New model in OGS2.0 | DPOGS209332  |
---|---|
Genomic Position | scaffold469:- 9275-22998 |
See gene structure | |
CDS Length | 5340 |
Paired RNAseq reads   | 657 |
Single RNAseq reads   | 1802 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA002952 (0.0) |
Best Drosophila hit   | Cadherin-N, isoform D (0.0) |
Best Human hit | cadherin EGF LAG seven-pass G-type receptor 2 precursor (2e-84) |
Best NR hit (blastp)   | GK18219 [Drosophila willistoni] (0.0) |
Best NR hit (blastx)   | GK18219 [Drosophila willistoni] (0.0) |
GeneOntology terms    | GO:0005911 cell-cell junction GO:0016021 integral to membrane GO:0007156 homophilic cell adhesion GO:0005886 plasma membrane GO:0016339 calcium-dependent cell-cell adhesion GO:0007413 axonal fasciculation GO:0050839 cell adhesion molecule binding GO:0004872 receptor activity GO:0005887 integral to plasma membrane GO:0007155 cell adhesion GO:0007412 axon target recognition GO:0008013 beta-catenin binding GO:0007411 axon guidance GO:0005509 calcium ion binding GO:0050774 negative regulation of dendrite morphogenesis GO:0048846 axon extension involved in axon guidance GO:0016318 ommatidial rotation GO:0031290 retinal ganglion cell axon guidance GO:0045467 R7 cell development GO:0045463 R8 cell development GO:0048841 regulation of axon extension involved in axon guidance GO:0048676 axon extension involved in development |
InterPro families    | IPR002126 Cadherin IPR000233 Cadherin, cytoplasmic domain IPR012680 Laminin G, subdomain 2 IPR006209 EGF IPR013111 EGF, extracellular IPR008985 Concanavalin A-like lectin/glucanase IPR015919 Cadherin-like IPR002919 Protease inhibitor I8, cysteine-rich trypsin inhibitor-like IPR006210 Epidermal growth factor-like IPR001881 EGF-like calcium-binding IPR001791 Laminin G domain IPR000742 Epidermal growth factor-like, type 3 IPR000152 EGF-type aspartate/asparagine hydroxylation site IPR013032 EGF-like region, conserved site IPR020894 Cadherin conserved site IPR018097 EGF-like calcium-binding, conserved site IPR013320 Concanavalin A-like lectin/glucanase, subgroup |
Orthology group | MCL10193 |
Nucleotide sequence:
ATGACGGGCGCTATCTATGTAGCGGGTGCACTCGACTATGAAACTAGGAAACGGTACGAG
TTGAAGTTGGCTGCTTCGGACAATCTAAAAGAGAACTATACGACAGTGGTTATCCACGTA
AAGGATGTGAATGACAACCCACCAGTGTTCGAGAGACCGACCTATCGTACCCAAATCACA
GAAGAAGATGACCGCAATCTTCCCAAGCGTGTGCTTCAGTACGAGCTCACCTTGGTGGCG
TCGGACGGCAGAAACGAGAACTCAACTCGTGTGGTGGTCCACGTACTAGATATCAACGAT
TTGCCACCTCGGTTCTCGCGCAGCGCATATATCACCCAGGCCTTAGAGGAAACAGGACCC
TACCCCCACTTCCTTATACAGGTCACTGCGACAGACGGCGACAAGGATAGGCAACAAAAT
ATTGTTTATTTCCTTACCGGCCAGGGTATTGACCCAGATAATCCTTCAAATAGCAAATTC
GACATCAATCGAACGACAGGAGAAATCTTTGTCCTTAAGCCCTTAGATCGAGATCAACCT
AATGGACGGCCTCAGTGGAGATTTACAGTATTTGCTCAAGATGAAGGTGGAGAAGGACTT
GTAGGTTATGCCGATGTACAAGTTAATCTTAAGGACATTAATGACAATGCACCTATTTTC
CCACAAGGTGTTTACTTTGGTAATGTAACAGAAAATGGTACAGCGGGAATGGTTGTTATG
ACAATGACTGCAATTGATTATGATGATCCAGCTGAGAGTAACAATGCAAAACTTTGGTAT
TCCATCGAGAAAAATGTTATCGAGGAAGAGACAGGATCTCCAATTTTTGAAATCGAACCA
GAAACCGGGGTCATTAAAACTGCGGTGTGTTGTTTGGATCGTGAAAGAACTCCAGATTAT
TCTATACAAATAGTAGCTTCGGATGGAGGGGGGTTAAAAGGAACAGGTACAGCATCAATC
AGAGTTAAAGATATAAATGATATGCCGCCTCAATTCACAAAAGATGAATGGTTCACAGAA
GTAGATGAAACAGATGGAACGAATTTACCTGAAATGCCGATACTCACAGTAACAGTTCAC
GATGAAGATGAAACTAATAAATTCCAATACAAGGTTATAGAAAACAGTGGATATGGTGCT
GATAAATTTACAATGGTTAGAAATAATGATGGGACTGGATCCCTTAAAATTGTACAGCCA
TTAGATTATGAGGATCAGTTGCAAAGTAACGGTTTTAGGTTCAGAATACAAGTAAATGAT
AAAGGTGAAGACAATGATAACGATAAGTATCACGTAGCTTATTCATGGGTAGTTGTGAAA
CTTCGAGATATAAATGACAACAAACCACAATTTGAACGAGCAAATATTGAAGTATCTGTG
TATGAAAATGCAGAAGTCGGAAAAAGCCTCGAAACATTCAAAGCCACGGATCCAGACCAA
GGAGGTAAAAGTAAAGTCTCGTACGCTATTGATAGATCCTCTGATAGGAAACGTCAATTT
TCAATTAACCAGGAAGGTACTGTTAGCATCCAAAGATCTTTAGATAGGGAAGATACACCC
AGACATCAAGTTAAAATTTTGGCTATTGATGACGGTGTTCCTCCAAGGACAGCAACAGCC
ACTTTAACAGTAATCGTACAGGATATAAACGATAACGCACCTACATTCCTAAAAGACTAT
AGACCCGTTTTAACTGAACATATAACACCTAAAAAAGTGGCTGAAATTCTAGCAACAGAC
GACGATGATAGATCTAAGAGCAATGGTCCACCATTCCAATTTCGACTAGATCCGGGTGCT
GATGATATTATAAGAGCCTCTTTCAAGGTCGAACAAGACCAAAAAGGTGCAAACGGTGAT
GGTATGGCAATTGTTTCATCCTTAAGATCATTTGATAGAGAACAACAAAAGGAATATCTC
ATTCCCATTATTATAAAAGATCACGGTAATCCAGCTATGACTGGAACGAGCACTTTAACA
GTCGTAATTGGTGATGTGAATGACAATAAAATGCAACCAGGTTCTAAGGAAATCTTAGTT
TATAATTATCAAGGGCAAGCACCAGATACAGAAATTGGAAGAGTATACGTATATGATTTG
GATGATTGGGATTTACCAGACAAGAAATTTTTCTGGGAGAGTTCAGAACATCCTAACTTT
ACATTAAATGAAGAAACTGGAATGATTCAAATGAAACACAAAACAAGAGAAGGTAGATAT
CACTTAAAATTCAAAGTATACGATCGAAAACATACGCAAACTGATGTACCTGCAAATGTT
ACCGTTTATGTCAAAGAAATTTCGTCTGAAGCAATCATGAATTCGGGTTCTATAAGAATA
TCAGGTATATCTGACGAAGATTTTATAAGAGTATGGAATTATAAAACTTTAAGTGTTTCT
AGAAGTAAGTTAGATATATTCAAGGATAAATTAGCGGATTTGCTTAACACAGAACGTGAA
AACATCGATGTATTCAGTGTACAACTGAGGAAAAAACATCCACCTGTAACTGATATTCGT
TTTTCTGCCCATGGAGCTCATTACTACAAACCAATACGATTAAATGGAATAGTACTTATG
CATAGAGAAGAAATAGAAAGAGCCGTAGGAATCAATATAACCATGGTAGGAATAGATGAA
TGTCTTTACGAAAACCAAATGTGCGAAGGTTCTTGTACTAATGTTCTTGATATTAGCAAC
TTACCTTATATGGTTAATTCAAATAAAACAGCACTTGTTGGCGTTCGTGTTGATGTTATT
GCGGAATGTACTTGTGGTGCTAGAAATTTCACTCAAGCTGAAACTTGTCGTAACTCGCCA
TGCTATAACGGTGGTAGATGTATAGAAGGTAAATATGGATTGACTTGTTCATGTCCGCCC
GGATATACAGGACCTAGGTGTCAACAGACATCACGGAGTTTTAGAGGTACAGGTTGGGCC
TGGTATCCTTCGTTAGAAATGTGTGATAGCTCTCATTTAAGTTTTGAGTTTATTACCAGG
AAGTCCGAAGGAGTTTTACTTTATAATGGACCAATTGTTCCGCCCGAACCAGAAGAAATA
GTTGTATCCGACTTCATTTCAGTTGAATTAGAAAGAGGAAATCCAAGATTATTAATTGAT
TTTGGATCAGGTACACTAGAGTTGAGGGTAAAAACTAAAAAATCTTTAGATGATGGTGAG
TGGCATAGACTAGACATATTTTGGGATACCGAAAATGTCAGAATGATCGTTGATTTCTGT
AAATCGGCGGATATTCAGGAAATGGAAGACGGAACTCCACCCGAATTTGATGACTCAACT
TGTCAAGCATCTGGAACGATACCACCATTTAACGAATATTTAAATGTCAATGCACCTTTA
CAAATTGGTGGATTATACATTGAACATTTTGATCCTACACACTACCATTGGCAGTACATG
CCAATTGGAAAAGGATTTGATGGGTGTGTTAGAAATCTAATACACAATAGTAAATTATAT
GATTTAGCACATCCTGGTCTCTCTAGAAATTCTGTAGCTGGGTGTCCGCAAACAGAAGAA
ATTTGTAATCAGGCTGACACAACAACAAGATGTTGGGAACATGGCACTTGTGTTGGAAGT
TTCTCGGAAGCTAGATGCCAGTGCCAGCCTGGTTGGACGGGACCATCGTGTAATCTACCA
ACAACACCAACAAGTTTTAGACCACAGAGCTACGTAAAATTCGCATTGAGCTTTGAGCCT
GACAGGTTTAGCACACAGGTACAACTAAGGTTTAGAACTAGGGAACCTCATGGAGAACTT
TTTCGAGTAAGCGATCAACACAACAGAGAATATGGCATTTTGGAGGTTAAGGATTCACGG
TTACATTTCCGTTATAACTTAAATTCCTTACGGACGGAGGAACGTGATGTTTGGTTGAAT
TCCGTGCCAGTGGATGATGGACAGTGGCATATAGCTAGAGTGAGCCGATATGGTAGCGCT
GCGACCCTCGAAATCGATGGAGGAGAAGGCAGAAGATATAACGAAACATTTACATTTGAA
GGCCATCAATGGCTACTGGTAGATAAACAGGAGGGTGTATATGCTGGAGGCAAGGCCGAA
TACACCGGCGTTCGAACGTTTGAAGTATATGCAGATTTTCAGAAAGGTTGTCTAGATGAC
ATAAGATTAGAAGGTAAACATTTACCGTTGCCGCCGGCGATGAACGGAACTCAATGGGGT
CAAGCAACAATGGCCAGAAACTTAGACCGGAACTGCCCCTCTAACAGTCCCTGTATAAAC
GTTCACTGCACCGAACCCTTCGTCTGCGTCGACCTCTGGAATGAATATGAATGCACTTGC
GGTGAGGGTTTGGTATTGTCTGGTGACGGAAAAGGTTGCGTAGACAAGAACGAATGTCTC
TACTTCCCTTGCCGAAACGGGGGTTCGTGTGTCAATCGCGAACCAGGGTACCGCTGCCAC
TGTCCAGAAGGGTTCTGGGGCGAGAATTGCGAACTTGTACAGGAAGGACGAACGCTGAAA
CTCAGCATGGGCGCCCTGGCGGCCATCCTCGTCTGCCTCCTTATTATCATGAAGGTAAAG
CGCACAATGTATAGGTGTCCGGGTGGATCGACTCGGTCTGGCGGTACGTGTGTGAACGTG
AACGAGTGCCTGAACAATCCGTGCTTGCACGGCGGCAAGTGTGTGGATCGCGATCCAGCA
CGCCGCTACGACTGCATATGCACGTTCGGATACGCTGGACATGACTGTGAACTAGAACTT
CTTGCCTCCGGAATCATCATGCCCTCCAGGGATTTCATTATTGCTATCATTGTCTGTTTG
TTTTTGCTTTTAGTCCTAGTTCTGGTATTTGTGGTGTACAATCGCCGTCGAGAAGCCCAT
ATAAAGTACCCGGGACCGGACGACGACGTTCGTGAAAATATTATTAATTACGATGACGAG
GGCGGCGGTGAAGATGACATGACTGCATTTGACATCACTCCTCTACAGATACCCATCGGT
GGACCGTTACCGGATCACGTACCTACAAAATTACCATATCCACTGATGGGTGTAGGTTTG
GGAGTGGGTCCAATGGGGGTATCGGTCGCCCCCGCGGTGGTACCACTTCCAGGGGAGACG
AACGTTGGCATGTTCATCGAAGACCACAAACGACGTGCTGACAGTGACCCTAACGCACCA
CCCTTTGACGATCTCAGGAATTACGCGTATGAAGGTGGTGGCAGTACTGCGGGCTCCCTC
TCGTCCCTTGCTTCTGGTACCGACGATGAGGTACACGACTACGACTATTTGGGTGCCTGG
GGTCCTCGTTTCGACAAACTGGCTGATCTCTACGGGCCCGAACTCGACGAGCAACTGTAA
Protein sequence:
MTGAIYVAGALDYETRKRYELKLAASDNLKENYTTVVIHVKDVNDNPPVFERPTYRTQIT
EEDDRNLPKRVLQYELTLVASDGRNENSTRVVVHVLDINDLPPRFSRSAYITQALEETGP
YPHFLIQVTATDGDKDRQQNIVYFLTGQGIDPDNPSNSKFDINRTTGEIFVLKPLDRDQP
NGRPQWRFTVFAQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVM
TMTAIDYDDPAESNNAKLWYSIEKNVIEEETGSPIFEIEPETGVIKTAVCCLDRERTPDY
SIQIVASDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEVDETDGTNLPEMPILTVTVH
DEDETNKFQYKVIENSGYGADKFTMVRNNDGTGSLKIVQPLDYEDQLQSNGFRFRIQVND
KGEDNDNDKYHVAYSWVVVKLRDINDNKPQFERANIEVSVYENAEVGKSLETFKATDPDQ
GGKSKVSYAIDRSSDRKRQFSINQEGTVSIQRSLDREDTPRHQVKILAIDDGVPPRTATA
TLTVIVQDINDNAPTFLKDYRPVLTEHITPKKVAEILATDDDDRSKSNGPPFQFRLDPGA
DDIIRASFKVEQDQKGANGDGMAIVSSLRSFDREQQKEYLIPIIIKDHGNPAMTGTSTLT
VVIGDVNDNKMQPGSKEILVYNYQGQAPDTEIGRVYVYDLDDWDLPDKKFFWESSEHPNF
TLNEETGMIQMKHKTREGRYHLKFKVYDRKHTQTDVPANVTVYVKEISSEAIMNSGSIRI
SGISDEDFIRVWNYKTLSVSRSKLDIFKDKLADLLNTERENIDVFSVQLRKKHPPVTDIR
FSAHGAHYYKPIRLNGIVLMHREEIERAVGINITMVGIDECLYENQMCEGSCTNVLDISN
LPYMVNSNKTALVGVRVDVIAECTCGARNFTQAETCRNSPCYNGGRCIEGKYGLTCSCPP
GYTGPRCQQTSRSFRGTGWAWYPSLEMCDSSHLSFEFITRKSEGVLLYNGPIVPPEPEEI
VVSDFISVELERGNPRLLIDFGSGTLELRVKTKKSLDDGEWHRLDIFWDTENVRMIVDFC
KSADIQEMEDGTPPEFDDSTCQASGTIPPFNEYLNVNAPLQIGGLYIEHFDPTHYHWQYM
PIGKGFDGCVRNLIHNSKLYDLAHPGLSRNSVAGCPQTEEICNQADTTTRCWEHGTCVGS
FSEARCQCQPGWTGPSCNLPTTPTSFRPQSYVKFALSFEPDRFSTQVQLRFRTREPHGEL
FRVSDQHNREYGILEVKDSRLHFRYNLNSLRTEERDVWLNSVPVDDGQWHIARVSRYGSA
ATLEIDGGEGRRYNETFTFEGHQWLLVDKQEGVYAGGKAEYTGVRTFEVYADFQKGCLDD
IRLEGKHLPLPPAMNGTQWGQATMARNLDRNCPSNSPCINVHCTEPFVCVDLWNEYECTC
GEGLVLSGDGKGCVDKNECLYFPCRNGGSCVNREPGYRCHCPEGFWGENCELVQEGRTLK
LSMGALAAILVCLLIIMKVKRTMYRCPGGSTRSGGTCVNVNECLNNPCLHGGKCVDRDPA
RRYDCICTFGYAGHDCELELLASGIIMPSRDFIIAIIVCLFLLLVLVLVFVVYNRRREAH
IKYPGPDDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPLPDHVPTKLPYPLMGVGL
GVGPMGVSVAPAVVPLPGETNVGMFIEDHKRRADSDPNAPPFDDLRNYAYEGGGSTAGSL
SSLASGTDDEVHDYDYLGAWGPRFDKLADLYGPELDEQL