DREB1A regulon expression in rd29A:DREB1A transgenic chrysanthemum under low temperature or dehydration stress

Summary

Previously we reported that expression of the Arabidopsis DREB1A gene in chrysanthemum conferred increased tolerance to low-temperature and dehydration stresses, and that transgenic plants in which the DREB1A gene was driven by the abiotic stress-inducible promoter, rd29A, were more tolerant than those plants in which the DREB1A gene was driven by the 35S Cauliflower Mosaic Virus (CaMV) promoter. To understand the molecular basis for this improved tolerance, we isolated 74 DREB1A regulon genes using suppression subtractive hybridisation, then compared their expression patterns in rd29A:DREB1A transgenic plants (rd29A plants) and in 35S:DREB1A transgenic plants (35S plants) under different stress conditions. Our results showed that the increased tolerance to low temperatures and dehydration in rd29A plants was attributed to increased levels of expression of different members of the DREB1A regulon. Levels of expression of 69% or 91% for members of the DREB1A regulon that showed upregulation in rd29A plants were highly correlated with the level of expression of DREB1A in response to low temperature or to dehydration, respectively. These results support the hypothesis that the increased tolerance of rd29A plants to abiotic stresses resulted from elevated expression of the DREB1A regulon.