Mutation of phosphatidate phosphohydrolase genes confers broad-spectrum disease resistance in plants
Gong, Q.; Sha, G.; Han, X.; Guo, Z.; Yang, L.; Yang, W.; Tan, R.; Chen, G.; Li, Y.; Shen, X.; Xie, K.; Cai, G.; Hu, H.; Luo, J.; Li, Q.; Li, G.
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Phosphatidic acid (PA) is considered as a second messenger that interacts with protein kinases, phosphatases and NADPH oxidases, amplifying the signal to initiate plant defense signaling responses (Li and Wang, 2019). In rice, mutation of RBL1 causes the accumulation of PA, enhancing multipathogen resistance (Sha et al., 2023). In our previous study, we attempted to rescue rbl1 mutant by overexpressing phosphatidate phosphohydrolase (PAH) genes. However, overexpression of PAH2 reduced the PA level but did not affect the disease resistance, which made us to reconsider the importance of PA and PAH in rice immunity. Here, we identified that mutation of PAHs caused PA accumulation and enhanced multipathogen resistance in rice and Arabidopsis.
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