转录因子 ZmbZIP75 可促进玉米籽粒灌浆和籽粒脱水

Tiandan Long, Yayun Wang, Jin Yang, Zhou Liu, Changqing Mao, Yufeng Hu, Junjie Zhang, Hanmei Liu, Yinghong Liu, Xiujun Fan, Lei Gao, Huanhuan Huang, Ying Xie, Daqiu Zhao, Yubi Huang, Yangping Li
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引用次数: 0

摘要

选育既高产又低粒水分的品种对现代玉米生产至关重要,但由于缺乏有价值的调控基因,相关的育种工作受到了阻碍。在这里,我们证明了转录因子(TF)碱性亮氨酸拉链 75(ZmbZIP75)能促进玉米籽粒产量并降低籽粒水分。敲除 ZmbZIP75 会导致谷粒灌浆和籽粒脱水缺陷,而 ZmbZIP75 的过表达则会在不改变植株结构的情况下提高单株谷粒产量并降低籽粒水分。从机理上讲,在谷粒灌浆期,ZmbZIP75 受母本衍生的碱性脱落酸(ABA)的转录诱导,直接激活多个与淀粉合成相关的核心基因和关键转录因子,从而促进谷粒灌浆和最终产量。在籽粒发育后期,高浓度的子代 ABA 会通过 SnRK2.10 增强 ZmbZIP75 的磷酸化。磷酸化的 ZmbZIP75 随后转录并与 TF VP1 相互作用,协同促进核仁脱水。因此,这项研究强调了 ZmbZIP75 在培育高产和低粒水分品种方面的潜力,以满足高效玉米生产的需求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The transcription factor ZmbZIP75 promotes both grain filling and kernel dehydration in maize
Selecting both high-yield and low-kernel-moisture varieties is essential for modern maize production, but relevant breeding efforts are hindered by a lack of valuable regulatory genes. Here, we demonstrate that the transcription factor (TF) basic leucine zipper 75 (ZmbZIP75) promotes grain yield and reduces kernel moisture in maize. Knockout of ZmbZIP75 results in defective grain filling and kernel dehydration, whereas ZmbZIP75 overexpression confers increased grain yield per plant and decreased kernel moisture without altering plant architecture. Mechanistically, during the grain filling stage, ZmbZIP75 is transcriptionally induced by maternal-derived basal abscisic acid (ABA) and directly activates multiple core starch synthesis-related genes and key TFs, thereby promoting grain filling and final yield. In the late stage of kernel development, high concentrations of zygotic ABA enhance ZmbZIP75 phosphorylation through SnRK2.10. The phosphorylated ZmbZIP75 subsequently transactivates and interacts with TF VP1 to synergistically promote kernel dehydration. This study thus highlights the potential of ZmbZIP75 for engineering both high-yield and low-kernel-moisture varieties to meet the demands of high-efficient maize production.
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