New model in OGS2.0 | DPOGS208019  |
---|---|
Genomic Position | scaffold843:+ 28276-52020 |
See gene structure | |
CDS Length | 3747 |
Paired RNAseq reads   | 58 |
Single RNAseq reads   | 154 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001493 (0.0) |
Best Drosophila hit   | straightjacket (6e-64) |
Best Human hit | voltage-dependent calcium channel subunit alpha-2/delta-4 (7e-34) |
Best NR hit (blastp)   | AGAP005490-PA [Anopheles gambiae str. PEST] (5e-116) |
Best NR hit (blastx)   | AGAP005490-PA [Anopheles gambiae str. PEST] (7e-101) |
GeneOntology terms    | GO:0005245 voltage-gated calcium channel activity GO:0005891 voltage-gated calcium channel complex GO:0031629 synaptic vesicle fusion to presynaptic membrane GO:0007274 neuromuscular synaptic transmission GO:0045886 negative regulation of synaptic growth at neuromuscular junction GO:0045202 synapse |
InterPro families    | IPR013608 VWA N-terminal IPR002035 von Willebrand factor, type A |
Orthology group | MCL39546 |
Nucleotide sequence:
ATGACGCAACAACTTCTCGATAGACCAGTCCTGTTCTTGTTCCGATGGGCACTCAGTGTC
GAATATTTTATCCGCTGTTGCCGCAGTCAGCAACAGAAATTACAAGAATGGGCTAAAGAA
ATATCTGATGCCTTATATATAAACGAAGAAGAAGTTGTGCACAGAGATATTTTGTTAGAA
GGATTCTCAGACATCCAAATTAAAACAAGAAACGGCACGGCCATTGCCGAACAGGCAGCT
AAAGCTCTAGAAGAGCTTCTAGATCGAAGAGGCAAAGCCGCAGAAGCTATCATGAGGAAG
GCGGAGCAGTTAGCGACCGACAGATCTGACCCACCCAACGACTATTATTATGATAACAGT
GTAGACATAAACGTCCTTAAGAAAGTACAGAAACCTGAAAACGAATGGGAACTAGTTTTA
AACTGCAGCAGTTTGAATAAAGTAGAGGTTTACAATAGCGCACACTTCGACGCTCAAGTT
TCTTTAGAACATACGAGCGTACATGTTGCTGTCGAGGTTTTTGAATGTGATCCCAGAGTA
CTCCCTGATATATATTGGTCGGAAGGGCTGTTTGAAGCATTTCGAGAAAATTACGCTCAA
GACGCCACACTCGACATGCAGTATATGTGTAGTGCTAAAGGATTTTTGAGACACTATCCT
GCTGCACTGTGGGATAGTATGTACAAATTGAAGATTGAAGATGGAGAAGCGTTGTACGAC
TGTAGATTGCGACCGTGGTACGTCAGTGCAAGCGGAGCTCCAAGAGATATTCTTATTTTA
CTCGATTCCTCGGGGTCTATGAGTAACTCGTCTAACCTTCTCATAGCGGAACAGTTGACT
CTGGCCCTCCTCAGCGCCCTCACAGACGACGATCAAGTCAACGTCCTCCGATTCAACGAA
ATTGTAGAATCTCCCATTCCATGCTTCAATGGAAAACTTGTGCCTGCCAACCATGTGAAC
TCAGCGGCCATGATGGATGCCCTCCAATATCAAAACACCTCCTGCGAGACCTGGATGGAT
CATGTGCTGGTGTACTCCGTTAATTTGCTGAAAGAAAGAAAAAAAGCTACAGACAGACCG
CCTTCCTGTCAACAGGCCATTGTCTTGATAACAGACAGTCTCTACGAAAATTACACTGAC
TTAATGAATGTATTAGACCCTGATGGAAGTATCAGGGTGTTTGTCCTATGGCTACATGAC
CCCAATGGGGTGAGAGATAGTACGCATTTCTATGGAGAATCGGTAAGCTGTTCTCGTGAT
GGATTCTTTGCGGAGTTGATCACCCATGCTGACGTCACGGAGAGAGTCATGAATATATTA
AGAGTACTAGAACGCCCTCTGGTATCTCAGAGGAAGCAGCGTCTGCGAGTCTACAGTGAT
GTATACGCCAATGTAGAGGATCCAAGACGGGGCGAATATTACTGGCAGCAGAAAGAAAAC
ACCGAACAAATGTATCGTTACACGCAACTCCGTCGCAACAAAGACAAGTTTCTCAATAGC
GATCGTCTTTACAGCGACTACCTGCATATGCATAAATTGGAAAAGTTTGGCCAATACTAC
GAAGGTCAGGATATTAACTACCGACTTCAGGTGACAGTCTCTGTTCCCGTGTTTGACAGC
ACCACATCTGAAACGAAGCCTCTTAGCATTCAATGGACTCACTGTGCGGGTGCCGGGTCC
ATCGCGTTGCAGGGAGAGGAGCATCAACAGTGCCTGGGACTTGCGACCCAGATAGGCGCA
GGCGGATCGCTCTTTCTTATTGACCATCGGGGAAACATTGTATTACATGAAAATGCAAAG
CCAGTCTTTGACGGTGACATTCTAAAGCCGGGGTATCGAACTGTGGACCTTCTTGATGTT
GAGCAACCAGCTGTTGAACACTGGCCCCGGCACTACCCTCAGGAATGGCTGGAGTTTAGA
AACACCTTAGTAGTCGAACAGCCTAGTGGAACTAAGACAATGTATGCCAAGAGTATTTTC
GATGAAGGTATGAGAGCTTTTTTGGAAATGAAGGAGTACCATTGGAAGAGGGTAAAGAAT
TACTACACGATCGTGGTGACTCTAACCAAATACAACAATAAGCATGCGGTCCCCGAAGCA
AAGTTTACACAGGCTCTAGCTAATGCCGCGATGAATGCATTGCATGGCACAGATTTTTCC
GTGCACCCAGACTGGTTGTATTGCCAGCACGTAGACCCCCACTTTGATACACGGGAAGCG
GAAGTTCTTCATTTCCTGAGGCGTCGTCGAGATGAACCCAATTTTTCGATGCGAAAGATC
AATCACGTGTTCTCACCCATAAAACCGACGTTACTAGAGAAAACTTACCAATGTAACGAG
GAACTAATGGCGAGATTCAGTAGAGAAGCAATCGCCACAAACTCGTGGACTAAGATCGCT
GAGAGCACAGAACATGCTTGCACAACCTGTCGACTCGGCTCGACGACCGCCTTCTTTGCC
AGCGAAAGCGGTCTAACCCGCTGGCAACAGTACCACGCGACAAGTCCCCACGCAGAGCCG
CCATCTGGTGGTGAGTGGCCTCGGGGGCCGGGAGAGACTTGGTACCGGCGAGCAAGTGCG
ACCCCAGACCTCATTGTACATGCGCCCGTACCCCCCATCAGACTGCTAAGGAACAGCTTC
ATTGAACCACCTGAGTTGGGCGAGCGATACAAGTGGTTGACTGCTGCGCGTATGATCGCG
CACGCCAATAAAGGAACCATCGGTGTCGCCGGCTACCACTTCCACCGGCAACACTTGAAG
GATGTGCTGAAATCAATAACTGACTTTCCTTGCGATGAAGAAGAAGAATGTGAACCACGC
TGCGACGGCGAGGAGTGGAGCTGTGTGCTCGTTGATGAAGGTGGTTGGATAGTATCAGAC
ACTGAGGAAGAAGACGAGGAGCAAGCAAAGGAACCTGTTACCCAACACCTGGCTAATGTC
TACCCAACAGCGATGTCAGCGCTGCTAAACGCTAGCATCTTCAAGCTGCATTGGATTCAT
GACTACCAAGCTGTTTGTTTCCCGTCAACTAAGGAGATAATACGGCCGAAACATAAAAAA
GTGAAGTCCAGCGCACCGAATCTACCGTCACTCATACGAAGTTTATGGACTTCGTTAAGT
GAAATACTACTTATAAGTCAGGAAATGTTTACTTTTCTCACCCTTCTAACTACAATACCA
GACGGTGTAAATGCAGACACGGAAGCAGAAAAAGAGAAACGTCGTAAAAAAATACGTCGG
GATTTCGAACGAGAGAAATATGAAAGACTGTTTGATCCTCGGGTACTTGTTAATAGAACA
CACTTCGCTGCTTGCGACAGATCCAGGGCGCTGTACGTGCTCCAGCGAAACCAAAGAGCT
ATGGAAGCTCTGAGAAGGAAGCCCCATCTTTGCAAGTGGCCCCTAGTGGGCACTGAAGTA
CCAAAGACCAACTTGTTGCTACTCGCAATCTACAAAGGGTGCCCTTTCACTGGCAAACCG
CTCAACGATCCCTTCATCAACGAACTGGTGTCGCTGGCTGATGATGAAGAAGGTCGCAGT
ATGGCGGCGCGACTCGCATGTTGGAGAACCCGCGTCCCTCTACCAGCTCGAGCACCCAGC
ACGCAATGTTTCCCACACCACTATGGAGATGAAGAGGGTTACCGTCAATGCGGTCCGTGG
CTGCCGGATCCACCAAAGAAATCAGCCGACGTTAAACACGTTACATTATTAATTAACTTA
CCAGTGATATTGATGTTATTAGCTTAA
Protein sequence:
MTQQLLDRPVLFLFRWALSVEYFIRCCRSQQQKLQEWAKEISDALYINEEEVVHRDILLE
GFSDIQIKTRNGTAIAEQAAKALEELLDRRGKAAEAIMRKAEQLATDRSDPPNDYYYDNS
VDINVLKKVQKPENEWELVLNCSSLNKVEVYNSAHFDAQVSLEHTSVHVAVEVFECDPRV
LPDIYWSEGLFEAFRENYAQDATLDMQYMCSAKGFLRHYPAALWDSMYKLKIEDGEALYD
CRLRPWYVSASGAPRDILILLDSSGSMSNSSNLLIAEQLTLALLSALTDDDQVNVLRFNE
IVESPIPCFNGKLVPANHVNSAAMMDALQYQNTSCETWMDHVLVYSVNLLKERKKATDRP
PSCQQAIVLITDSLYENYTDLMNVLDPDGSIRVFVLWLHDPNGVRDSTHFYGESVSCSRD
GFFAELITHADVTERVMNILRVLERPLVSQRKQRLRVYSDVYANVEDPRRGEYYWQQKEN
TEQMYRYTQLRRNKDKFLNSDRLYSDYLHMHKLEKFGQYYEGQDINYRLQVTVSVPVFDS
TTSETKPLSIQWTHCAGAGSIALQGEEHQQCLGLATQIGAGGSLFLIDHRGNIVLHENAK
PVFDGDILKPGYRTVDLLDVEQPAVEHWPRHYPQEWLEFRNTLVVEQPSGTKTMYAKSIF
DEGMRAFLEMKEYHWKRVKNYYTIVVTLTKYNNKHAVPEAKFTQALANAAMNALHGTDFS
VHPDWLYCQHVDPHFDTREAEVLHFLRRRRDEPNFSMRKINHVFSPIKPTLLEKTYQCNE
ELMARFSREAIATNSWTKIAESTEHACTTCRLGSTTAFFASESGLTRWQQYHATSPHAEP
PSGGEWPRGPGETWYRRASATPDLIVHAPVPPIRLLRNSFIEPPELGERYKWLTAARMIA
HANKGTIGVAGYHFHRQHLKDVLKSITDFPCDEEEECEPRCDGEEWSCVLVDEGGWIVSD
TEEEDEEQAKEPVTQHLANVYPTAMSALLNASIFKLHWIHDYQAVCFPSTKEIIRPKHKK
VKSSAPNLPSLIRSLWTSLSEILLISQEMFTFLTLLTTIPDGVNADTEAEKEKRRKKIRR
DFEREKYERLFDPRVLVNRTHFAACDRSRALYVLQRNQRAMEALRRKPHLCKWPLVGTEV
PKTNLLLLAIYKGCPFTGKPLNDPFINELVSLADDEEGRSMAARLACWRTRVPLPARAPS
TQCFPHHYGDEEGYRQCGPWLPDPPKKSADVKHVTLLINLPVILMLLA