New model in OGS2.0 | DPOGS206597  |
---|---|
Genomic Position | scaffold408:+ 50008-59953 |
See gene structure | |
CDS Length | 2718 |
Paired RNAseq reads   | 1520 |
Single RNAseq reads   | 3758 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA013794 (8e-26) |
Best Drosophila hit   | fasciclin 2, isoform A (0.0) |
Best Human hit | neural cell adhesion molecule 1 isoform 1 (1e-53) |
Best NR hit (blastp)   | fasciclin II transmembrane isoform [Manduca sexta] (0.0) |
Best NR hit (blastx)   | fasciclin II transmembrane isoform [Manduca sexta] (0.0) |
GeneOntology terms    | GO:0005886 plasma membrane GO:0007156 homophilic cell adhesion GO:0008038 neuron recognition GO:0007528 neuromuscular junction development GO:0001746 Bolwig's organ morphogenesis GO:0007413 axonal fasciculation GO:0007611 learning or memory GO:0048149 behavioral response to ethanol GO:0016319 mushroom body development GO:0007614 short-term memory GO:0008355 olfactory learning GO:0008582 regulation of synaptic growth at neuromuscular junction GO:0030424 axon GO:0035158 regulation of tube diameter, open tracheal system GO:0035159 regulation of tube length, open tracheal system GO:0008360 regulation of cell shape GO:0048803 imaginal disc-derived male genitalia morphogenesis GO:0035152 regulation of tube architecture, open tracheal system GO:0007612 learning GO:0042734 presynaptic membrane GO:0016021 integral to membrane GO:0045211 postsynaptic membrane GO:0050803 regulation of synapse structure and activity GO:0005737 cytoplasm GO:0048667 cell morphogenesis involved in neuron differentiation GO:0050808 synapse organization GO:0005515 protein binding GO:0031594 neuromuscular junction GO:0042995 cell projection |
InterPro families    | IPR008957 Fibronectin type III domain IPR013783 Immunoglobulin-like fold IPR007110 Immunoglobulin-like IPR003961 Fibronectin, type III IPR003599 Immunoglobulin subtype IPR003598 Immunoglobulin subtype 2 IPR009138 Neural cell adhesion IPR013098 Immunoglobulin I-set |
Orthology group | MCL12430 |
Nucleotide sequence:
ATGCAACGAGCACAGTTTGTTGGGAAAAACTCCAGGATAAGGAAGGGTCTCTGTACGCTT
GCTGCATACCAAAAATGTGGTAAAAAATTCCATAGGTCTGCCATAAAAGAAGAAGAGAGC
AACGCCATAGAAATAAGGTTTGATTTAGAAAATCAAGGAAAAACTTTATCGACACGATGT
TCGTCGCAGACTCTCAGAATATTCCCGATGCAAAAGCAGCAGACTGTAGCTGTTGGTAAG
TCGGTAGTGCTGACATGCCAGGCAGACGCTCCAGATCCCGCACTTGTTACGCAACCACAG
TGGAGGGACCCTAAAGGATTGATTATAAACGAGGCTGCAGCTGGGACACGACCTGAAATT
TATACGGAACCAATGCCGGCAAAACAGCTTCAATTGCTATACATATCCTCCATAACTACT
GCAATGGCGGGCAATTACACCTGCGAAGCTGCATACACCAATATGCCTCTCAGCGCGAGC
GTTGTTTTGGACACTTTCGTCGCAATCACATGGAATAATGCTAATGAGAACCAATATGCG
ACCAAGGGTAAGGATTTTAAAGTCATGTGCGAAGTCACTGCTGAACCAGCTCCATCTGTA
GATTGGTTTAAAGAAGGCACTCCTATTATGACTGGCGATCGATATGTCATTCATGCAAAT
GGGTTGTTGATTAAAAGTGTTGAAGAAAGCGACGATGGCACATATACTTGTCGCGCTGTT
GTTATTCAAACTGGTGAATTAGCAGAGAGAAATATTAAACTTGAGGTGTACACAGCTCCT
GAAATGGAAGAAAGAGAACATAGAGTTGAAATTAAAGAAGGTGAATCTGCTGCGATTACT
TGCAAAGCGAGAGGGAAACCACCACCGACTTATTCCTGGATTAAAGCTTCCACTCGTGAG
AATTTGGCAACAACCTCCCGTTTCAGCGTGAACGAAAATACTGGATTGTTAACTTTCGAT
AGGGTAGAAGCTGGTGATTATGGCAAATATATCTGTAGCGCTGTGAACCAAGCTGGTCAC
AATGAAACAGAAATCGAAGTAGAAGTGCTCGTTAAACCGAAAATATTCGAGTTACTCAAT
ACAACTGCAGCAGAGAATACTGAGGGAAGATTGGAGTGTAAGGCGTCAGGACGCCCGGCT
CCTCGTATAAGTTTTAGGAAACTTAGCAATAATGATAGATTTTTGAATGGACCTAATGAT
GATGGAAGGATAACCATCGAAACCAGCAGTCGTCAGACAGGCGATCAAATGCAATCAACT
GCTTTAATGTCAATTTCGAGGCTCAACAGAACCGATGATGGACTTTATGAATGCGTTGCT
GAAAACGAAGGCGGAGAAGCAAGGAAAAATGGCCATCTCACAGTTCAATTCAGACCATCA
TTGGCCCATATGTCAAACGTACCTATTTGGAGTTGGAATGCACAACCCGTTAATATAAGT
TGTATTGCAGAAAGTATACCCAATGCCACTATTAAATGGAAATTCCACGATTATGATCTT
GTTGAATCGCCTCACGTCAAGATTTACGGTTCAGGGCCTATCAGTTATGTGACTATAACA
CCAATCGACCGAAGTCTATATGGCGTATATAAATGTATTGCCACAAATACTCTAGGTGAA
GCAGAACATCCTATACATTTCAGAGAAGCATTTGCACCCGGAATCGTCACACAGGCAAGA
CAAGAAACAATAACCGCGACATCGGTTTCATTTAATATCGTGGGCCCGGCCGAAGAAATG
GGACCGCCAATATCGGCTTACACAACCCAATACAAAGAAAACGGAAATTTCGATTGGAAT
TACGCGATGAATCGAACGTGGTCCGTCAATTCACCGTATATCGTTGAGAATTTGAAACCT
ATGTTTACATACGACTTTAGATTCGCGGCCGTTAACCAAGTCGGTGTAGGCCAATGGGGT
TCTCCGATTACAGTTATCATGCCCAGAAGATCACCACCGGAACAACCAAAGTGGAGAGAG
GCAATAAGTTCGGAATCATTAATCCATGGTAAATACGCTGACAAATATGAATTGCAATGG
CGAGTGCCTGCCCATAACGGAGAGCCGATTGATATGTATGAGATCAGTTATTGCTCAGTT
CTTAAAGTGAGCGGCGAATGGCGTGTATCGGACGAGTCGAACTGCGTTACGGAGGAACTG
AAGTCGTATGACGCAATAAGTTATGAGATCCGCAACCTTCATCCGGACACTCGTTACAGG
ATGCACGTCCGCGCTCACAACGTCCTGGGTTACTCGGTTCCAGCTCAACTTTACGTTCAA
ACCGCGCTCGGTGTGGAACGTTCTGGATTTGCGCCGCCTAAACTACTTTCAAGTGGAGCT
ATAATAGGAGTGGCTTTGGCTGGCGTTTTAATTTGCCTCATCATAGTGGACCTTCTACTG
CTTTGCTTCCGAAGACAGGGCGTTATTGCAACAATATGTGGCAAACGAGTTAAGAAACAC
TCGGATGACGAAGCGAAGCTGGGAAGTCTGTACGGTTGGCGCTTCCCGCTCCCTTATTGC
AGCACGAAGCCGCGTTCGCCGCCTTCCCCCGCGCCACTGCCGCCGCCCGTCAAGCTCGTG
TCGACACCTACAGATGAAAAGGAACCTCTTAAAGAGACTGGAGAAGACGCCATCAAAAGA
AACTCATCGGTAGAATTCGATGGACGTAGAGTATACGCCACCAGTGGAACAATTATTGGC
AAAAACTCCGCAGTTTAA
Protein sequence:
MQRAQFVGKNSRIRKGLCTLAAYQKCGKKFHRSAIKEEESNAIEIRFDLENQGKTLSTRC
SSQTLRIFPMQKQQTVAVGKSVVLTCQADAPDPALVTQPQWRDPKGLIINEAAAGTRPEI
YTEPMPAKQLQLLYISSITTAMAGNYTCEAAYTNMPLSASVVLDTFVAITWNNANENQYA
TKGKDFKVMCEVTAEPAPSVDWFKEGTPIMTGDRYVIHANGLLIKSVEESDDGTYTCRAV
VIQTGELAERNIKLEVYTAPEMEEREHRVEIKEGESAAITCKARGKPPPTYSWIKASTRE
NLATTSRFSVNENTGLLTFDRVEAGDYGKYICSAVNQAGHNETEIEVEVLVKPKIFELLN
TTAAENTEGRLECKASGRPAPRISFRKLSNNDRFLNGPNDDGRITIETSSRQTGDQMQST
ALMSISRLNRTDDGLYECVAENEGGEARKNGHLTVQFRPSLAHMSNVPIWSWNAQPVNIS
CIAESIPNATIKWKFHDYDLVESPHVKIYGSGPISYVTITPIDRSLYGVYKCIATNTLGE
AEHPIHFREAFAPGIVTQARQETITATSVSFNIVGPAEEMGPPISAYTTQYKENGNFDWN
YAMNRTWSVNSPYIVENLKPMFTYDFRFAAVNQVGVGQWGSPITVIMPRRSPPEQPKWRE
AISSESLIHGKYADKYELQWRVPAHNGEPIDMYEISYCSVLKVSGEWRVSDESNCVTEEL
KSYDAISYEIRNLHPDTRYRMHVRAHNVLGYSVPAQLYVQTALGVERSGFAPPKLLSSGA
IIGVALAGVLICLIIVDLLLLCFRRQGVIATICGKRVKKHSDDEAKLGSLYGWRFPLPYC
STKPRSPPSPAPLPPPVKLVSTPTDEKEPLKETGEDAIKRNSSVEFDGRRVYATSGTIIG
KNSAV