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  • Normal Structure and Function of Endothecium Chloroplasts Maintained by ZmMs33-Mediated Lipid Biosynthesis in Tapetal Cells Are Critical for Anther Development in Maize.

Normal Structure and Function of Endothecium Chloroplasts Maintained by ZmMs33-Mediated Lipid Biosynthesis in Tapetal Cells Are Critical for Anther Development in Maize.

Molecular plant (2020-09-22)
Taotao Zhu, Ziwen Li, Xueli An, Yan Long, Xiaofeng Xue, Ke Xie, Biao Ma, Danfeng Zhang, Yijian Guan, Canfang Niu, Zhenying Dong, Quancan Hou, Lina Zhao, Suowei Wu, Jinping Li, Weiwei Jin, Xiangyuan Wan
RÉSUMÉ

Genic male sterility (GMS) is critical for heterosis utilization and hybrid seed production. Although GMS mutants and genes have been studied extensively in plants, it has remained unclear whether chloroplast-associated photosynthetic and metabolic activities are involved in the regulation of anther development. In this study, we characterized the function of ZmMs33/ZmGPAT6, which encodes a member of the glycerol-3-phosphate acyltransferase (GPAT) family that catalyzes the first step of the glycerolipid synthetic pathway. We found that normal structure and function of endothecium (En) chloroplasts maintained by ZmMs33-mediated lipid biosynthesis in tapetal cells are crucial for maize anther development. ZmMs33 is expressed mainly in the tapetum at early anther developmental stages and critical for cell proliferation and expansion at late stages. Chloroplasts in En cells of wild-type anthers function as starch storage sites before stage 10 but as photosynthetic factories since stage 10 to enable starch metabolism and carbohydrate supply. Loss of ZmMs33 function inhibits the biosynthesis of glycolipids and phospholipids, which are major components of En chloroplast membranes, and disrupts the development and function of En chloroplasts, resulting in the formation of abnormal En chloroplasts containing numerous starch granules. Further analyses reveal that starch synthesis during the day and starch degradation at night are greatly suppressed in the mutant anthers, leading to carbon starvation and low energy status, as evidenced by low trehalose-6-phosphate content and a reduced ATP/AMP ratio. The energy sensor and inducer of autophagy, SnRK1, was activated to induce early and excessive autophagy, premature PCD, and metabolic reprogramming in tapetal cells, finally arresting the elongation and development of mutant anthers. Taken together, our results not only show that ZmMs33 is required for normal structure and function of En chloroplasts but also reveal that starch metabolism and photosynthetic activities of En chloroplasts at different developmental stages are essential for normal anther development. These findings provide novel insights for understanding how lipid biosynthesis in the tapetum, the structure and function of En chloroplasts, and energy and substance metabolism are coordinated to maintain maize anther development.

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Starch (HK) Assay Kit, sufficient for 20 assays