| New model in OGS2.0 | DPOGS214256 |
|---|---|
| Genomic Position | scaffold241:+ 158784-171450 |
| See gene structure | |
| CDS Length | 5037 |
| Paired RNAseq reads | 1362 |
| Single RNAseq reads | 3240 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005973 (2e-39) |
| Best Drosophila hit | CG42533 (0.0) |
| Best Human hit | dedicator of cytokinesis protein 9 isoform a (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to CG6630-PA [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to CG6630-PA [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0005085 guanyl-nucleotide exchange factor activity GO:0005525 GTP binding GO:0051020 GTPase binding |
| InterPro families | IPR001849 Pleckstrin homology domain IPR021816 Protein of unknown function DUF3398 IPR011993 Pleckstrin homology-type |
| Orthology group | MCL10142 |
Nucleotide sequence:
ATGCCTCCAGTGATATCCCGCAATAAAAAGAATGGCGCTGAGTATGAGAATGTACTAAGT
ACTAAGTGCAATGTGCTTGATTTTGAGAAATACATTCAAGAAAACAAAACACTTCTTTTA
AATGATCCATTGAGGGAAATACTTCTCTATCCATCTGATGATGTTTCTAGTGTTGTGCTA
CCTCGTCGTTGGAGAACTGTGACAACAGCTGTACCAGATGTCAGAACTGCATCAACATGT
CCTCTCCTAACGAGACAGGCATTACTTAGTTACGCCTCTAGCTGGAACCTTGTTCATTAT
AAATACAGCAACTATTCCGGATCTTATCTTAATTTACCAAGACCGTTAAATGATAAGCTG
CTGGAAGAAGTGTATGATATTGATGCTGAAACAGAGAAAGATCATGAGTCCCAAGCTAAG
GTGGACGTTGGAACCAAAGAGGGCTACCTGCTCAAAGGACCAGAAATCGGTTCTGATAGG
ATATTCAGCAATCTCGCTTCAAAATCGTTTAAGAAACGCTATTGCTCAATGGTCAGAGAG
GCGGACGGAGCTTACATACTCGAAGTGTATAAAGACGAAAAGAAAACTGACACTAAACTG
ACTATTGTTATGGATTTTTGCTCAGAAGTTGTTAAGAATACAAAGCGCGCGCGTTACTGT
TTCGAACTACGGATGTCCGGCAACAAGGGATATACCTTTGCTGCCGAAAACGAAGAAGAA
ATGAACGAATGGATAAAGGCTTTCGAGGCGGCGCTAAAGAAGAACCAGGACCAGAGTATC
GATCAGTCTGAAGAGACTTTAGACAGAGATGCAGACGTATCTCTAACAGCGGAGCCGCCT
CCTCCCATCTACGGAACCCTGAAAGGCTTGGAGCATAGCATGAACCCGCTACTGATGCGG
TACTCGAGGGAGACTGACCTCTCAATAGCTGCGGCTAGGAACGACTCTCGTTCTAATATA
TTCACCTTGCCATATAAAAGGGCTCCTTCCCCCGAGCCGCAGTTGGAACCGTTCAAAGAA
CACTTTGGCCAAAGAATTTTGCTCAAATGCGAAAGCTTAAAATTTAGATTACAAGCACCG
ATAGATGGTGACAAGGAACTGCTGTGCCAAGTGGAGCCCTACTTCACTTATCTAGCGCTC
TACGATGCCCGTAGTGGCAAAAAACTCACCGAAAATTTTCACTTCGATTTAAACCACGCG
GCCGTGAGAGATCTAGTCAAAGAGACGGAGTGCACAAAATCATTAGTAGAAAATTTTAGC
TATGACGTTAAACTGGACGTCAAACAGTTATCCGATGAATGGTTCAAATCAAAGAGACAG
GCTTTACTATCAGTAAATAATCCACATCCAGACTTATTTTTAGTTGTTAAAATTGATAAG
ATCTTACAAGGACATGTGAGTCAGGTGTTAGAGCCGTACATGAAGGCCACGAAAGACCCT
CGGCTGGGACTCAAAGTTCACAAAACTGTCCAAGCCTACGCCAACCGAGTTGGCAACTAT
CGCATGCCGTTTGCTTGGGCGATGAAACCTTTATTTAAATTATATAGCAACGATCTCGAC
ACGACGCCAGAATTTCCGGCAATCTATCGTCAGGAACCGAACAAAATGTCCGATGAAGAT
TTATTGAAAATATTATCGGATTACCGAAAACCGGAAAAACTTGCAAAATTGACTGTAATA
CCGGGATGGCTCAGCATCAATATACAGCAGAGCAACGAACAAATACCAAATTGTATGACA
AGCGCGTACGCAGCACTAAAGCCTTTCCCGCTATCACCTCTGTCGCCGCTCACGTTGGAG
TTGGCAACACTGAATGCAGACGCCGAACAGCCTTACGCATCCTACATCCACCACTTATAC
GTGCGACCGTTATCACTCAGCTTCGAGTCGCAGAAAATGTTCGTGAGAGCCAGGAACATT
GCTTGCTCTATTGAACTCAAGGAAAGCGATGTCGGTGATGTGAAACCATTGCAGGTTATA
TATGGGCGTATAGGCATGACGACCCAGCACCGGTGTTCAGTACTACATCACAACACGAAT
CCCAGTTGGTGTGATGAAGCAAAGATCCGTCTGCCAGCAACCATAACACCGTCGCATCAT
CTTTTGTTCACCTTTCATCATATTTCTTGCGACTTGGCAAAGAAGAATGACACCAATGTG
GAAACTTGTATAGGATATGCTTGGGTGCCATTGCTGAAAAACGATAAGCTCATCGATGAG
TTCATCAATCTGCCGGTGGCGACACATTTGCCCTCGGGTTATCTATCAATTCAGCCCCTT
GGTCTAGGAAAAGGAAACGCCGGTCCAGAGGTGGTGTGGGTTGAAAGCGAGAAGCCACTA
TTTCGTTGCCAGCTAGTGCTTGACTCAACTGTGGCAACTCGTGACGTGCATTTGCACAAT
CTATTCTGCCAAATAGAGAGATTGATAAAGAGCAGTTCCCCTCCCACTTCCCCCGGCGCT
CCGCCGTGGCACGACGTGTGTAACGCGCTCAAGGGCGCACACGCTGTTAATCTCAGTTCG
CTGATAGCTTTCCTTCCTACGATCTTCAATCAGCTTTTCGATTTGATGACAATTGAAAAA
GGATACACTTCAGACATGGGCTACCAAGTTGTGAAATTGATAGTACATTATGTTCATCTC
ATACATGATTTTGGCAGAAAAGATTTACTCGATAGTTATGTTAAGTATGTCTTCAATTGC
GTAGAATTTAAGCTACACACAGTTCTGACAGCACCACTGTACATGTTCGTTGATCCTAAT
CAACAAGACTTTCTATTGTGTCACAAATTTATGCAGTACTCAAGTTTTTTCTTTGACATT
ATCGTGAAAAGCATGGCACAATACCTGATTAACACCGGTCGGATAAAGATGTCCCGAAAC
GAGAGATTTCATAACGATCTTTTAGAGAACATCGACAGGCTCGTAACGACCGTGGAACCC
ACGTATATATTACAACAACCGATGCAGACTCACATATTTAATAAAAATCTCGCCGTGTTC
CTTAAGTCTTGTCTTTCGTTCATGGACCGTGGTTTCGTATTTAGACAAATAAAGAAATAT
TTGGAGAAATTTAAGGCCTGCGACCCAAAAGCTTTGTTCGATTTTAAATTCACATTTCTC
CAAACTATATGCTCCCACGAGCACTACGTTCCTTTCAATTTGCCTCTACAAGCTAATAAA
AATGGCAAAGATGAGAATGAAGATCCATCAAAGCTAAGATTGTCTGAAGACTTTATAATG
AGACATTTTCTAGCTGGTATCCTATTGAAACAGGTGGAGCAATCCCTCCGCGAGGTGCCC
AGCAAACGTCGTGTGTCGCTGGGCGTGCTGCGCGCGTTACTCACCAAGCACGAGCACGAC
GACCGCTACAGGACCAGGCAAGCCCGTGCGCGACTGGCACAGCTGTATGCACCGTGGCTC
ACAGTCGTGCTTGACAATGCCCACCGGCTCGTTACTAAAACCTTGGCCAGTCCGGTATTA
GAAAATGGTCATGACAGAGTGGATGGAGACGGCACCTGTATTCCCGCAGTCAGCAGTTCA
CAGAAAGAAGCCGCCTCCGCTAACAGCACACCACGCAAAAACAGGCTCACCTTACACTTC
GATCACACGCCGTTGCGTAACTCGACTCACTTTAAGGAACCTCCGAATATGTATGGGAAA
GATAACGCAACTAACATGTCGCAAAGCTCCCTAGAATCAGTGTCCACTATGTCCGGGGGA
GACTCGTTGCCACGTAACGCTCGATTAGATTTGAGCGAAATCGGTGACCAAGTGAACAGG
TTCGGCGTTCTATCTCCGGAAGAAGTGCGAGATGTCTTGCTATGTTTCCTGTTCGTACTC
AAGTACCTGGACGACGAACGACTATTGGAGTGGTGGCGGACGCACTCTCGTGTCCAACAA
CAGGCCTTCTTTAACGTATTAGAGATATGTGCGGAACAATTTCAATATGTGGGAAGAAAG
AAGATTTTGTCCGAATTCAGTTTACCGTCACCTGATTGTAACGGTAAACTTAAACCAGCT
AAAGCCAGGACTCTGCCCGCCAGGATGAGTCCACCAGACTTCTCGAAGGAGCCGCCCATC
GTTGTCGAAAAAAATAACACTGTCAATAGAGAAAACCTTGTCAACCCAACAGTCACAAGT
GAACTTGAAATGATGTCCGAACATGCAGTCTTATCCGCCGGTTGCTTAGCAACGGAAGTA
GGGCTAATTATTATAGACCGAGCGTGTCTTTTTATGAGGAACTTAGGACCGGCAGAAGGA
AACGCCGCTAAGCCGTATCTAAAATTACTGCAGTGCCCTCAAAGCGAAACTCTATATAAG
CATCTATTCGCCGCCCTCCGGGCTTATATCAATCAGTACTCAGAAACACTGTTCGAAGGC
GGCAGTTCAGTTTGTGCCGGTGTGGTGTGCGCTGTGGTCCGTCTGTGCGCGGCGCGGGCT
GCCTGGCTGCGGCGAGAAGCAGCCGCCGCCCTCTACCTGCTCATGAGGGCTAACTTCCAG
CACGCCGAGAAGGGAAACCTCACTAGAGTACATCTACAGGTGATAATAGCCGTGTCCAAA
CTGCTGGATAGTTCTACAGTATTGAACTGCAAGCGATTCCAGGAATCCCTATCAGTGATA
AACTGCTTCGCTACCGGAGATAAAGCTATGAAAGGGACTGGTCTCTCAAGTGAGGTGGCG
GAACTAATGCGTCGCGTGCGCACAGTGGTGGGGGCGCGGGCCAGGCTGGCCGGAGTGGGC
GGGGCCGCCGGACACGGTGCTGGAAGCGTTCATCTATCGGAGCTACAGCACGCGCTGGCA
GCTTCGTGTCGTGCCACGCCTCGCCTACGACACGCCTGGCTCGCGACACTGGCGGAACAC
AACGTGCGACACAACGACCACGACGAGGCCATGTGTTGCCAACTTCACATAGCTGCTTTG
ATAGCGGAATATCTCAAACTGCGAGGAACTCAAACTTGGGGCTCCGAGGCTTTCGCGGAT
TTGTCCTTAAACATACCTAAAGATGAAATCGGCCTTAAGATAGACGAGGGTAAGTAA
Protein sequence:
MPPVISRNKKNGAEYENVLSTKCNVLDFEKYIQENKTLLLNDPLREILLYPSDDVSSVVL
PRRWRTVTTAVPDVRTASTCPLLTRQALLSYASSWNLVHYKYSNYSGSYLNLPRPLNDKL
LEEVYDIDAETEKDHESQAKVDVGTKEGYLLKGPEIGSDRIFSNLASKSFKKRYCSMVRE
ADGAYILEVYKDEKKTDTKLTIVMDFCSEVVKNTKRARYCFELRMSGNKGYTFAAENEEE
MNEWIKAFEAALKKNQDQSIDQSEETLDRDADVSLTAEPPPPIYGTLKGLEHSMNPLLMR
YSRETDLSIAAARNDSRSNIFTLPYKRAPSPEPQLEPFKEHFGQRILLKCESLKFRLQAP
IDGDKELLCQVEPYFTYLALYDARSGKKLTENFHFDLNHAAVRDLVKETECTKSLVENFS
YDVKLDVKQLSDEWFKSKRQALLSVNNPHPDLFLVVKIDKILQGHVSQVLEPYMKATKDP
RLGLKVHKTVQAYANRVGNYRMPFAWAMKPLFKLYSNDLDTTPEFPAIYRQEPNKMSDED
LLKILSDYRKPEKLAKLTVIPGWLSINIQQSNEQIPNCMTSAYAALKPFPLSPLSPLTLE
LATLNADAEQPYASYIHHLYVRPLSLSFESQKMFVRARNIACSIELKESDVGDVKPLQVI
YGRIGMTTQHRCSVLHHNTNPSWCDEAKIRLPATITPSHHLLFTFHHISCDLAKKNDTNV
ETCIGYAWVPLLKNDKLIDEFINLPVATHLPSGYLSIQPLGLGKGNAGPEVVWVESEKPL
FRCQLVLDSTVATRDVHLHNLFCQIERLIKSSSPPTSPGAPPWHDVCNALKGAHAVNLSS
LIAFLPTIFNQLFDLMTIEKGYTSDMGYQVVKLIVHYVHLIHDFGRKDLLDSYVKYVFNC
VEFKLHTVLTAPLYMFVDPNQQDFLLCHKFMQYSSFFFDIIVKSMAQYLINTGRIKMSRN
ERFHNDLLENIDRLVTTVEPTYILQQPMQTHIFNKNLAVFLKSCLSFMDRGFVFRQIKKY
LEKFKACDPKALFDFKFTFLQTICSHEHYVPFNLPLQANKNGKDENEDPSKLRLSEDFIM
RHFLAGILLKQVEQSLREVPSKRRVSLGVLRALLTKHEHDDRYRTRQARARLAQLYAPWL
TVVLDNAHRLVTKTLASPVLENGHDRVDGDGTCIPAVSSSQKEAASANSTPRKNRLTLHF
DHTPLRNSTHFKEPPNMYGKDNATNMSQSSLESVSTMSGGDSLPRNARLDLSEIGDQVNR
FGVLSPEEVRDVLLCFLFVLKYLDDERLLEWWRTHSRVQQQAFFNVLEICAEQFQYVGRK
KILSEFSLPSPDCNGKLKPAKARTLPARMSPPDFSKEPPIVVEKNNTVNRENLVNPTVTS
ELEMMSEHAVLSAGCLATEVGLIIIDRACLFMRNLGPAEGNAAKPYLKLLQCPQSETLYK
HLFAALRAYINQYSETLFEGGSSVCAGVVCAVVRLCAARAAWLRREAAAALYLLMRANFQ
HAEKGNLTRVHLQVIIAVSKLLDSSTVLNCKRFQESLSVINCFATGDKAMKGTGLSSEVA
ELMRRVRTVVGARARLAGVGGAAGHGAGSVHLSELQHALAASCRATPRLRHAWLATLAEH
NVRHNDHDEAMCCQLHIAALIAEYLKLRGTQTWGSEAFADLSLNIPKDEIGLKIDEGK