New model in OGS2.0 | DPOGS208708  |
---|---|
Genomic Position | scaffold338:+ 28172-46609 |
See gene structure | |
CDS Length | 2067 |
Paired RNAseq reads   | 534 |
Single RNAseq reads   | 2363 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA003353 (1e-47) |
Best Drosophila hit   | division abnormally delayed (7e-25) |
Best Human hit | glypican-5 precursor (1e-20) |
Best NR hit (blastp)   | PREDICTED: similar to dally [Tribolium castaneum] (9e-57) |
Best NR hit (blastx)   | hypothetical protein TcasGA2_TC014566 [Tribolium castaneum] (5e-44) |
GeneOntology terms    | GO:0008315 meiotic G2/MI transition GO:0005576 extracellular region GO:0019897 extrinsic to plasma membrane GO:0007399 nervous system development GO:0016055 Wnt receptor signaling pathway GO:0008101 decapentaplegic receptor signaling pathway GO:0007179 transforming growth factor beta receptor signaling pathway GO:0008052 sensory organ boundary specification GO:0051726 regulation of cell cycle GO:0016020 membrane GO:0005578 proteinaceous extracellular matrix GO:0043395 heparan sulfate proteoglycan binding GO:0048190 wing disc dorsal/ventral pattern formation GO:0008407 bristle morphogenesis GO:0008586 imaginal disc-derived wing vein morphogenesis GO:0007480 imaginal disc-derived leg morphogenesis GO:0007472 wing disc morphogenesis GO:0040014 regulation of multicellular organism growth GO:0045570 regulation of imaginal disc growth GO:0007409 axonogenesis GO:0048813 dendrite morphogenesis GO:0005515 protein binding GO:0022416 bristle development GO:0048749 compound eye development GO:0035220 wing disc development GO:0009986 cell surface GO:0048132 female germ-line stem cell division GO:0030513 positive regulation of BMP signaling pathway GO:0030718 germ-line stem cell maintenance |
InterPro families   | IPR001863 Glypican |
Orthology group | MCL14229 |
Nucleotide sequence:
ATGTATTTTTTTGGTAGAGTCGTTTCAATACAGCATATTTTTGCTAAATTAACATTATTT
TCTTGCACAGGTTCTATATGCGGTGGCCAGTGTTGCAGACGAGCTGGTGAGCTAAAACTG
AGGAGTGTGTTGAGAAAAACAGCTGAACAGCGAGTGTCCAGCGCCACGAAACCTATAACA
GAATTACTGCTGGCAACTAGACGAACACTTGAAGAGCACCTGACAGCACTGTCTTACCAG
TCACAGAACAAAACATCTGTACTCTTCTCACAATTGTACCGGAGTCATGCGTCACGGACC
CACGTGCATCTGTCAGCTCTCTACGACGACATCAGGCTACTCATCAGACCGGGTCGAGAT
GACGAGCTTGGCTCTCCACCACCGAAGGACATGCGTGTCAGTACGAAGAAGTTCTTCAGA
GATGTCTTCCCGGTCGCCTACCAGAACGTCCTCCGTCTGGACAGCAAGCAGTTCACACCG
GAATACGAAGCATGTCTTCAGGACGCCTACGAAGCTGTGCAACCATTCGGCGATGTCCCA
CAGCAACTTGGAGCGTCAATGTCTAGATCATTGGAATCGGCACGCGCTTTGCTGCAAGTT
ATATCTGTTGGTGCGAGTGCGCTAACAGCCAGCGAACAGGTGCTGTCGAATGCTGATGAG
GAATGCGGCAACAAACTGCTGCTGATGGGAGGCTGTTCTAGATGTAAAGGACACGACGTC
AGCCCATGTCGGAACTATTGCTTGAACGTGGCTAGAGGGTGTATAGGGTCCCTTGTAGTT
GAGTTGGATGCTCCATGGGCTGGTTACGTGGAAGGAGTAGAGCGTCTGGCGAGAGCTGAT
GCTGATGCAGAGCTTCGTTCACTGGACGCCAGAGTGTCTGAAGCAATCATGCACGCCTTG
GAGAACCACGTGATTCTCGAGAAAAAGCGGCGCCAATATCAGGTTGTGGCGCGTCTAGCG
GAGCCCACGCACTTTCACCATCAGGGAAAAGAGCGAACAAAGATGAACGGTAGACACCCA
CAAGAGTTTGATAATAGAGCTCACGGTTCCTTGGGAAACCAACATCCCAAAGACCATGCC
ATCAAGGTCAACAAGAGAAAGGTATATCAGCCAAATCTCTACAATCTGCTAAAACACTTG
GGCCTGTCAAGAACTAACATCAGTTCATTCTTGGAACGTGCGTCGAAAGCAGCCCTAATA
GATAGGGACCCCTTAAACCTACACGTGGGTCGCAAGTCCCAGGCACTATTGAGGCCCCTC
CCCCTGCAACGCGATGGACCCAGCATCCGCACGGGGAATCCATGGAATGCTGAGAGGTTG
GCACCGCATCCGCAACAGAGATGTTGCGGATGTCCATGGGCGACGGTGGCTGCTGCCCCC
CAAGTGCGTCAGGAATGTGGCCCTCCATCCACCATAGACGTCAGTAACTCAACATCTCCA
AGGTCACCCCCCGGAGCTAGCCGGCGTGATGCGCTCCGCGCTCCACCTCCCGATACTGAA
CTGCTCCAATTCGCAGCTACCCTCGCCTCCAGTAAGAAACTGTTCGCCAGTCTCTCTGAT
AGACTCTGCGATGAACCCGACTTCGCTATCGAAGGCAACGAACGGTGCTGGAATGGAGAA
ACTATTGGAGAATACACCAAGGCCTTAGTGGCATCAGCATCCATAAGTGATCAGAAATAC
AATCCAGAGATCACGAAGATGTCAACCCAAGATTCAAGAGTGGCAGCACTTGGTGACAGG
CTGCGGCAAGCGAGACAGTTGCTGGTATCACACTGGGGGTCAATGACCGCTGCGGAGTCT
TTCATGCAGGGTGATGAGGCTGGCGATGAAGGCTCCGGCTCAGGTCGGAGTTACACTGAC
GATGACGCGACCTATGATGCTGAGGGGTCCGGGGAGGGATCAGGAGACGAGTTCGTTGGA
AGCAGGAGGGAGGACGAAGAGACGACATACTCAGCACCTCCTTTACCGACTTCGACTGCT
TCCCTTGCGACAGCCTCGATCTCCTTCATCTCGGTCGTGGAGGAAGTTGAGGGAGATAGG
AGGAAGGAGGAAGGAGGAAGGAGGTAA
Protein sequence:
MYFFGRVVSIQHIFAKLTLFSCTGSICGGQCCRRAGELKLRSVLRKTAEQRVSSATKPIT
ELLLATRRTLEEHLTALSYQSQNKTSVLFSQLYRSHASRTHVHLSALYDDIRLLIRPGRD
DELGSPPPKDMRVSTKKFFRDVFPVAYQNVLRLDSKQFTPEYEACLQDAYEAVQPFGDVP
QQLGASMSRSLESARALLQVISVGASALTASEQVLSNADEECGNKLLLMGGCSRCKGHDV
SPCRNYCLNVARGCIGSLVVELDAPWAGYVEGVERLARADADAELRSLDARVSEAIMHAL
ENHVILEKKRRQYQVVARLAEPTHFHHQGKERTKMNGRHPQEFDNRAHGSLGNQHPKDHA
IKVNKRKVYQPNLYNLLKHLGLSRTNISSFLERASKAALIDRDPLNLHVGRKSQALLRPL
PLQRDGPSIRTGNPWNAERLAPHPQQRCCGCPWATVAAAPQVRQECGPPSTIDVSNSTSP
RSPPGASRRDALRAPPPDTELLQFAATLASSKKLFASLSDRLCDEPDFAIEGNERCWNGE
TIGEYTKALVASASISDQKYNPEITKMSTQDSRVAALGDRLRQARQLLVSHWGSMTAAES
FMQGDEAGDEGSGSGRSYTDDDATYDAEGSGEGSGDEFVGSRREDEETTYSAPPLPTSTA
SLATASISFISVVEEVEGDRRKEEGGRR