Rpt5 编码一种类似于受体的蛋白质,可为大麦提供广泛而有效的网状网斑病(Pyrenophora teres f. teres)抗性

Karl Effertz, Jonathan K Richards, Shaun James Clare, Madeline del Castillo, Roshan Sharma Poudel, Mengyuan Li, Jianwei Zhang, Matthew James Moscou, Timothy Friesen, Robert Saxon Brueggeman
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摘要

由坏死性真菌病原体 Pyrenophora teres f. teres(Ptt)引起的叶面病害网状网斑病(NFNB)给全世界的大麦造成了严重的产量和质量损失。大麦品系 CI5791 的抗赤霉病 5 号(Rpt5)基因所赋予的显性抗性是该病原系统中已报道的最广泛、最有效的抗性。Rpt5 基因座是在利用不同宿主种群和 Ptt 分离物进行的多项独立遗传研究中确定的,它既包含显性的 Rpt5 抗性,也包含在没有 Rpt5 时显性的分离物特异性易感基因/等位基因,即对 Pyrenophora teres 1(Spt1)的易感性。来自不同病原体分离株的 Ptt 毒力和无毒效应因子与 Rpt5/Spt1 基因座存在基因相互作用,这表明 Rpt5/Spt1 基因座是一个复杂的基因座,其功能受多种病原体效应因子进化的影响。利用来自 CI5791 x Tifang 双亲种群的 1,920 个重组配子进行高分辨率图谱绘制,在 cv Morex V3 基因组组装的 ~4.6 Mb 限定区域中发现了 12 个候选基因,但在 pangenome 组装中为 1.1 - 2.2 Mb,包含 5-12 个基因。分析表明,CI5791 等位基因中的受体样蛋白(RLP)(暂定为 Rpt5 候选基因 1)(Rcg1)与 Rpt5 介导的广泛抗性之间存在很强的相关性。在易感 cv Golden Promise 背景下,两个独立的 CI5791 Rcg1 等位基因转化株与 Golden Promise 野生型相比,在受到 Rpt5 无病毒 Ptt 分离物 6A、15A 和 0-1 的侵染时,表现出显著增强的抗性。因此,Rpt5编码一种RLP,是大麦中克隆的第一个抗净斑病基因。
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Rpt5 encodes a receptor-like protein that provides broad and effective net form net blotch (Pyrenophora teres f. teres) resistance in barley
The foliar disease net form net blotch (NFNB), caused by the necrotrophic fungal pathogen Pyrenophora teres f. teres (Ptt), causes significant yield and quality losses of barley worldwide. Dominant resistance conferred by the Resistance to Pyrenophora teres 5 (Rpt5) gene from barley line CI5791 is the broadest and most effective resistance reported in this pathosystem. The Rpt5 locus was identified in multiple independent genetic studies utilizing diverse host populations and Ptt isolates, and harbors both dominant Rpt5 resistance and isolate-specific susceptibility genes/alleles that are dominant in the absence of Rpt5, designated susceptibility to Pyrenophora teres 1 (Spt1). Ptt virulence and avirulence effectors from diverse pathogen isolates genetically interact with the Rpt5/Spt1 locus, suggesting a complex locus with a function targeted by the evolution of a diversity of pathogen effectors. High-resolution mapping utilizing 1,920 recombinant gametes from a CI5791 x Tifang biparental population, identified 12 candidate genes in an ~4.6 Mb delimited region in the cv Morex V3 genome assembly, but is 1.1 − 2.2 Mb in the pangenome assemblies, containing 5−12 genes. Analysis revealed a strong correlation between the CI5791 allele of a receptor-like protein (RLP), provisionally designated Rpt5 candidate gene 1, (Rcg1), and broad Rpt5−mediated resistance. Two independent transformants of the CI5791 Rcg1 allele in the susceptible cv Golden Promise background showed significantly increased resistance when challenged with Rpt5 avirulent Ptt isolates 6A, 15A, and 0−1 compared to the Golden Promise wildtype. Thus, Rpt5, encodes an RLP and is the first net blotch resistance gene cloned in barley.
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