Abstract
Water is essential to support life. Because limited water availability may affect their life cycles, plants have developed multiple responses to drought stress. Plant physiological and metabolic changes during drought may reflect changes that occur at the level of gene expression. In this study, we investigated the variation in drought-mitigating strategies employed by pigmented rice (Oryza sativa) varieties and the genes involved in their possible drought tolerance. We screened 21 local pigmented rice cultivars from Indonesia for increased drought tolerance using the fraction transpirable soil water method to exert precise control of the drought stress imposed on plants. We then determined the expression of OsDREB1A, OsNAC6, OsNHX1, OsCuZnSOD2, OsOSCAT2, and OsCAT3 in plants grown under well-watered conditions and under moderate or severe drought stress. Among the pigmented rice cultivars, Merah Pari Eja had the greatest drought tolerance, while the red rice Inpari 24 had the highest mortality rate (60%). We also included the white rice cultivar Putih Payo, which is fully sensitive to drought (with 100% mortality under the conditions used) as a negative control. Gene expression profiling revealed a general upregulation of drought-related genes in Merah Pari Eja and a downregulation of such genes in the other two cultivars. Measurements of antioxidant enzyme activity, leaf damage, free radicals, chlorophyll, and anthocyanin contents provided further evidence that Merah Pari Eja is more drought tolerant than the other two cultivars. We conclude that OsDREB1A, OsNAC6, OsNHX1, OsCuZnSOD2, OsOSCAT2 and OsCAT3 expression patterns can reveal plants that have increased drought tolerance.