New model in OGS2.0 | DPOGS211537  |
---|---|
Genomic Position | scaffold950:- 35112-62587 |
See gene structure | |
CDS Length | 6174 |
Paired RNAseq reads   | 1876 |
Single RNAseq reads   | 4927 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA013779 (3e-20) |
Best Drosophila hit   | bruchpilot, isoform G (0.0) |
Best Human hit | ERC protein 2 (6e-22) |
Best NR hit (blastp)   | PREDICTED: similar to CG30337-PB, isoform B [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to CG30337-PB, isoform B [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0005262 calcium channel activity GO:0048167 regulation of synaptic plasticity GO:0007269 neurotransmitter secretion GO:0048790 maintenance of presynaptic active zone structure GO:0008344 adult locomotory behavior GO:0048786 presynaptic active zone GO:0031594 neuromuscular junction GO:0042734 presynaptic membrane GO:0007268 synaptic transmission GO:0007274 neuromuscular synaptic transmission |
InterPro families    | IPR019323 CAZ complex, RIM-binding protein IPR009053 Prefoldin |
Orthology group | MCL11323 |
Nucleotide sequence:
ATGCACAGCATAAAGACATTCTGGAGCCCCGAGCTGAAGAAGGAGCGGGCGCTGAGGAAA
GAAGAGAGCGCGAAATACAGCTTGATCAACGACCAGCTCAAACTGCTCAACCAAGAAAAC
CAGAAACAAGCGATGCTGGTCAGACAGCTGGAAGAAGAACTTCGTCTGCGAATGCGCCAG
CCCGCTCCAGAACTACAACAACAGCTGGAGGCGCTATACTCAGAAAACGAACACCTGCAG
AGAGAGATCGCCATTTTGCGAGACACTATAAAGGAATTGGAACTTCGGATTGAAACACAA
AAGCAAACTTTGCAAGCGAGAGATGAAAGCATCAAGAAGCTATTGGAAATGCTGCAAAAC
AAGGGCATGGGTAAAGAAGAGGAACGACAGATGTTCCAGCAAATGCAAGCGATGGCACAA
AAACAGGAGCTCAAGGCGACGGCGGACACGCTGCGGGCCCTGCAGCTCCAGCTGGAGAGG
GCGTTGGCCGCGGCAGGGCTGCCAGGGGGCTCCGCCGGCGCCACCCTCACCGCAGTCCTC
GAGACCAAGGACGCCCGCATCGCGACGCTCGAGAGGCAGGTCGCGCTCCTAGAGGGCGAG
CTGCCCTCACTATACGATAAGGCCGAACCGAAGAGACAATTGGATGAGTTCCGACTGGAG
ATCCAGAGACGGGATCAAGAAATACTGGCGATGGCTGCAAAAATGAAGGCTCTGGAGGAA
CAGCACCAGGATTACCAGAGACATATAGCAGTTCTCAAAGAATCGCTGTGTGCTAAAGAA
GAGCACTATAGCATGCTTCAAACCGATGTGGAGGAATTGAAGGCTCGGCTGGATGAAAAG
AGCAGGATGGTGGAGAAGAAAACTGCCGCGGCGCTGGCAGCGGCTCACGAGCTGGCCGAG
CTGAGAGATCACTCCGAGATCAAAGATAGGAAGATCAACGTGCTGCAGAGAAAGATTGAA
AATCTGGAAGATCTTCTCAAAGAGAAGGACAATCAAGTGGACATGGCTAGAGCGAGATTA
AACGCTATGCAAGCACACCATTGCTCGTCTGAAGGAGCTCTTTCTTCCCTCGAAGAGGTC
ATCGGCGACAAAGAGAAGCAAATCCAACAGCTCAGAGAACAGAGAGACAGAGCTGAACAC
GAAAAAAACGAAGAGAGGGAGCTACATGAAAGAGAAATAGCAGACTACAAGATGAAACTC
CACGCGCTGGAGAGTGAAGTGGAAAAACTCGGCGCGAGATTGGAAAGAGCTCAGGCTGAA
AAAGATAGGCTCGAAGCCAAGCTAGAAAGCTCTCAGTCAGAACTTGGCAAATCCAAAGCT
GAACTAGACAAGGCTGCAAGTGAAGTGGGAAGGTCGGGCGCCGACTGGGAAGCTGCTAAA
CAACGTCTAGCCAGACTCGAGCTAGAGAACGAACGGCTTAAGCACGAATTGGAGAGATCA
CAGACAACATTCGGCAGAAGCACGCTAACTACCTCCCAAGAGCTGGATAGAGTACAAGAA
AAGGCGGATAAATCAGCGGCTGAGTTGAGACGGACTCAGGCGGAGCTGCGAGTGACACAA
GCTGACGCCGAAAGAAGCAGAGTGGAAGCCAGCGCCTTACAGGACAAGCTGGAGAAGTCC
CAAGGAGAAGTCTATCGTCTGAAAGCTAAACTTGAAAATGCACAAACGGAACAGGACAGT
CTCAAGGAGGAATACGATCGCGTTCAATCCTCAGTAAGTCGCCTGCACTCCGAACGAGAC
AAGGCCATAGCTGAACTAGACAAAGCCAGGGAGGAACTGGAGAGAACTCAAGCCACTTTA
GGAAAAGCACAGCTGCAGCAGGACAAGCTGCAGGCCTCGCTTGACTCCGCCCACTCCGAG
ATAGACAAGCTGCAGGAAAAACTTGACAAATCAGCCGTCGAAGTCAGGAAGCTCCAGGTG
GATCGCGAGAAGTCGGCCTATGACTTCGAGTCGCTTCAGTCCCAGCTCGACAAAGCTCTG
GGACAAGCCGCCAGGCTGCAGAAGGAGAGGGACACGGCACAGCTGGACGCGGACAGGTTC
AGGGACAAGCACGAGAAGGCACAGGCGCTGGTAGCTAGAGTTCAGAAGGAACGAGACGCA
GCATTATCAGAGGCAGCGTCTTGTAGAGAAAGGGCGGAGGCAGCGGCGGCGGCGGCTAAC
AGAGCGGCAAGAGATAGAGACAGCGCAGCAACGGAACTGGACGTGCTGAGAGAGAGATGG
GAGAAGGCACACCAACAACATCAGAAGCTTACGATGGAGAAAGACGACGCCCTGACGGAA
TTAGAAATAATGAAAGAGAAGCTGGACAAGGCTTTGTATTCCACACAAAAGACCATCGAA
GAGAAGGAAACGGCGCACAAAGAATACGAAAAGATGCTTGAGAAATATGACAGATCGCAA
AACGAAATCTACCGACTGCAGAACAAGATAGACATCCTCGAAGCAGACAAGGACAGAATT
GAGCTGGAATACGAGAAGAACATGCATTTAGCCACAAAGTCCAGAGAAGATCTCAGAAAA
TTGCAAGACGAACTCGCGAGATTACAGGAAATGTACGATAGGGCGTCGTTACAGCTGGGC
AGGACGAAAGAACAAGAAGAAAAGGCCAAAGAAGACATGGATAGACTGAGCGTCGACATA
GAAATGGTGCGAGATCGTTACGAGAAAGGCCAAATAGAACTGAGAAGATACCAAGCAGAA
AAAGAAAAACTAGTCGCCGATAACGAACGCTTGCAATTCGAATACGACAGAGCGATGGCG
CAGTGCGGCAAAGCACAGGCGTCCAACGAAAAGACACAAGAGGAGATGGCCAGAGTACAG
ATAGAACTCGAAAAGATGTACGACAAGCATGACAAGGTGTCCGCCGAGCTGAGGAAGGCG
CATGCGAGGGAGGAGGCGGAGAGGTATGCGGCGCGCTACGGGAAATATCACGACACTAAG
GAAGAACACGAGAGGACTAAGTTGGAGGTGGAACGACTGCGCACGCGGCTCGAGAAGACC
ACCCTCGACCTGGAGCGAGCGAGGAAGGCTGACGAGGAAGTGAACCGACTGCGCTCGGAA
CTCGAACGAGTGGAGGGCCTCCGAGGTAAATACCAATTCGAACAGGATAAGTGGAGCACG
GAAGTTAACCGACTGCAGGCCGAGCTAGACAAGTACCGCGAACGGCACGAAACATCCCAG
GCCGAAATACAGAGACTGCAAACCGAGAAGGACCAAGCGGAGACCAAGCTACACGAACTG
AACATACAACTAGAGCTGTCCAAGAGCGAGGTCACCAAGCTGAGTGCGGCCATGGAGAAA
CAGCGCACCGATCTAGAGCGTGCTCACATCGAGTGCGAGAAGTTCAGAGATAGGTGCGAG
AAATTGAAATTGCGTTCGGAACAGTTGGATAAAGACAATGAGAGGCTCAAAGGCGAGCTG
CAACAGATCGAAAGGATGAAATTGCAAGCGGTCGCCGGTGATAAGGCCAGGACCGAAGAC
AGGCTGGAGATTGAGAGACTCCGAGATAAGCTGGAGAAGGCCATACAGGCGCGGGATGCG
ACCGAAATGGAAGCCGGTCGCTTGGCCAAGGAACTAGAAAAGTCACAGATGCATCTCGCC
AAGTATCAGGAGACAAATGAGACGACTCGAGTGGAATACGATAGAATGACCAACGAATTG
GGCAGGATGCACGAGCGTTTGGAACGTACGATACTAGAAATGCGCCAGATCGAACAAGAA
AGGGATGCTCTTAGAACTGAGATACAGAACACGAGGCGAAACATCGAACAGCAACAACGC
ACCTTGGACCATAGGACACAGGAGACTTTAGTTAAACTACAACAAGAGCTGGCTCAGTCG
GTGCGAGACAGAGAAAAGATGGCGTCCATCCTCGAACAGAGAGACAAACAGGCTGATGCC
ATAGAAAAACAAATAGTAAAACTGGAAGCAGACACTAAACAATTGACGATCGAACGCGAT
CAGCTCGTAGCTCAATTAGAAAAATCTCAGGATATGCTGGTAAACTTCCAGAGAGAGCTG
AACTCCTCGGAGACAGAACTCCAGAAGCAACGGGAGGAAGTGCGTAGACTCAAGGAAGAA
CAGAGAAAGATGGCTCAAGACTCAGAACGCGGCACCAAGTCGGTTATTGAAAGTCGGGAT
AGAGAAATAGCAAAGTTACAACAGCAGGTACAGAACGTGTCCAAAGAGAAAGACACTTTC
AGGCAGAGAGCTGAGAGGGCGGAGAAGGAAGCACAGAAAGCGGGAGAGATAGAGAAATGG
AAGATGGCCGTCGAATCGGAGAAGACGAAAGCCATAGCAGCAGAGAAAGCGCTGTCGGAG
TGCCAGCAGCGTTTACAGAATTTGGAGAGACAGTTCCAGATGCAACAGCAGCAGTTGCAG
CAGCTTCAAGCGCGAGGACCGTCCGACGTCAAGGAAGTCCAGAAGCAGCTCGAAGCGGCT
CAAGCCGAGGCGCGCTCGCTCGCGGTGGAGCGGGAGCGTTGCCAGGCGCAGCTGGAGATG
CTCGTACAGGAATTGGAAAAGAGCCAGTTCGACTTGCGAGAGGCGAACAAGAAGCTACAA
GCTACAAGTCAGAGCGCCAGAGCTGGGGAAGATACGGCGCAAGCTAGGAAACAGCTGCAA
GAAGAATACAAGAAGTTAGAAGACGCGAGGAAACAGTTCGACGAGAACAGAAGAATGGTC
GAGAACAAACGTAAAGACGTGGAGGACAAGGAGAAGTCGCTGATGGAGCTGGACCGACAG
TTGAAGAAACGGAAGGAACAAATGGACCAAATGGAAGCGTCTCTGAGGAAGGCCGGCGGC
AGTGCAGCAGCGGTAACGGATCTGAACAGGAAGTTGGGCGACACTCAGAAGGAGGCGGAA
CAGTTGCAGCAGAAGTTGAAGGGCAGCGAGGAGGAGTGCTCGAGACTCGCCGCTGAGACT
GAGAGACTGTTACAGCTGGTGCAGATGAGCCAGGAGGAACAGGCGCAGAAGGAGAAGCAG
ATCATGGAGCTGCAGCAGTCCATACGTAACCTTCAAGCCAAAATTAAAACTCAGCAACAA
GCACAAGCACAAAGAGAAGAGGAAATCACGCGCGCGCGACAGAGCGAGATAGCGACTATC
ACAGATCTAACGAACACTTTGAAAGACAGGGACAGGCTCAGAACTAAATTGGAAGAGAGT
AAAATGAAAATCATTGATCTAGAAATTGAATTAAACGAGTCGTCCCTGATACTGTCAGAG
ATACTAAAAATATCGGATAGCTGTGAGTTAAACAACATAAAGAGGAGCAGAAGCTTTTTC
GAGCTGCAAAAAAGCAATAAGGTAGTGGATAGGTTAGACAGAGGTATCAGCAAAAGTCAT
AACGATCTCATCAGCATGAAAGATGGCCGACAGACAAACACGCGTAGACTGTCGCAAAAA
ATCACGGATATGACGAGAGAGATAGGGATAAAAAACGCCAAGATAATAGAACAGCAAACA
TGTATAAGCATGCTGGAAGACGCGTTGAGGGAGAGCAACAACATAGCGGAGTTAGAGCAG
CTGTTGGCGGTCGTCAGGAGCAAGGACGAACGAATCAACGAGTTGGAGCAGTTCCTGGAC
AAGAAACCCAGCACCGGGGACCAGGGGAAGAGAATCCTGGAACTGGAAGAGGCTTTGAAG
GAATCGGTGCTGATAGCAGCCGAGAGAGAGAAAGTCTTTTATGACGAGGAACAGAAGAGA
ATCGAAACATTACGAAAGATGAAGAAGCTGGAACAACGAATCCTTTCTCTTCAGAACGCG
TCCATTATGAGCTGCTCCACTTGCTCAGCGGTGATTAACAAGCTGAAGGTTGTCGAGGAC
TCCTTGAGGAACTGTGATAACAACAGGAGAGAGATACTGACGGATCTAGCGAGAGTCGTA
CAGGATCTACTCGAAAGCGCCATAACTGAAAAGGATACGGAAATAGCGCAGTTAGAGATG
AAAGGAGTTCTGAATGAAGAAGACACAATAACTTGCGACCGACTTAAGAATGACAAAGAG
AGATTGCTTCACAGACTTAGAGTGGAGAATGAAAGAATTCTTAATTTCGACAAAGCACCG
ACCGAGCAAATTTGTGAAGAGCGAGGAAGCGTTCCCGTGTTGACACTCGCTGATGATCTC
ATGGCGACTGGTGATGGGATAGCTTGGGTAACGGATGATGCGGAGCCTGTGTGA
Protein sequence:
MHSIKTFWSPELKKERALRKEESAKYSLINDQLKLLNQENQKQAMLVRQLEEELRLRMRQ
PAPELQQQLEALYSENEHLQREIAILRDTIKELELRIETQKQTLQARDESIKKLLEMLQN
KGMGKEEERQMFQQMQAMAQKQELKATADTLRALQLQLERALAAAGLPGGSAGATLTAVL
ETKDARIATLERQVALLEGELPSLYDKAEPKRQLDEFRLEIQRRDQEILAMAAKMKALEE
QHQDYQRHIAVLKESLCAKEEHYSMLQTDVEELKARLDEKSRMVEKKTAAALAAAHELAE
LRDHSEIKDRKINVLQRKIENLEDLLKEKDNQVDMARARLNAMQAHHCSSEGALSSLEEV
IGDKEKQIQQLREQRDRAEHEKNEERELHEREIADYKMKLHALESEVEKLGARLERAQAE
KDRLEAKLESSQSELGKSKAELDKAASEVGRSGADWEAAKQRLARLELENERLKHELERS
QTTFGRSTLTTSQELDRVQEKADKSAAELRRTQAELRVTQADAERSRVEASALQDKLEKS
QGEVYRLKAKLENAQTEQDSLKEEYDRVQSSVSRLHSERDKAIAELDKAREELERTQATL
GKAQLQQDKLQASLDSAHSEIDKLQEKLDKSAVEVRKLQVDREKSAYDFESLQSQLDKAL
GQAARLQKERDTAQLDADRFRDKHEKAQALVARVQKERDAALSEAASCRERAEAAAAAAN
RAARDRDSAATELDVLRERWEKAHQQHQKLTMEKDDALTELEIMKEKLDKALYSTQKTIE
EKETAHKEYEKMLEKYDRSQNEIYRLQNKIDILEADKDRIELEYEKNMHLATKSREDLRK
LQDELARLQEMYDRASLQLGRTKEQEEKAKEDMDRLSVDIEMVRDRYEKGQIELRRYQAE
KEKLVADNERLQFEYDRAMAQCGKAQASNEKTQEEMARVQIELEKMYDKHDKVSAELRKA
HAREEAERYAARYGKYHDTKEEHERTKLEVERLRTRLEKTTLDLERARKADEEVNRLRSE
LERVEGLRGKYQFEQDKWSTEVNRLQAELDKYRERHETSQAEIQRLQTEKDQAETKLHEL
NIQLELSKSEVTKLSAAMEKQRTDLERAHIECEKFRDRCEKLKLRSEQLDKDNERLKGEL
QQIERMKLQAVAGDKARTEDRLEIERLRDKLEKAIQARDATEMEAGRLAKELEKSQMHLA
KYQETNETTRVEYDRMTNELGRMHERLERTILEMRQIEQERDALRTEIQNTRRNIEQQQR
TLDHRTQETLVKLQQELAQSVRDREKMASILEQRDKQADAIEKQIVKLEADTKQLTIERD
QLVAQLEKSQDMLVNFQRELNSSETELQKQREEVRRLKEEQRKMAQDSERGTKSVIESRD
REIAKLQQQVQNVSKEKDTFRQRAERAEKEAQKAGEIEKWKMAVESEKTKAIAAEKALSE
CQQRLQNLERQFQMQQQQLQQLQARGPSDVKEVQKQLEAAQAEARSLAVERERCQAQLEM
LVQELEKSQFDLREANKKLQATSQSARAGEDTAQARKQLQEEYKKLEDARKQFDENRRMV
ENKRKDVEDKEKSLMELDRQLKKRKEQMDQMEASLRKAGGSAAAVTDLNRKLGDTQKEAE
QLQQKLKGSEEECSRLAAETERLLQLVQMSQEEQAQKEKQIMELQQSIRNLQAKIKTQQQ
AQAQREEEITRARQSEIATITDLTNTLKDRDRLRTKLEESKMKIIDLEIELNESSLILSE
ILKISDSCELNNIKRSRSFFELQKSNKVVDRLDRGISKSHNDLISMKDGRQTNTRRLSQK
ITDMTREIGIKNAKIIEQQTCISMLEDALRESNNIAELEQLLAVVRSKDERINELEQFLD
KKPSTGDQGKRILELEEALKESVLIAAEREKVFYDEEQKRIETLRKMKKLEQRILSLQNA
SIMSCSTCSAVINKLKVVEDSLRNCDNNRREILTDLARVVQDLLESAITEKDTEIAQLEM
KGVLNEEDTITCDRLKNDKERLLHRLRVENERILNFDKAPTEQICEERGSVPVLTLADDL
MATGDGIAWVTDDAEPV