| New model in OGS2.0 | DPOGS214205 |
|---|---|
| Genomic Position | scaffold49:- 123233-130594 |
| See gene structure | |
| CDS Length | 2598 |
| Paired RNAseq reads | 3053 |
| Single RNAseq reads | 7845 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005933 (0.0) |
| Best Drosophila hit | suppressor of deltex, isoform C (0.0) |
| Best Human hit | NEDD4-like E3 ubiquitin-protein ligase WWP2 isoform 1 (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to ubiquitin protein ligase [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | AGAP009074-PA [Anopheles gambiae str. PEST] (0.0) |
| GeneOntology terms | GO:0004842 ubiquitin-protein ligase activity GO:0008587 imaginal disc-derived wing margin morphogenesis GO:0008586 imaginal disc-derived wing vein morphogenesis GO:0007219 Notch signaling pathway GO:0016348 imaginal disc-derived leg joint morphogenesis GO:0005622 intracellular GO:0006464 protein modification process GO:0005112 Notch binding GO:0032880 regulation of protein localization GO:0045746 negative regulation of Notch signaling pathway GO:0031623 receptor internalization GO:0019915 lipid storage |
| InterPro families | IPR001202 WW/Rsp5/WWP IPR000569 HECT IPR000008 C2 calcium-dependent membrane targeting IPR008973 C2 calcium/lipid-binding domain, CaLB IPR018029 C2 membrane targeting protein |
| Orthology group | MCL10938 |
Nucleotide sequence:
ATGACGGAAAACACCACTACAGTGACTTCACCTATTACTTTATCAAATTATCATCAACTC
AGTCTTACAGTTGAGTCTGCGAACATAAGAAATTCAGGATTATTCAAACCGAATCCTTAT
TTACAAGTTGTAGTAGACGATAAGATTTCACGACGGACAGAGGTTTTGAAGAACACTCAA
CATCCAAAATGGAAGGAAGATTTCACTGTTTTAGTAACACCTCAGTCTCAAATGCTCTTT
CGTTTGGCGGACCATCATAGTTTTAGAAAAGATCATATTATTGGTGAAAAAAGAATAGGT
CTATTCCAAATTTTGCTATACTTTAACGGGAAATGTGAAAATGTTGAAATTTGTATTGAT
TTAATGAAAACAGTATCAAATGAAAATGTACCACATGTAGAAGTCAAGTCCGCTGAGCTC
ACTCTATTACTTGATGGTTTAAGAATAGATCCTGCCGTTCTAGCTCAAACACCAGAATAT
TTTGAGAGGTTGAATTCCCGTAGTCCTCTAACTGACGGAGTACGTGCAAGAATAAGATTA
AGGAATAATCTGGAAGTTGTTAGGTCCATGGGACATCCAAGACCATTAAGGCCACCTCCG
GGTCCTCCTCCATTGAGTAATGGTGTGGTTCCGACGACCGCTGATAGTAACGCAGGTCCT
TCGCGTCAGGAGGTTGAGCCTCCTCACGTGACGCCGGTGTCACATCCGCCTCCCTCTCAA
CCACCTGCCGCCACACCCTCAGCCGCTCCTGAGGAACCCCTGCCTCACGGATGGGAGATG
AGACACGACGTTTATGGCCGACGTTACTATGTCGATCACAATACACGTTCAACGTCGTGG
GAGCGCCCTCAGCCGTTGCCGCCTGGCTGGGAGGTGCGGCGTGACGCTCGCGGCCGCGTG
TATTACGTGGATCACAACACGCGCACCACCACGTGGCAGAGGCCGGACACGGAGCGCCTG
GCGAGGTTCCAGCACTGGCGAGGGGAGCGCCGTCACGTGGTCGCTCAGGGCAACCAGCGG
TTCCTGTACCCCGCGCCGCAGCCCCCGCACCCGCCCGCCAGTAGCAGCGCTTCATCGGTG
GGTGCTAGTACCAGCAACGCAGTAGTACCAACCGGGGCTGGAGTGGTCGTTGGTCCGGGG
GCGGGGGCAGCCAGTGTGGCGGCAGCCGAGGAAGCCCTGGGCGCTCTGCCCTCGGGCTGG
GAGCGACGTGTGCAACCCGATGGACGCGTCTACTACGTCAACCACAAAAACCGCACTACT
CAGTGGGAAGATCCACGCACACAGGGTCAAGAGATAAGTTCGTTAGAAGAGGCGTTACCA
CCCGGTTGGGAGATCAGATTTACTGAGGAGGGAACGCGTTATTTCGTCGACCACAACACA
AGAACTACTACATTCCAAGATCCTCGTCCCGGGGCACCGAAGGGACCTCAGGGGGCTTAC
GGGGTCCCTCGAGCGTACGAACGATCCTTCAGATGGAAACTTAGCCAATTTAGATACCTC
TGTCAGAGCAATGCTTTACCAAGTCACATTAAAATTACTTTGGCTAGACAGACTTTGTTT
GAAGATTCCTATCATCAGATTATGAGACTACCAGCGTATGAACTGAGAAGAAGACTTTAT
ATTATATTCCGAGGTGAAGAAGGTCTCGACTATGGTGGCGTCAGTCGAGAGTGGTTCTTT
TTATTGTCGCATGAGGTTCTCAACCCCATGTACTGTCTGTTTGAATATGCAAATAAAAAC
AACTATAGCCTTCAGATAAATCCAGCCAGTTATGTGAACCCCGATCATTTGCTCTACTTT
AAGTTTATTGGAAGATTCATAGCAATGGCACTCTATCATGGTAGATTTATTTATTCTGGT
TTCACAATGCCCTTCTATAAGAGAATGTTGAATAAGAAGTTGACAATGAAAGACATTGAA
TCAATTGATCCGGAATTCTACAACTCATTGGTTTGGATAAAGGACAACAATATTGATGAA
TGTGGCCTTGAAATGTGGTTTAGTGTAGATTTCGAAGTTTTGGGTCAAGTTATACATCAT
GAATTAAAACCTTTGGGTGACAAGGAACGAGTGACAGAAGGGAACAAAGAGCAATATTTA
CAATTAGTTACACAATGGAGAATGACCAGAGGAATTGAAGAACAAACCAATGCTTTTCTG
GACGGATTCAACGAGGTAGTACCACTTGAGTGGCTGAAATATTTTGATGAGCGTGAGCTG
GAACTGATGCTGTGCGGGATGCAGGAGGTTGATGTAGATGATTGGCAGCGGAACACCATC
TACAGGCATTACACGAGAACCAGCAAGCAGGTCGTCTGGTTTTGGCAGTTTGTAAGACAA
ATGGATAATGAGAAACGCGCTAGGCTCCTTCAGTTCGTGACTGGAACATGTCGGGTGCCT
GTGGGCGGGTTCGCTGAACTCATGGGCTCTAATGGACCACAGAGATTCTGTATAGAAAAG
GTCGGTAAGGACACTTGGTTGCCGCGATCGCACACTTGCTTCAACCGCCTAGATTTACCG
CCCTACAAGAGCTATGAACAATTATGTGAGAAATTAAATTATGCAATTGAAGAAACAGAA
GGCTTCGGTCAGGAGTGA
Protein sequence:
MTENTTTVTSPITLSNYHQLSLTVESANIRNSGLFKPNPYLQVVVDDKISRRTEVLKNTQ
HPKWKEDFTVLVTPQSQMLFRLADHHSFRKDHIIGEKRIGLFQILLYFNGKCENVEICID
LMKTVSNENVPHVEVKSAELTLLLDGLRIDPAVLAQTPEYFERLNSRSPLTDGVRARIRL
RNNLEVVRSMGHPRPLRPPPGPPPLSNGVVPTTADSNAGPSRQEVEPPHVTPVSHPPPSQ
PPAATPSAAPEEPLPHGWEMRHDVYGRRYYVDHNTRSTSWERPQPLPPGWEVRRDARGRV
YYVDHNTRTTTWQRPDTERLARFQHWRGERRHVVAQGNQRFLYPAPQPPHPPASSSASSV
GASTSNAVVPTGAGVVVGPGAGAASVAAAEEALGALPSGWERRVQPDGRVYYVNHKNRTT
QWEDPRTQGQEISSLEEALPPGWEIRFTEEGTRYFVDHNTRTTTFQDPRPGAPKGPQGAY
GVPRAYERSFRWKLSQFRYLCQSNALPSHIKITLARQTLFEDSYHQIMRLPAYELRRRLY
IIFRGEEGLDYGGVSREWFFLLSHEVLNPMYCLFEYANKNNYSLQINPASYVNPDHLLYF
KFIGRFIAMALYHGRFIYSGFTMPFYKRMLNKKLTMKDIESIDPEFYNSLVWIKDNNIDE
CGLEMWFSVDFEVLGQVIHHELKPLGDKERVTEGNKEQYLQLVTQWRMTRGIEEQTNAFL
DGFNEVVPLEWLKYFDERELELMLCGMQEVDVDDWQRNTIYRHYTRTSKQVVWFWQFVRQ
MDNEKRARLLQFVTGTCRVPVGGFAELMGSNGPQRFCIEKVGKDTWLPRSHTCFNRLDLP
PYKSYEQLCEKLNYAIEETEGFGQE