New model in OGS2.0 | DPOGS200651  |
---|---|
Genomic Position | scaffold2751:+ 39769-49374 |
See gene structure | |
CDS Length | 4764 |
Paired RNAseq reads   | 1401 |
Single RNAseq reads   | 3262 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011326 (0.0) |
Best Drosophila hit   | CG31304 (0.0) |
Best Human hit | FERM and PDZ domain-containing protein 4 (8e-81) |
Best NR hit (blastp)   | GA16165 [Drosophila pseudoobscura pseudoobscura] (0.0) |
Best NR hit (blastx)   | GA16165 [Drosophila pseudoobscura pseudoobscura] (0.0) |
GeneOntology terms    | GO:0005546 phosphatidylinositol-4,5-bisphosphate binding GO:0051835 positive regulation of synapse structural plasticity GO:0043197 dendritic spine GO:0005515 protein binding GO:0042995 cell projection GO:0005856 cytoskeleton GO:0008289 lipid binding |
InterPro families    | IPR019748 FERM central domain IPR001202 WW/Rsp5/WWP IPR001478 PDZ/DHR/GLGF IPR018979 FERM, N-terminal IPR019749 Band 4.1 domain IPR000299 FERM domain IPR000159 Ras-association |
Orthology group | MCL17976 |
Nucleotide sequence:
ATGGATGCGAACCCAACTCAAAGTCACGTCACGAGGACCGCGAGCTGGTTACCGCCGGCG
GAGAGTTGGCCCGTCAAGGATGCAGAGAGTCCGGACGAAGAGGATCTGCCCTACGGCTGG
GAACAGGCGCTCGATAACAGAGGGAAACCGTACTACATCAATCACCTTAATAAAACAACC
ACATACGTGGCACCGGAAGGCTGTTCCTGCGAGTCACCACCAGCTCCTCGGGATGTGGTT
CTCGATAGAGATCCAGAGCTCGGCTTCGGTTTCGTCGCCGGTTCAGAAAAACCTGTTCTA
GTTCGTTTTGTCACCGACAACTCACCGAGTGTCGGAAAGTTGGAACCTGGTGATCAAATC
CTTTGTGTAAATGGCGAGGACGTCAGCACAGCAGCTCGTGAACACGTCATCTCAGCAGTA
CGAGCCTGTACGAACCGTGTCACCCTGAAAGTGTGTCAGCCAGCTCGTAGCGGTGACCCG
GCAAGGAAGTCTGCCTTCCTCTCTGCCGCTAAACGAGCCAGACTACGAGCAAGGCCGCCC
AGGGTCAGGTTTGCAGATTCGGTTCAACTAAATGGAGCACCTATGTATCCACCATCAGCG
TTCTCTCTTGGCGACCTCTGCCTTCCTCCTATGGCTAATGTCCTAAAGGTGTTTTTGGAA
AACGGTCAAACGAAATCGTTTAAGTATGATACCACCACCACCGTGGCTGACGTGGTGACC
AGCTTGAAGGACAAGCTCTGTATAACAGCCGAAGAGCATTTTAGCTTGGTCGTTGAACAT
GTGAAGAGCTTGAAGAGGAATAAGCTCACATTGTTGGATCCTAAAGAGTCTTTGGCCAGG
ATCGCAGCTCGTCCCGGTTCTCATAAGATGCGATGCCTGTACCGCGTGGTGTTCATGCCG
TCGTCCGCTGCGGAGTTAGCGCAACGCGACCTGGCAGCCCTGGACTACCTCTACACTCAG
TGCTGTAACGACGTGGCCCAGGATCGGTTCGCCCCGGAACTGCAGCCCGACGTCGCGCTG
CGACTCGCTGCACTCCACATACACCAACACGCGCTCGCTCACAACATGTCCCCCGCTAAA
CTGACTGTCAAAGTTGTCGAGCGAGAGTTTGGTCTGGAGCGTTTTGTTTCCAGCAGTCTC
CTGGAGAGCATGAAGCGGAAGGAACTCCGACGACTGGTGGCGCACTTCCTCAAACTGAAC
GCTCAGATGACGGGAGGGCAACGGCATCTCACACAGTTACAGGCTAAGTTGCATTACCTG
GACACGGTCAGCGCTCTGCCCAGCTACGGCGCGAAGTGTTTCAGCAGCGCGCGGCCTGAG
AGAGTGTTGCTCGTGTCCCCTCGTTTTGGACTGTCACAGATCGTCGGGAGAAGCAACTCC
GTGCCTCAAGCCATAGCTTCTATAGAGGAGGTGGAGTGTGTTCGTGTCCGCGGGTCCTGT
GTGTCGGGGGGCGGAGCGGACGTGGGGGTATTCCTGACCCGGGATCGCGTGCTCGCTTTG
CTCATGGATGACCGCGACGCCGCCGAGATGCCACTGGTCATCGCCGGTTACTACCGCCTC
GCTACGGGTCGGGAACTGAATATAGAATTGGAGAGAGAACCCATAACCGAGGATATAGCA
CCGCCGTATCTATCACAGCACAACGTGGTCCCGACCAAATGGAGCTATTTACACTATAAC
GATCCTATAATGCTAACGAAGAAACATTATGCGATCTTCAGTATGCCGCCGCCTTATCAC
TCCACACCGGATCAGGCCAAGGCCAGCTTAGACACCAACATGAACACGAGCATTGCGAAC
AGGAATCACAGCAATAACTCCAGTCCTTTAGTCGGCTACGATTCCAAATCCGGTCTGCTC
GGATACGATATACATTTTGAGAAGTGTAAAAGAAATGAGGATTTCCGTCTTTTCGATCCG
AACGACGCTTGCTACCTCGACGACGGCATGGGATTTGATCTACAAAGTGTTCTGTCGATG
GAATTGTTGGAGAACGCAAACAACCCCCGATTAGTGGAGGCCAAGAATGAGGAGGTGTTG
CGAAGGGTGGCGGAAATGCAAAAACTAGTAGAGAATTCTGAACAGTATTTGACTGAAAAT
TGTGATGTTTTTAATAATAGCGGTTATAACGGTGTTCTTAGAGACGAATTAGTGGGTAAA
GAGACTTGCGTAGATAATATTGAAAGTGATACGGAGTCGAACAATAGTAAGATGTCCGCT
GCGGATGACGCGCCCGGAGTTCTTAAGCATAGTGACTCCTTGCTCCTGTTGACTGAAACC
ATTAACCAAGGACTGAATAGCGGTAATGTAGAAACGCAAAAACAGTATACTTCTACAGAT
CTAACTCAAAGACAATCTCAAGGACTTAGCGCAATTCTCAATAATTGTGGATTCACAGAC
GCTTTGTTAGCTCTTAATAATGACGTTGGCTTCTCTGAGAGTGACAACGATTCAACGTAT
ACTCCTACGAGTAGTCCAATACGGAAACATCAAAATAAATCGACCAATAAAGCAGTTAGG
ACTAGTTTTGGTCTGCATAGCCCAGACGCAACATTAGACACTAAAGAATCAAATTTAAAA
CAATACTTAAAGCAGCTCAGAGAAAAGAGCGACAGGGAGGAAAGTGCAGCTGAATTTCCG
TATTTTTACCAAGAGAGCTTAATAGAAAACGACGCCGAGCTTATAGACTTAACATTAATA
CCCCCACCGCAAACGCCTGATGAATTAGACTGCGCAACGCAAGTGCCTCAAATTTTACCT
ATCGTACCTCCTTCCTTTGCCGATGATAAGGACACAGAGCAAGACAATAGCCCTAAGAGT
AAAGAGCTAGAGGAATTCATCGCTAATGTTACGGTACAACCCCCGACAGTTAAAATAACT
CCAGCAATAGAGCTCACGCCGGAGGAAATAATGTCATATATCATACCACCGCCGCCGGGT
TCAAACGCGTCTACTATAGATAGAGATTCAATTAATACCGTAAGCCAAGAAAAAAGCGGT
AACAGCAACGAAGAACATAATAATACTAATGAGAAAATATCTAACGGTGAGGTAGTTAAA
GGCGTCTTGAGTGTGAGCGAGATCAGAAATATGTTTGCTTCAAAACAATTAAGTGACGCT
AGAAACAGTTTATTATTAAAAGAAAAAAATAAGGCCGACTCTCCGAAGAGCAAGCGAAAA
AGTATAGCCGGAGATAAACAATCCAACGGCAACGCACATGTTATAGAATACCCCACTGTT
GAGAGAAAAGGTATGTTCTCATGTTGCAGCAAAGACAAAAATAAGAACGATGATCTTTGT
GAGGAAACAGAGCAAATTGAAGGTCATATAACGAACTCAGATTCGATGCCTGATGTTTGT
GAAATCCGACCACCTCCGAGAAGAAAAGGCAGTGAAATTCGGAAACCTCCAGAACGCCCT
CCGAAAATGCCTCCCACGCCGTCTCCGAGACCGAGATCGAATTCATTCACGTGCCCCAAC
AATGAACTCAGCGCTGTAGAGTTCACAAGCACTCATTTCAGTACGTTAAATAATAAAAAG
TTAAATTATAGAGTGGTCTGTGAAATGAATGAAGGGATACATACGCCTCCCCAAATCCCA
CCACGGATAGAAAATAGAACACTTTCTCCTCCCCCACCATTATTACTGCCACCTAAGAAA
CCTCCCCTACCCCCCGTTCCAAGTATAGAAGTTTTAAGAATTAAAAATTCCCAGAAACTA
TCACCCGTTCGGGCGACCGAGCGGCTGGCTAGTATCGGGTCACCACATTTTCACAGGAAT
CTTAACACTTACCGGAACCTCGAAAACGAAAACAAACTAACCGATGACGAATCCCACAAT
CCGAGATCTCAGAATAACAACTCTATGACGCTACAAAATCGCCACGTACGTTCAAATTCT
GAGACGAAGAGTACCATATTGAAAAATAAGAACATATCAACAGGCCTCTCTCTGTGTTCG
CCTCAAATGAACCGTCGGTTCAGCAACAGACCTGACCTGTTAAACGAAGCTCCCGTCGGC
GATCAGAGACTATTCAGTCCTTCACTCGCTGAACGGAAGACCCTCAGACGGGACAGCGCG
AGTCCGACGGGCAAGGTTCAGAATCATGTGAGGTTTAAGGAAGACGTCGTAGACGACATC
CCGACTCCACCTTCTCCACCTACAGTCAAGTTCCCAGAGTTTCAATCTGGTAACAACGGA
CATGTGTCCATAGAGAACTTATTGTGCAAAACTGAAGTGGCCGTTGACGGGTTACTGCAG
AGATTACACCAGGTGGCGCAGAAATGTTCACACCAACACGCCCACGGAGGAGGCGAAGAC
ATCGATGAAATTAAATTCCAGCGAGCTCGCTCAGAACTAACTTCGTGCGCGGTGTCTTTG
GTGGGAGCGTCCCGTACACTAGTGGGGGCTTTGGGAACCTCTCAGGAAGGTCCCCCAGGG
CTGGCGGCTCCCGCCGCCCTACCTGACTGCCTTACACCGTTAAGACGCCTAACGGATTTG
GCACAGGCTTTGGGGAAGCACACTTCAGCACCGCTCCAAACTAGAAATTTGATCCTTCGA
GTTCATGACGTCACCGCCGCCTTTAAAGACTTAGCAGGTGCGGAAATGGCGCAGATTATA
CACGAACATAACTCCAAAGATGGAACTCAAGGCCAGGGTCAGGACTCGGCTTCCACCCTC
GAGGGTCAACTGGCCCTCCGAGCAGAATGCCTGGCGAATGTCTTGGCGACTCTACTGCGG
AGTCTTAGGGTATTCTCACCTTAA
Protein sequence:
MDANPTQSHVTRTASWLPPAESWPVKDAESPDEEDLPYGWEQALDNRGKPYYINHLNKTT
TYVAPEGCSCESPPAPRDVVLDRDPELGFGFVAGSEKPVLVRFVTDNSPSVGKLEPGDQI
LCVNGEDVSTAAREHVISAVRACTNRVTLKVCQPARSGDPARKSAFLSAAKRARLRARPP
RVRFADSVQLNGAPMYPPSAFSLGDLCLPPMANVLKVFLENGQTKSFKYDTTTTVADVVT
SLKDKLCITAEEHFSLVVEHVKSLKRNKLTLLDPKESLARIAARPGSHKMRCLYRVVFMP
SSAAELAQRDLAALDYLYTQCCNDVAQDRFAPELQPDVALRLAALHIHQHALAHNMSPAK
LTVKVVEREFGLERFVSSSLLESMKRKELRRLVAHFLKLNAQMTGGQRHLTQLQAKLHYL
DTVSALPSYGAKCFSSARPERVLLVSPRFGLSQIVGRSNSVPQAIASIEEVECVRVRGSC
VSGGGADVGVFLTRDRVLALLMDDRDAAEMPLVIAGYYRLATGRELNIELEREPITEDIA
PPYLSQHNVVPTKWSYLHYNDPIMLTKKHYAIFSMPPPYHSTPDQAKASLDTNMNTSIAN
RNHSNNSSPLVGYDSKSGLLGYDIHFEKCKRNEDFRLFDPNDACYLDDGMGFDLQSVLSM
ELLENANNPRLVEAKNEEVLRRVAEMQKLVENSEQYLTENCDVFNNSGYNGVLRDELVGK
ETCVDNIESDTESNNSKMSAADDAPGVLKHSDSLLLLTETINQGLNSGNVETQKQYTSTD
LTQRQSQGLSAILNNCGFTDALLALNNDVGFSESDNDSTYTPTSSPIRKHQNKSTNKAVR
TSFGLHSPDATLDTKESNLKQYLKQLREKSDREESAAEFPYFYQESLIENDAELIDLTLI
PPPQTPDELDCATQVPQILPIVPPSFADDKDTEQDNSPKSKELEEFIANVTVQPPTVKIT
PAIELTPEEIMSYIIPPPPGSNASTIDRDSINTVSQEKSGNSNEEHNNTNEKISNGEVVK
GVLSVSEIRNMFASKQLSDARNSLLLKEKNKADSPKSKRKSIAGDKQSNGNAHVIEYPTV
ERKGMFSCCSKDKNKNDDLCEETEQIEGHITNSDSMPDVCEIRPPPRRKGSEIRKPPERP
PKMPPTPSPRPRSNSFTCPNNELSAVEFTSTHFSTLNNKKLNYRVVCEMNEGIHTPPQIP
PRIENRTLSPPPPLLLPPKKPPLPPVPSIEVLRIKNSQKLSPVRATERLASIGSPHFHRN
LNTYRNLENENKLTDDESHNPRSQNNNSMTLQNRHVRSNSETKSTILKNKNISTGLSLCS
PQMNRRFSNRPDLLNEAPVGDQRLFSPSLAERKTLRRDSASPTGKVQNHVRFKEDVVDDI
PTPPSPPTVKFPEFQSGNNGHVSIENLLCKTEVAVDGLLQRLHQVAQKCSHQHAHGGGED
IDEIKFQRARSELTSCAVSLVGASRTLVGALGTSQEGPPGLAAPAALPDCLTPLRRLTDL
AQALGKHTSAPLQTRNLILRVHDVTAAFKDLAGAEMAQIIHEHNSKDGTQGQGQDSASTL
EGQLALRAECLANVLATLLRSLRVFSP