玉米ZmLecRK1的自然变异决定了它与ZmBAK1的相互作用以及对多种病原体的抗性模式。

IF 17.1 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Molecular Plant Pub Date : 2024-10-07 Epub Date: 2024-09-19 DOI:10.1016/j.molp.2024.09.006
Zhenju Li, Junbin Chen, Chuang Liu, Shengfeng He, Mingyu Wang, Lei Wang, Vijai Bhadauria, Shiwei Wang, Wenyu Cheng, Hui Liu, Xiaohong Yang, Mingliang Xu, You-Liang Peng, Wangsheng Zhu
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引用次数: 0

摘要

玉米(Zea mays L.)是世界上最重要的作物之一,但其产量和质量受到多种病害的严重影响。鉴定广谱抗性基因对于制定有效的玉米病害控制策略至关重要。在一项玉米全基因组研究中,我们发现了一种 G 型凝集素受体激酶 ZmLecRK1,它是一种新的抗性蛋白,可抵抗玉米茎腐病病原菌之一的蚜茧蜂。遗传分析表明,特定的ZmLecRK1等位基因可赋予玉米对多种病原体的抗性。ZmLecRK1 的抗性变体介导的细胞死亡和抗病性需要共受体富亮氨酸重复激酶 ZmBAK1。ZmLecRK1 细胞外结构域中自然出现的 A404S 变异决定了 ZmLecRK1-ZmBAK1 的相互作用以及 ZmLecRK1 相关蛋白复合物的形成。在 ZmLecRK1 易感变体中发现的氨基酸 S404 是祖先的版本,在大多数草种中都是保守的,而带有 A404 的抗性变体只存在于少数玉米近交系中。在高粱和水稻的 ZmLecRK1 类似蛋白中,404 位上的 S 被 A 取代,大大提高了它们诱导细胞死亡的能力。我们认为,对 ZmLecRK1 抗性变体的选择增强了其与共受体 ZmBAK1 的结合亲和力,从而促进了防御活性复合物的形成。最后,转录组分析表明,ZmLecRK1很可能调控与细胞壁组织或生物生成途径相关的基因表达,以应对病原体感染。我们的工作凸显了通过靶向碱基编辑精确调节 ZmLecRK1 及其同源物活性以产生抗病作物的生物技术潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Natural variations of maize ZmLecRK1 determine its interaction with ZmBAK1 and resistance patterns to multiple pathogens.

Maize (Zea mays) is one of the most important crops in the world, but its yield and quality are seriously affected by diverse diseases. Identifying broad-spectrum resistance genes is crucial for developing effective strategies to control the disease in maize. In a genome-wide study in maize, we identified a G-type lectin receptor kinase ZmLecRK1, as a new resistance protein against Pythium aphanidermatum, one of the causal pathogens of stalk rot in maize. Genetic analysis showed that the specific ZmLecRK1 allele can confer resistance to multiple pathogens in maize. The cell death and disease resistance phenotype mediated by the resistant variant of ZmLecRK1 requires the co-receptor ZmBAK1. A naturally occurring A404S variant in the extracellular domain of ZmLecRK1 determines the ZmLecRK1-ZmBAK1 interaction and the formation of ZmLecRK1-related protein complexes. Interestingly, the ZmLecRK1 susceptible variant was found to possess the amino acid S404 that is present in the ancestral variants of ZmLecRK1 and conserved among the majority of grass species, while the resistance variant of ZmLecRK1 with A404 is only present in a few maize inbred lines. Substitution of S by A at position 404 in ZmLecRK1-like proteins of sorghum and rice greatly enhances their ability to induce cell death. Further transcriptomic analysis reveals that ZmLecRK1 likely regulates gene expression related to the pathways in cell wall organization or biogenesis in response to pathogen infection. Taken together, these results suggest that the ZmLecRK1 resistance variant enhances its binding affinity to the co-receptor ZmBAK1, thereby enhancing the formation of active complexes for defense in maize. Our work highlights the biotechnological potential for generating disease-resistant crops by precisely modulating the activity of ZmLecRK1 and its homologs through targeted base editing.

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来源期刊
Molecular Plant
Molecular Plant 植物科学-生化与分子生物学
CiteScore
37.60
自引率
2.20%
发文量
1784
审稿时长
1 months
期刊介绍: Molecular Plant is dedicated to serving the plant science community by publishing novel and exciting findings with high significance in plant biology. The journal focuses broadly on cellular biology, physiology, biochemistry, molecular biology, genetics, development, plant-microbe interaction, genomics, bioinformatics, and molecular evolution. Molecular Plant publishes original research articles, reviews, Correspondence, and Spotlights on the most important developments in plant biology.
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