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Last updated: 2022/11/18
NameA_TrvaFAMAMG_TR11740c0_g1_i3
Scaffold_id
NCBI non-redundant
(nr)
PREDICTED:_E3_ubiquitin-protein_ligase_synoviolin_[Amyelois_transitella]
Ontology
GO:0000209 P protein polyubiquitination
GO:0000836 C Hrd1p ubiquitin ligase complex
GO:0005783 C endoplasmic reticulum
GO:0005789 C endoplasmic reticulum membrane
GO:0008270 F zinc ion binding
GO:0016020 C membrane
GO:0016021 C integral component of membrane
GO:0016567 P protein ubiquitination
GO:0016874 F ligase activity
GO:0018279 P protein N-linked glycosylation via asparagine
GO:0030433 P ubiquitin-dependent ERAD pathway
GO:0030968 P endoplasmic reticulum unfolded protein response
GO:0036513 C Derlin-1 retrotranslocation complex
GO:0042787 P ubiquitin-dependent protein catabolic process
GO:0044322 C endoplasmic reticulum quality control compartment
GO:0046872 F metal ion binding
GO:0051082 F unfolded protein binding
GO:0061630 F ubiquitin protein ligase activity
GO:1904264 F ubiquitin protein ligase activity
GO:1990381 F ubiquitin-specific protease binding
Transcript
Level
FPKM:0.86 TPM:0.85
ORF EntryO_TrvaFAMAMG14480_complete:A_TrvaFAMAMG_TR11740c0_g1_i3
Sequence
(Nucleotide)
TTGCAACTAAAATCGATAGGATCGATCTGTCATTTTTTCTAGCCATCGCCCATCCCGTTT
TTAAATTTCAATATTGTCAAATGTCAATCTTTCAAAACTAAGTCAAAATTGTAGGTTAGA
TTTGGAAGTGTTGGGAAGTTAAAAATACTGTGTTGCAGAAAAAAACAATACTACAAAATA
TTCATAAAATTCACGTACTAAAAAAGTTCACATAATAGTTTAAAATGAAGTTGACACAAG
TTTTAAAAAGGCAGCACCTTGACTTTATGTTCAAAAGACATTGGATAATTCAAGGCAAAA
GGGTTCCCATAAACACTGGTATTGAAAGTAAACTAAAAAAAATGGGTATTGAAGTTGAAG
ATGCACTTGAATTCATAAAAGAAAAACACGAAAGACCAAGAGTGGATATTGTAGGTCCTT
ATGAGTTAGAAAAACCTTTGGATGAGAACCATCCAGATTACAAGGACAGACCATGTTTCA
CATTGAAATGTGACAATGTACTTCTGGAAGGTTTATCTCAAGCACAAGTCCTCACTAAAA
CTATTATTGCGGAAGATACACTTCCTCCCAAAATTGAGGAATTAGCACAGCTGCCTGCTC
CTGTGTCTATTCATGAAAATGTAAAGAAAGCTATTCTGTCAGCTAATGTCTTTGATAGTG
AGCAACAAAAAATAGCTAAGATCAAAGATGAAAAAAGACCTGCTTTCAACTTCCCTAGAA
TATTAGGTATCACAGACAGACGCAGGAATGAAATTTTAACAAATAAACTACTACAAATAG
TAGAAAAGACCAGTGACTCCGAAGTGACTCAATCCAAGTTTGTTGTAAATGATGTTGAGT
GTTCAACAATATTCAATAAAGAGGATGACCTGCTGCAGTTTCAAGATATATCAAACATTC
TAGTCACCAGCAACAAGCCCGTAAAACATGATGTTGAGAAGGACATACCTTTTGTTGAAA
TACCAAACTTGTATCCTGTGAAGCATACCATCACTATGCCACCTGAACATTTCTACAGTG
ATACCAGCAAATACCGTAAGTATATTGACTGTGTAGTGTGTGATACATTACAATGTGTTT
GAGAGTAATAATTAAAATTTAATATTTTCCTACCTAAGCTTTCAAAGATGTAAAATTAAA
CTAAGCTATCAAATGTTTCAACTAAACATATTGAACCTTTTCTGTTCCCCTGATAATAAA
AAATATCAACACTAAATAAACTATTTAATTCACAGCTATCAAAAATAAAGTACAAGTTAA
ACATCCTCACACAACCTGGTTACATTACAACAGACCTGAAGTGAGCAATATATATGAAAC
ACCAGTCACGCAGAACCAAATACTAGGGCGATCTCTAACCCACGCATTCAATGTGGCTGC
AGCTTACGCAAAGCAATTACATGGGGTAATTAAATTTTAAATATTAATATTAGAAAAGTT
AAATTAATTCTGCAAAAGAAAATGTTGATCCTTCTAAAATTCTATATCAATACATATTAT
TATATGCAATATTTCATTTACAGGAGGATGCAAAAGATCTACCAGAACCAGTATTTGTTA
ATTGTATTCAAACAGATGGCAAATTATACCATTTTGGGGTATTGCAATTGAACACATTGA
ATGTTGATGGTAATGAAGGTACAAAAAATGTATGGTACTGCAAAAACAACATAAAACTGT
ATGACTCAAGCAGATACTTTGGAGGAATGCCAGTTCTCGAAAACTATAACAACAAAGTTT
ATGGATATATCAATGCATTATATAATAGTTAATTTAATTGTAAATAGACTGTAGCTTAAT
AAAAATAGTACATAGTTTTAATTTGATTTATTTTGGCAAAAGCATTGGTAGGGTTGGCAA
GGAAAATATTGTATGTTGTATTTATGTATTCATTATATTTACATAACATAAATACGACTC
CATTATCATAACCGATCAAGAATACACAATGCTTACACAATATCAAGACACTTTGTACAT
AAATAATATTATAATGAATATTCCCAAACACAAAATGATACAAAACATAACTCATTTATC
CAAAGAAAACTTTTGCAGTCGACGTCTTCTCAACTCTGCAGTGTCATCGTCAGTCTTCAC
TCTATCGGAATCAGTAGTGTCAGGCAAATCGTCAGATTTGATCTCAGGTTGGCTGGTCGA
AGGAACTGGAGACGGAGATTTAAACTGAGATGTACTCGGGACTGCATCAACCTCCGTTTT
AACCTTCACTTCAGGTGCCAGATCAGTTTGCGTTTCGGTTTGTGTTGCCACAGTAACATT
GTTCTGAGCAGTATTCGCGATGGCCGTGGAATATTGTTGCATAAGAAGCACAGAAGCGTC
CAACATTGCCTGAGCCTCGCGAAGTAACTGTAATCTAGCTTCAATGTTCCTTCGTTCGTT
GCCTTCCATTCTCTGCAGCTCGGCCGTGGTCAGCACGGCGAGGTTTGCAGGACGAGGCGG
CGGTGGCGGCGGCCATGCCATTAGGGGTGGCGGCGGCGGCATGTTGGGGAATGGCGGCGG
AGCGGGCGCGGCGGCGGGTGCCGGTGCGGGCGCGGCGTCCGGCGTGCGCGGCGCTCCTCC
CGCCTCCGGGGCGCGCAGCACGTTCAGACGACACGTGGGACACGTCTGTTGTCGCTGGAA
CCACAGCCGCAAACAGGCCGCGTGGAATATGTGGTTGCACGGCAACTTCTTCGCACCTGA
ATGCATTTCCTCTCGGCAGATGATACATTCATTGTCGGCAGCTTCGAGCTCCGCCTGTGT
AGCATCAGGATAGAGGGTGTTCATATTACGAATCGCCCTTCGAGACAACACCACGTCATT
GTATGCTTTCTTGAAACTCCTCATAGCTTCATACATAGGTCGGAATGCAAACAGTGGTAA
TGTATAAATGCGGACCATAACTGCTACAAATCCAATATACAAGAGGACTTTCAGGAAGTT
GATAGCAAGCTCCGTGTATAGCAGAACTGCAGCTTTGCTCTCCCATGGCGCTTCCCATCG
AGAGTCAATGGCATGAAGGAGATACTTTATGAGTATATTGGCTATCATAATGATGAGTAT
GCTGTACTCAAAACCAAACACAAGTTGAACTGAGGGTCCTTTTGATGTAGTGACGTGATA
TGCATGATGGATGAAGTAGAAGTCAGCATGTGCTAACAACATCAACAAGCTTAGTATTCT
TATATGGAACACCCATCCAATAACAGGACTTCTCTCCATATAGTCAACTCTGTCTTCGGC
CAACCAGTGGAATGCTTTGAGGAACAGTAACAGAGTAAAGAGTGCAATGAACTTTGGATT
AAAATCATCCCTGAACACAGTAAACGCTAAACACGTCTCCGTAATGGCATACCAAGACCT
CTCTATTAAATGCTCAAATTCAGCCGGGCGAAGTTGACCAAAGAATATTTTCCTTAGCAT
TTTCCCCACCAATAAAACTAATATAAACGCCTGCAGATACATGACTGCCATACTTGGGTT
TGAATTTGTTAAATAAACTATCGAAGGATAAAATTGTTTCTTATGGTAATATGCATTGCC
GATAACCACGGTGGTGAGTGCGAGACTGATCACCGTTGCTAACACTGCCTTCATTTTGAT
AGTATTTTGGAACTCCTTCAAAATAGAATCTTCATGAGATCTAATTTATTAATTTCTAAA
CACTCCAAATACATGGATTGTTTCTAAAAACATTTTCAAAACATCATCTCTTAGCAATTC
GAAAAAATATTTTGAGTTTTG
(3741 bp)

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