Information report for AT4G17080
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:0009617 — acts upstream of or within — response to bacterium
- GO:0044270 — acts upstream of or within — cellular nitrogen compound catabolic process
- GO:0019439 — acts upstream of or within — aromatic compound catabolic process
- GO:0009057 — acts upstream of or within — macromolecule catabolic process
- GO:0003674 — enables — molecular_function
- GO:0016070 — acts upstream of or within — RNA metabolic process
- GO:0010468 — acts upstream of or within — regulation of gene expression
- GO:1901361 — acts upstream of or within — organic cyclic compound catabolic process
- GO:0080090 — acts upstream of or within — regulation of primary metabolic process
- GO:0046700 — acts upstream of or within — heterocycle catabolic process
- GO:0007165 — acts upstream of or within — signal transduction
- GO:0005737 — located in — cytoplasm
- GO:0005794 — located in — Golgi apparatus
- GO:0098542 — acts upstream of or within — defense response to other organism
- GO:0005811 — located in — lipid droplet
- GO:0009892 — acts upstream of or within — negative regulation of metabolic process
Functional Keywords
Literature and News
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Differential binding of calmodulin-related proteins to their targets revealed through high-density Arabidopsis protein microarrays. DOI: 10.1073/pnas.0611615104 ; PMID: 17360592
- RLM3, a TIR domain encoding gene involved in broad-range immunity of Arabidopsis to necrotrophic fungal pathogens. DOI: 10.1111/j.1365-313X.2008.03503.x ; PMID: 18397376
- 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
- Interaction of the WD40 domain of a myoinositol polyphosphate 5-phosphatase with SnRK1 links inositol, sugar, and stress signaling. DOI: 10.1104/pp.108.130575 ; PMID: 18931139
- Golgi-localized MORN1 promotes lipid droplet abundance and enhances tolerance to multiple stresses in Arabidopsis. DOI: 10.1111/jipb.13498 ; PMID: 37097077
Gene Resources
- UniProt: Q8L7W4
- EMBL: AY125500, BT003028, CP002687
- AlphaFoldDB: Q8L7W4
- EnsemblPlants: AT4G17080.1
- Gramene: AT4G17080.1
- KEGG: ath:AT4G17080
- Orthologous matrix: PRFRFLM
- ExpressionAtlas: AT4G17080
- InterPro: IPR003409
- PANTHER: PTHR23084, PTHR23084:SF179
- SUPFAM: SSF82185
- Gene3D: 2.20.110.10
- OrthoDB: Q8L7W4
- SWISS-MODEL: Q8L7W4
Sequences
cDNA Sequence
- >AT4G17080.1
CGAATGGCATAACAGTAAATAAAACGAAACACGAGGGCTTTATTTGACAATGCCTCTACCTTAGCTTCAAAACTGAGCTCGTTCTTCATCATTTCCTGAAAACTAGAAAACACAGTTTAAAGGAACATAAAAAGCAACTCTTTTGAGAGATCACAGAAACCCTAATTTGCTAAGAACCCTAATCTCAATTTCCATCTTCCAAAGTTCAGATTCTGTATGTAAATGCATCTGAAGAATTCTACTGTAGCAGAACGGCGGTACATCGGAAAAGAAACCGCCGGTTATTTAACTTCTTCCTCCGATTTGGATCCGAAACCTAAGATTAAACATCATCGTCCTCTTCAGGTACCTGAGATTTTGACTCCAGACATTGGTGCTGGTGCTGGATTCAGTGTGTATAATAATCAAGTTCAAGCTCAGAGTCGTCATCATCTGACGGTTGAAATCCCAGATTCATCGTCTCACAATCTTACATCTAAGAGACCTGTGGTGGTTCAATCTTCTAATCCGTTCAACGTTGACGATTTCCGAAGACAACAACGCGCAAGCTTGGGTCCGATTTCATCTTATTGTCCGTCGTATCTTTTATCGTGGTTTTCTTCTTCTCTTCCATCGATCCCATCGGCCACTAATCAGAAGCTTCTCCGTCATGTTCTTAGAGTCCGTTTGATATGTTTCCATCTTCGTTTCTTACTTCTTCTCTCTGTTCCTCCTCTCTACATCTTCTTCTTGTTGATTAGTTTCAGATTCTTCCTTCTCTTTGTCTTCTCGATTATCGCTTTTTCTTTCGTCCTTTCGATCTCTCTCAAATTCGCTCTTCCTCACTTACCATCGATTCGTTTGATTATCGCTCGGTTACTTTCTCTCAAGCTTACCCCTACCAGATCATCCTCTTCATCTCAGGAGAACACTAAACATGTTATTTGGTCAATTGGGTCTAAGCCTGTGACTGAGAAGAAGACCAACTCTGGCTCATGGGTTCAGAAGTACAGCTCTGGTGATGTATACGAGGGAGAGTTTCATAGGGGGAAGTGTTCAGGAAGTGGAGTTTATTACTATTCTATGAAGGGTAAATACGAAGGGGATTGGATTGATGGGAAGTATGATGGATATGGAGTTGAAACTTGGGCTAAAGGGAGTAGGTACCGAGGTCAATACAGGCAAGGGATGAGACATGGAACTGGTATCTACAGATTTTATACAGGGGATGTATATGCTGGTGAGTGGTCTAATGGACAGAGCCATGGCTGTGGTGTGTATACCTCTGAGGATGGTAGTCGTTTTGTTGGAGAGTTTAAATGGGGTGTCAAACATGGCCTTGGTCATTATCATTTCAGAAATGGTGATACATATGCTGGGGAGTATTTTGCAGACAGGATGCATGGTTTTGGAGTGTATCAATTTGGAAACGGGCATCGGTATGAAGGAGCCTGGCATGAGGGGAGAAGGCAAGGACTTGGTATGTACACGTTCAGGAATGGTGAGACACAGGCAGGCCATTGGGAAGACGGAGTTCTTAACTGTCCTACCGAGCAGACCACTCGCCCTGATTCATCGTTTTCCATCAGTCATTCCAAGGTTGTCGACACTGTCCAGCAAGCAAGGAAAGCAGCCAAGAAAGCACGCGAAGTTGTGAAAGTTGAAGAGAGAGTGAACAGAGCAGTGATGGTCGCAAACCGAGCAGCAAATGCTGCTAGAGTTGCTGCTACAAAGGCTGTCCAAACCCAAACATTTCATTGTAGTAGTGGTGACGATCCCTTGTGAGTTCCTGCGGCAAAGATTTTGACATAATCGCAGTCATGACCTTACCTCGAACTTCTACGAAGACAGAAGAGTGAAAGAGAGATGTTTAGAGACAGCGTCAGAATTCGCAATCTCCGTTGAGATTTTCTTGAAGGTGAACCACTTGGAACCAATGTCGAGATCTCATAAGTAATAAGTAAGAGATCTGGCTATGGAGCAAGTATTACAGGTTTACTTTTTCTTTTCTCCCACTTGTTTTATGAGCAGGCTGGTTTAAAACTGTACATATGTTGTTGAAGAGTAAGCAATGTGTGTTAACAAAAGATCTTTGTAACAAGCGTAACCCATGTAAGAGAAGTAACAAAACATTGTTTTACTTTTACAACGTGTTGAAAATAACACCTTTTTTTTACTAGATTTCTATGGATAGAAATTAGAAAATGACATGAGAATTCCAGATTCAAATCAACT
CDS Sequence
Protein Sequence