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FLOURY ENDOSPERM24, a heat shock protein 101 (HSP101), is required for starch biosynthesis and endosperm development in rice

Summary Endosperm is the main storage organ in cereal grain and determines grain yield and quality. The molecular mechanisms of heat shock proteins in regulating starch biosynthesis and endosperm development remain obscure. Here, we report a rice floury endosperm mutant flo24 that develops abnormal...

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Published in:The New phytologist 2024-06, Vol.242 (6), p.2635-2651
Main Authors: Wu, Hongming, Ren, Yulong, Dong, Hui, Xie, Chen, Zhao, Lei, Wang, Xin, Zhang, Fulin, Zhang, Binglei, Jiang, Xiaokang, Huang, Yunshuai, Jing, Ruonan, Wang, Jian, Miao, Rong, Bao, Xiuhao, Yu, Mingzhou, Nguyen, Thanhliem, Mou, Changling, Wang, Yunlong, Wang, Yihua, Lei, Cailin, Cheng, Zhijun, Jiang, Ling, Wan, Jianmin
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Language:English
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Summary:Summary Endosperm is the main storage organ in cereal grain and determines grain yield and quality. The molecular mechanisms of heat shock proteins in regulating starch biosynthesis and endosperm development remain obscure. Here, we report a rice floury endosperm mutant flo24 that develops abnormal starch grains in the central starchy endosperm cells. Map‐based cloning and complementation test showed that FLO24 encodes a heat shock protein HSP101, which is localized in plastids. The mutated protein FLO24T296I dramatically lost its ability to hydrolyze ATP and to rescue the thermotolerance defects of the yeast hsp104 mutant. The flo24 mutant develops more severe floury endosperm when grown under high‐temperature conditions than normal conditions. And the FLO24 protein was dramatically induced at high temperature. FLO24 physically interacts with several key enzymes required for starch biosynthesis, including AGPL1, AGPL3 and PHO1. Combined biochemical and genetic evidence suggests that FLO24 acts cooperatively with HSP70cp‐2 to regulate starch biosynthesis and endosperm development in rice. Our results reveal that FLO24 acts as an important regulator of endosperm development, which might function in maintaining the activities of enzymes involved in starch biosynthesis in rice.
ISSN:0028-646X
1469-8137
1469-8137
DOI:10.1111/nph.19761