OPAQUE3, encoding a transmembrane bZIP transcription factor, regulates endosperm storage protein and starch biosynthesis in rice

胚乳 贮藏蛋白 内质网 突变体 转录因子 细胞生物学 水稻 未折叠蛋白反应 生物 基因 生物化学 亮氨酸拉链 化学
作者
Ruijie Cao,Shaolu Zhao,Guiai Jiao,Yingqing Duan,Liuyang Ma,Nannan Dong,Feifei Lu,Mingdong Zhu,Gaoneng Shao,Shikai Hu,Zhonghua Sheng,Jian Zhang,Shaoqing Tang,Xiangjin Wei,Peisong Hu
出处
期刊:Plant communications [Elsevier BV]
卷期号:3 (6): 100463-100463 被引量:74
标识
DOI:10.1016/j.xplc.2022.100463
摘要

Starch and storage proteins are the main components of rice (Oryza sativa L.) grains. Despite their importance, the molecular regulatory mechanisms of storage protein and starch biosynthesis remain largely elusive. Here, we identified a rice opaque endosperm mutant, opaque3 (o3), that overaccumulates 57-kDa proglutelins and has significantly lower protein and starch contents than the wild type. The o3 mutant also has abnormal protein body structures and compound starch grains in its endosperm cells. OPAQUE3 (O3) encodes a transmembrane basic leucine zipper (bZIP) transcription factor (OsbZIP60) and is localized in the endoplasmic reticulum (ER) and the nucleus, but it is localized mostly in the nucleus under ER stress. We demonstrated that O3 could activate the expression of several starch synthesis-related genes (GBSSI, AGPL2, SBEI, and ISA2) and storage protein synthesis-related genes (OsGluA2, Prol14, and Glb1). O3 also plays an important role in protein processing and export in the ER by directly binding to the promoters and activating the expression of OsBIP1 and PDIL1-1, two major chaperones that assist with folding of immature secretory proteins in the ER of rice endosperm cells. High-temperature conditions aggravate ER stress and result in more abnormal grain development in o3 mutants. We also revealed that OsbZIP50 can assist O3 in response to ER stress, especially under high-temperature conditions. We thus demonstrate that O3 plays a central role in rice grain development by participating simultaneously in the regulation of storage protein and starch biosynthesis and the maintenance of ER homeostasis in endosperm cells.
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