Information report for AT5G20960
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)
- PO:0009010 — seed — semilla (Spanish, exact), 種子 (Japanese, exact), pyrene (narrow), diaspore (broad)
- GO:0009851 — acts upstream of or within — auxin biosynthetic process
- GO:0004031 — enables — aldehyde oxidase activity
- GO:0005506 — enables — iron ion binding
- GO:0071949 — enables — FAD binding
- GO:0050302 — enables — indole-3-acetaldehyde oxidase activity
- GO:0009536 — located in — plastid
- SALK_057618 — higher survival rate and fresh mass after heat shock, showing thermomemory.
- aao1 — No significant changes in ABA levels were observed.
- aao3-1 aao1 — The endogenous levels of ABA are significantly lower than those of the aao3 single mutant.
Literature and News
- Abscisic aldehyde oxidase in leaves of Arabidopsis thaliana. DOI: 10.1046/j.1365-313x.2000.00812.x ; PMID: 10972874
- and hetero-dimeric isozymes from two aldehyde oxidase genes of Arabidopsis thaliana. DOI: 10.1093/oxfordjournals.jbchem.a022463 ; PMID: 10423535
- Molecular cloning and characterization of aldehyde oxidases in Arabidopsis thaliana. DOI: 10.1093/oxfordjournals.pcp.a029387 ; PMID: 9615466
- Higher activity of an aldehyde oxidase in the auxin-overproducing superroot1 mutant of Arabidopsis thaliana. DOI: 10.1104/pp.116.2.687 ; PMID: 9489015
- Abscisic acid regulation of gene expression during water-deficit stress in the era of the Arabidopsis genome. DOI: 10.1046/j.1365-3040.2002.00746.x ; PMID: 11841660
- The Arabidopsis aldehyde oxidase 3 (AAO3) gene product catalyzes the final step in abscisic acid biosynthesis in leaves. DOI: 10.1073/pnas.220426197 ; PMID: 11050171
- Comparative studies on the Arabidopsis aldehyde oxidase (AAO) gene family revealed a major role of AAO3 in ABA biosynthesis in seeds. DOI: 10.1093/pcp/pch198 ; PMID: 15574845
- 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
- The effect of ascorbic acid and dehydroascorbic acid on the root gravitropic response in Arabidopsis thaliana. DOI: 10.1016/j.plaphy.2011.05.013 ; PMID: 21696975
- Identification of superoxide production by Arabidopsis thaliana aldehyde oxidases AAO1 and AAO3. DOI: 10.1007/s11103-012-9975-1 ; PMID: 23065119
- The Biosynthetic Pathway of Indole-3-Carbaldehyde and Indole-3-Carboxylic Acid Derivatives in Arabidopsis. DOI: 10.1104/pp.114.235630 ; PMID: 24728709
- Dissection of the network of indolic defence compounds in Arabidopsis thaliana by multiple mutant analysis. DOI: 10.1016/j.phytochem.2019.01.009 ; PMID: 30798200
- The function of glutaredoxin GRXS15 is required for lipoyl-dependent dehydrogenases in mitochondria. DOI: 10.1093/plphys/kiab172 ; PMID: 33856472
- Arabidopsis aldehyde oxidase 3, known to oxidize abscisic aldehyde to abscisic acid, protects leaves from aldehyde toxicity. DOI: 10.1111/tpj.15521 ; PMID: 34587326
- NAC transcription factors ATAF1 and ANAC055 affect the heat stress response in Arabidopsis. DOI: 10.1038/s41598-022-14429-x ; PMID: 35787631
- Molecular cloning and characterization of aldehyde oxidases in Arabidopsis thaliana. DOI: 10.1093/oxfordjournals.pcp.a029387 ; PMID: 9615466
- Analysis of protein complexes in Arabidopsis leaves using size exclusion chromatography and label-free protein correlation profiling. DOI: 10.1016/j.jprot.2017.06.004 ; PMID: 28627464
Gene Resources
Sequences
cDNA Sequence
- >AT5G20960.2
TAAAGACTTCGTGTCTGTTACATATATCGCAAAAAACCAAAGCCTCCATTTAGAGAGTCGATGTCGTGGAACTAAGTTCTGGTTTGGTTTTATGCTATGGGTGAGAAAGCGATTGACGAAGACAAAGTAGAAGCGATGAAGAGCAGCAAGACCTCTCTTGTTTTCGCCATTAACGGACAAAGATTCGAGCTCGAGCTCTCTTCTATTGATCCTTCCACCACACTCGTCGATTTCTTGCGCAACAAGACTCCTTTCAAGAGCGTCAAGCTTGGTTGTGGCGAAGGTGGTTGTGGCGCTTGTGTTGTTCTTCTTTCAAAGTATGATCCATTGCTCGAAAAAGTCGATGAATTCACAATTAGCTCGTGTCTCACGCTTCTCTGTAGCATTGATGGCTGTTCCATCACTACCTCAGACGGGCTCGGCAACAGCAGAGTCGGTTTCCATGCCGTCCACGAGCGTATCGCCGGTTTTCATGCCACACAATGCGGTTTCTGTACTCCTGGAATGAGCGTTTCGATGTTTTCTGCTCTCTTGAACGCTGATAAGTCTCATCCACCTCCTCGCAGCGGTTTCTCAAATCTCACGGCTGTAGAAGCTGAGAAGGCTGTGTCAGGGAATCTTTGCCGGTGTACTGGATATAGACCGCTTGTGGATGCTTGTAAGAGTTTTGCAGCGGATGTGGATATCGAAGATCTCGGATTCAATGCCTTTTGCAAGAAGGGAGAAAACAGAGATGAGGTTTTAAGAAGGTTGCCATGTTATGATCATACATCATCTCATGTCTGTACATTTCCGGAGTTCTTGAAGAAGGAAATCAAGAACGATATGAGTCTTCATTCAAGAAAGTATCGATGGTCAAGCCCGGTTAGTGTCTCAGAGCTTCAAGGGTTATTAGAAGTCGAGAATGGTTTGTCGGTTAAGTTAGTTGCGGGTAACACGAGCACCGGGTATTACAAAGAAGAAAAAGAGAGGAAGTACGAAAGATTTATCGATATCAGGAAGATTCCGGAGTTTACTATGGTGAGAAGTGATGAGAAAGGAGTTGAATTAGGAGCTTGTGTCACTATATCGAAAGCTATTGAGGTTCTAAGAGAGGAAAAAAATGTTTCTGTGTTGGCGAAAATCGCTACTCATATGGAGAAAATTGCAAACAGATTCGTGAGGAACACGGGAACGATAGGTGGAAACATTATGATGGCTCAGAGAAAACAGTTTCCTTCGGATCTTGCAACCATACTTGTTGCTGCTCAAGCAACGGTGAAGATCATGACTAGCAGCTCGAGTCAAGAACAGTTCACATTGGAGGAGTTTCTACAACAACCTCCTCTTGATGCAAAATCTCTTCTTTTGAGCCTCGAGATTCCATCTTGGCACTCCGCGAAGAAGAACGGTTCTTCAGAAGATAGTATTTTGCTATTTGAAACTTACAGAGCAGCGCCTCGTCCTCTAGGAAACGCATTGGCATTTCTGAATGCGGCTTTCTCAGCTGAAGTTACTGAAGCACTTGATGGCATTGTTGTAAATGATTGCCAATTAGTTTTTGGAGCTTATGGGACCAAACATGCACACAGGGCAAAGAAAGTAGAAGAGTTTCTTACAGGAAAAGTGATATCTGATGAAGTTTTGATGGAAGCTATTAGCTTACTTAAAGATGAGATAGTACCTGATAAGGGTACTTCGAATCCCGGGTATAGATCAAGCTTGGCTGTTACTTTTCTCTTCGAGTTCTTCGGATCTTTAACTAAAAAAAACGCTAAAACGACAAACGGTTGGCTCAATGGAGGATGCAAAGAGATTGGTTTTGATCAGAATGTTGAATCTTTGAAACCTGAAGCTATGCTGTCATCTGCACAACAAATAGTTGAAAATCAAGAGCATAGTCCGGTCGGGAAAGGCATTACAAAGGCTGGAGCTTGTCTCCAAGCATCTGGTGAGGCTGTTTATGTAGACGACATTCCTGCTCCGGAAAATTGTCTATACGGCGCATTTATTTACAGTACAATGCCGCTAGCGCGAATTAAGGGTATAAGGTTCAAGCAAAACAGAGTTCCAGAAGGAGTTCTTGGCATTATTACTTACAAAGATATTCCCAAAGGCGGGCAAAATATCGGTACCAACGGTTTCTTTACCTCGGATCTTTTGTTCGCAGAAGAAGTCACTCATTGTGCGGGTCAGATAATCGCCTTTTTGGTTGCAGATAGTCAAAAGCATGCAGATATTGCAGCAAATCTTGTTGTGATAGATTACGACACCAAAGATTTAAAACCACCTATACTGTCCTTAGAAGAAGCTGTCGAAAACTTTAGCCTTTTCGAGGTCCCTCCACCTCTGCGTGGTTACCCGGTTGGTGATATCACCAAGGGAATGGATGAAGCTGAACATAAGATTCTTGGATCAAAGATAAGTTTCGGGTCACAGTACTTCTTCTATATGGAGACACAAACAGCTCTTGCAGTGCCGGATGAAGACAACTGTATGGTGGTTTATAGCTCGACTCAAACCCCTGAGTTTGTACATCAAACCATCGCTGGATGTCTTGGAGTTCCTGAGAACAATGTGCGTGTCATCACTAGAAGAGTTGGAGGCGGATTCGGTGGGAAAGCCGTGAAATCAATGCCTGTTGCTGCAGCTTGTGCACTTGCAGCATCCAAAATGCAGCGTCCTGTGAGGACATATGTGAACCGAAAAACGGATATGATAACTACCGGAGGAAGACATCCGATGAAAGTCACATATAGTGTTGGATTCAAATCCAATGGAAAGATTACTGCTTTAGATGTAGAGGTGTTACTTGATGCAGGGTTAACCGAAGATATAAGCCCGCTTATGCCGAAGGGAATACAAGGAGCACTAATGAAGTATGATTGGGGTGCTCTGTCTTTCAATGTGAAAGTATGCAAAACAAACACTGTGAGCAGAACCGCGCTGAGAGCTCCTGGGGATGTACAAGGATCATATATAGGAGAAGCCATCATTGAAAAAGTAGCTTCATATCTTTCAGTTGATGTTGATGAGATCAGGAAGGTTAATCTTCATACATATGAGAGCTTAAGGTTGTTTCACAGTGCCAAAGCTGGTGAATTTTCTGAGTATACGTTACCATTGCTTTGGGACAGAATCGATGAGTTCTCGGGATTTAACAAGCGGAGGAAGGTGGTTGAGGAGTTTAATGCATCAAACAAGTGGAGAAAGAGAGGGATTTCACGTGTGCCTGCGGTTTATGCAGTGAACATGCGATCAACACCGGGAAGAGTAAGCGTTTTGGGAGATGGGTCAATAGTTGTGGAGGTTCAAGGGATTGAGATAGGACAAGGGCTTTGGACAAAGGTGAAACAGATGGCTGCATATTCCCTTGGTTTGATCCAGTGCGGTACTACAAGTGATGAACTGCTTAAAAAAATCAGGGTCATTCAATCCGACACACTAAGTATGGTGCAAGGCTCAATGACTGCTGGTAGTACAACCTCTGAAGCGAGTAGTGAAGCGGTAAGGATTTGCTGTGATGGCTTAGTTGAAAGGCTTTTACCAGTCAAGACCGCTTTGGTGGAGCAAACAGGAGGACCTGTGACTTGGGATAGTCTCATCAGTCAGGCTTATCAGCAATCGATAAACATGTCCGTTAGTAGCAAATACATGCCTGACTCCACTGGCGAATACCTGAACTATGGAATTGCAGCGAGCGAGGTTGAAGTAAACGTTTTGACGGGAGAAACAACGATCCTGCGTACAGATATTATCTATGATTGTGGGAAGAGTCTCAATCCCGCTGTTGATTTAGGACAGATTGAAGGAGCCTTTGTTCAAGGACTTGGTTTCTTCATGCTTGAAGAGTTCCTAATGAACTCAGACGGTCTCGTGGTAACAGACAGCACATGGACTTACAAGATCCCAACGGTTGACACAATCCCAAGACAGTTTAATGTGGAGATTCTCAACAGTGGACAACACAAGAATCGTGTTCTTTCATCCAAAGCTTCGGGTGAACCGCCATTGCTTTTAGCGGCTTCTGTTCACTGCGCGGTACGAGCAGCTGTTAAAGAAGCTAGGAAACAGATCCTGTCATGGAATAGTAATAAACAAGGGACTGATATGTACTTCGAATTGCCTGTTCCAGCAACAATGCCTATTGTGAAGGAGTTTTGTGGACTTGATGTTGTCGAGAAATACTTGGAATGGAAAATCCAGCAAAGGAAAAATGTTTGATAGCTTGTGTTTGTGTTTTCGATGTGAATGTAAAATTGCTCTGTTTTTGTTTGTGGTTTGATTCGTTTGAAGCGTTTGATAGAATGTTTGGGATTGTGATATACTTGTTGTTGTAATAAGCTGCATGGCAATGGCAATGGCAATGGCAATGGCAATGGCGGTGTTCTGCTTAGGAAGGACATAATTTTAGAAGATTTGAGCATGGCAATTGTGGTGTTCTGTTTAGAGTCATCATCACTCAACGTTGCATATTAATACAATATTATTTCTTCAT - >AT5G20960.1
TAAAGACTTCGTGTCTGTTACATATATCGCAAAAAACCAAAGCCTCCATTTAGAGAGTCGATGTCGTGGAACTAAGTTCTGGTTTGGTTTTATGCTATGGGTGAGAAAGCGATTGACGAAGACAAAGTAGAAGCGATGAAGAGCAGCAAGACCTCTCTTGTTTTCGCCATTAACGGACAAAGATTCGAGCTCGAGCTCTCTTCTATTGATCCTTCCACCACACTCGTCGATTTCTTGCGCAACAAGACTCCTTTCAAGAGCGTCAAGCTTGGTTGTGGCGAAGGTGGTTGTGGCGCTTGTGTTGTTCTTCTTTCAAAGTATGATCCATTGCTCGAAAAAGTCGATGAATTCACAATTAGCTCGTGTCTCACGCTTCTCTGTAGCATTGATGGCTGTTCCATCACTACCTCAGACGGGCTCGGCAACAGCAGAGTCGGTTTCCATGCCGTCCACGAGCGTATCGCCGGTTTTCATGCCACACAATGCGGTTTCTGTACTCCTGGAATGAGCGTTTCGATGTTTTCTGCTCTCTTGAACGCTGATAAGTCTCATCCACCTCCTCGCAGCGGTTTCTCAAATCTCACGGCTGTAGAAGCTGAGAAGGCTGTGTCAGGGAATCTTTGCCGGTGTACTGGATATAGACCGCTTGTGGATGCTTGTAAGAGTTTTGCAGCGGATGTGGATATCGAAGATCTCGGATTCAATGCCTTTTGCAAGAAGGGAGAAAACAGAGATGAGGTTTTAAGAAGGTTGCCATGTTATGATCATACATCATCTCATGTCTGTACATTTCCGGAGTTCTTGAAGAAGGAAATCAAGAACGATATGAGTCTTCATTCAAGAAAGTATCGATGGTCAAGCCCGGTTAGTGTCTCAGAGCTTCAAGGGTTATTAGAAGTCGAGAATGGTTTGTCGGTTAAGTTAGTTGCGGGTAACACGAGCACCGGGTATTACAAAGAAGAAAAAGAGAGGAAGTACGAAAGATTTATCGATATCAGGAAGATTCCGGAGTTTACTATGGTGAGAAGTGATGAGAAAGGAGTTGAATTAGGAGCTTGTGTCACTATATCGAAAGCTATTGAGGTTCTAAGAGAGGAAAAAAATGTTTCTGTGTTGGCGAAAATCGCTACTCATATGGAGAAAATTGCAAACAGATTCGTGAGGAACACGGGAACGATAGGTGGAAACATTATGATGGCTCAGAGAAAACAGTTTCCTTCGGATCTTGCAACCATACTTGTTGCTGCTCAAGCAACGGTGAAGATCATGACTAGCAGCTCGAGTCAAGAACAGTTCACATTGGAGGAGTTTCTACAACAACCTCCTCTTGATGCAAAATCTCTTCTTTTGAGCCTCGAGATTCCATCTTGGCACTCCGCGAAGAAGAACGGTTCTTCAGAAGATAGTATTTTGCTATTTGAAACTTACAGAGCAGCGCCTCGTCCTCTAGGAAACGCATTGGCATTTCTGAATGCGGCTTTCTCAGCTGAAGTTACTGAAGCACTTGATGGCATTGTTGTAAATGATTGCCAATTAGTTTTTGGAGCTTATGGGACCAAACATGCACACAGGGCAAAGAAAGTAGAAGAGTTTCTTACAGGAAAAGTGATATCTGATGAAGTTTTGATGGAAGCTATTAGCTTACTTAAAGATGAGATAGTACCTGATAAGGGTACTTCGAATCCCGGGTATAGATCAAGCTTGGCTGTTACTTTTCTCTTCGAGTTCTTCGGATCTTTAACTAAAAAAAACGCTAAAACGACAAACGGTTGGCTCAATGGAGGATGCAAAGAGATTGGTTTTGATCAGAATGTTGAATCTTTGAAACCTGAAGCTATGCTGTCATCTGCACAACAAATAGTTGAAAATCAAGAGCATAGTCCGGTCGGGAAAGGCATTACAAAGGCTGGAGCTTGTCTCCAAGCATCTGGTGAGGCTGTTTATGTAGACGACATTCCTGCTCCGGAAAATTGTCTATACGGCGCATTTATTTACAGTACAATGCCGCTAGCGCGAATTAAGGGTATAAGGTTCAAGCAAAACAGAGTTCCAGAAGGAGTTCTTGGCATTATTACTTACAAAGATATTCCCAAAGGCGGGCAAAATATCGGTACCAACGGTTTCTTTACCTCGGATCTTTTGTTCGCAGAAGAAGTCACTCATTGTGCGGGTCAGATAATCGCCTTTTTGGTTGCAGATAGTCAAAAGCATGCAGATATTGCAGCAAATCTTGTTGTGATAGATTACGACACCAAAGATTTAAAACCACCTATACTGTCCTTAGAAGAAGCTGTCGAAAACTTTAGCCTTTTCGAGGTCCCTCCACCTCTGCGTGGTTACCCGGTTGGTGATATCACCAAGGGAATGGATGAAGCTGAACATAAGATTCTTGGATCAAAGATAAGTTTCGGGTCACAGTACTTCTTCTATATGGAGACACAAACAGCTCTTGCAGTGCCGGATGAAGACAACTGTATGGTGGTTTATAGCTCGACTCAAACCCCTGAGTTTGTACATCAAACCATCGCTGGATGTCTTGGAGTTCCTGAGAACAATGTGCGTGTCATCACTAGAAGAGTTGGAGGCGGATTCGGTGGGAAAGCCGTGAAATCAATGCCTGTTGCTGCAGCTTGTGCACTTGCAGCATCCAAAATGCAGCGTCCTGTGAGGACATATGTGAACCGAAAAACGGATATGATAACTACCGGAGGAAGACATCCGATGAAAGTCACATATAGTGTTGGATTCAAATCCAATGGAAAGATTACTGCTTTAGATGTAGAGGTGTTACTTGATGCAGGGTTAACCGAAGATATAAGCCCGCTTATGCCGAAGGGAATACAAGGAGCACTAATGAAGTATGATTGGGGTGCTCTGTCTTTCAATGTGAAAGTATGCAAAACAAACACTGTGAGCAGAACCGCGCTGAGAGCTCCTGGGGATGTACAAGGATCATATATAGGAGAAGCCATCATTGAAAAAGTAGCTTCATATCTTTCAGTTGATGTTGATGAGATCAGGAAGGTTAATCTTCATACATATGAGAGCTTAAGGTTGTTTCACAGTGCCAAAGCTGGTGAATTTTCTGAGTATACGTTACCATTGCTTTGGGACAGAATCGATGAGTTCTCGGGATTTAACAAGCGGAGGAAGGTGGTTGAGGAGTTTAATGCATCAAACAAGTGGAGAAAGAGAGGGATTTCACGTGTGCCTGCGGTTTATGCAGTGAACATGCGATCAACACCGGGAAGAGTAAGCGTTTTGGGAGATGGGTCAATAGTTGTGGAGGTTCAAGGGATTGAGATAGGACAAGGGCTTTGGACAAAGGTGAAACAGATGGCTGCATATTCCCTTGGTTTGATCCAGTGCGGTACTACAAGTGATGAACTGCTTAAAAAAATCAGGGTCATTCAATCCGACACACTAAGTATGGTGCAAGGCTCAATGACTGCTGGTAGTACAACCTCTGAAGCGAGTAGTGAAGCGGTAAGGATTTGCTGTGATGGCTTAGTTGAAAGGCTTTTACCAGTCAAGACCGCTTTGGTGGAGCAAACAGGAGGACCTGTGACTTGGGATAGTCTCATCAGTCAGGCTTATCAGCAATCGATAAACATGTCCGTTAGTAGCAAATACATGCCTGACTCCACTGGCGAATACCTGAACTATGGAATTGCAGCGAGCGAGGTTGAAGTAAACGTTTTGACGGGAGAAACAACGATCCTGCGTACAGATATTATCTATGATTGTGGGAAGAGTCTCAATCCCGCTGTTGATTTAGGACAGATTGAAGGAGCCTTTGTTCAAGGACTTGGTTTCTTCATGCTTGAAGAGTTCCTAATGAACTCAGACGGTCTCGTGGTAACAGACAGCACATGGACTTACAAGATCCCAACGGTTGACACAATCCCAAGACAGTTTAATGTGGAGATTCTCAACAGTGGACAACACAAGAATCGTGTTCTTTCATCCAAAGCTTCGGGTGAACCGCCATTGCTTTTAGCGGCTTCTGTTCACTGCGCGGTACGAGCAGCTGTTAAAGAAGCTAGGAAACAGATCCTGTCATGGAATAGTAATAAACAAGGGACTGATATGTACTTCGAATTGCCTGTTCCAGCAACAATGCCTATTGTGAAGGAGTTTTGTGGACTTGATGTTGTCGAGAAATACTTGGAATGGAAAATCCAGCAAAGGAAAAATGTTTGATAGCTTGTGTTTGTGTTTTCGATGTGAATGTAAAATTGCTCTGTTTTTGTTTGTGGTTTGATTCGTTTGAAGCGTTTGATAGAATGTTTGGGATTGTGATATACTTGTTGTTGTAATAAGCTGCATGGCAATGGCAATGGCAATGGCAATGGCAATGGCGGTGTTCTGCTTAGGAAGGACATAATTTTAGAAGATTTGAGCATGGCAATTGTGGTGTTCTGTTTAGAGTCATCATCACTCAACGTTGCATATTAATACAATATTATTTCTTCAT
CDS Sequence
Protein Sequence