| New model in OGS2.0 | DPOGS208826 |
|---|---|
| Genomic Position | scaffold362:- 20992-34867 |
| See gene structure | |
| CDS Length | 4662 |
| Paired RNAseq reads | 282 |
| Single RNAseq reads | 668 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA007932 (0.0) |
| Best Drosophila hit | Protostome-specific GEF, isoform A (2e-106) |
| Best Human hit | ND |
| Best NR hit (blastp) | AGAP004701-PA [Anopheles gambiae str. PEST] (1e-172) |
| Best NR hit (blastx) | hypothetical protein AaeL_AAEL004819 [Aedes aegypti] (2e-137) |
| GeneOntology terms | GO:0005515 protein binding GO:0005622 intracellular GO:0005089 Rho guanyl-nucleotide exchange factor activity GO:0035023 regulation of Rho protein signal transduction GO:0016319 mushroom body development |
| InterPro families | IPR001478 PDZ/DHR/GLGF IPR000219 Dbl homology (DH) domain IPR008973 C2 calcium/lipid-binding domain, CaLB |
| Orthology group | MCL13872 |
Nucleotide sequence:
ATGCTGAAGTGGACGGTATATGGCAGGAAGAACCAAGAGGTTCAAGTCGCTAATGATGAC
GATGACCCATACAGGCCCAGGGCGTACGATGAGAAAACTAGAAGGTCTTTAGATGCACAG
ACGGTGAAAAAAAAAAGGAGATTGAAGCAGGACAGAAGTTTGATAGCGTCTCCCAAACTC
AGCCATAGCGTCTCGGAGCCATCTCTGAAAGAATTATCTGATCGATTAAGTTCATCTTCG
GAAAGTAATAGAAGCTCGTTAGTAATTTCGAAGCAGTCTCATATAAAGAAGCCAGTTAGC
ACAACAGTAACAGCCAGCGAGGGCTTGGTGGAAATTGAGTATGATAAAGATTTAATCATA
AATTGTATAGAGAAGCCATTGTTTGTTGATAAAACTAAGTTAGAAAAATCTACGCTACCA
ATTTTTGGCCACCGTTTATTTACTGATAATCCTGTATATTTTAACAAACATGAGAATGGT
GCTCCAAACATAAGGCCCTTGAAGCGAACAAGAAAAAAATCTAACGAATTTGAGAGTTCA
TTCAAGTCACCAACCATAGATAAAAGAGATGTGCACGCTTTGGTTAGAGATGGTTGTTCA
CCAGTTTCGATAACTCCTCTTTCACTTAAATTAGCTGCTTTAAGATTCAGTACTATGAGC
ACTCACACGAGATCCCAACGAGTTTCTGGGAATAATGATATTACCGAATATTTTCCAAAA
CAAAATCCTTTCACAGTGCCTTTCAGAGACGAAGAAAGTGCGACTGAAATGGAAAATAAA
TTTATATTAGGCAAAGATTCTATTGCCAGTATATCCGAGTCTACGGTTTCTACGACTCAA
ATGGGTGATATCACTTTAGAGAAAATGATTGAGGACATTATCAAAAGTACTAAAATCGTA
AAATCTAAAAGAAGAATATTAAACAAAATTTCAGATACTGATGATATTAAAGAAGAAGAA
ATTCCTTCACTTGAAGCTGTAAAGGATCTTTTCGTGAAACCAAAACCGGAAATTAAATCT
AATGTAATTAAAGAAGCGCGGTATGTAAACTTATCTAGAGAAAGTTCCATGTCCCCTCAA
ACAACTCCAATCAAAAAGAGAACTCCCTTACACAAAGCTAATGAAAAATTATTGAAAAAC
GTTCCCATTGGTGGGTTTATTTTAGACGATGGTGATGGTTATAATGAAAGAGAAGTAAGA
ACTCCTGACAAACATTCAACTACCGAAAATGATATTAATTCAATCGACGATATTGCTGTT
TTGACTAGATCAAAGTCGATGACATCAAGAACGCCAGGAAAAAGCATTCTGCAGCAAACT
GAATCTGCTTCAACTCCAGATTTATATTCCGTATTGAACGAATGTAGAAATAATAGATTA
AGAAGACAAAAATGTATCCGTAGAAAAAAGTCAACAGTCAGTAATGAAAGTCTTTGGAAA
CAAAAGCCAATGGAACATAAATCCTCGCTAGTTCTAGCTTTAGAAATGGGTATACCAAGT
CCGGCACTGGATCTTCAAAATACCTCACTATGCCAGCCATTAGAAAATCCTGAAAGTGAA
TTCGCGTGTGTTAATAATTCATTAAGATCTAACGTATCACACAGCAGTTTAAAAGTTTGT
GAACCAATTCAAAATAAAAAATCGAGGGAGCTTTTTGGATTGACGCTTGAAAATGGCATT
CCCAGTCCGATAACTCCTGTAACAAATCTGAAACGCACTAGTAACGTTTTGAGTGAAGAA
AGAGTACATAAGACGAGTAAATTAGGAGAAGAATTATTACCAAGTAATGCTATAACTCCA
GTTATAGAACATAAAACCTCCAGACGCTGTCTTACATATTCGCCAGAAGAGAGTAGCATA
AACAGTAATGAAGAAAAACGTCGTAGTGTTGTTAGTAACCGATTAGAAAGAAGCGCTGAT
AGGTTCCAAGCCCTCAAAGGAACGATCGATTTAGAAGTAATTACCAAGAATGATACAATA
GACGTGCACGTCATACGCTGTCGAGACCTGCAACGAGCTTCAGGAAAAGTGGATGATATA
AATGCTTATGCAAAGGTTGTGATTAGTGGTGTAACCGAAGACCAGTCTTTGCCATCTCAA
CGATCAATATTTCAAAGGACCTCAGTGCTGTATGGCAAAAGGGAGCCAGAGTTTCAGCGC
CATCTGAAGTTGCCGCTGCCCAGAACGATCGCTTATTGTACAAAAGGGCGGAGCGAGTTT
CTAGGATGTGTCTCGTTCCCTCTAAAAGATGCTATTAAGAGCGAACTCTCCGGCACTTAC
TTCCTGCAAGGGCGGCAGGCGCCGGCTCCGGACCGCGTGACCGAGCGACGCAAGATGGCA
ACCGATAATATTGAGACTAGTACCAACGAGGGTGCAAAGGAAAACACGGATAAAGGCGTA
TCATCCAACGGCCCATCCAATCAAGCCCAGGTGGCAGCAGCACTGCAGCGTGAGGCTGAT
GAGCATCTATTCTTACGGTATTTGGAGCTTGACCCACCCGAAGATCCCGCGGCCCCGAGA
CGCCCTCAAAGAAATGGACGGACGCCTTTCACAACTACTAGGAAGCTGATGCGTGGTTCA
AACGGCGGTTTCGGATTCACAGTAGTTTGGACAAGACCACCAAGAGTTGAAAGGGTTGCG
GCTGGCGGGTCGGCGGAAAGAGCAGGTCTTAGGGCCGGCGACTACATAGTATTTGTTGGT
AACAAGAACGTAGTCACCGCTACCGAAGAGGAAGTTCGAAATCTTGTAAAGTCAGCTGGT
CAAAATCTAAATTTAGAAACATTCCGTCGGGTACCTCAGAACGGTGCTGGGGTCAAATCA
CGACTGGCTCAAGTCACGATACCAGTGCCGGAATCTACTCCTCCACCAGCCCCCCGGTCT
CCTCGAGCAGTAGCCCTGGCGTCCCCAGCGGCAGCTCGACCACCAACAGCATGCTCCTCC
ACCAGCCAATCCTTGGATAGACGCAAGCTCCACCTGCCGCAGGTCACCTTCTCCAAGGAG
GCTCCAGGTATGACAGTAGATGGACGGAAGCGAGCTCTTTTGGCGGTAGTCTCAAGAGAA
CAACATTATGCAACATCTCTCCAGTTTGGATTGGTTCGGTTCGTTTCACCTCTTGCTGAG
AGAGCCGACCTCATAGCTCCCAGCGATCATCAATTGCTGTTTCAAAATATTGAGGAGATA
TTTAGGCTGTCAGAAGATATCTTGGATCAAATCGTCCAAGACGATGGTGAAATACAAACA
TCTACGGTCGTTGCTGTTTATTTACAAAAGACTTCAACGTTTCTTAGCCTTTACAAAAAA
TATTGTCTTGGTCTAAAAAGAGCTGATTGTGTATTGGTCAAGAAATCGAAAGACCCAAGT
GGTGCATTTTCTCGTTTTTGTACAAGTCCGCCAATACCACGAAAACGACCAGACATCACC
TCATTAGTTCATAAACCACTGGAACAATTCAGGGAACTTCTTAGGTTAATGAGAACAGCT
GCTAGTAGTAGTGGAGCCGGACCATACGATCAACTAGAGAAAAAACAACTTCAGCTTATC
GTAGAACAGCTGCAGTCTGGCTACCAAGATGTCACTGCAGGTTCAGGTTTAATGGGTCTT
GCTGGTGACGGAAAACCCTTACTATCTGTTGCTGATCTCGAAAGTAGACTCGTGTTCACT
AGATGTAAGCCATTCGTTCTAAGTACGGCAGGAAGACAATGGATATTTGGGGGAGAACTA
TCTCGTGTGGAAGGTAGAACAATTCGGCCATACTGGGCATTGCTCTTTACAGACTTACTT
CTTTTTGCCACAGTGTCACGTGATCGAGTTTTGTTTGTAACGGAAGAGCCAGTTGCTTTA
GGAACTGTGTCAGAAGCTCAGTTTAATGTGAGAAAAAAAGCCACCGAGTTTCGTCTAATC
TTAGGACGAGCTGGTGGTGAAAGCCCACTAGTATCGTGCGCTCCAAGAACTCCTGCTCGA
TCAAGACCTATCGTTTTGCGCGCTCCGTCCATCGATCTAAAGGCTGTTTGGCAGAGTTTG
CTGCAAAGGCAAATTTACCGAGCACATACGACATCCGGAACGCCCCTTGGGTCCCCACTT
GACTCGCCCGATCCTCAGTTGACCTTCAGTCTTGCGACCCTCGATTCCCAACAACGACAG
GTATCAGGATCCAGCATACAACGACACTCAAGTCTCGCTTTATTACCGGCAAGTTCTTAC
CGCTCACACCTTAATATGCTTGTCGAAGAAAGACCAGAAAAAGAAGTCAGAGTTAGTTTT
GACGTGAGACCCAGTTCGGCTTCTCCCCAACCCCAACCAGTAAGAGGTCCTTTGAGTACC
GTTTGGAGAACAGCTCCTACACCTGACACTCCTTCCGCCAATCTATCCCCAGTAGACTCT
CAAACTTTCTCTTCTCATTTTGTTTCATCTTCAAGTATAGAAAGAAATTATGAGAATGCA
TCTCCCAGCGCCCAGCTGACACCTGAAGCTGGAGAAGACTATTCTGAAATTTCACCTTGT
CGTTGGGAATCTTTTGAAGCAGATTTAGCATTGGCTGATTTAGACGTTGATCCATCTTAC
AAACATGCTGTAGAGGAGCATATTTTCTTACCTGATGATACACTTCTACCACGAGTTCCC
TTACCCGAGAGGCCAACACCACCCGCTTACCTTGAACTTTGA
Protein sequence:
MLKWTVYGRKNQEVQVANDDDDPYRPRAYDEKTRRSLDAQTVKKKRRLKQDRSLIASPKL
SHSVSEPSLKELSDRLSSSSESNRSSLVISKQSHIKKPVSTTVTASEGLVEIEYDKDLII
NCIEKPLFVDKTKLEKSTLPIFGHRLFTDNPVYFNKHENGAPNIRPLKRTRKKSNEFESS
FKSPTIDKRDVHALVRDGCSPVSITPLSLKLAALRFSTMSTHTRSQRVSGNNDITEYFPK
QNPFTVPFRDEESATEMENKFILGKDSIASISESTVSTTQMGDITLEKMIEDIIKSTKIV
KSKRRILNKISDTDDIKEEEIPSLEAVKDLFVKPKPEIKSNVIKEARYVNLSRESSMSPQ
TTPIKKRTPLHKANEKLLKNVPIGGFILDDGDGYNEREVRTPDKHSTTENDINSIDDIAV
LTRSKSMTSRTPGKSILQQTESASTPDLYSVLNECRNNRLRRQKCIRRKKSTVSNESLWK
QKPMEHKSSLVLALEMGIPSPALDLQNTSLCQPLENPESEFACVNNSLRSNVSHSSLKVC
EPIQNKKSRELFGLTLENGIPSPITPVTNLKRTSNVLSEERVHKTSKLGEELLPSNAITP
VIEHKTSRRCLTYSPEESSINSNEEKRRSVVSNRLERSADRFQALKGTIDLEVITKNDTI
DVHVIRCRDLQRASGKVDDINAYAKVVISGVTEDQSLPSQRSIFQRTSVLYGKREPEFQR
HLKLPLPRTIAYCTKGRSEFLGCVSFPLKDAIKSELSGTYFLQGRQAPAPDRVTERRKMA
TDNIETSTNEGAKENTDKGVSSNGPSNQAQVAAALQREADEHLFLRYLELDPPEDPAAPR
RPQRNGRTPFTTTRKLMRGSNGGFGFTVVWTRPPRVERVAAGGSAERAGLRAGDYIVFVG
NKNVVTATEEEVRNLVKSAGQNLNLETFRRVPQNGAGVKSRLAQVTIPVPESTPPPAPRS
PRAVALASPAAARPPTACSSTSQSLDRRKLHLPQVTFSKEAPGMTVDGRKRALLAVVSRE
QHYATSLQFGLVRFVSPLAERADLIAPSDHQLLFQNIEEIFRLSEDILDQIVQDDGEIQT
STVVAVYLQKTSTFLSLYKKYCLGLKRADCVLVKKSKDPSGAFSRFCTSPPIPRKRPDIT
SLVHKPLEQFRELLRLMRTAASSSGAGPYDQLEKKQLQLIVEQLQSGYQDVTAGSGLMGL
AGDGKPLLSVADLESRLVFTRCKPFVLSTAGRQWIFGGELSRVEGRTIRPYWALLFTDLL
LFATVSRDRVLFVTEEPVALGTVSEAQFNVRKKATEFRLILGRAGGESPLVSCAPRTPAR
SRPIVLRAPSIDLKAVWQSLLQRQIYRAHTTSGTPLGSPLDSPDPQLTFSLATLDSQQRQ
VSGSSIQRHSSLALLPASSYRSHLNMLVEERPEKEVRVSFDVRPSSASPQPQPVRGPLST
VWRTAPTPDTPSANLSPVDSQTFSSHFVSSSSIERNYENASPSAQLTPEAGEDYSEISPC
RWESFEADLALADLDVDPSYKHAVEEHIFLPDDTLLPRVPLPERPTPPAYLEL