WSL214 negatively regulates ROS accumulation and pathogen defense response in rice.

WSL214 plays an important role in promoting cellular ROS homeostasis by enhancing catalase activity and reducing photosynthetic ROS production. ROS are the important regulator of cellular homeostasis, and balancing ROS production and clearance contributes to cellular activity. Although many genes associated with ROS have been cloned, the mechanism of this balance is not fully understood. In this study, we obtained the rice mutant wsl214 that arose from a natural mutation. Compared to WT, wsl214 exhibited white-striped leaves, defective chloroplast development, reduced net photosynthetic rate, and overexcitation of photosynthetically active reaction centers. In addition, the ROS accumulation level was significantly elevated, and the ROS scavenging enzyme activity was significantly decreased in wsl214 leaf tissue. As a result of elevated ROS levels, wsl214 leaf cells underwent DNA damage and programmed cell death. However, wsl214 defense response to exogenous pathogens was also enhanced by high ROS levels. Based on the mapping cloning, we discovered that WSL214 had a single base mutation (C to T) in the third exon, resulting in decreased expression of wsl214. The WSL214 encodes an HD domain phosphohydrolase and is widely expressed in various tissues of rice, especially at the highest level in leaf tissue. Further research showed that WSL214 promoted the homeostasis of rice leaf cellular ROS in two ways. First, WSL214 increased the expression of the catalase gene OsCATC, making the intracellular ROS scavenging enzyme more active. Second, WSL214 promoted chloroplast development, kept photosynthesis working properly, and reduced ROS produced by photosynthesis. In conclusion, our report emphasizes that WSL214 is a key part of balancing ROS levels in cells.