A novel LRR receptor-like kinase BRAK reciprocally phosphorylates PSKR1 to enhance growth and defense in tomato.

The EMBO Journal Pub Date : 2024-10-24 DOI:10.1038/s44318-024-00278-z

Shuting Ding,Shuxian Feng,Shibo Zhou,Zhengran Zhao,Xiao Liang,Jiao Wang,Ruishuang Fu,Rui Deng,Tao Zhang,Shujun Shao,Jingquan Yu,Christine H Foyer,Kai Shi

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Abstract

Plants face constant threats from pathogens, leading to growth retardation and crop failure. Cell-surface leucine-rich repeat receptor-like kinases (LRR-RLKs) are crucial for plant growth and defense, but their specific functions, especially to necrotrophic fungal pathogens, are largely unknown. Here, we identified an LRR-RLK (Solyc06g069650) in tomato (Solanum lycopersicum) induced by the economically important necrotrophic pathogen Botrytis cinerea. Knocking out this LRR-RLK reduced plant growth and increased sensitivity to B. cinerea, while its overexpression led to enhanced growth, yield, and resistance. We named this LRR-RLK as BRAK (B. cinerea resistance-associated kinase). Yeast two-hybrid screen revealed BRAK interacted with phytosulfokine (PSK) receptor PSKR1. PSK-induced growth and defense responses were impaired in pskr1, brak single and double mutants, as well as in PSKR1-overexpressing plants with silenced BRAK. Moreover, BRAK and PSKR1 phosphorylated each other, promoting their interaction as detected by microscale thermophoresis. This reciprocal phosphorylation was crucial for growth and resistance. In summary, we identified BRAK as a novel regulator of seedling growth, fruit yield and defense, offering new possibilities for developing fungal disease-tolerant plants without compromising yield.

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一种新型 LRR 受体样激酶 BRAK 相互磷酸化 PSKR1，以增强番茄的生长和防御能力。

植物不断面临病原体的威胁，导致生长迟缓和作物歉收。细胞表面的富亮氨酸重复受体样激酶（LRR-RLKs）对植物的生长和防御至关重要，但它们的具体功能，尤其是对坏死性真菌病原体的功能，在很大程度上还不清楚。在这里，我们在番茄（Solanum lycopersicum）中发现了一种由具有重要经济价值的坏死性病原体Botrytis cinerea诱导的LRR-RLK（Solyc06g069650）。敲除这种 LRR-RLK 会降低植物的生长并增加对 B. cinerea 的敏感性，而过表达这种 LRR-RLK 则会提高生长、产量和抗性。我们将这种 LRR-RLK 命名为 BRAK（B. cinerea 抗性相关激酶）。酵母双杂交筛选发现，BRAK 与植物生长调节剂（PSK）受体 PSKR1 相互作用。在pskr1、BRAK单突变体和双突变体中，以及在沉默了BRAK的PSKR1表达植株中，PSK诱导的生长和防御反应都受到了影响。此外，BRAK 和 PSKR1 相互磷酸化，促进了它们之间的相互作用，这是由微尺度热泳检测到的。这种相互磷酸化对植物的生长和抗性至关重要。总之，我们发现 BRAK 是幼苗生长、果实产量和防御能力的新型调节因子，这为在不影响产量的情况下开发耐真菌病害植物提供了新的可能性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The EMBO Journal

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