| New model in OGS2.0 | DPOGS211421 |
|---|---|
| Genomic Position | scaffold337:+ 184984-197275 |
| See gene structure | |
| CDS Length | 4362 |
| Paired RNAseq reads | 365 |
| Single RNAseq reads | 870 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010901 (1e-122) |
| Best Drosophila hit | unc-5 (3e-67) |
| Best Human hit | netrin receptor UNC5C precursor (1e-95) |
| Best NR hit (blastp) | unc-5 [Tribolium castaneum] (4e-159) |
| Best NR hit (blastx) | unc-5 [Tribolium castaneum] (1e-152) |
| GeneOntology terms | GO:0004872 receptor activity GO:0007420 brain development GO:0007275 multicellular organismal development GO:0005042 netrin receptor activity GO:0016020 membrane GO:0016021 integral to membrane GO:0030334 regulation of cell migration GO:0005515 protein binding GO:0007165 signal transduction |
| InterPro families | IPR013783 Immunoglobulin-like fold IPR011029 DEATH-like IPR000215 Protease inhibitor I4, serpin IPR000884 Thrombospondin, type 1 repeat IPR007110 Immunoglobulin-like IPR000906 ZU5 IPR003599 Immunoglobulin subtype IPR003598 Immunoglobulin subtype 2 IPR013098 Immunoglobulin I-set IPR000488 Death |
| Orthology group | MCL10231 |
Nucleotide sequence:
ATGAAATTATTGTTGTTAGTGGCATTTTTGATCTCGATATGGACGTGTACGATTGGGAAA
AGACACAGAAAAAATAAATATCTTAAGTTTGATGGTAACGACACTGATGACTTCAATCAA
GAACCGTCGTTTAATGACACGGATTCAGCCATTCATTTGGATTTAAAAGGAGATCTCAGG
AAGTTATTCTTTGTGTTGAGCGCTGAGTCTAAACCGGAATCTAATACATTATGCTCGCCA
ATCTCAGCAATTTTGCCGCTTGCTAAATTGGCGTTGGGAGCTCAGGGGGACAGCTTGAAG
GAGTTACTTTCAGCTATTGGTGTCCGCAAAAGAGAGATGATCAGTAAACAGTTCAAGCCT
CTCCTGCTGCAGCTTCGTTACCTTCCCGGTGTAAGGCTCGATATCGCTAGTAGGCTGTAC
GTGTCCCAGAACGCTCGTCTTAACCGCAAGTTTGTAGATTTAGCACGAGACATATTTGAG
AATAGTGCCGCCAAGATTGACTTCAATTTCCCAACGTACGTCGCCGAGGAGATAAACGCC
TGGGTATCCTCACAAACCAATGGCATCATTAAAGACATGTTTGAGCCGACGGACATCTCA
CCGTCCTCTTCGTTGGTACTCGTCAATGCGGTGTATTTTAATGGTCGATGGGAAACTCCG
TTTGAAAGTGTTAAAATTGGAACGTTTCACACAACGACCAGCCAGAAAACCATACAAATG
ATGTCTCTCAATGGAGAATTTAATTATACATCCAGTGAGGCTCTGGGATCTCAGGTAATC
AGTATCCCGTACTCCGGAGGTCGCGCATCCCTGGTGCTGGTGTTGCCTTTGTCTCGGACC
GGTCTGCCGCCTCTCTTGCACGCCCTCAGACTCGCGCCCTGGATGCTGCGGGCCGTCTTC
GATGAGATGACCCACACGCGAGTACACATCACCATGCCTAAGTTCAGTGTCACCTCTGAG
CTTGACCTCGCGACAGCATATAAAAAGTTAGGCCTCAAAACAATTTTCGACGCGAACCTC
TCGGGCCTGCTGACGATAGTACGAGACGAGAAAATTTTCATTTCAAATGCGAAACACAAA
TGTTACATAGAAGTGAACGAGTATGGGACGGAGGCTGCCGCGGCTTCCGGTACGGTATTA
ATGAAGTTGTCTCCTTCCAAGCCGATAGATTTCCACGCTGACCACCCGTTTCTGTACTTC
ATAATGGTGAATGACCAACAATTATTTTCCGGGACCCGTAATATTTCAATATTTTTAGAT
GCACACTCTCGGACAGGTGTCGTAATACCCGATGTAGATAGTAATGGCGACACGAACAGA
CCTTTAGACCTCCTAGCGAGTCCAAATGAAGCGAAAGACTACTTTCTACCCCCGGTTTTC
CCCCACACTGATGACGTAGACGAGGATGATGACGAAGAAGAAGATCACTCTTATTTAGAT
TACGATTATGATCACAAGGAAATCAATTACAAAGATTCCCCTGATATAGTAACCGTTAAA
AGCGACTATCAGGAGGTACTCCCGATAGATGATAAAATACCGTTGCACACAGCTAAAGAT
AACTTGCCAGTTTTTCTTTTGGAACCAGAAAATACCTACGTCGTTAAAAATAAGCCAGCA
ACGCTTAAGTGTCGTGCCGCTAATGCCTTAGAAGTTTATTTCAAATGCAATGGCATTAAA
ACCGAAGCTCTCAATTTTGAATTCGTGGATCCCCAAACCGGAGTCAGAATTATAGAGGGC
GAGTATAAAGTAACGAGGGAACAGGTCGAGGAATACTTTGGCACAGAGAAGTACCAATGT
TCCTGTTTCGCCTGGACGAGCCGCGGACAGATAAGGAGCCAACCAGCGACTATAGAACTC
GCTTATATAAAGAAGCACTTCTCAGCATCTCCCCAGTCCCAGCTGGTGAAGCAGTATTCT
GCTGTAACATTCCGTTGCGAGGCCCCTCCAGCTGCTCCCTTCGCCCAGGTCTACTGGCTG
AAGAACGGAGCACCTATCGCCGTCGATGACAACGTGCACATTAACAAAGAAGGAGATCTT
GTGATCAAACAGGCCTCTCTTCTGGATATGGCGAACTACACGTGCGTCGCCGAGAACCTC
GCCGGCAAACGGCTATCCGAGCCGGCTCTGCTCACAGTGTTTGTGAACGGCGGCTGGTCA
TCATGGTCGACTTGGTCTGAGTGTTCATGTGCTGGCGGAGGTCGTCGTCGAGAGAGAACC
TGCACTCACCCTCGCCCCCTCAACGGCGGACAGCCTTGCTCTGGACCCGCGGTGCAACGA
ACACCTGAATGCACTCATTGTGAACTAGATGTCTACATGGATAGTTTGGATGAGTTGGCA
GATGAATCACCTGATGTCGTGTTAGGTCACTGGTCACAGTGGTCGGAGTGGTCATCCTGC
GACACAGACTGTCTTCGTTCCCGACGTCGTCGTTGTGTCTCTGGACCCTGTCGTGGCCGC
GACGCACAACTGGCGCCCTGTCCGCTATGCGTACGGACTGCTAATGCGCATGCACATGGT
GCATCATACTGGCCGCTCCTGATTGCCTTATCGATAGCTTTTCTAATATTTGTTGTTGTT
GTTGTACTCGGCATTAAGTATATGAAGATGAAAATTGCTGAAAACTCTCCCTACGTAAAG
CCTCCTCCGGGTACGAATTACTTCGGTAACGTTATAAAAAGGACTCTTACTAATCAACCG
GACTTGACGATACACGAGGAGTTCCACACAATGGATTCAAGACGAACAAACAGACAGACG
AACAGCATCAATAATAGAAACGAACACTTGTATGAAGTCCCGCAATTGGCTAACAGCTAC
ATCGCGCCATTAGATCACGAGGTAAGAAACCATGGAGTGGAGACATTCGCTTGCAAGGAC
AAGGAGTCAGACCGCTCTGACTCCAGCTGTTTCTTGAGCTGTGAGTTCATAGCACATACG
GGTTCGTCGTATGGAAATGAAAGTGTAGAAATGTCACCTTCGCTCAAAAATAACGCGTCT
GTTAATTCGAAATTTTTAAATTGTCAATATTTAGAGACTGCTACATCCAAAATTGTAAAC
GGTGACGGCGATTGGCTAAATTTGGATAAATGTGGGGTCAGATTATATATTCCGGACGGC
GTGGTTGAGAAAGGCGAAGAGTTATTCTCTATTGAGGTCACAGACGAAGAGTGGAACAAA
CCGCTTCTACAAGAAGGTGAAACACAACTTAGTCCAATAATTCGATGCGGGCCGAAGAAT
GTCCATTTCTGCAAGGCAATGATACTCACATTCCCTCATTGCGTAGCCTTGAAGAACTCT
AGCTGGATACTGTCAATACTTCAGAAGCCCGAAGAAATCAACTGTAGAGAATGGAGGAAG
GTCCTAACATTGGGGCAGGAAACCCCGGGAAGCCCCATATTCGCTCAAGTCGATCCTTTA
AAAGTGTACATCGTGTGCGAATTTCTCAGTGACTTCGTTTTAATCGGTAGAAGCTTTAAT
GCTCTAGATGCCAAATTGTTAAAAGTAGCTCTTTTTCTTGGTAAACGTTCTGACGGCTAC
TACAACCTGCACGTCCACGCGTTTCATGACACTCCTTACGCCTTGTACGAATGTTTCGAA
AGCGAGAGACGTACGGGCGGGCTTCTTCTCTGTGATCCGAAAACTATTTATTTTCAAGAG
AATTGCTCTGATCTGTGTGTCAATGTTCGGGATGTGGGAGTGGGATGGAAGATCCAATCA
GGAAATAAATATCAGGAGCTTCCGTTTGCCCAATTATGGAATATGAATGTCCGATCTCTG
CATTGCCTTTTTGTTTTACAACAGGTGGATGCTATAAATTGTTTAGACCTAAACGTCACG
GTTTATCAAAAACAAAGGCAGTCGAATTCGGTAAATTTCAATTTGAAAACAAACGATTTT
AATTCGAATCTGAATTGTAATAAACGGTTCAGCTATTCGGGCGTAGAGATCGGTTACAGC
GTTAATATCCTCGAGAATCCGTTCAATTATTCATCGTTATCGAAAAAAGAGGCCAGATAT
GATTTCGTTTACAGAAACAGTTTGCGTAGGAACAGTTACAGCTTGGATAATAATTGCTAC
AGAACAAACGTTCTGACCAAGTCTGACAGGGTGATACTCTGCAAGTTGTTGGATTGTCAG
ACGACTAAAGGTAACGACTGGAGGTTGCTCGCGGAAAAATTAAAGCTAACGTCCTTCTAT
TACTATTTCTCTAACACTTGCTCTCCGACTGAGAATATATTGAATCTTTGGTTATGCAGA
AACAACGATGTCAATATGTTAATAAGTTTATCGCGGGTGTTTAGGGAGATGTCTCGGATA
GACTGCGCGACTGTTATCGAAAGGCGCTGTTTTCCTAATTAG
Protein sequence:
MKLLLLVAFLISIWTCTIGKRHRKNKYLKFDGNDTDDFNQEPSFNDTDSAIHLDLKGDLR
KLFFVLSAESKPESNTLCSPISAILPLAKLALGAQGDSLKELLSAIGVRKREMISKQFKP
LLLQLRYLPGVRLDIASRLYVSQNARLNRKFVDLARDIFENSAAKIDFNFPTYVAEEINA
WVSSQTNGIIKDMFEPTDISPSSSLVLVNAVYFNGRWETPFESVKIGTFHTTTSQKTIQM
MSLNGEFNYTSSEALGSQVISIPYSGGRASLVLVLPLSRTGLPPLLHALRLAPWMLRAVF
DEMTHTRVHITMPKFSVTSELDLATAYKKLGLKTIFDANLSGLLTIVRDEKIFISNAKHK
CYIEVNEYGTEAAAASGTVLMKLSPSKPIDFHADHPFLYFIMVNDQQLFSGTRNISIFLD
AHSRTGVVIPDVDSNGDTNRPLDLLASPNEAKDYFLPPVFPHTDDVDEDDDEEEDHSYLD
YDYDHKEINYKDSPDIVTVKSDYQEVLPIDDKIPLHTAKDNLPVFLLEPENTYVVKNKPA
TLKCRAANALEVYFKCNGIKTEALNFEFVDPQTGVRIIEGEYKVTREQVEEYFGTEKYQC
SCFAWTSRGQIRSQPATIELAYIKKHFSASPQSQLVKQYSAVTFRCEAPPAAPFAQVYWL
KNGAPIAVDDNVHINKEGDLVIKQASLLDMANYTCVAENLAGKRLSEPALLTVFVNGGWS
SWSTWSECSCAGGGRRRERTCTHPRPLNGGQPCSGPAVQRTPECTHCELDVYMDSLDELA
DESPDVVLGHWSQWSEWSSCDTDCLRSRRRRCVSGPCRGRDAQLAPCPLCVRTANAHAHG
ASYWPLLIALSIAFLIFVVVVVLGIKYMKMKIAENSPYVKPPPGTNYFGNVIKRTLTNQP
DLTIHEEFHTMDSRRTNRQTNSINNRNEHLYEVPQLANSYIAPLDHEVRNHGVETFACKD
KESDRSDSSCFLSCEFIAHTGSSYGNESVEMSPSLKNNASVNSKFLNCQYLETATSKIVN
GDGDWLNLDKCGVRLYIPDGVVEKGEELFSIEVTDEEWNKPLLQEGETQLSPIIRCGPKN
VHFCKAMILTFPHCVALKNSSWILSILQKPEEINCREWRKVLTLGQETPGSPIFAQVDPL
KVYIVCEFLSDFVLIGRSFNALDAKLLKVALFLGKRSDGYYNLHVHAFHDTPYALYECFE
SERRTGGLLLCDPKTIYFQENCSDLCVNVRDVGVGWKIQSGNKYQELPFAQLWNMNVRSL
HCLFVLQQVDAINCLDLNVTVYQKQRQSNSVNFNLKTNDFNSNLNCNKRFSYSGVEIGYS
VNILENPFNYSSLSKKEARYDFVYRNSLRRNSYSLDNNCYRTNVLTKSDRVILCKLLDCQ
TTKGNDWRLLAEKLKLTSFYYYFSNTCSPTENILNLWLCRNNDVNMLISLSRVFREMSRI
DCATVIERRCFPN