Information report for AT4G18360
Gene Details
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Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- GO:0005777 — is active in — peroxisome
- GO:0042742 — acts upstream of or within — defense response to bacterium
- GO:0005777 — located in — peroxisome
- GO:0009854 — involved in — oxidative photosynthetic carbon pathway
- GO:0003973 — enables — (S)-2-hydroxy-acid oxidase activity
- GO:0050665 — acts upstream of or within — hydrogen peroxide biosynthetic process
- GO:0010181 — enables — FMN binding
Functional Keywords
Literature and News
- Binding of arabinogalactan proteins by Yariv phenylglycoside triggers wound-like responses in Arabidopsis cell cultures. DOI: 10.1104/pp.104.039370 ; PMID: 15235117
- AraPerox. A database of putative Arabidopsis proteins from plant peroxisomes. DOI: 10.1104/pp.104.043695 ; PMID: 15333753
- The mitochondrial type II peroxiredoxin F is essential for redox homeostasis and root growth of Arabidopsis thaliana under stress. DOI: 10.1074/jbc.M413189200 ; PMID: 15632145
- Detoxification and transcriptome response in Arabidopsis seedlings exposed to the allelochemical benzoxazolin-2(3H)-one. DOI: 10.1074/jbc.M500694200 ; PMID: 15824099
- Proteome analysis of Arabidopsis leaf peroxisomes reveals novel targeting peptides, metabolic pathways, and defense mechanisms. DOI: 10.1105/tpc.107.050989 ; PMID: 17951448
- 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
- Novel proteins, putative membrane transporters, and an integrated metabolic network are revealed by quantitative proteomic analysis of Arabidopsis cell culture peroxisomes. DOI: 10.1104/pp.108.129999 ; PMID: 18931141
- Glycolate oxidase modulates reactive oxygen species-mediated signal transduction during nonhost resistance in Nicotiana benthamiana and Arabidopsis. DOI: 10.1105/tpc.111.093245 ; PMID: 22286136
- Glycolate oxidase is an alternative source for H2O2 production during plant defense responses and functions independently from NADPH oxidase. DOI: 10.4161/psb.20429 ; PMID: 22751316
- Proteome analysis of peroxisomes from etiolated Arabidopsis seedlings identifies a peroxisomal protease involved in β-oxidation and development. DOI: 10.1104/pp.113.223453 ; PMID: 24130194
- 2-Hydroxy Acids in Plant Metabolism. DOI: 10.1199/tab.0182 ; PMID: 26380567
- Proteome analysis of Arabidopsis leaf peroxisomes reveals novel targeting peptides, metabolic pathways, and defense mechanisms. DOI: 10.1105/tpc.107.050989 ; PMID: 17951448
- Analysis of the Arabidopsis cytosolic proteome highlights subcellular partitioning of central plant metabolism. DOI: 10.1021/pr1009433 ; PMID: 21166475
- Proteome analysis of Arabidopsis leaf peroxisomes reveals novel targeting peptides, metabolic pathways, and defense mechanisms. DOI: 10.1105/tpc.107.050989 ; PMID: 17951448
- Analysis of the Arabidopsis cytosolic proteome highlights subcellular partitioning of central plant metabolism. DOI: 10.1021/pr1009433 ; PMID: 21166475
Gene Resources
Sequences
cDNA Sequence
- >AT4G18360.2
CCAAGTCTCTCTAGGCCTCTAGGAATTTTTTTGAGTGTTGAGTAAATAAAAATGGAGATAACAAACGTGATGGAATATGAGAAGATCGCAAAGGAGAAATTACCAAAGATGGTTTATGATTACTATGCATCTGGTGCTGAAGATCAATGGACTCTTCAAGAGAATCGAAACGCTTTCTCTAGGATTCTATTTAGGCCTCGGATTCTTATCGATGTAAGCAAGATTGATGTGAGCACAACGGTTTTAGGGTTTAATATTTCTATGCCAATTATGATTGCTCCTACTGCAATGCAGAAAATGGCTCATCCTGATGGCGAGCTTGCAACCGCGAGAGCTACTTCTGCTGCTGGAACAATCATGACTTTATCTTCATGGGCTACTTGTAGTGTTGAGGAAGTTGCTTCAACCGGACCAGGGATTCGTTTTTTCCAACTTTATGTTTATAAGGATAGAAATGTGGTTATACAGCTTGTGAAACGAGCTGAAGAAGCTGGATTCAAAGCTATTGCTCTTACTGTAGATACTCCAAGGCTTGGACGCAGAGAATCTGACATCAAAAACAGATTCGCGCTTCCTCGAGGTCTAACGTTGAAGAACTTCGAAGGGTTGGATCTTGGGAAAATAGACAAGACGAATGACTCAGGGCTAGCTTCATATGTTGCTGGTCAAGTTGATCAATCACTTAGCTGGAAGGATATAAAATGGCTCCAATCTATCACAAGCTTGCCAATTCTTGTCAAGGGTGTTATTACAGCTGAGGATGCAAGAATTGCTGTTGAATATGGAGCTGCAGGGATAATAGTCTCTAACCACGGAGCTCGTCAGCTAGATTATGTTCCTGCAACTATAGTGGCCTTAGAAGAGGTGGTTAAAGCCGTGGAGGGTCGGATTCCGGTTTTTCTTGACGGTGGGGTTCGCCGTGGAACCGATGTCTTTAAGGCATTGGCTCTTGGCGCTTCAGGTGTCTTTGTAAGTTCATTCATCATATACACTTAGCTCTTGTCATTTCCCCTGTTTTCTCTCACGGTTTTCAAATCGCTCCTTTCATTTTCAGTTTCATTGCAATAACCTTGATTATCTCTTCTTGATTTTTACAAATTGTTAACATTTTGCACCAAACTTCTAAATTTTCAAAACAAACCCAAATATATCCTCTGTTTTATTAAGTTGTTTTTAATTTGTCGAAATGAAGCCAAACAATGAAACAAATGTGTGTCCCGTTGCTGCATATGAGTATTATCACTGATCATATAAATATCCAAAGGACATGTGATTAATTACTTGTTCCGTTAGGTCGGGAGGCCGAGCTTGTTCTCGCTTGCAGCGGATGGAGAAGCGGGAGTTAGGAAGATGCTACAAATGCTAAGAGACGAGTTTGAGCTTACAATGGCACTAAGTGGTTGCCGTTCACTGAGAGAGATCAGCCGAACCCACATCAAGACTGATTGGGACACTCCTCATTACCTCTCGGCCAAGCTGTAGGGAATCTTATTCACTTCTTCAATTTAAGAGTCACCACTCATCAGAGAGATGAAAAGATAGATGGATGTTTGAATTTGTGATCCAATAAAGTATTCCCATCCAACTATATAATCGAATACTTTCGTTTTGTAGATGTAGTTAAATGGTAACAATATATTAATCTTTTATATGTGGGAATAATGTGAGATTTTTACTCAAAACATTTCTGTTACAAAAAATAGT - >AT4G18360.4
CCAAGTCTCTCTAGGCCTCTAGGAATTTTTTTGAGTGTTGAGTAAATAAAAATGGAGATAACAAACGTGATGGAATATGAGAAGATCGCAAAGGAGAAATTACCAAAGATGGTTTATGATTACTATGCATCTGGTGCTGAAGATCAATGGACTCTTCAAGAGAATCGAAACGCTTTCTCTAGGATTCTATTTAGGCCTCGGATTCTTATCGATGTAAGCAAGATTGATGTGAGCACAACGGTTTTAGGGTTTAATATTTCTATGCCAATTATGATTGCTCCTACTGCAATGCAGAAAATGGCTCATCCTGATGGCGAGCTTGCAACCGCGAGAGCTACTTCTGCTGCTGGAACAATCATGACTTTATCTTCATGGGCTACTTGTAGTGTTGAGGAAGTTGCTTCAACCGGACCAGGGATTCGTTTTTTCCAACTTTATGTTTATAAGGATAGAAATGTGGTTATACAGCTTGTGAAACGAGCTGAAGAAGCTGGATTCAAAGCTATTGCTCTTACTGTAGATACTCCAAGGCTTGGACGCAGAGAATCTGACATCAAAAACAGATTCGCGCTTCCTCGAGGTCTAACGTTGAAGAACTTCGAAGGGTTGGATCTTGGGAAAATAGACAAGACGAATGACTCAGGGCTAGCTTCATATGTTGCTGGTCAAGTTGATCAATCACTTAGCTGGAAGGATATAAAATGGCTCCAATCTATCACAAGCTTGCCAATTCTTGTCAAGGGTGTTATTACAGCTGAGGATGCAAGAATTGCTGTTGAATATGGAGCTGCAGGGATAATAGTCTCTAACCACGGAGCTCGTCAGCTAGATTATGTTCCTGCAACTATAGTGGCCTTAGAAGAGGTGGTTAAAGCCGTGGAGGGTCGGATTCCGGTTTTTCTTGACGGTGGGGTTCGCCGTGGAACCGATGTCTTTAAGGCATTGGCTCTTGGCGCTTCAGGTGTCTTTGTAAGTTCATTCATCATATACACTTAGCTCTTGTCATTTCCCCTGTTTTCTCTCACGGTTTTCAAATCGCTCCTTTCATTTTCAGTTTCATTGCAATAACCTTGATTATCTCTTCTTGATTTTTACAAATTGTTAACATTTTGCACCAAACTTCTAAATTTTCAAAACAAACCCAAATATATCCTCTGTTTTATTAAGTTGTTTTTAATTTGTCGAAATGAAGCCAAACAATGAAACAAATGTGTGTCCCGTTGCTGCATATGAGTATTATCACTGATCATATAAATATCCAAAGGACATGTGATTAATTACTTGTTCCGTTAGGTCGGGAGGCCGAGCTTGTTCTCGCTTGCAGCGGATGGAGAAGCGGGAGTTAGGAAGATGCTACAAATGCTAAGAGACGAGTTTGAGCTTACAATGGCACTAAGTGGTTGCCGTTCACTGAGAGAGATCAGCCGAACCCACATCAAGACTGATTGGGACACTCCTCATTACCTCTCGGCCAAGCTGTAGGGAATCTTATTCACTTCTTCAATTTAAGAGTCACCACTCATCAGAGAGATGAAAAGATAGATGGATGTTTGAATTTGTGATCCAATAAAGTATTCCCATCCAACTATATAATCGAATACTTTCGTTTTGTAGATGTAGTTAAATGGTAACAATATATTAATCTTTTATATGTGGGAATAATGTGAGATTTTTACTCAAAACATTTCTGTTACAAAAAATAGT - >AT4G18360.3
CCAAGTCTCTCTAGGCCTCTAGGAATTTTTTTGAGTGTTGAGTAAATAAAAATGGAGATAACAAACGTGATGGAATATGAGAAGATCGCAAAGGAGAAATTACCAAAGATGGTTTATGATTACTATGCATCTGGTGCTGAAGATCAATGGACTCTTCAAGAGAATCGAAACGCTTTCTCTAGGATTCTATTTAGGCCTCGGATTCTTATCGATGTAAGCAAGATTGATGTGAGCACAACGGTTTTAGGGTTTAATATTTCTATGCCAATTATGATTGCTCCTACTGCAATGCAGAAAATGGCTCATCCTGATGGCGAGCTTGCAACCGCGAGAGCTACTTCTGCTGCTGGAACAATCATGACTTTATCTTCATGGGCTACTTGTAGTGTTGAGGAAGTTGCTTCAACCGGACCAGGGATTCGTTTTTTCCAACTTTATGTTTATAAGGATAGAAATGTGGTTATACAGCTTGTGAAACGAGCTGAAGAAGCTGGATTCAAAGCTATTGCTCTTACTGTAGATACTCCAAGGCTTGGACGCAGAGAATCTGACATCAAAAACAGATTCGCGCTTCCTCGAGGTCTAACGTTGAAGAACTTCGAAGGGTTGGATCTTGGGAAAATAGACAAGACGAATGACTCAGGGCTAGCTTCATATGTTGCTGGTCAAGTTGATCAATCACTTAGCTGGAAGGATATAAAATGGCTCCAATCTATCACAAGCTTGCCAATTCTTGTCAAGGGTGTTATTACAGCTGAGGATGCAAGAATTGCTGTTGAATATGGAGCTGCAGGGATAATAGTCTCTAACCACGGAGCTCGTCAGCTAGATTATGTTCCTGCAACTATAGTGGCCTTAGAAGAGGTGGTTAAAGCCGTGGAGGGTCGGATTCCGGTTTTTCTTGACGGTGGGGTTCGCCGTGGAACCGATGTCTTTAAGGCATTGGCTCTTGGCGCTTCAGGTGTCTTTGTAAGTTCATTCATCATATACACTTAGCTCTTGTCATTTCCCCTGTTTTCTCTCACGGTTTTCAAATCGCTCCTTTCATTTTCAGTTTCATTGCAATAACCTTGATTATCTCTTCTTGATTTTTACAAATTGTTAACATTTTGCACCAAACTTCTAAATTTTCAAAACAAACCCAAATATATCCTCTGTTTTATTAAGTTGTTTTTAATTTGTCGAAATGAAGCCAAACAATGAAACAAATGTGTGTCCCGTTGCTGCATATGAGTATTATCACTGATCATATAAATATCCAAAGGACATGTGATTAATTACTTGTTCCGTTAGGTCGGGAGGCCGAGCTTGTTCTCGCTTGCAGCGGATGGAGAAGCGGGAGTTAGGAAGATGCTACAAATGCTAAGAGACGAGTTTGAGCTTACAATGGCACTAAGTGGTTGCCGTTCACTGAGAGAGATCAGCCGAACCCACATCAAGACTGATTGGGACACTCCTCATTACCTCTCGGCCAAGCTGTAGGGAATCTTATTCACTTCTTCAATTTAAGAGTCACCACTCATCAGAGAGATGAAAAGATAGATGGATGTTTGAATTTGTGATCCAATAAAGTATTCCCATCCAACTATATAATCGAATACTTTCGTTTTGTAGATGTAGTTAAATGGTAACAATATATTAATCTTTTATATGTGGGAATAATGTGAGATTTTTACTCAAAACATTTCTGTTACAAAAAATAGT - >AT4G18360.1
CCAAGTCTCTCTAGGCCTCTAGGAATTTTTTTGAGTGTTGAGTAAATAAAAATGGAGATAACAAACGTGATGGAATATGAGAAGATCGCAAAGGAGAAATTACCAAAGATGGTTTATGATTACTATGCATCTGGTGCTGAAGATCAATGGACTCTTCAAGAGAATCGAAACGCTTTCTCTAGGATTCTATTTAGGCCTCGGATTCTTATCGATGTAAGCAAGATTGATGTGAGCACAACGGTTTTAGGGTTTAATATTTCTATGCCAATTATGATTGCTCCTACTGCAATGCAGAAAATGGCTCATCCTGATGGCGAGCTTGCAACCGCGAGAGCTACTTCTGCTGCTGGAACAATCATGACTTTATCTTCATGGGCTACTTGTAGTGTTGAGGAAGTTGCTTCAACCGGACCAGGGATTCGTTTTTTCCAACTTTATGTTTATAAGGATAGAAATGTGGTTATACAGCTTGTGAAACGAGCTGAAGAAGCTGGATTCAAAGCTATTGCTCTTACTGTAGATACTCCAAGGCTTGGACGCAGAGAATCTGACATCAAAAACAGATTCGCGCTTCCTCGAGGTCTAACGTTGAAGAACTTCGAAGGGTTGGATCTTGGGAAAATAGACAAGACGAATGACTCAGGGCTAGCTTCATATGTTGCTGGTCAAGTTGATCAATCACTTAGCTGGAAGGATATAAAATGGCTCCAATCTATCACAAGCTTGCCAATTCTTGTCAAGGGTGTTATTACAGCTGAGGATGCAAGAATTGCTGTTGAATATGGAGCTGCAGGGATAATAGTCTCTAACCACGGAGCTCGTCAGCTAGATTATGTTCCTGCAACTATAGTGGCCTTAGAAGAGGTGGTTAAAGCCGTGGAGGGTCGGATTCCGGTTTTTCTTGACGGTGGGGTTCGCCGTGGAACCGATGTCTTTAAGGCATTGGCTCTTGGCGCTTCAGGTGTCTTTGTAAGTTCATTCATCATATACACTTAGCTCTTGTCATTTCCCCTGTTTTCTCTCACGGTTTTCAAATCGCTCCTTTCATTTTCAGTTTCATTGCAATAACCTTGATTATCTCTTCTTGATTTTTACAAATTGTTAACATTTTGCACCAAACTTCTAAATTTTCAAAACAAACCCAAATATATCCTCTGTTTTATTAAGTTGTTTTTAATTTGTCGAAATGAAGCCAAACAATGAAACAAATGTGTGTCCCGTTGCTGCATATGAGTATTATCACTGATCATATAAATATCCAAAGGACATGTGATTAATTACTTGTTCCGTTAGGTCGGGAGGCCGAGCTTGTTCTCGCTTGCAGCGGATGGAGAAGCGGGAGTTAGGAAGATGCTACAAATGCTAAGAGACGAGTTTGAGCTTACAATGGCACTAAGTGGTTGCCGTTCACTGAGAGAGATCAGCCGAACCCACATCAAGACTGATTGGGACACTCCTCATTACCTCTCGGCCAAGCTGTAGGGAATCTTATTCACTTCTTCAATTTAAGAGTCACCACTCATCAGAGAGATGAAAAGATAGATGGATGTTTGAATTTGTGATCCAATAAAGTATTCCCATCCAACTATATAATCGAATACTTTCGTTTTGTAGATGTAGTTAAATGGTAACAATATATTAATCTTTTATATGTGGGAATAATGTGAGATTTTTACTCAAAACATTTCTGTTACAAAAAATAGT
CDS Sequence
Protein Sequence