Gene Details:
- Gene ID: AT4G31970
- Gene Symbol: CYP82C2
- Gene Name: cytochrome P450, family 82, subfamily C, polypeptide 2
- Description: cytochrome P450, family 82, subfamily C, polypeptide 2;(source:Araport11)
- TAIR Accession: locus:2116652
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0071456 — acts upstream of or within — cellular response to hypoxia
- GO:0009507 — located in — chloroplast
- GO:0020037 — enables — heme binding
- GO:0106149 — enables — indole-3-carbonyl nitrile 4-hydroxylase activity
- GO:0006952 — acts upstream of or within — defense response
- GO:0005506 — enables — iron ion binding
- GO:0004497 — enables — monooxygenase activity
Literature:
- Transcriptional divergence of the duplicated oxidative stress-responsive genes in the Arabidopsis genome. DOI: 10.1111/j.1365-313X.2004.02295.x ; PMID: 15634198
- Genetic analysis of Arabidopsis GATA transcription factor gene family reveals a nitrate-inducible member important for chlorophyll synthesis and glucose sensitivity. DOI: 10.1111/j.1365-313X.2005.02568.x ; PMID: 16262716
- Synteny conservation between the Prunus genome and both the present and ancestral Arabidopsis genomes. DOI: 10.1186/1471-2164-7-81 ; PMID: 16615871
- Large expression differences in genes for iron and zinc homeostasis, stress response, and lignin biosynthesis distinguish roots of Arabidopsis thaliana and the related metal hyperaccumulator Thlaspi caerulescens. DOI: 10.1104/pp.106.082073 ; PMID: 16998091
- PIP5K9, an Arabidopsis phosphatidylinositol monophosphate kinase, interacts with a cytosolic invertase to negatively regulate sugar-mediated root growth. DOI: 10.1105/tpc.106.045658 ; PMID: 17220200
- The AP2/ERF transcription factor AtERF73/HRE1 modulates ethylene responses during hypoxia in Arabidopsis. DOI: 10.1104/pp.111.172486 ; PMID: 21398256
- Metabolic and transcriptomic changes induced in Arabidopsis by the rhizobacterium Pseudomonas fluorescens SS101. DOI: 10.1104/pp.112.207324 ; PMID: 23073694
- Iron-dependent modifications of the flower transcriptome, proteome, metabolome, and hormonal content in an Arabidopsis ferritin mutant. DOI: 10.1093/jxb/ert112 ; PMID: 23682113
- A new cyanogenic metabolite in Arabidopsis required for inducible pathogen defence. DOI: 10.1038/nature14907 ; PMID: 26352477
- Expansion of a core regulon by transposable elements promotes Arabidopsis chemical diversity and pathogen defense. DOI: 10.1038/s41467-019-11406-3 ; PMID: 31371717
- The role of CYP71A12 monooxygenase in pathogen-triggered tryptophan metabolism and Arabidopsis immunity. DOI: 10.1111/nph.16118 ; PMID: 31411742
Sequences:
cDNA Sequence
- >AT4G31970.1
TAATCATTCAAAACTAGAAATCACCAAACACACATCTCTTTTGCACGCTCAAACCACTATGGATACTTCCCTCTTTTCTTTATTTGTTCCAATCCTTGTTTTCGTTTTTATTGCTCTTTTTAAGAAATCAAAGAAACCAAAACATGTAAAAGCTCCTGCACCAAGTGGTGCGTGGCCCATCATCGGTCATCTTCACCTTCTCAGTGGCAAGGAACAGCTTCTTTACCGAACCTTAGGAAAAATGGCTGACCAGTACGGTCCAGCCATGTCGCTACGACTTGGGAGCAGTGAAACATTTGTTGTGAGCAGTTTTGAGGTGGCTAAAGATTGTTTTACTGTGAACGACAAAGCCTTGGCTTCACGTCCTATTACTGCAGCCGCAAAGCACATGGGTTACGATTGTGCTGTTTTCGGGTTTGCGCCTTATAGCGCTTTCTGGCGTGAGATGCGTAAAATCGCAACCCTCGAGCTACTTTCTAACCGGCGGCTTCAGATGCTCAAGCATGTCCGTGTTTCTGAGATCTCAATGGTTATGCAAGATTTGTATTCCTTGTGGGTCAAGAAAGGTGGTTCAGAACCAGTAATGGTTGATCTAAAGAGCTGGTTAGAGGATATGAGTCTGAACATGATGGTGAGAATGGTGGCCGGAAAGCGATACTTTGGAGGCGGCTCGTTATCCCCTGAAGATGCCGAAGAGGCAAGGCAATGCAGAAAGGGCGTCGCAAATTTCTTTCACCTCGTCGGTATATTCACCGTGTCCGATGCTTTTCCGAAACTAGGGTGGTTTGATTTTCAAGGACATGAGAAGGAGATGAAGCAAACAGGAAGAGAATTAGATGTGATCCTTGAAAGATGGATTGAAAACCATCGACAACAACGAAAAGTTTCAGGAACGAAACACAATGATTCAGACTTCGTCGACGTTATGCTGTCGCTTGCAGAACAAGGCAAATTCTCGCATCTTCAACATGATGCAATTACTAGCATTAAATCTACCTGCCTGGCACTGATTCTTGGAGGAAGTGAGACTTCACCATCAACCCTTACATGGGCCATTTCTCTTCTTCTAAACAATAAGGACATGTTAAAGAAAGCACAAGATGAGATCGACATCCACGTCGGCAGAGACAGGAACGTCGAGGATTCAGACATAGAAAATCTGGTGTATATTCAAGCGATTATCAAAGAAACATTGAGATTGTATCCAGCTGGTCCTCTCTTAGGCCATCGAGAGGCGATAGAAGATTGCACGGTCGCTGGTTACAACGTTCGTCGCGGCACAAGAATGTTAGTGAATGTATGGAAAATCCAAAGAGATCCGAGGGTTTATATGGAGCCAAACGAATTTCGACCAGAGAGGTTTATCACAGGAGAAGCAAAAGAGTTCGATGTAAGAGGACAAAACTTTGAGCTGATGCCATTTGGTTCGGGAAGAAGATCATGCCCAGGCTCTTCATTGGCCATGCAAGTGCTTCATTTAGGTCTTGCTCGTTTCCTTCAATCATTTGACGTGAAAACTGTTATGGATATGCCTGTTGATATGACTGAGAGCCCTGGCTTAACCATTCCTAAAGCCACGCCTCTTGAGATTCTGATCAGTCCACGTCTTAAGGAAGGGCTTTATGTGTGATCTCTGTTCCAGAAACATATACTATATGACTTCAATATGGTAATTGAAGGTGCATTTTAATTTGTTTTTTTAATTTTATTTTGAATAAAACGTACGTTTGTTACGTTGTGTACTTTTTTAAAATAAATAAATGTGGAACCAAATGTATTCTTTAAAATATATGTATTATTTGATTTCATCTATTGTGTAAAACTTTGTATAATAT
CDS Sequence
Protein Sequence