Information report for AT4G17230
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:0006355 — acts upstream of or within — regulation of DNA-templated transcription
- GO:0003700 — enables — DNA-binding transcription factor activity
- GO:0005634 — located in — nucleus
- GO:0071456 — acts upstream of or within — cellular response to hypoxia
- GO:0009408 — acts upstream of or within — response to heat
Functional Keywords
Literature and News
- Arabidopsis transcription factors: genome-wide comparative analysis among eukaryotes. DOI: 10.1126/science.290.5499.2105 ; PMID: 11118137
- Identification of unstable transcripts in Arabidopsis by cDNA microarray and specific clock-controlled genes. DOI: 10.1073/pnas.152204099 ; PMID: 12167669
- Structural divergence of chromosomal segments that arose from successive duplication events in the Arabidopsis genome. DOI: 10.1093/nar/gkg201 ; PMID: 12582254
- Changes in gene expression in Arabidopsis shoots during phosphate starvation and the potential for developing smart plants. DOI: 10.1104/pp.103.020941 ; PMID: 12805589
- The role of GRAS proteins in plant signal transduction and development. DOI: 10.1007/s00425-004-1203-z ; PMID: 14760535
- A two-step strategy for detecting differential gene expression in cDNA microarray data. DOI: 10.1007/s00294-004-0551-3 ; PMID: 15688252
- Enhanced tolerance to environmental stress in transgenic plants expressing the transcriptional coactivator multiprotein bridging factor 1c. DOI: 10.1104/pp.105.070110 ; PMID: 16244138
- Integration of Arabidopsis thaliana stress-related transcript profiles, promoter structures, and cell-specific expression. DOI: 10.1186/gb-2007-8-4-r49 ; PMID: 17408486
- Identification of 118 Arabidopsis transcription factor and 30 ubiquitin-ligase genes responding to chitin, a plant-defense elicitor. DOI: 10.1094/MPMI-20-8-0900 ; PMID: 17722694
- An auxin-responsive SCARECROW-like transcriptional activator interacts with histone deacetylase. DOI: 10.1007/s11103-004-0892-9 ; PMID: 15604690
- 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
- Ethylene-responsive element-binding factor 5, ERF5, is involved in chitin-induced innate immunity response. DOI: 10.1094/MPMI-06-11-0165 ; PMID: 21936663
- Four distinct types of dehydration stress memory genes in Arabidopsis thaliana. DOI: 10.1186/1471-2229-13-229 ; PMID: 24377444
- Transcriptional Profiling Reveals a Time-of-Day-Specific Role of REVEILLE 4/8 in Regulating the First Wave of Heat Shock-Induced Gene Expression in Arabidopsis. DOI: 10.1105/tpc.19.00519 ; PMID: 31358650
- Integrative Analysis from the Epigenome to Translatome Uncovers Patterns of Dominant Nuclear Regulation during Transient Stress. DOI: 10.1105/tpc.19.00463 ; PMID: 31519798
- PAT1, a new member of the GRAS family, is involved in phytochrome A signal transduction. DOI: NA ; PMID: 10817761
- Arabidopsis transcription factors: genome-wide comparative analysis among eukaryotes. DOI: 10.1126/science.290.5499.2105 ; PMID: 11118137
- Identification of 118 Arabidopsis transcription factor and 30 ubiquitin-ligase genes responding to chitin, a plant-defense elicitor. DOI: 10.1094/MPMI-20-8-0900 ; PMID: 17722694
Gene Resources
- UniProt: A0A1P8B5A9
- EMBL: CP002687
- AlphaFoldDB: A0A1P8B5A9
- EnsemblPlants: AT4G17230.1, AT4G17230.2
- Gramene: AT4G17230.1, AT4G17230.2
- KEGG: ath:AT4G17230
Sequences
cDNA Sequence
- >AT4G17230.2
TCAATCTCCTTCTTCTTCCTCAAGCTGATTCTTGAGTATGCAAGGAAAACTTCTCTTTTGTCCCCTTGTCAACAAAAATCTCCCATTCAACAAAATTTCTTCAGCTTCTCTCCTTCAAAAGGTTAGCTTTCATGGTGATCTCTGTAGTCACTTTCTCCTTTTTATTTTCTTGTCAAAACGATTCAATTTCATTTGTTTCTAAATTGAACAATTGCTTCTTCCTTAGCTCTGCTCTCATCTGGTTTTAAGCTTTTGGTCCTAGGGGTTTTTATTCTCCTTGGTTTGAACAAGTTACACTGTAGAGAGTGATTTGGCTAAAAGAAGATTGATTCAGGAGCTGTGTAGTGTATTGCTGGGGTTTTTCCAATGCAAACGTCTCAGAAACATCACAGTGCGGCTGGACTGCACATGCTGTATCCTCAAGTCTACTGTTCACCTCAGTTTCAAGCGAAAGACAACAAAGGCTTCTCTGATATCCCGTCCAAAGAAAACTTTTTTACCCTCGAATCCTCCACTGCTTCTGGTAGTCTTCCTTCGTATGACTCTCCTTCTGTGAGCATTACATCTGGCCGGAGCCCGTTTTCTCCTCAGGGCTCTCAGTCTTGCATCTCGGATCTCCATCATTCCCCTGACAACGTCTATGGATCACCTTTGAGTGGGGTGTCATCTCTTGCCTATGATGAAGCTGGAGTCAAGAGTAAGATTCGGGAACTTGAGGTCTCGCTGCTGAGTGGTGATACAAAAGTTGAAGAATTCTCAGGTTTTAGCCCCGCTGCTGGGAAGTCGTGGAACTGGGATGAACTTTTGGCTTTGACTCCACAGTTGGACTTGAAAGAGGTGCTGGTGGAGGCTGCTCGGGCAGTCGCTGATGGGGATTTCGCTACAGCGTATGGATTCCTTGATGTCTTGGAACAGATGGTGTCAGTCTCAGGCAGTCCGATCCAACGGCTAGGCACTTACATGGCAGAAGGGCTTAGAGCGAGGCTTGAGGGGTCTGGGAGCAATATATACAAATCCTTGAAATGCAATGAACCAACGGGAAGGGAACTGATGTCTTACATGAGTGTTCTCTATGAAATCTGCCCCTACTGGAAATTCGCGTACACAACTGCGAATGTTGAGATCTTGGAAGCAATAGCTGGGGAAACCAGAGTCCACATTATCGATTTTCAGATTGCACAGGGATCACAATACATGTTTTTGATTCAGGAGCTTGCGAAACGCCCTGGTGGGCCGCCGTTGCTGCGTGTGACGGGTGTGGATGATTCACAGTCCACCTATGCTCGTGGGGGAGGACTCAGCTTGGTAGGTGAGAGGCTTGCAACTTTGGCGCAGTCATGTGGTGTCCCGTTTGAGTTTCACGATGCCATCATGTCTGGGTGCAAGGTGCAGCGGGAACATCTCGGGTTGGAACCTGGCTTTGCTGTTGTTGTGAACTTCCCATATGTATTACACCACATGCCAGACGAGAGCGTAAGTGTTGAAAATCACAGAGACAGGCTGCTGCATCTGATCAAGAGCCTCTCCCCAAAACTGGTTACTCTAGTAGAGCAAGAATCCAACACAAACACCTCGCCATTCCTGTCACGGTTTGTGGAAACACTGGATTACTACACAGCGATGTTTGAGTCGATAGATGCAGCACGGCCACGGGATGATAAGCAGAGAATCAGCGCAGAACAACACTGTGTAGCAAGAGACATAGTGAACATGATAGCATGTGAGGAGTCAGAGAGAGTAGAGAGACACGAGGTACTGGGGATATGGAGGGTCAGAATGATGATGGCTGGGTTCACGGGTTGGCCGGTCAGCACATCTGCAGCGTTTGCAGCGAGTGAGATGCTGAAAGCTTATGACAAAAACTACAAACTGGGAGGCCATGAAGGAGCGCTCTACCTCTTCTGGAAGAGACGACCCATGGCTACATGTTCCGTGTGGAAGCCAAACCCAAACTAGATTGGGTAAGTTATAGTGATGATGGTTACTTGAGTGGATAAAGAAGAGCACAACAAAAACACATCTGTCGCTGTAAATTTTTTAGGATGTGCAATGATGTTTTAAGTTGTAACACAACCTAAGTTATATATGTATACAAACCAAACCTGGTGGTTGTTTTTCTCTTGTAAATTGTCATGTGGTTGTGGGTGGGTTGCTAGTAATGAAATATAACCAAAACATTGATTAGGTCA - >AT4G17230.1
TCAATCTCCTTCTTCTTCCTCAAGCTGATTCTTGAGTATGCAAGGAAAACTTCTCTTTTGTCCCCTTGTCAACAAAAATCTCCCATTCAACAAAATTTCTTCAGCTTCTCTCCTTCAAAAGGTTAGCTTTCATGGTGATCTCTGTAGTCACTTTCTCCTTTTTATTTTCTTGTCAAAACGATTCAATTTCATTTGTTTCTAAATTGAACAATTGCTTCTTCCTTAGCTCTGCTCTCATCTGGTTTTAAGCTTTTGGTCCTAGGGGTTTTTATTCTCCTTGGTTTGAACAAGTTACACTGTAGAGAGTGATTTGGCTAAAAGAAGATTGATTCAGGAGCTGTGTAGTGTATTGCTGGGGTTTTTCCAATGCAAACGTCTCAGAAACATCACAGTGCGGCTGGACTGCACATGCTGTATCCTCAAGTCTACTGTTCACCTCAGTTTCAAGCGAAAGACAACAAAGGCTTCTCTGATATCCCGTCCAAAGAAAACTTTTTTACCCTCGAATCCTCCACTGCTTCTGGTAGTCTTCCTTCGTATGACTCTCCTTCTGTGAGCATTACATCTGGCCGGAGCCCGTTTTCTCCTCAGGGCTCTCAGTCTTGCATCTCGGATCTCCATCATTCCCCTGACAACGTCTATGGATCACCTTTGAGTGGGGTGTCATCTCTTGCCTATGATGAAGCTGGAGTCAAGAGTAAGATTCGGGAACTTGAGGTCTCGCTGCTGAGTGGTGATACAAAAGTTGAAGAATTCTCAGGTTTTAGCCCCGCTGCTGGGAAGTCGTGGAACTGGGATGAACTTTTGGCTTTGACTCCACAGTTGGACTTGAAAGAGGTGCTGGTGGAGGCTGCTCGGGCAGTCGCTGATGGGGATTTCGCTACAGCGTATGGATTCCTTGATGTCTTGGAACAGATGGTGTCAGTCTCAGGCAGTCCGATCCAACGGCTAGGCACTTACATGGCAGAAGGGCTTAGAGCGAGGCTTGAGGGGTCTGGGAGCAATATATACAAATCCTTGAAATGCAATGAACCAACGGGAAGGGAACTGATGTCTTACATGAGTGTTCTCTATGAAATCTGCCCCTACTGGAAATTCGCGTACACAACTGCGAATGTTGAGATCTTGGAAGCAATAGCTGGGGAAACCAGAGTCCACATTATCGATTTTCAGATTGCACAGGGATCACAATACATGTTTTTGATTCAGGAGCTTGCGAAACGCCCTGGTGGGCCGCCGTTGCTGCGTGTGACGGGTGTGGATGATTCACAGTCCACCTATGCTCGTGGGGGAGGACTCAGCTTGGTAGGTGAGAGGCTTGCAACTTTGGCGCAGTCATGTGGTGTCCCGTTTGAGTTTCACGATGCCATCATGTCTGGGTGCAAGGTGCAGCGGGAACATCTCGGGTTGGAACCTGGCTTTGCTGTTGTTGTGAACTTCCCATATGTATTACACCACATGCCAGACGAGAGCGTAAGTGTTGAAAATCACAGAGACAGGCTGCTGCATCTGATCAAGAGCCTCTCCCCAAAACTGGTTACTCTAGTAGAGCAAGAATCCAACACAAACACCTCGCCATTCCTGTCACGGTTTGTGGAAACACTGGATTACTACACAGCGATGTTTGAGTCGATAGATGCAGCACGGCCACGGGATGATAAGCAGAGAATCAGCGCAGAACAACACTGTGTAGCAAGAGACATAGTGAACATGATAGCATGTGAGGAGTCAGAGAGAGTAGAGAGACACGAGGTACTGGGGATATGGAGGGTCAGAATGATGATGGCTGGGTTCACGGGTTGGCCGGTCAGCACATCTGCAGCGTTTGCAGCGAGTGAGATGCTGAAAGCTTATGACAAAAACTACAAACTGGGAGGCCATGAAGGAGCGCTCTACCTCTTCTGGAAGAGACGACCCATGGCTACATGTTCCGTGTGGAAGCCAAACCCAAACTAGATTGGGTAAGTTATAGTGATGATGGTTACTTGAGTGGATAAAGAAGAGCACAACAAAAACACATCTGTCGCTGTAAATTTTTTAGGATGTGCAATGATGTTTTAAGTTGTAACACAACCTAAGTTATATATGTATACAAACCAAACCTGGTGGTTGTTTTTCTCTTGTAAATTGTCATGTGGTTGTGGGTGGGTTGCTAGTAATGAAATATAACCAAAACATTGATTAGGTCA
CDS Sequence
Protein Sequence