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A genetic module at one locus in rice protects chloroplasts to enhance thermotolerance

Hai Zhang, Ji-Fu Zhou, Yi Kan, Jun‐Xiang Shan, Wang‐Wei Ye, Nai‐Qian Dong, Tao Guo, You-Huang Xiang, Yi‐Bing Yang, Yachao Li, Huai‐Yu Zhao, Hong‐Xiao Yu, Zi‐Qi Lu, Shuang‐Qin Guo, Jie‐Jie Lei, Ben Liao, Xiao-Rui Mu, Yingjie Cao, Jiajun Yu, Youshun Lin, Hong‐Xuan Lin

2022Science251 citationsDOI

Abstract

How the plasma membrane senses external heat-stress signals to communicate with chloroplasts to orchestrate thermotolerance remains elusive. We identified a quantitative trait locus, Thermo-tolerance 3 ( TT3 ), consisting of two genes, TT3.1 and TT3.2 , that interact together to enhance rice thermotolerance and reduce grain-yield losses caused by heat stress. Upon heat stress, plasma membrane–localized E3 ligase TT3.1 translocates to the endosomes, on which TT3.1 ubiquitinates chloroplast precursor protein TT3.2 for vacuolar degradation, implying that TT3.1 might serve as a potential thermosensor. Lesser accumulated, mature TT3.2 proteins in chloroplasts are essential for protecting thylakoids from heat stress. Our findings not only reveal a TT3.1-TT3.2 genetic module at one locus that transduces heat signals from plasma membrane to chloroplasts but also provide the strategy for breeding highly thermotolerant crops.

Topics & Concepts

ChloroplastThylakoidHeat stressCell biologyBiologyLocus (genetics)GeneGeneticsAnimal sciencePhotosynthetic Processes and MechanismsPlant Stress Responses and ToleranceLipid metabolism and biosynthesis
A genetic module at one locus in rice protects chloroplasts to enhance thermotolerance | Litcius