Rastonia solanacearum type Ⅲ effectors target host 14-3-3 proteins to suppress plant immunity.

Shuangxi Zhang, Peng Cao, Zhiliang Xiao, Qi Zhang, Yi Qiang, He Meng, Aiguo Yang, Yuyan An, Meixiang Zhang

Biochemical and biophysical research communications 2024 Jan 01

filter terms:

14-3-3 proteins play important roles in plant metabolism and stress response. Tomato 14-3-3 proteins, SlTFT4 and SlTFT7, serve as hubs of plant immunity and are targeted by some pathogen effectors. Ralstonia solanacearum with more than 70 type Ⅲ effectors (T3Es) is one of the most destructive plant pathogens. However, little is known on whether R. solanacearum T3Es target SlTFT4 and SlTFT7 and hence interfere with plant immunity. We first detected the associations of SlTFT4/SlTFT7 with R. solanacearum T3Es by luciferase complementation assay, and then confirmed the interactions by yeast two-hybrid approach. We demonstrated that 22 Ralstonia T3Es were associated with both SlTFT4 and SlTFT7, and five among them suppressed the hypersensitive response induced by MAPKKKα, a protein kinase which associated with SlTFT4/SlTFT7. We further demonstrated that suppression of MAPKKKα-induced HR and plant basal defense by the T3E RipAC depend on its association with 14-3-3 proteins. Our findings firstly demonstrate that R. solanacearum T3Es can manipulate plant immunity by targeting 14-3-3 proteins, SlTFT4 and SlTFT7, providing new insights into plant-R. solanacearum interactions. Copyright © 2023 Elsevier Inc. All rights reserved.

Citation

Shuangxi Zhang, Peng Cao, Zhiliang Xiao, Qi Zhang, Yi Qiang, He Meng, Aiguo Yang, Yuyan An, Meixiang Zhang. Rastonia solanacearum type Ⅲ effectors target host 14-3-3 proteins to suppress plant immunity. Biochemical and biophysical research communications. 2024 Jan 01;690:149256