- Information
- Symbol: OsSalT
- MSU: LOC_Os01g24710
- RAPdb: Os01g0348900
- PSP score
- LOC_Os01g24710.4: 0.0131
- LOC_Os01g24710.3: 0.0052
- LOC_Os01g24710.1: 0.0052
- LOC_Os01g24710.2: 0.0052
- PLAAC score
- LOC_Os01g24710.4: 0
- LOC_Os01g24710.3: 0
- LOC_Os01g24710.1: 0
- LOC_Os01g24710.2: 0
- pLDDT score
- NA
- Publication
- A rice calcium-dependent protein kinase OsCPK12 oppositely modulates salt-stress tolerance and blast disease resistance, 2012, Plant J.
- Characterization of a rice gene showing organ-specific expression in response to salt stress and drought, 1990, Plant Cell.
- The submergence tolerance regulator SUB1A mediates crosstalk between submergence and drought tolerance in rice, 2011, Plant Cell.
- Over-expression of a single Ca2+-dependent protein kinase confers both cold and salt/drought tolerance on rice plants, 2000, The Plant Journal.
- Biochemical characterization of rice trehalose-6-phosphate phosphatases supports distinctive functions of these plant enzymes, 2007, FEBS J.
- Exogenous application of brassinosteroid offers tolerance to salinity by altering stress responses in rice variety Pusa Basmati-1, 2013, Plant Physiol Biochem.
- Identification of sucrose-regulated genes in cultured rice cells using mRNA differential display, 1995, Gene.
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Genbank accession number
- Key message
- Expression of various brassinosteroids (OsBRI1, OsDWF4) and salt (SalT) responsive genes, revealed the down regulation of OsDWF4 with application of EBL and upregulation of SalT in presence of salt stress thereby confirming the efficacy of the treatments
- salT mRNA accumulates very rapidly in sheaths and roots from mature plants and seedlings upon treatment with Murashige and Skoog salts (1%), air drying, abscisic acid (20 microM), polyethylene glycol (5%), sodium chloride (1%), and potassium chloride (1%)
- Interestingly, a significant down regulation of SalT gene was observed on application of EBL along with salt compared to salt treatment alone
- On the other hand, the application of EBL alone and in combination with salt has resulted in upregulation of OsBRI1
- 8% homology to the salT gene, and clones SI1 and SR3 show 88
- The organ-specific response of salT is correlatable with the pattern of Na+ accumulation during salt stress
- Using an oligonucleotide probe based on this information, a cDNA clone, salT, was selected and found to contain an open reading frame coding for a protein of 145 amino acid residues
- Connection
- OsGI, OsSalT, Mutation of OsGIGANTEA Leads to Enhanced Tolerance to Polyethylene Glycol-Generated Osmotic Stress in Rice., In addition, qRT-PCR and microarray analysis revealed that the transcript abundance of some osmotic stress response genes, such as OsDREB1E, OsAP37, OsAP59, OsLIP9, OsLEA3, OsRAB16A, and OsSalT, was significantly higher in osgi than in WT plants, suggesting that OsGI might be a negative regulator in the osmotic stress response in rice
- AP59~OsBIERF3~OsAP59, OsSalT, Mutation of OsGIGANTEA Leads to Enhanced Tolerance to Polyethylene Glycol-Generated Osmotic Stress in Rice., In addition, qRT-PCR and microarray analysis revealed that the transcript abundance of some osmotic stress response genes, such as OsDREB1E, OsAP37, OsAP59, OsLIP9, OsLEA3, OsRAB16A, and OsSalT, was significantly higher in osgi than in WT plants, suggesting that OsGI might be a negative regulator in the osmotic stress response in rice
- OsDhn1~OsLip9, OsSalT, Mutation of OsGIGANTEA Leads to Enhanced Tolerance to Polyethylene Glycol-Generated Osmotic Stress in Rice., In addition, qRT-PCR and microarray analysis revealed that the transcript abundance of some osmotic stress response genes, such as OsDREB1E, OsAP37, OsAP59, OsLIP9, OsLEA3, OsRAB16A, and OsSalT, was significantly higher in osgi than in WT plants, suggesting that OsGI might be a negative regulator in the osmotic stress response in rice
- OsDREB1E~OsDREB1-1~CR350, OsSalT, Mutation of OsGIGANTEA Leads to Enhanced Tolerance to Polyethylene Glycol-Generated Osmotic Stress in Rice., In addition, qRT-PCR and microarray analysis revealed that the transcript abundance of some osmotic stress response genes, such as OsDREB1E, OsAP37, OsAP59, OsLIP9, OsLEA3, OsRAB16A, and OsSalT, was significantly higher in osgi than in WT plants, suggesting that OsGI might be a negative regulator in the osmotic stress response in rice
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