衰老
突变体
蔗糖
光合作用
叶绿素
生物
细胞生物学
运输机
生物化学
磷酸化
产量(工程)
化学
蛋白激酶A
激酶
基因
植物
信号转导
野生型
叶绿体
贮藏蛋白
光合效率
突变
光合能力
作者
Tao Yang,Yunqin Huang,Zan Wu,Zhenglan Long,Hongwei Zhu,Shanshan Wang,Lei Tang,Ruirui Li,Zhengchen Liang,H Steve Zhang,Yongcai Huang,X L Li,Xiaoduo Lu,Y N Wu,Xiaoduo Lu,Yongrui Wu
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2026-05-06
卷期号:12 (19): eaeb2472-eaeb2472
标识
DOI:10.1126/sciadv.aeb2472
摘要
The extended stay-green trait is beneficial to increase photosynthetic efficiency, thereby enhancing crop yield. However, factors and mechanisms affecting this process remain largely unknown. Here, we cloned a leaf precocious senescence gene ( lps1-1 ) and created additional null alleles. All lps1 mutants exhibited accelerated leaf senescence with reduced chlorophyll contents and photosynthetic efficiency. The 100-kernel weight and storage reserve content were decreased in lps1 kernels, while the opposite was observed in overexpression lines. Lps1 encoded a protein kinase SnRK2.6 that phosphorylated the sucrose transporter ZmSUT1 in the BETL region, thereby enhancing protein stability, homodimer formation ability, and sucrose transport activity. Overexpression of ZmSUT1 delayed leaf senescence and enhanced photosynthetic capacity and kernel weight, while mutation of ZmSUT1 did the opposite. This mechanism appears to be conserved in grasses. Our findings provide insights for yield and quality improvement in crops through delaying leaf senescence.
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