OsLESV and OsESV1 promote transitory and storage starch biosynthesis to determine rice grain quality and yield
文献类型: 外文期刊
第一作者: Dong, Nannan
作者: Dong, Nannan;Jiao, Guiai;Cao, Ruijie;Li, Sanfeng;Zhao, Shaolu;Duan, Yingqing;Ma, Liuyang;Li, Xinwei;Lu, Feifei;Wang, Hong;Wang, Shiwen;Shao, Gaoneng;Sheng, Zhonghua;Hu, Shikai;Tang, Shaoqing;Wei, Xiangjin;Hu, Peisong
作者机构:
关键词: transitory starch; starch-binding domain; starch biosynthesis; leaf starch deficiency; rice; Oryza sativa
期刊名称:PLANT COMMUNICATIONS ( 影响因子:9.4; 五年影响因子:9.4 )
ISSN: 2590-3462
年卷期: 2024 年 5 卷 7 期
页码:
收录情况: SCI
摘要: Transitory starch is an important carbon source in leaves, and its biosynthesis and metabolism are closely related to grain quality and yield. The molecular mechanisms controlling leaf transitory starch biosynthesis and degradation and their effects on rice (Oryza sativa) quality and yield remain unclear. Here, we show that OsLESV and OsESV1, the rice orthologs of AtLESV and AtESV1, are associated with transitory starch biosynthesis in rice. The total starch and amylose contents in leaves and endosperms are significantly reduced, and the final grain quality and yield are compromised in oslesv and osesv1 single and oslesv esv1 double mutants. Furthermore, we found that OsLESV and OsESV1 bind to starch, and this binding depends on a highly conserved C-terminal tryptophan-rich region that acts as a starch-binding domain. Importantly, OsLESV and OsESV1 also interact with the key enzymes of starch biosynthesis, granule-bound starch synthase I (GBSSI), GBSSII, and pyruvate orthophosphote dikiase (PPDKB), to maintain their protein stability and activity. OsLESV and OsESV1 also facilitate the targeting of GBSSI and GBSSII from plastid stroma to starch granules. Overexpression of GBSSI, GBSSII, and PPDKB can partly rescue the phenotypic defects of the oslesv and osesv1 mutants. Thus, we demonstrate that OsLESV and OsESV1 play a key role in regulating the biosynthesis of both leaf transitory starch and endosperm storage starch in rice. These findings deepen our understanding of the molecular mechanisms underlying transitory starch biosynthesis in rice leaves and reveal how the transitory starch metabolism affects rice grain quality and yield, providing useful information for the genetic improvement of rice grain quality and yield.
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