- Information
- Symbol: OsDhn1,OsLip9
- MSU: LOC_Os02g44870
- RAPdb: Os02g0669100
- PSP score
- LOC_Os02g44870.1: 0.9855
- PLAAC score
- LOC_Os02g44870.1: 0
- pLDDT score
- 56.82
- Protein Structure from AlphaFold and UniProt
- Publication
- Drought inducible OsDhn1 promoter is activated by OsDREB1A and OsDREB1D, 2013, Journal of Plant Biology.
- Characterization of an abiotic stress-inducible dehydrin gene, OsDhn1, in rice Oryza sativa L., 2005, Mol Cells.
- Mutation of OsGIGANTEA Leads to Enhanced Tolerance to Polyethylene Glycol-Generated Osmotic Stress in Rice., 2016, Front Plant Sci.
- Genbank accession number
- Key message
- Expression of OsDhn1 was strongly induced by low temperature as well as by drought
- GUS assay of OsDhn1::gus plants showed that the GUS activity in the leaves was induced by drought stress but not by wound, cold, salt, or ABA treatment
- Induction of OsDhn1 by cold stress was clearcut in the roots of seedlings and the epidermis of palea and lemma
- Characterization of an abiotic stress-inducible dehydrin gene, OsDhn1, in rice (Oryza sativa L.)
- Taken together, these suggest that the drought-inducible OsDhn1 gene is regulated by abiotic stress signaling pathway involving CBF/DREB
- Drought inducible OsDhn1 promoter is activated by OsDREB1A and OsDREB1D
- 1 kb cDNA, designated Oryza sativa Dehydrin 1 (OsDhn1), was isolated from the seed coat of rice
- Connection
- OsDhn1~OsLip9, OsDREB1A~OsDREBL~OsCBF3, Drought inducible OsDhn1 promoter is activated by OsDREB1A and OsDREB1D, Second, transactivation assay revealed that OsDhn1 promoter is activated by OsDREB1A or OsDREB1D as well as CBF1 but not by OsDREB1B or OsDREB1C
- OsDhn1~OsLip9, OsDREB1A~OsDREBL~OsCBF3, Drought inducible OsDhn1 promoter is activated by OsDREB1A and OsDREB1D, Drought inducible OsDhn1 promoter is activated by OsDREB1A and OsDREB1D
- OsDhn1~OsLip9, OsDREB1D, Drought inducible OsDhn1 promoter is activated by OsDREB1A and OsDREB1D, Second, transactivation assay revealed that OsDhn1 promoter is activated by OsDREB1A or OsDREB1D as well as CBF1 but not by OsDREB1B or OsDREB1C
- OsDhn1~OsLip9, OsDREB1D, Drought inducible OsDhn1 promoter is activated by OsDREB1A and OsDREB1D, Drought inducible OsDhn1 promoter is activated by OsDREB1A and OsDREB1D
- OsAP37, OsDhn1~OsLip9, 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, OsGI, 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, OsLEA3~OsLEA3-1, 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
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