Subclass III SnRK2 Kinases Coordinate Starch and Storage Protein Synthesis During Maize Kernel Development

胚乳 贮藏蛋白 生物 淀粉 突变体 生物化学 细胞生物学 胚胎 激酶 蛋白激酶A 磷酸化 蛋白质生物合成 蛋白质磷酸化 转录因子 蔗糖 表型 核(代数) 脱落酸 产量(工程) 绿色荧光蛋白
作者
Yayun Wang,Tiandan Long,Changqing Mao,Shan Feng,Qiang Liao,Yufeng Hu,Junjie Zhang,Hanmei Liu,Ying‐Hong Liu,Xiujun Fan,Lei Gao,Canmei Cun,Binjie Xu,Daqiu Zhao,Jing Wang,Yubi Huang,Yangping Li
出处
期刊:Plant Biotechnology Journal [Wiley]
标识
DOI:10.1111/pbi.70487
摘要

Enhancing both starch and protein accumulation is a key strategy for improving maize yield and quality. Achieving this goal requires an in-depth understanding of the regulatory mechanisms that integrate these pathways. Here, we demonstrate that functionally redundant subclass III SNF1-related protein kinase 2s (SnRK2s) act as central regulators that orchestrate starch synthesis and storage protein accumulation in maize kernels, with ZmSnRK2.10 playing a predominant role. Higher-order SnRK2s mutants lacking ZmSnRK2.10 exhibit defective kernel development, with drastically reduced starch and storage protein content. Mechanistically, ZmSnRK2.10 directly phosphorylates starch synthesis-related enzymes, such as Bt1, enhancing their activities and thereby boosting endosperm starch synthesis. Moreover, it indirectly promotes storage protein synthesis in both endosperm and embryo through modulating the phosphorylation status of downstream transcription factors, specifically Opaque-2 and ZmbZIP75, respectively. Interestingly, our study reveals that ZmSnRK2.10 undergoes sequential activation: initially by sucrose in the endosperm during early kernel filling and subsequently by abscisic acid (ABA) in the embryo during later developmental stages. This spatiotemporal regulation suggests a mechanism facilitating coordinated control of these temporally linked processes. Notably, overexpression of ZmSnRK2.10 leads to significant increases in both starch and protein content, as well as a higher vitreous endosperm ratio, thereby simultaneously enhancing maize yield and quality. Our study thus uncovers a previously unknown regulatory mechanism involving subclass III SnRK2s that govern storage functions in maize kernels and provides potential genetic resources for yield and quality improvement.
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