Tomato salt‐responsive pseudo‐response regulator 1, SlSRP1, negatively regulates the high‐salt and dehydration stress responses

Abstract

AbstractUnder severe environmental stress conditions, plants inhibit their growth and development and initiate various defense mechanisms to survive. The pseudo‐response regulator (PRRs) genes have been known to be involved in fruit ripening and plant immunity in various plant species, but their role in responses to environmental stresses, especially high salinity and dehydration, remains unclear. Here, we focused on PRRs in tomato plants and identified two PRR2‐like genes, SlSRP1 and SlSRP1H, from the leaves of salt‐treated tomato plants. After exposure to dehydration and high‐salt stresses, expression of SISRP1, but not SlSRP1H, was significantly induced in tomato leaves. Subcellular localization analysis showed that SlSRP1 was predominantly located in the nucleus, while SlSRP1H was equally distributed in the nucleus and cytoplasm. To further investigate the potential role of SlSRP1 in the osmotic stress response, we generated SISRP1‐silenced tomato plants. Compared to control plants, SISRP1‐silenced tomato plants exhibited enhanced tolerance to high salinity, as evidenced by a high accumulation of proline and reduced chlorosis, ion leakage, and lipid peroxidation. Moreover, SISRP1‐silenced tomato plants showed dehydration‐tolerant phenotypes with enhanced abscisic acid sensitivity and increased expression of stress‐related genes, including SlRD29, SlAREB, and SlDREB2. Overall, our findings suggest that SlSRP1 negatively regulates the osmotic stress response.