Gene Details:
- Gene ID: AT5G18310
- Gene Symbol: NOI8
- Gene Name:
- Description: ubiquitin hydrolase;(source:Araport11)
- TAIR Accession: locus:2146283
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
Gene Ontology:
- GO:0097305 — acts upstream of or within — response to alcohol
- GO:1901701 — acts upstream of or within — cellular response to oxygen-containing compound
- GO:0010646 — acts upstream of or within — regulation of cell communication
- GO:0071396 — acts upstream of or within — cellular response to lipid
- GO:0005634 — located in — nucleus
- GO:0042742 — acts upstream of or within — defense response to bacterium
- GO:0031347 — acts upstream of or within — regulation of defense response
- GO:0032870 — acts upstream of or within — cellular response to hormone stimulus
- GO:0007165 — acts upstream of or within — signal transduction
- GO:0003674 — enables — molecular_function
- GO:0050832 — acts upstream of or within — defense response to fungus
- GO:0009414 — acts upstream of or within — response to water deprivation
- GO:0014070 — acts upstream of or within — response to organic cyclic compound
- GO:0019538 — acts upstream of or within — protein metabolic process
Function-related keywords:
Literature:
- a high-density colony array study (HDCA). DOI: 10.1046/j.1365-313x.2003.01847.x ; PMID: 12969430
- Cesium toxicity in Arabidopsis. DOI: 10.1104/pp.104.046672 ; PMID: 15489280
- Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection. DOI: 10.1104/pp.108.121038 ; PMID: 18650403
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Comparative and evolutionary analysis of Arabidopsis RIN4-like/NOI proteins induced by herbivory. DOI: 10.1371/journal.pone.0270791 ; PMID: 36166429
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
Sequences:
cDNA Sequence
- >AT5G18310.3
CAGGAAAATAGCTAACTGTTTTTTACTAGTAAATTTCTGATTACAACTTTTAAAAAATATATAACACTTATTGTTTACTTTGAATTTTCATATCAAGGTGACCTAGTAGGGATTGAACTGAAGTAAACTTATAAACACATAATTTTTTGGAAACGTAAGAACTTGAATTTGTGATCTATCCAATTGTTTTTTTTTCAATCAATCCAACTTAGAAGAGACTCTACTCTCCACTAGTTGTAATTAAAAAAACAAAAACAATTAATAAAATGAAGAAATAAAACTTTGTATATCTCTCATAAAGTCGACTATTTAGACTTTTAGAGGTAAGGACAATATCTTCTTTGCTTACATACCCCACTCTTGTTATAAAAGACAGTAACCTTTCTTGAGATCACTCTTTCTTATTTGTGTGTTAGTGCATTGAGAGAGAGAGAGAGAGATAGAAAGAGAAAGAAATCGTCATGGCTCATGTAAGTGAAACTTCTCTAATCCTCTATCCTTGTTTCTTCCTGTCGTCTTTAACATATAGATCGTCAAAACCTGCCTAATAATGTCTTATCCTCACATAACACCTTTTTTTTTATCTCCATCTCTCTGTTACTTAGAACCCTCCATTCATATATACACTAGGTGCCAAATTTGGTCACGTGTTTGGCCCTTCACGTTCTTGACTCTTAGCTAGATCCTTGTTTCTTGTGGATTCTTGAATCTTAAATCTTGAATCCCTGAGTTTTGTTGGTTCTTGATTTTGATTCTCGATTCTTTAGTCATTGATTATTCGATCTTTGTTGGTTTTTGATTAGAGATTTAATTAGCATATTTATGTACTAATAATTGAATAAATGGGAACAGGGGAGATATGATACTTACAAGAAGAAAAGTGGACAGATTCCTCGGTTTGGAGAATGGGAAGAAGCAAATGAGATGCCAATAACACAATACTTTGAGAATCCAAGACAAGCTGGTCTGATTCGTCACCAATACACAACAACTTCTTCTGCTTCTTCCACTACCACTTCATCTTCATCTTCTTCTTCTTCTTCTGCAGAAGCCTTAAAGCTTGCTTCTCACCATCCCCGTCCACGTCACCTCCACGCTCAAAGACAGACGGCGGGGACGAAGGAGAAAAGAGGACCACAAAGGCGTGTGCGTGACGTCAGTGCACAGTCGGACAAGTATTACATTGACGTCAACGGTGTTAAGCAGTTCAAAAACGACGTTGCTCTGACTTGTAAGCCACCTAAGCCCGTTGATGAAGATCTCTACAAGATTCCTCCTGAGTTTATCCATTCTTCAACAAGGAAGAGAAGGCCTAGCTTTTTAGCTTGTTTGGTTCCATGCGCATGAATCGAAAAGGAAGAGCGAAGAAGAAGAAGAAAAAGTAGGATCATGAATGAATAATGTAATTTGTTTTTTGTTTTTGTAATTTCATCCTAATATACAGATATGATATATACGTGGTTTGACAGAAAAAGAGAGCATACGAGTGGTTTTTGAAAAAGAGTAACAAAGTAATATCGTAGTAAACTAGAGTAATATATCCTTTTGTCTTGTTACATATCTACTTTATAAGATTTTCTCTCATTTTTTTTTCACGTACGTTCTCAACATTTTTTTTTGTGTTTTGTAAGAGAGTTTTAAAGAAGGCTTGTACATCTTTAATTTCATAATCACAGATTTAGTAAAAGAAAACACTTACAAAGACTAACTATCCCAATTTTATTCTTCTCTTTTATGACTTACTAGTTCATCAATTTACTAAAGTCACAAATAGATGTGTAGTATAGCTTGAGTATAATTATGATTT - >AT5G18310.2
CAGGAAAATAGCTAACTGTTTTTTACTAGTAAATTTCTGATTACAACTTTTAAAAAATATATAACACTTATTGTTTACTTTGAATTTTCATATCAAGGTGACCTAGTAGGGATTGAACTGAAGTAAACTTATAAACACATAATTTTTTGGAAACGTAAGAACTTGAATTTGTGATCTATCCAATTGTTTTTTTTTCAATCAATCCAACTTAGAAGAGACTCTACTCTCCACTAGTTGTAATTAAAAAAACAAAAACAATTAATAAAATGAAGAAATAAAACTTTGTATATCTCTCATAAAGTCGACTATTTAGACTTTTAGAGGTAAGGACAATATCTTCTTTGCTTACATACCCCACTCTTGTTATAAAAGACAGTAACCTTTCTTGAGATCACTCTTTCTTATTTGTGTGTTAGTGCATTGAGAGAGAGAGAGAGAGATAGAAAGAGAAAGAAATCGTCATGGCTCATGTAAGTGAAACTTCTCTAATCCTCTATCCTTGTTTCTTCCTGTCGTCTTTAACATATAGATCGTCAAAACCTGCCTAATAATGTCTTATCCTCACATAACACCTTTTTTTTTATCTCCATCTCTCTGTTACTTAGAACCCTCCATTCATATATACACTAGGTGCCAAATTTGGTCACGTGTTTGGCCCTTCACGTTCTTGACTCTTAGCTAGATCCTTGTTTCTTGTGGATTCTTGAATCTTAAATCTTGAATCCCTGAGTTTTGTTGGTTCTTGATTTTGATTCTCGATTCTTTAGTCATTGATTATTCGATCTTTGTTGGTTTTTGATTAGAGATTTAATTAGCATATTTATGTACTAATAATTGAATAAATGGGAACAGGGGAGATATGATACTTACAAGAAGAAAAGTGGACAGATTCCTCGGTTTGGAGAATGGGAAGAAGCAAATGAGATGCCAATAACACAATACTTTGAGAATCCAAGACAAGCTGGTCTGATTCGTCACCAATACACAACAACTTCTTCTGCTTCTTCCACTACCACTTCATCTTCATCTTCTTCTTCTTCTTCTGCAGAAGCCTTAAAGCTTGCTTCTCACCATCCCCGTCCACGTCACCTCCACGCTCAAAGACAGACGGCGGGGACGAAGGAGAAAAGAGGACCACAAAGGCGTGTGCGTGACGTCAGTGCACAGTCGGACAAGTATTACATTGACGTCAACGGTGTTAAGCAGTTCAAAAACGACGTTGCTCTGACTTGTAAGCCACCTAAGCCCGTTGATGAAGATCTCTACAAGATTCCTCCTGAGTTTATCCATTCTTCAACAAGGAAGAGAAGGCCTAGCTTTTTAGCTTGTTTGGTTCCATGCGCATGAATCGAAAAGGAAGAGCGAAGAAGAAGAAGAAAAAGTAGGATCATGAATGAATAATGTAATTTGTTTTTTGTTTTTGTAATTTCATCCTAATATACAGATATGATATATACGTGGTTTGACAGAAAAAGAGAGCATACGAGTGGTTTTTGAAAAAGAGTAACAAAGTAATATCGTAGTAAACTAGAGTAATATATCCTTTTGTCTTGTTACATATCTACTTTATAAGATTTTCTCTCATTTTTTTTTCACGTACGTTCTCAACATTTTTTTTTGTGTTTTGTAAGAGAGTTTTAAAGAAGGCTTGTACATCTTTAATTTCATAATCACAGATTTAGTAAAAGAAAACACTTACAAAGACTAACTATCCCAATTTTATTCTTCTCTTTTATGACTTACTAGTTCATCAATTTACTAAAGTCACAAATAGATGTGTAGTATAGCTTGAGTATAATTATGATTT - >AT5G18310.4
CAGGAAAATAGCTAACTGTTTTTTACTAGTAAATTTCTGATTACAACTTTTAAAAAATATATAACACTTATTGTTTACTTTGAATTTTCATATCAAGGTGACCTAGTAGGGATTGAACTGAAGTAAACTTATAAACACATAATTTTTTGGAAACGTAAGAACTTGAATTTGTGATCTATCCAATTGTTTTTTTTTCAATCAATCCAACTTAGAAGAGACTCTACTCTCCACTAGTTGTAATTAAAAAAACAAAAACAATTAATAAAATGAAGAAATAAAACTTTGTATATCTCTCATAAAGTCGACTATTTAGACTTTTAGAGGTAAGGACAATATCTTCTTTGCTTACATACCCCACTCTTGTTATAAAAGACAGTAACCTTTCTTGAGATCACTCTTTCTTATTTGTGTGTTAGTGCATTGAGAGAGAGAGAGAGAGATAGAAAGAGAAAGAAATCGTCATGGCTCATGTAAGTGAAACTTCTCTAATCCTCTATCCTTGTTTCTTCCTGTCGTCTTTAACATATAGATCGTCAAAACCTGCCTAATAATGTCTTATCCTCACATAACACCTTTTTTTTTATCTCCATCTCTCTGTTACTTAGAACCCTCCATTCATATATACACTAGGTGCCAAATTTGGTCACGTGTTTGGCCCTTCACGTTCTTGACTCTTAGCTAGATCCTTGTTTCTTGTGGATTCTTGAATCTTAAATCTTGAATCCCTGAGTTTTGTTGGTTCTTGATTTTGATTCTCGATTCTTTAGTCATTGATTATTCGATCTTTGTTGGTTTTTGATTAGAGATTTAATTAGCATATTTATGTACTAATAATTGAATAAATGGGAACAGGGGAGATATGATACTTACAAGAAGAAAAGTGGACAGATTCCTCGGTTTGGAGAATGGGAAGAAGCAAATGAGATGCCAATAACACAATACTTTGAGAATCCAAGACAAGCTGGTCTGATTCGTCACCAATACACAACAACTTCTTCTGCTTCTTCCACTACCACTTCATCTTCATCTTCTTCTTCTTCTTCTGCAGAAGCCTTAAAGCTTGCTTCTCACCATCCCCGTCCACGTCACCTCCACGCTCAAAGACAGACGGCGGGGACGAAGGAGAAAAGAGGACCACAAAGGCGTGTGCGTGACGTCAGTGCACAGTCGGACAAGTATTACATTGACGTCAACGGTGTTAAGCAGTTCAAAAACGACGTTGCTCTGACTTGTAAGCCACCTAAGCCCGTTGATGAAGATCTCTACAAGATTCCTCCTGAGTTTATCCATTCTTCAACAAGGAAGAGAAGGCCTAGCTTTTTAGCTTGTTTGGTTCCATGCGCATGAATCGAAAAGGAAGAGCGAAGAAGAAGAAGAAAAAGTAGGATCATGAATGAATAATGTAATTTGTTTTTTGTTTTTGTAATTTCATCCTAATATACAGATATGATATATACGTGGTTTGACAGAAAAAGAGAGCATACGAGTGGTTTTTGAAAAAGAGTAACAAAGTAATATCGTAGTAAACTAGAGTAATATATCCTTTTGTCTTGTTACATATCTACTTTATAAGATTTTCTCTCATTTTTTTTTCACGTACGTTCTCAACATTTTTTTTTGTGTTTTGTAAGAGAGTTTTAAAGAAGGCTTGTACATCTTTAATTTCATAATCACAGATTTAGTAAAAGAAAACACTTACAAAGACTAACTATCCCAATTTTATTCTTCTCTTTTATGACTTACTAGTTCATCAATTTACTAAAGTCACAAATAGATGTGTAGTATAGCTTGAGTATAATTATGATTT - >AT5G18310.1
CAGGAAAATAGCTAACTGTTTTTTACTAGTAAATTTCTGATTACAACTTTTAAAAAATATATAACACTTATTGTTTACTTTGAATTTTCATATCAAGGTGACCTAGTAGGGATTGAACTGAAGTAAACTTATAAACACATAATTTTTTGGAAACGTAAGAACTTGAATTTGTGATCTATCCAATTGTTTTTTTTTCAATCAATCCAACTTAGAAGAGACTCTACTCTCCACTAGTTGTAATTAAAAAAACAAAAACAATTAATAAAATGAAGAAATAAAACTTTGTATATCTCTCATAAAGTCGACTATTTAGACTTTTAGAGGTAAGGACAATATCTTCTTTGCTTACATACCCCACTCTTGTTATAAAAGACAGTAACCTTTCTTGAGATCACTCTTTCTTATTTGTGTGTTAGTGCATTGAGAGAGAGAGAGAGAGATAGAAAGAGAAAGAAATCGTCATGGCTCATGTAAGTGAAACTTCTCTAATCCTCTATCCTTGTTTCTTCCTGTCGTCTTTAACATATAGATCGTCAAAACCTGCCTAATAATGTCTTATCCTCACATAACACCTTTTTTTTTATCTCCATCTCTCTGTTACTTAGAACCCTCCATTCATATATACACTAGGTGCCAAATTTGGTCACGTGTTTGGCCCTTCACGTTCTTGACTCTTAGCTAGATCCTTGTTTCTTGTGGATTCTTGAATCTTAAATCTTGAATCCCTGAGTTTTGTTGGTTCTTGATTTTGATTCTCGATTCTTTAGTCATTGATTATTCGATCTTTGTTGGTTTTTGATTAGAGATTTAATTAGCATATTTATGTACTAATAATTGAATAAATGGGAACAGGGGAGATATGATACTTACAAGAAGAAAAGTGGACAGATTCCTCGGTTTGGAGAATGGGAAGAAGCAAATGAGATGCCAATAACACAATACTTTGAGAATCCAAGACAAGCTGGTCTGATTCGTCACCAATACACAACAACTTCTTCTGCTTCTTCCACTACCACTTCATCTTCATCTTCTTCTTCTTCTTCTGCAGAAGCCTTAAAGCTTGCTTCTCACCATCCCCGTCCACGTCACCTCCACGCTCAAAGACAGACGGCGGGGACGAAGGAGAAAAGAGGACCACAAAGGCGTGTGCGTGACGTCAGTGCACAGTCGGACAAGTATTACATTGACGTCAACGGTGTTAAGCAGTTCAAAAACGACGTTGCTCTGACTTGTAAGCCACCTAAGCCCGTTGATGAAGATCTCTACAAGATTCCTCCTGAGTTTATCCATTCTTCAACAAGGAAGAGAAGGCCTAGCTTTTTAGCTTGTTTGGTTCCATGCGCATGAATCGAAAAGGAAGAGCGAAGAAGAAGAAGAAAAAGTAGGATCATGAATGAATAATGTAATTTGTTTTTTGTTTTTGTAATTTCATCCTAATATACAGATATGATATATACGTGGTTTGACAGAAAAAGAGAGCATACGAGTGGTTTTTGAAAAAGAGTAACAAAGTAATATCGTAGTAAACTAGAGTAATATATCCTTTTGTCTTGTTACATATCTACTTTATAAGATTTTCTCTCATTTTTTTTTCACGTACGTTCTCAACATTTTTTTTTGTGTTTTGTAAGAGAGTTTTAAAGAAGGCTTGTACATCTTTAATTTCATAATCACAGATTTAGTAAAAGAAAACACTTACAAAGACTAACTATCCCAATTTTATTCTTCTCTTTTATGACTTACTAGTTCATCAATTTACTAAAGTCACAAATAGATGTGTAGTATAGCTTGAGTATAATTATGATTT
CDS Sequence
Protein Sequence