGTTTGGCTGAACGCGAATTTGTGGAGTCGCATCCTATAGTATACTGGAATCTGGTG
TGGTTCTTGGAGCGAGCCAATATAGATAATCATTTCCCTGACTTATTATGTCCGAATTTT
TCCGTCAAATACCAGAGTTCGGATCCTTTGCCGGATGTGGACAAAATGACAGTCGGATGT
CGCGTTGTTTGTTCGTGGGAGGGTGCTCGTGCGGCGGACTGCGAAGCCCCGTCCCTCCAC
CGGGCGTGGCGCGCGAGGAGGACTCAGCCGCGGTCGAGGCAACTTAGAGCTCTGCTACTG
TCACATCACGACAGACCGACAGACTCTATCGTGGCGACCATATTGGACGGTCTCATGAGT
AACGATCTATCAGACGCTGTAAGAAAATTGGCGGCGTGGAGAGAGTCGACGTGCGCTAAC
AAAAGATATCACTCGTATTACAGAGACATTCTATTCCTGGCAATGGCTGCACTCGGAGAG
CAGAAGATCAATGTGACGGTGTTCCAGAGGGAATATACGCGAGCCATCGAACAGCTGGGA
ACAGAGGCTCGGCCGCAAGATCTGCCACCCTCACCTACAGCTGTCTGCTGTAGACATTAC
TTTAAGAGACTTACACTCGACGTAGACGACTAG
Protein sequence:
MDERRVADYFVVAGLPEVPEILDDSDSGHLKGYSTRAPITDIGVMFPGLGEKVPDGYEML
ELTPTGLPADLNHGSMRSPECFLCIRRGRDRPPLVDIGVMYEGKERLMADAEMVLRSVED
RVANVNNSSAKTFITYRRAHPNAPCNALVVVDVCVIVESRGETPPHAFCMIPKNLNKGLM
GSNVFLCYKKSMNRPPLIAYKPEVLFRYPQVDRRSLAFPTSVPLFCLPMGATLEVWPNNA
SSPKPVFSTFVLTVADATDKVYGSAVTFYERYTSPLSESQMDQLGWRAGVTHMTHSLHAN
KSICLLSRWPFSDTFERWLLYILEMSWSKEPLNIPIERYITHLLEEVPFPEPRILLQLSP
TNPHDRVIVTRRDDQPLVRSGAGFRQLLLNLGPDNCLLLLALAITEQKILIHSLRPDTLT
AVSEAVSSFLFPFKWQCPYIPLCPLGLAEVLHAPLPYLIGVDSRFFDLYEPPPDVTCVDL
DTNNITICESQRHISLKLLPKRQARVLRQTLDQLLSNIRPASPVNSSGDKHNGEPTTSLD
RDFQKRKKEQALELKIQEAFLRFMAVTFQGYRSFLIPITKAPTVGTTDPHALFHMDSFLR
SRDKTHQRFFALTMRTQMFTRFIEERSFVCDADQALSFFDECIERVASEEPLLGMDDSNT
SERTVFVLPPDPPDTEQQYTYNKFILDEQLVSLCHSTRGSLTCAPAAALASVESLADASP
MARRTKQEIAAAQRIMYIYIYIYIYITLRFAFELLERATKLRVPCDEVCYRVMMQLCGIH
SLPVLAVQLLFLMKRAGLQPNALTYGYYNRCVLEAAWHKDMPSGSQLMWNKVRIAIMGVT
LFRKAGALRASRAAGAAGSTGTLPRVRTVGGEGADLTALALAEPTRSRCSLDSACDLNAS
VSTNTASTTAFEALYCRGNIVRAPASHPRAHQISSTAGILISGLPSDPDLSSTTRPRSNS
LGSEEVESSVSITEKRQTIHVSPDSPSDLRILTRSESFAGDAQIVQNLQRLSFSSSTSNT
KSRCSRTLSFPEEPEKETALVDKVEKTISSPLKVSPRTPVLADDPLGALSVEPSSPAPAP
PTTDVPLPRHELSVSPRLFQRSNSFTEEPETVGKLHRSETAPATVSSSLASIGNTLKISF
GRYSPARLSLRKDNMNIGKAMIENYFSPTSIAGKKSNELLQSGLSSLKSAATSMAKKFDE
MKEVISANSTPVKGAIGNATSALTNFRGDDDSGDGSSEVNQNEWSGGVGFRRASSDAELA
CSMERGSLATLLSHLPDNLYPTQYDNSKSENPSVEVRMTSCSQCHQCLALLYDEDIMAGW
AADDSNLNTRCTACGRHTVPLLSVQIVRMDQTQAETLTVPYLNPLVLRKEFESILGREGD
ACLAEREFVESHPIVYWNLVWFLERANIDNHFPDLLCPNFSVKYQSSDPLPDVDKMTVGC
RVVCSWEGARAADCEAPSLHRAWRARRTQPRSRQLRALLLSHHDRPTDSIVATILDGLMS
NDLSDAVRKLAAWRESTCANKRYHSYYRDILFLAMAALGEQKINVTVFQREYTRAIEQLG
TEARPQDLPPSPTAVCCRHYFKRLTLDVDD