New model in OGS2.0 | DPOGS212835  |
---|---|
Genomic Position | scaffold98:+ 155326-161841 |
See gene structure | |
CDS Length | 3534 |
Paired RNAseq reads   | 3165 |
Single RNAseq reads   | 7251 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000783 (1e-14) |
Best Drosophila hit   | serrate (7e-131) |
Best Human hit | protein jagged-1 precursor (6e-131) |
Best NR hit (blastp)   | Bm8 interacting protein m-9 [Bombyx mori] (0.0) |
Best NR hit (blastx)   | Bm8 interacting protein m-9 [Bombyx mori] (0.0) |
GeneOntology terms    | GO:0005509 calcium ion binding GO:0007219 Notch signaling pathway GO:0016021 integral to membrane GO:0007275 multicellular organismal development GO:0030414 peptidase inhibitor activity GO:0007154 cell communication GO:0016020 membrane |
InterPro families    | IPR006209 EGF IPR001774 Delta/Serrate/lag-2 (DSL) protein IPR011651 Notch ligand, N-terminal IPR000152 EGF-type aspartate/asparagine hydroxylation site IPR013032 EGF-like region, conserved site IPR018097 EGF-like calcium-binding, conserved site IPR006210 Epidermal growth factor-like IPR001881 EGF-like calcium-binding IPR006552 VWC out IPR000742 Epidermal growth factor-like, type 3 |
Orthology group | MCL11641 |
Nucleotide sequence:
ATGGTGTGTGTCGTCCACCAGCTCGCGGCGGGGGCGGGCGTGTTCGAGCTGCAGATCTTG
GAATTCTCGAACTATCGCCTACAGTTGTCATCGGGAGCCTGTTGCGGCGGCGGGGCGGCG
CCTCCGGCCCCGTCCTCCGGGGCCCCCAGTACGGGCGGTGCTTGCGGACAGCCCTGCCGC
ACGCGTTTCGCTCTCTGCCTCAAAGAGTACCAGTCGGCCGCAGCCCCCGGGGCCTGCTCC
TTTGGCAGAGCGTCTTCTCCAGTCCTAGGGACGGACTCCTTCACTCTATCGGACCCGCTA
CACACGCTGTCTCTCCCTTTCTCGTTTCGATGGACCCGTTCGTTCACACTGATACTTCAA
GCCTACGATGACTACAACTATACAGATCCTGAAGAGAGCGGATTGATCGAGGAGGCCTGG
TGGTCGGGCATCGTGGAGCCCGGGGCCGAGTGGCACGCTCTGAGACACGCGGGAGCTGCT
GCGGCCGTGGCCTACCGGGTGCGAGTCTTGTGCCAACCGAACTACTACAACACCACGTGT
ACCACCTTCTGCCGTCCCCGGGACGACAAGTTCGGACACTACGCCTGCTCGGCCTCCGGG
GACAAGCGCTGTCTTCCCGGTTGGCAAGGCGATAACTGCGAGAAACCTGTCTGCAAGGAA
GGCTGTCATCCAACACACGGGCGATGTGACAAGCCTGGTGAATGTTCCTGTCGTCCGGGA
TGGCGAGGCGAACTGTGTTCTCAATGCCAGCCGTATCCGGGCTGCAAACACGGATACTGC
AATGGCTCATCTTGGGACTGCACCTGTGACACCAACTGGGGCGGTATACTATGTGACCAA
GATCTCAACTACTGCGGAACTCACGAGCCCTGTCAGCACGGAGGTACGTGTGAGAATACA
GCGCCGGACCAGTACCTCTGTACCTGCGCCGAAGGTTTCTCCGGCGTGGACTGCGAGCGA
GTGGACAACCCGTGTGCGCCGCAACCCTGTGCTCACGGAACCTGCTCGCTGGGTCCCGCG
TCCACTTCTCCGACCTCACACGCCGCGCCCGCTGGGTTTGTCTGCTCCTGTGAAAGAGGC
TGGACCGGGCCACGGTGTGACGCGGACGTCGACGACTGTGCCAGTGCCCCCTGTCAAAAT
GGCGCCGTGTGCCGGGACCGACTCGACGCTTTCCTCTGCGAGTGTACTGCCGGGTGGACC
GGAGTCACTTGCACCGAAGATGTAGATGAATGCGCGGAAAACAATGGAGGGGCGGAGGGT
GCTCTGGGACCTTGCGTGAACGCAGCGGCCTGCAATAACTCGGCGGGGGGCTACTCGTGC
ACGTGTCTGGCGGGCTGGACGGGTCGGGACTGCGAGCTGAACGTAGACGACTGCACAGGC
CAGTGTCTGAACGGAGCTACCTGCATCGACCTCGTGGACGACTTTCACTGCGCCTGTGCC
GCTGGGTACGCTGGTCGGACCTGCGCTCGAGACGTCGACGACTGCGCCTCACGACCCTGT
CGTAACGGCGGTGAATGCGTCGATCTGCTGGACGCTTACCGCTGCATTTGTCCGGTCGGG
TTTTCTGGTACCGACTGTGAAGAGGATCGTGACCACTGCACTGGCTCGCCGTGTGCCAAT
GGGGCCACATGTTATACCGCACAGAGCGACTACTACTGTCACTGTTCACCCGGTTGGACT
GGCAAGAACTGTACGCAGCGAGCTGCGAGGGAACAACTAGATGAATGTACTCCGAATCCA
TGCAGTAACAATGCAAGCTGCTTACCGAGCCCCAAAGGATTTACTTGTATTTGTGTTGAA
GGATATACAGGCGAGACCTGTGCTATCCGCGAAGAGAAACGCTGCGAGCTTGTCTGTGTC
AACGGTGGCTCATGTGTCCGCGACCCGTTCCCCGCGCCTGCTGGAAGCTCTCTTGCCAAC
CTCCCTCATCACTGTGCTTGTCCGCCAGGTTGGGCCGGAACCCTCTGCGATCTTCCTATA
TCTCCGCCGGTAGCTCCGATCGCATCCGTTCCAATGCAAACAGCCATAATCCCCATCACT
AATGCGGGTATACCTTGTTCATGTCTCCACGGCGGGTCGTGTGTATCCGTTGGAGGAGCG
AGTACATGGGCGTGTGTATGCCGTCCTGGCTGGAGCGGAGCGCACTGCGAGCGAGCGGCA
GACGGTTGCTCCTCCAGCCCGTGTCGTAACGGAGGTCGTTGTGTGGGGGGCGCTGGCTGG
TGGACGTGTGAATGTACTCTAGGCTGGTCCGGTCCTGACTGTTCGTCTCCGTCCTGTGAC
CCGACTTGTCCTTCGCCTGCTGTCTGTACAGCATCCGGCGCGATTGCAAGATGTGTGTGT
CCGCCTCCGCCAGCTCGACTAGCCAGACGATGTCTCGAATTGGTGGCAGGACTTGGGGAG
GAAAGTGGAGAAGCAGCAGATGGGAATGAAAGTGGTAGCGAAAGTACTGCCGAAGCTAGC
GATACACCTGGAGCGTGTGGTGCAGATAACGGCACCTGGTGGTGGGGCTGCAACGCGTGT
CGTTGTGTCGGAGGGGCGCCCTCGTGCACAAGACTCTGGTGTGGATTACCCGATTGTCTC
GCCCCCGCCGCACTGCCTTGTAGGACTGATGAGGTGTGTGTTCCGGCCGCACCTGCATTG
TGTCTACGTCCACCTTGTTCTCCGCTGGGGGAATGTCGTCGTGTATCAGGACGACGTGTG
GAGCCTCCAGCGTTACCTGCGCCGGCCGCTTGTTGGCCAGGAGCTCGTTCATCGCCGCCC
CCCGGCTGTGCTCGTGCCGAATTGCGTCTCGCTCGAGAGCGCCTAGCTCGTGGCGCACAC
GTAGAGCGCGCTTGCGCAGCGCTCCGGAGAGCCCTTGCTGCAGCGCTTGCAGATCGTGCT
CCCCCTGCGCCGCCACTTACATTACTTTGTGATCTCGCTCCGGACGATGACGATGCGCTG
GACCTTGCACTCTGGGCCGGAGAGGAAGATGACTCAGAGGGTGTAAGTGCTCTAGCAGCG
GCCGTACGTGTTCTGAGTGAGCTTATATCTCGTCGCCGCTTAGCACATCACGCTCTCCTC
GCTGCAGCCCTGCGACTTCGTGTTGAGCACGGCACACCGACCCTACCTCGCGCAGCCGTA
GCGGAAGCGGCTGCTAACAGCAGTGGAACGGGAGGTGCCTTATTAGCTCTGGCAGCTGGA
GCACCTTTACTGCTATTGGGGGCAGCCGCCGGAGCATTCTTTCTTATTCGTAGACGGCGA
GCCGCAGCAACGGCTGCGATCGATGAGCGTTCACGTTGCCGTGACGAAGAAAAGTCCAAT
AACTTACAAAATGAAGAAAATCTGCGCCGCTACGCGAACCCTCTGCGGGAGGACCGGGTA
CCGCGTGAGGTAGACGAGTTGCCTCGCGCCCATTCCTTATATAAAGCGCAAAACGCCGAC
GTGCGGAACAACACACCACCGCGGGATAAAGAGTTGACGAAGCGCGTACTGCCGCCGCCG
GAGCCTCCACCCGCGCGTCACCCGCCGCCTGAGCGCCTTACTGTGCTCGTCTAG
Protein sequence:
MVCVVHQLAAGAGVFELQILEFSNYRLQLSSGACCGGGAAPPAPSSGAPSTGGACGQPCR
TRFALCLKEYQSAAAPGACSFGRASSPVLGTDSFTLSDPLHTLSLPFSFRWTRSFTLILQ
AYDDYNYTDPEESGLIEEAWWSGIVEPGAEWHALRHAGAAAAVAYRVRVLCQPNYYNTTC
TTFCRPRDDKFGHYACSASGDKRCLPGWQGDNCEKPVCKEGCHPTHGRCDKPGECSCRPG
WRGELCSQCQPYPGCKHGYCNGSSWDCTCDTNWGGILCDQDLNYCGTHEPCQHGGTCENT
APDQYLCTCAEGFSGVDCERVDNPCAPQPCAHGTCSLGPASTSPTSHAAPAGFVCSCERG
WTGPRCDADVDDCASAPCQNGAVCRDRLDAFLCECTAGWTGVTCTEDVDECAENNGGAEG
ALGPCVNAAACNNSAGGYSCTCLAGWTGRDCELNVDDCTGQCLNGATCIDLVDDFHCACA
AGYAGRTCARDVDDCASRPCRNGGECVDLLDAYRCICPVGFSGTDCEEDRDHCTGSPCAN
GATCYTAQSDYYCHCSPGWTGKNCTQRAAREQLDECTPNPCSNNASCLPSPKGFTCICVE
GYTGETCAIREEKRCELVCVNGGSCVRDPFPAPAGSSLANLPHHCACPPGWAGTLCDLPI
SPPVAPIASVPMQTAIIPITNAGIPCSCLHGGSCVSVGGASTWACVCRPGWSGAHCERAA
DGCSSSPCRNGGRCVGGAGWWTCECTLGWSGPDCSSPSCDPTCPSPAVCTASGAIARCVC
PPPPARLARRCLELVAGLGEESGEAADGNESGSESTAEASDTPGACGADNGTWWWGCNAC
RCVGGAPSCTRLWCGLPDCLAPAALPCRTDEVCVPAAPALCLRPPCSPLGECRRVSGRRV
EPPALPAPAACWPGARSSPPPGCARAELRLARERLARGAHVERACAALRRALAAALADRA
PPAPPLTLLCDLAPDDDDALDLALWAGEEDDSEGVSALAAAVRVLSELISRRRLAHHALL
AAALRLRVEHGTPTLPRAAVAEAAANSSGTGGALLALAAGAPLLLLGAAAGAFFLIRRRR
AAATAAIDERSRCRDEEKSNNLQNEENLRRYANPLREDRVPREVDELPRAHSLYKAQNAD
VRNNTPPRDKELTKRVLPPPEPPPARHPPPERLTVLV