Information report for AT5G14270
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:0000084 — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)
- GO:0005634 — located in — nucleus
- GO:0005515 — enables — protein binding
- GO:0009737 — acts upstream of or within — response to abscisic acid
- SALK_011661C — Seedlings screened in bulk via high throughput methods for responses to various stressors. Results are in comparison to Col-0.heat:no change,cold:no change,oxidative stress:no change,osmotic stress:no change,salt stress:no change,ABA:no change,hypoxia:decreased.
- SALK_119044C — Hypersensitive to ABA and sucrose.
Functional Keywords
Literature and News
- Analysis of histone acetyltransferase and histone deacetylase families of Arabidopsis thaliana suggests functional diversification of chromatin modification among multicellular eukaryotes. DOI: 10.1093/nar/gkf660 ; PMID: 12466527
- The carboxylesterase gene family from Arabidopsis thaliana. DOI: 10.1007/s00239-003-2492-8 ; PMID: 14738307
- When defense pathways collide. The response of Arabidopsis to a combination of drought and heat stress. DOI: 10.1104/pp.103.033431 ; PMID: 15047901
- A novel family of Ca2+/calmodulin-binding proteins involved in transcriptional regulation: interaction with fsh/Ring3 class transcription activators. DOI: 10.1023/B:PLAN.0000038269.98972.bb ; PMID: 15316289
- The Arabidopsis cold-responsive transcriptome and its regulation by ICE1. DOI: 10.1105/tpc.105.035568 ; PMID: 16214899
- The metabolic response of heterotrophic Arabidopsis cells to oxidative stress. DOI: 10.1104/pp.106.090431 ; PMID: 17122072
- Autophosphorylation profiling of Arabidopsis protein kinases using the cell-free system. DOI: 10.1016/j.phytochem.2011.02.029 ; PMID: 21477822
Gene Resources
Sequences
cDNA Sequence
- >AT5G14270.1
ACTAGATCTGTTCGATTAAAATCCGACGGTGTTTATTGATTGTTCCTGAGTGTTCCCGTACCGAAACTCGTTAACCGATTCACCGTTAAGTGTGGAATCAGACAGTGAAGAGATCAACAGATATTTATCTCTCTACTTCTCTCGGTCGTATTCGTCATTCTGCCTTTTATCTATTTCCATATCAACATTTTAGGGTTTTTACTCCTCTAAGGTTTCGCTTCTTCTTAGATTCTCTGTCTTCCGCTTCAGTTGGATCATCGATTTTCTCAATTGCTCTGAAGTTCAGCCGGTGAGTTTCTTCCTTTTCACGATTTTGGTGTTTACTTCCATCGGGCAATTCGAAGTCTTCATTGCAGGACGAGTTCAGATTTGAATCGCTTAAATTAGGGTTTTGAATCATCTATCTACTATCGGATCGAGATTATCTGATTTAGAGTCATAAGAGTCTTCGGAGATTAGCTTTCTGAAGCAAATCCGTCATACGAGATGTTTCGTTTCCTGCAGGATTAGACTGATCCGGAGCTCTTCACGAGATTAAGGGAATCTATTTCACAATTTCGTCGATATGACAGAGAGAAACGGTGGTTTCCCTGGTGATTATTGTTTTGAGGCACCCGGTGGAGATTATGATGAAGGATCTGATAGTCCGAGGGTCTCAGAGGGTTCCAATTGTTCAAAAAGAAAGGTCGGTGAAACCTTCGGTGTCTCGAAAATGGTATTACCCTTATCTGGCCTATCATCATCAGATAGGAAGGAGTTGATTCGTAGGCTAAGACAAGAGCTGGAACAAATACGAGTTTTCCAGAAGAATTTTGAGCTTTCTAGAACAGTGGCTCTCACTAGCTCTTCTGCTAGTGGTTTGACTCGAGTCAAGAGTTTTGGAATGTCGCGATGTTCCACGGGTCCAGGAAAGACGGTGAACCCTATAAGTGCTGCTTCTAAACCGACTCCTGTCACTACTGCGGTTATGCTTCTGATGAAGCAATGCGAGGCGCTTTTGAAACGATTGATGTCACATCAGTATGGTTGGGTGTTCAATACTCCAGTGGATGTTGTCAAGCTGAATATACTGGACTATTTTAATGTTATTGAGCATCCTATGGATTTAGGAACTGTGAAGAATAAGTTAACTTCGGGGACATATTCCTGTCCGTCAGAGTTTGCTGCTGATGTTCGGCTTACCTTCAGCAATGCAATGACGTATAATCCACCTGGTAATGATGTTTATGTTATGGCTGATACACTTCGTAAGTTTTTCGAAGTGAGGTGGAAGACCCTTGAGAAGAAATTATCCGGAACTAAAGTTCATACTGAACCGAGTAACTTAGATGCCCATAAGGAAAAACATATCGTAATACCTGTGCCTATGGCTAAGAAGAGGAAGACCACTGCAGTAGACTGTGAGAATGTCGTAGATCCTGCTAAACGGGTTATGACTGATGAGGATAGACTCAAGCTGGGCAAGGATTTGGAGTCCTTGACTGAGTTCCCGGCACAATTAATAAATTTCTTGAGAGATCACAACTCAAATGAAGGAGGGATTGGGGATGATGAGATTGAGATTGACATTAATGATCTCAGTGACCATGCCTTGTTTCAGTTGCGGGATCTCTTAGACGAGCATTTGCGTGAGATCCAAAACAAAAAATCAAGTGTTGAACCCTGTGAGATAGAGCTTCTGCATGGATCAGTGCCAGGGAATTCATCAATGCAACATTGTGATGGGAGTGAATTGGATGATGAAGTTGTTGACATTGGTGAAAATGAACACCCAACATCCAGCATTTCTCCTGTCACGATAGAGAAGGATCTGGTGTTAGGAAACTCTAATGGTAATAGCTTGGGAAGTGTGTCCGGTGATCCTAAAATGTCAAGTTTACCGAGGGCATCAAAGGGGCTTGGAACCATCGATCTTGAACCTATGTTGGATGGAGCTACAAGCGCTTCCCCAACAAGAGGATCATCTGTTGGTGGATTGGATCAGCTGGAAAGTGCATCTCCGGAGAAAATAAGTTCTGTTGAGGCGGATTGTCAGCAAGATGGAAATAGTGCTCAGAATGAGAAGCAATTACCTCCTGAAAAGAGCTACAGGGCTGCTATTTTGAAGAACCGATTTGCAGACATAATTTTGAAAGCCCGAGAGAAACCTCTTAACCAGAATGACACTCGAGATCCAGAGAAGCTGCAGCGTGAGAGAGAAGAACTCGAGCTTCAAAAGAAGAAAGAGAAAGCGCGATTACAAGCAGAAGCTAAGGCAGCTGAAGAAGCTCGTAGAAAAGCTGAGGCACAAGCTGCAGCTGAAGCTGCGGCTGAGGCTAAGAGAAAGCTGGAGCTTGAAAGAGAAGCAGCACGCCAGGCATTGATGGAGATGGAGCAGTCGGTTGAACTCAATGAGAACGCAAAGTTTCTCGAGGATCTAGAACTGCTGAAAACAGTCGACACAGACCATTTGACAAATACAATAGAGGAGGAGGATGGGCCTGATGTTGGGTTGCGTAGTTTCAGTTTTGGGGGTAGTAATCCTCTTGAACAGCTTGGACTGTTTATGAAACAAGATGAGGATGAGGAGGAAGCTGACCCGCTAACTTCGCCAGCCCCTGAAATAGATATAGAAGAGGGAGAGATTGATTGAGGTTGTATGCTGATCCCCAAAACCAAACAATAGATATATCTGAATTCTGAATCCAGAATCCATCCCAAAAAAAAACATATACTGTGAGCTTCAAGTAGAGAGGGCCGTTCAGACTGAGGATTGGATTTTATTGGTACTGAGAGTGGGAACGTAGTCATTCATGAGTTAAGTTTTGCTTGGAATGGTCGTGAGAAGTGGGTCATCGTCTTTTTCCCTTTGCGTTGTGTTGTGTGATGTTGGTACGGGTTATCTTCGTGCTTCTTGTCGAATTGAGTATATTGTATCAGTAAAGAATTTATAACTTAAAAAGAGCCTTATGTCAAATACGACGTCGTTTTGTATGGAAATGGATTTTTTACACCGCTGAAAAAATAAAAAGAAAACTCGGAATCTCTTCTTCTTCA - >AT5G14270.2
ACTAGATCTGTTCGATTAAAATCCGACGGTGTTTATTGATTGTTCCTGAGTGTTCCCGTACCGAAACTCGTTAACCGATTCACCGTTAAGTGTGGAATCAGACAGTGAAGAGATCAACAGATATTTATCTCTCTACTTCTCTCGGTCGTATTCGTCATTCTGCCTTTTATCTATTTCCATATCAACATTTTAGGGTTTTTACTCCTCTAAGGTTTCGCTTCTTCTTAGATTCTCTGTCTTCCGCTTCAGTTGGATCATCGATTTTCTCAATTGCTCTGAAGTTCAGCCGGTGAGTTTCTTCCTTTTCACGATTTTGGTGTTTACTTCCATCGGGCAATTCGAAGTCTTCATTGCAGGACGAGTTCAGATTTGAATCGCTTAAATTAGGGTTTTGAATCATCTATCTACTATCGGATCGAGATTATCTGATTTAGAGTCATAAGAGTCTTCGGAGATTAGCTTTCTGAAGCAAATCCGTCATACGAGATGTTTCGTTTCCTGCAGGATTAGACTGATCCGGAGCTCTTCACGAGATTAAGGGAATCTATTTCACAATTTCGTCGATATGACAGAGAGAAACGGTGGTTTCCCTGGTGATTATTGTTTTGAGGCACCCGGTGGAGATTATGATGAAGGATCTGATAGTCCGAGGGTCTCAGAGGGTTCCAATTGTTCAAAAAGAAAGGTCGGTGAAACCTTCGGTGTCTCGAAAATGGTATTACCCTTATCTGGCCTATCATCATCAGATAGGAAGGAGTTGATTCGTAGGCTAAGACAAGAGCTGGAACAAATACGAGTTTTCCAGAAGAATTTTGAGCTTTCTAGAACAGTGGCTCTCACTAGCTCTTCTGCTAGTGGTTTGACTCGAGTCAAGAGTTTTGGAATGTCGCGATGTTCCACGGGTCCAGGAAAGACGGTGAACCCTATAAGTGCTGCTTCTAAACCGACTCCTGTCACTACTGCGGTTATGCTTCTGATGAAGCAATGCGAGGCGCTTTTGAAACGATTGATGTCACATCAGTATGGTTGGGTGTTCAATACTCCAGTGGATGTTGTCAAGCTGAATATACTGGACTATTTTAATGTTATTGAGCATCCTATGGATTTAGGAACTGTGAAGAATAAGTTAACTTCGGGGACATATTCCTGTCCGTCAGAGTTTGCTGCTGATGTTCGGCTTACCTTCAGCAATGCAATGACGTATAATCCACCTGGTAATGATGTTTATGTTATGGCTGATACACTTCGTAAGTTTTTCGAAGTGAGGTGGAAGACCCTTGAGAAGAAATTATCCGGAACTAAAGTTCATACTGAACCGAGTAACTTAGATGCCCATAAGGAAAAACATATCGTAATACCTGTGCCTATGGCTAAGAAGAGGAAGACCACTGCAGTAGACTGTGAGAATGTCGTAGATCCTGCTAAACGGGTTATGACTGATGAGGATAGACTCAAGCTGGGCAAGGATTTGGAGTCCTTGACTGAGTTCCCGGCACAATTAATAAATTTCTTGAGAGATCACAACTCAAATGAAGGAGGGATTGGGGATGATGAGATTGAGATTGACATTAATGATCTCAGTGACCATGCCTTGTTTCAGTTGCGGGATCTCTTAGACGAGCATTTGCGTGAGATCCAAAACAAAAAATCAAGTGTTGAACCCTGTGAGATAGAGCTTCTGCATGGATCAGTGCCAGGGAATTCATCAATGCAACATTGTGATGGGAGTGAATTGGATGATGAAGTTGTTGACATTGGTGAAAATGAACACCCAACATCCAGCATTTCTCCTGTCACGATAGAGAAGGATCTGGTGTTAGGAAACTCTAATGGTAATAGCTTGGGAAGTGTGTCCGGTGATCCTAAAATGTCAAGTTTACCGAGGGCATCAAAGGGGCTTGGAACCATCGATCTTGAACCTATGTTGGATGGAGCTACAAGCGCTTCCCCAACAAGAGGATCATCTGTTGGTGGATTGGATCAGCTGGAAAGTGCATCTCCGGAGAAAATAAGTTCTGTTGAGGCGGATTGTCAGCAAGATGGAAATAGTGCTCAGAATGAGAAGCAATTACCTCCTGAAAAGAGCTACAGGGCTGCTATTTTGAAGAACCGATTTGCAGACATAATTTTGAAAGCCCGAGAGAAACCTCTTAACCAGAATGACACTCGAGATCCAGAGAAGCTGCAGCGTGAGAGAGAAGAACTCGAGCTTCAAAAGAAGAAAGAGAAAGCGCGATTACAAGCAGAAGCTAAGGCAGCTGAAGAAGCTCGTAGAAAAGCTGAGGCACAAGCTGCAGCTGAAGCTGCGGCTGAGGCTAAGAGAAAGCTGGAGCTTGAAAGAGAAGCAGCACGCCAGGCATTGATGGAGATGGAGCAGTCGGTTGAACTCAATGAGAACGCAAAGTTTCTCGAGGATCTAGAACTGCTGAAAACAGTCGACACAGACCATTTGACAAATACAATAGAGGAGGAGGATGGGCCTGATGTTGGGTTGCGTAGTTTCAGTTTTGGGGGTAGTAATCCTCTTGAACAGCTTGGACTGTTTATGAAACAAGATGAGGATGAGGAGGAAGCTGACCCGCTAACTTCGCCAGCCCCTGAAATAGATATAGAAGAGGGAGAGATTGATTGAGGTTGTATGCTGATCCCCAAAACCAAACAATAGATATATCTGAATTCTGAATCCAGAATCCATCCCAAAAAAAAACATATACTGTGAGCTTCAAGTAGAGAGGGCCGTTCAGACTGAGGATTGGATTTTATTGGTACTGAGAGTGGGAACGTAGTCATTCATGAGTTAAGTTTTGCTTGGAATGGTCGTGAGAAGTGGGTCATCGTCTTTTTCCCTTTGCGTTGTGTTGTGTGATGTTGGTACGGGTTATCTTCGTGCTTCTTGTCGAATTGAGTATATTGTATCAGTAAAGAATTTATAACTTAAAAAGAGCCTTATGTCAAATACGACGTCGTTTTGTATGGAAATGGATTTTTTACACCGCTGAAAAAATAAAAAGAAAACTCGGAATCTCTTCTTCTTCA - >AT5G14270.3
ACTAGATCTGTTCGATTAAAATCCGACGGTGTTTATTGATTGTTCCTGAGTGTTCCCGTACCGAAACTCGTTAACCGATTCACCGTTAAGTGTGGAATCAGACAGTGAAGAGATCAACAGATATTTATCTCTCTACTTCTCTCGGTCGTATTCGTCATTCTGCCTTTTATCTATTTCCATATCAACATTTTAGGGTTTTTACTCCTCTAAGGTTTCGCTTCTTCTTAGATTCTCTGTCTTCCGCTTCAGTTGGATCATCGATTTTCTCAATTGCTCTGAAGTTCAGCCGGTGAGTTTCTTCCTTTTCACGATTTTGGTGTTTACTTCCATCGGGCAATTCGAAGTCTTCATTGCAGGACGAGTTCAGATTTGAATCGCTTAAATTAGGGTTTTGAATCATCTATCTACTATCGGATCGAGATTATCTGATTTAGAGTCATAAGAGTCTTCGGAGATTAGCTTTCTGAAGCAAATCCGTCATACGAGATGTTTCGTTTCCTGCAGGATTAGACTGATCCGGAGCTCTTCACGAGATTAAGGGAATCTATTTCACAATTTCGTCGATATGACAGAGAGAAACGGTGGTTTCCCTGGTGATTATTGTTTTGAGGCACCCGGTGGAGATTATGATGAAGGATCTGATAGTCCGAGGGTCTCAGAGGGTTCCAATTGTTCAAAAAGAAAGGTCGGTGAAACCTTCGGTGTCTCGAAAATGGTATTACCCTTATCTGGCCTATCATCATCAGATAGGAAGGAGTTGATTCGTAGGCTAAGACAAGAGCTGGAACAAATACGAGTTTTCCAGAAGAATTTTGAGCTTTCTAGAACAGTGGCTCTCACTAGCTCTTCTGCTAGTGGTTTGACTCGAGTCAAGAGTTTTGGAATGTCGCGATGTTCCACGGGTCCAGGAAAGACGGTGAACCCTATAAGTGCTGCTTCTAAACCGACTCCTGTCACTACTGCGGTTATGCTTCTGATGAAGCAATGCGAGGCGCTTTTGAAACGATTGATGTCACATCAGTATGGTTGGGTGTTCAATACTCCAGTGGATGTTGTCAAGCTGAATATACTGGACTATTTTAATGTTATTGAGCATCCTATGGATTTAGGAACTGTGAAGAATAAGTTAACTTCGGGGACATATTCCTGTCCGTCAGAGTTTGCTGCTGATGTTCGGCTTACCTTCAGCAATGCAATGACGTATAATCCACCTGGTAATGATGTTTATGTTATGGCTGATACACTTCGTAAGTTTTTCGAAGTGAGGTGGAAGACCCTTGAGAAGAAATTATCCGGAACTAAAGTTCATACTGAACCGAGTAACTTAGATGCCCATAAGGAAAAACATATCGTAATACCTGTGCCTATGGCTAAGAAGAGGAAGACCACTGCAGTAGACTGTGAGAATGTCGTAGATCCTGCTAAACGGGTTATGACTGATGAGGATAGACTCAAGCTGGGCAAGGATTTGGAGTCCTTGACTGAGTTCCCGGCACAATTAATAAATTTCTTGAGAGATCACAACTCAAATGAAGGAGGGATTGGGGATGATGAGATTGAGATTGACATTAATGATCTCAGTGACCATGCCTTGTTTCAGTTGCGGGATCTCTTAGACGAGCATTTGCGTGAGATCCAAAACAAAAAATCAAGTGTTGAACCCTGTGAGATAGAGCTTCTGCATGGATCAGTGCCAGGGAATTCATCAATGCAACATTGTGATGGGAGTGAATTGGATGATGAAGTTGTTGACATTGGTGAAAATGAACACCCAACATCCAGCATTTCTCCTGTCACGATAGAGAAGGATCTGGTGTTAGGAAACTCTAATGGTAATAGCTTGGGAAGTGTGTCCGGTGATCCTAAAATGTCAAGTTTACCGAGGGCATCAAAGGGGCTTGGAACCATCGATCTTGAACCTATGTTGGATGGAGCTACAAGCGCTTCCCCAACAAGAGGATCATCTGTTGGTGGATTGGATCAGCTGGAAAGTGCATCTCCGGAGAAAATAAGTTCTGTTGAGGCGGATTGTCAGCAAGATGGAAATAGTGCTCAGAATGAGAAGCAATTACCTCCTGAAAAGAGCTACAGGGCTGCTATTTTGAAGAACCGATTTGCAGACATAATTTTGAAAGCCCGAGAGAAACCTCTTAACCAGAATGACACTCGAGATCCAGAGAAGCTGCAGCGTGAGAGAGAAGAACTCGAGCTTCAAAAGAAGAAAGAGAAAGCGCGATTACAAGCAGAAGCTAAGGCAGCTGAAGAAGCTCGTAGAAAAGCTGAGGCACAAGCTGCAGCTGAAGCTGCGGCTGAGGCTAAGAGAAAGCTGGAGCTTGAAAGAGAAGCAGCACGCCAGGCATTGATGGAGATGGAGCAGTCGGTTGAACTCAATGAGAACGCAAAGTTTCTCGAGGATCTAGAACTGCTGAAAACAGTCGACACAGACCATTTGACAAATACAATAGAGGAGGAGGATGGGCCTGATGTTGGGTTGCGTAGTTTCAGTTTTGGGGGTAGTAATCCTCTTGAACAGCTTGGACTGTTTATGAAACAAGATGAGGATGAGGAGGAAGCTGACCCGCTAACTTCGCCAGCCCCTGAAATAGATATAGAAGAGGGAGAGATTGATTGAGGTTGTATGCTGATCCCCAAAACCAAACAATAGATATATCTGAATTCTGAATCCAGAATCCATCCCAAAAAAAAACATATACTGTGAGCTTCAAGTAGAGAGGGCCGTTCAGACTGAGGATTGGATTTTATTGGTACTGAGAGTGGGAACGTAGTCATTCATGAGTTAAGTTTTGCTTGGAATGGTCGTGAGAAGTGGGTCATCGTCTTTTTCCCTTTGCGTTGTGTTGTGTGATGTTGGTACGGGTTATCTTCGTGCTTCTTGTCGAATTGAGTATATTGTATCAGTAAAGAATTTATAACTTAAAAAGAGCCTTATGTCAAATACGACGTCGTTTTGTATGGAAATGGATTTTTTACACCGCTGAAAAAATAAAAAGAAAACTCGGAATCTCTTCTTCTTCA
CDS Sequence
Protein Sequence