Gene Details:
- Gene ID: AT5G17890
- Gene Symbol: CHS3, DAR4
- Gene Name: CHILLING SENSITIVE 3, DA1-related protein 4
- Description: DA1-related protein 4;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
Germplasm Phenotype:
- CS69993 — Severely stunted plants displaying curled leaf morphology. Accumulates salicylic acid, and shows enhanced resistance to the virulent oomycete isolate Hyaloperonospora arabidopsidis (H.a.) Noco2. Seedling lethal at room temperature (23C); fertile at 28C.
- CS8000 — rosette leaves become chlorotic, wilt and die after more than 3 days exposure to chilling temperatures in the range of 18-4C and can not be rescued after this time by a return to the normal growth temperature.
- chs3-1 — When mutant plants are grown at 16C they displayed pleiotrophic developmental defects including dwarfism, small curly leaves and accelerated senescence of the cotyledons. Leaf pavement cells also have abnormal morphology. When grown on plates, chs3-1 plants display an increased freezing tolerance. Plants exhibit chlorosis and spontaneous lesion phenotypes also. These plants also exhibit increased resistance to Psuedomonas syringae.
- chs3-2D — Severely stunted and displays curled leaf morphology; constitutively expresses PATHOGENESIS-RELATED (PR) genes, accumulates salicylic acid, and shows enhanced resistance to the virulent oomycete isolate Hyaloperonospora arabidopsidis (H.a.) Noco2.
Function-related keywords:
Literature:
- Genome-wide analysis of NBS-LRR-encoding genes in Arabidopsis. DOI: 10.1105/tpc.009308 ; PMID: 12671079
- and jasmonic acid/ethylene-dependent responses via EDS1 and PAD4. DOI: 10.1111/j.1365-313X.2006.02806.x ; PMID: 16813576
- Global expression analysis of nucleotide binding site-leucine rich repeat-encoding and related genes in Arabidopsis. DOI: 10.1186/1471-2229-7-56 ; PMID: 17956627
- Control of final seed and organ size by the DA1 gene family in Arabidopsis thaliana. DOI: 10.1101/gad.463608 ; PMID: 18483219
- 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
- A mutant CHS3 protein with TIR-NB-LRR-LIM domains modulates growth, cell death and freezing tolerance in a temperature-dependent manner in Arabidopsis. DOI: 10.1111/j.1365-313X.2010.04241.x ; PMID: 20444230
- Autophosphorylation profiling of Arabidopsis protein kinases using the cell-free system. DOI: 10.1016/j.phytochem.2011.02.029 ; PMID: 21477822
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- IBR5 Modulates Temperature-Dependent, R Protein CHS3-Mediated Defense Responses in Arabidopsis. DOI: 10.1371/journal.pgen.1005584 ; PMID: 26451844
- Correction: IBR5 Modulates Temperature-Dependent, R Protein CHS3-Mediated Defense Responses in Arabidopsis. DOI: 10.1371/journal.pgen.1005795 ; PMID: 26735692
- Diverse NLR immune receptors activate defence via the RPW8-NLR NRG1. DOI: 10.1111/nph.15659 ; PMID: 30582759
- The integrated LIM-peptidase domain of the CSA1-CHS3/DAR4 paired immune receptor detects changes in DA1 peptidase inhibitors in Arabidopsis. DOI: 10.1016/j.chom.2023.04.009 ; PMID: 37167970
- A mutant CHS3 protein with TIR-NB-LRR-LIM domains modulates growth, cell death and freezing tolerance in a temperature-dependent manner in Arabidopsis. DOI: 10.1111/j.1365-313X.2010.04241.x ; PMID: 20444230
Sequences:
cDNA Sequence
- >AT5G17890.1
AACTTGTTTCAATATTATTAAATAAGAAATCTCAAATATTAATATACGAAAAGGAGAGAAAATAAAATAGTATTGGCATATTCTGGGAAACCTTCAATTTCTTTTTGTGTGTTAAGAATAGATAGATGAGAGTGATGATTTGGAGAAAGAGAGATGGAACCACCAGCTGCTCGTGTAACGCCGTCGATTAAGGCCGACTGTAGTCACAGCGTCAACATCATCTGCGAGGAAACAGTACTGCACTCCCTTGTCAGCCACCTCTCGGCCGCTTTACGCCGGGAAGGCATATCTGTGTTTGTGGATGCGTGCGGATTGCAGGAAACCAAGTTCTTCTCCATTAAACAGAATCAGCCGTTGACAGATGGGGCTAGGGTTTTGGTGGTGGTTATTTCCGACGAGGTGGAGTTCTACGATCCTTGGTTTCCTAAGTTCTTAAAGGTTATCCAGGGTTGGCAAAACAACGGCCACGTGGTGGTTCCAGTCTTCTACGGCGTCGATTCGTTGACCCGAGTTTACGGGTGGGCCAATAGTTGGCTGGAGGCCGAAAAATTAACCAGCCACCAATCAAAGATCTTAAGCAATAATGTACTCACGGACTCCGAACTAGTGGAAGAGATCGTCAGAGATGTTTATGGGAAGCTTTATCCTGCAGAACGAGTTGGAATTTACGCGAGGCTACTAGAGATAGAAAAGTTGCTTTACAAGCAACATAGGGACATCCGAAGCATAGGAATTTGGGGTATGCCTGGCATAGGCAAGACGACGCTTGCTAAAGCAGTCTTTAATCACATGTCCACTGATTATGATGCTTCTTGCTTCATCGAGAACTTTGATGAAGCTTTTCATAAGGAGGGACTCCACCGTTTGCTCAAAGAAAGAATTGGTAAAATTCTAAAGGATGAGTTTGACATAGAAAGTTCGTATATTATGAGACCGACCCTCCATAGGGACAAATTATACGATAAAAGGATTCTTGTTGTTTTAGATGATGTGCGCGATTCCCTTGCTGCAGAGTCCTTCCTTAAAAGGCTTGATTGGTTTGGTTCCGGAAGCCTTATAATCATAACCTCCGTTGATAAACAAGTGTTTGCCTTTTGTCAGATCAATCAAATATACACGGTTCAAGGTTTAAATGTGCACGAGGCTCTGCAGCTTTTCTCCCAAAGCGTATTTGGAATAAACGAGCCAGAGCAGAATGACAGGAAACTGTCAATGAAGGTGATTGACTATGTTAATGGAAACCCGTTAGCTCTCAGCATTTACGGCCGAGAGCTAATGGGGAAGAAGTCAGAAATGGAGACTGCATTCTTCGAGCTCAAGCATTGTCCTCCCTTAAAGATTCAGGATGTGCTAAAAAACGCTTATAGTGCACTTAGCGACAATGAGAAGAACATTGTTTTGGACATTGCTTTTTTCTTCAAGGGAGAAACTGTCAATTATGTGATGCAGCTGCTTGAGGAATCTCATTACTTTCCACGTCTTGCAATAGATGTTCTTGTGGACAAGTGTGTGTTAACTATCTCAGAAAACACAGTGCAAATGAATAATTTGATCCAAGACACCTGCCAAGAAATCTTCAATGGAGAAATTGAGACCTGCACCAGAATGTGGGAACCTTCCAGAATCAGATATCTGCTAGAATATGATGAACTTGAAGGAAGTGGAGAAACCAAAGCAATGCCTAAATCTGGTCTGGTCGCTGAACACATCGAAAGCATATTCCTGGACACTTCAAACGTGAAATTTGATGTCAAACACGATGCATTCAAGAATATGTTTAATCTCAAATTCCTAAAGATATACAATTCATGCTCTAAATATATTTCTGGACTCAATTTTCCAAAGGGCCTCGATTCTCTGCCTTATGAGCTAAGGCTCCTCCACTGGGAGAACTACCCTTTGCAATCCTTGCCTCAAGATTTTGACTTTGGACACCTTGTTAAGCTCAGTATGCCTTACAGCCAGCTTCATAAACTCGGGACAAGAGTCAAGGACCTTGTGATGTTAAAGAGGCTCATTCTTTCTCATTCTTTACAGCTAGTTGAATGTGACATACTAATATATGCTCAAAATATCGAGCTAATTGATCTTCAAGGCTGTACAGGATTGCAAAGATTTCCAGACACGAGTCAATTACAGAATCTCCGGGTAGTAAATCTCTCAGGTTGCACAGAGATCAAATGTTTCTCAGGGGTTCCACCAAATATTGAGGAATTACATCTCCAAGGAACTCGTATAAGGGAAATACCAATATTCAATGCGACCCATCCCCCCAAGGTTAAGCTGGACCGGAAAAAGCTTTGGAATCTTCTAGAAAACTTCTCGGATGTTGAGCATATCGATTTGGAGTGTGTAACAAATCTAGCTACAGTTACCTCAAATAATCATGTTATGGGCAAGCTTGTCTGCTTGAATATGAAATATTGTTCCAATTTGCGAGGCCTTCCTGACATGGTCAGTTTAGAATCTCTCAAAGTTCTTTATCTGTCGGGCTGTTCAGAGCTTGAGAAAATTATGGGTTTCCCGAGAAACTTGAAAAAACTATATGTTGGTGGAACCGCCATACGAGAATTGCCACAGCTTCCCAACAGTCTAGAATTCCTGAATGCTCATGGTTGTAAGCATCTGAAGTCAATTAATTTGGATTTTGAGCAGCTTCCTAGGCACTTCATCTTCAGTAATTGTTATAGATTTTCTTCACAAGTGATCGCTGAGTTCGTAGAGAAAGGTCTTGTAGCAAGTTTAGCAAGAGCAAAACAAGAGGAACTCATCAAAGCACCTGAAGTCATCATCTGTATTCCTATGGACACACGGCAGAGATCCTCCTTTCGCTTGCAAGCAGGTCGAAATGCAATGACAGACTTAGTTCCGTGGATGCAAAAACCTATCTCAGGCTTTTCTATGTCAGTTGTAGTATCATTTCAAGATGATTACCACAATGATGTAGGTCTTCGCATTAGGTGTGTAGGTACATGGAAGACCTGGAACAACCAGCCTGATAGAATAGTTGAGAGATTTTTTCAATGTTGGGCTCCTACCGAAGCTCCAAAAGTTGTAGCGGATCACATTTTTGTCTTGTATGATACCAAAATGCATCCTAGTGATAGTGAAGAAAACCACATCAGTATGTGGGCTCATGAAGTCAAATTTGAATTCCACACAGTGAGTGGGGAAAACAATCCTCTAGGTGCTAGTTGCAAGGTGACTGAATGTGGTGTCGAGGTAATTACAGCTGCAACAGGTGATACTAGTGTTAGTGGAATTATAAGAGAAAGTGAAACTATAACTATTATCGAGAAGGAGGATACTATTATTGATGAGGAGGATACTCCTCTTTTGTCCAGAAAGCCAGAGGAAACGAATCGTTCTCGTTCATCTAGCGAATTACAGAAGCTTTCTAGTACGTCAAGTAAGGTAAGATCTAAGGGAAATGTGTTTTGGAAGTGGTTAGGTTGTTTTCCCCTGCAGCCAAAAAACTTGAGATCTAGAAGTAGGCGCACAACAGCGTTAGAAGAAGCGTTAGAAGAAGCATTAAAAGAAAGAGAAAAATTAGAGGACACCAGAGAGTTACAAATAGCATTAATAGAGTCAAAGAAGATAAAAAAAATAAAGCAAGCAGACGAAAGGGATCAAATAAAGCACGCAGACGAAAGGGAACAAAGAAAGCATTCCAAAGATCATGAGGAAGAAGAAATAGAGTCAAATGAGAAAGAAGAAAGAAGGCATTCCAAAGATTATGTGATAGAAGAATTAGTGTTAAAGGGGAAAGGTAAAAGAAAGCAACTGGATGATGATAAAGCCGACGAAAAGGAACAAATAAAGCATTCCAAAGATCATGTGGAAGAAGAAGTGAATCCTCCTCTTAGCAAATGCAAGGATTGCAAATCTGCAATTGAAGATGGAATATCTATCAATGCCTACGGTTCTGTTTGGCATCCTCAATGTTTCTGTTGCCTTCGTTGTCGGGAGCCTATTGCTATGAACGAGATTTCAGACTTAAGAGGAATGTATCACAAACCTTGCTACAAGGAGCTCCGTCATCCGAATTGCTATGTCTGCGAAAAAAAGATTCCTCGTACTGCGGAAGGTTTAAAGTACCATGAGCATCCGTTCTGGATGGAAACATACTGCCCTTCTCATGATGGTGATGGAACTCCCAAATGTTGTAGCTGTGAAAGATTAGAGCATTGCGGAACACAGTATGTAATGCTTGCAGATTTTCGATGGCTATGTCGAGAATGTATGGACAGCGCGATTATGGATTCTGATGAATGCCAACCTTTGCACTTTGAAATCCGTGAATTCTTTGAGGGCTTACACATGAAGATTGAGGAAGAATTTCCTGTTTATTTGGTGGAGAAAAATGCTCTGAATAAAGCTGAGAAGGAAGAGAAGATTGACAAACAGGGGGATCAGTGTCTGATGGTAGTCAGAGGTATTTGCCTATCTGAAGAGCAGATTGTCACAAGTGTCTCACAAGGAGTAAGGAGGATGTTGAATAAGCAGATACTAGATACGGTTACAGAGTCTCAAAGGGTTGTTCGCAAGTGCGAGGTCACTGCAATTCTCATCTTATATGGGCTTCCTAGGTTACTCACAGGATATATCTTGGCCCATGAGATGATGCATGCTTATCTTAGACTCAATGGTTACAGGAATCTTAACATGGTTCTTGAAGAAGGATTATGCCAAGTGTTAGGCTACATGTGGTTGGAGTGTCAGACATACGTTTTTGATACTGCCACAATAGCTTCTTCTTCTTCTTCTTCCCGCACTCCTCTATCTACAACCACATCAAAGAAAGTTGACCCATCTGATTTTGAGAAGAGGCTGGTAAATTTCTGCAAGCATCAGATAGAAACAGATGAGTCACCATTCTTCGGTGACGGGTTCAGGAAAGTTAACAAAATGATGGCCTCAAATAATCACAGCCTTAAGGATACCCTGAAAGAGATCATCAGCATTTCCAAGACTCCACAATATTCAAAGTTATGATAGCCAGCCATATGTTATACCAGTAATGCACGTTTTCATTCTTTGGTGTGAACACAGTTTCTTCTTGCTCTATTGCTCTTGTTCTCATGTTTTAAGAGTTTCTCCTTCGTTTTGCAGCCATAGAAACTTTAAACAATCTTGCCTGTTGTACAAATGTATTTTTCGCTGGAATGAATTCTTGCTGTGATAAAACTGAAGGATTCCTTAGCTCTTGATCCACTTCTAGCGTCGTATCACAAAAGCACATTAGGTATTATTGTTATTTGAATGTATCATTGTTGGAGGTATATAGAGTGGCTCAAGTCTCCCAAATATAACGAAGCTAAAATGTTTG
CDS Sequence
Protein Sequence