Evaluation and genetic dissection of the powdery mildew resistance in 558 wheat accessions

Yuli Jin , Guohao Han , Wenjing Zhang , Bin Bu , Ya Zhao , Jiaojiao Wang , Ruishan Liu , Hong Yang , Hongxing Xu , Pengtao Ma
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Abstract

Powdery mildew, a widespread and destructive wheat disease caused by the fungal pathogen Blumeria graminis f. sp. tritici (Bgt), results in significant yield losses globally. Employing host resistance is the most cost-effective and environmentally sustainable approach to managing this disease. Assessing the resistance levels of wheat germplasms and understanding the genetic underpinnings of this resistance is crucial. In this study, we evaluated the seedling resistance to powdery mildew in 558 wheat accessions, along with the presence of resistance genes Pm1, Pm2, Pm4, Pm5, Pm6, Pm8, Pm12, Pm21, Pm24, Pm41, Pm42, Pm45, Pm47, Pm60, and Pm69 using various Bgt isolates and associated diagnostic markers. The study revealed that out of 558 wheat accessions tested, only 25 showed resistance to the Bgt isolate E09, highlighting a general lack of powdery mildew resistance among the evaluated accessions. Furthermore, these 25 accessions exhibited a significantly different resistance spectrum to 25 additional Bgt isolates. Notably, seven of these accessions were resistant to all the tested isolates, indicating they possess Pm genes with broad-spectrum resistance. Molecular analysis using closely linked or diagnostic markers revealed diverse resistance gene profiles: 249 accessions harbored a single tested Pm gene, 75 accessions possessed combinations of Pm genes, and 234 accessions lacked any of the tested genes. Pm8 was the most frequently detected gene, present in 27.42% of accessions, whereas Pm5, Pm12, Pm24, Pm41, Pm42, Pm45, Pm47 and Pm69 were not detected. Among the seven accessions resistant to all 26 tested isolates, Pm21 was detected in four accessions (HengS29, Chang 4640, Xinong 556, and ML728). Pm2 and Pm60 were identified in Emai 18 and Xinmai 296, respectively. Interestingly, none of the tested genes were detected in Emai 16, suggesting the presence of potentially novel Pm gene(s) conferring broad-spectrum resistance. These findings offer valuable insights for the strategic dissemination of these resistant accessions and for targeted breeding programs aimed at combating powdery mildew.

558 个小麦品种白粉病抗性的评估和遗传分析
白粉病是由真菌病原体 Blumeria graminis f. sp. tritici(Bgt)引起的一种广泛存在且具有破坏性的小麦病害,在全球范围内造成严重的产量损失。利用寄主抗性是管理这种病害最具成本效益和环境可持续性的方法。评估小麦种质的抗性水平并了解这种抗性的遗传基础至关重要。在这项研究中,我们利用各种 Bgt 分离物和相关诊断标记,评估了 558 个小麦品种的幼苗对白粉病的抗性,以及抗性基因 Pm1、Pm2、Pm4、Pm5、Pm6、Pm8、Pm12、Pm21、Pm24、Pm41、Pm42、Pm45、Pm47、Pm60 和 Pm69 的存在情况。研究发现,在 558 个受试小麦品种中,只有 25 个对 Bgt 分离物 E09 表现出抗性,这表明受试品种普遍缺乏对白粉病的抗性。此外,这 25 个品种对另外 25 个 Bgt 分离物的抗性谱也有显著差异。值得注意的是,其中 7 个品种对所有测试的分离物都具有抗性,这表明它们具有广谱抗性的 Pm 基因。利用密切相关的标记或诊断标记进行的分子分析表明,抗性基因的谱系多种多样:249 个品种含有单一的受测 Pm 基因,75 个品种具有 Pm 基因组合,234 个品种缺乏任何受测基因。Pm8 是最常检测到的基因,存在于 27.42% 的品种中,而 Pm5、Pm12、Pm24、Pm41、Pm42、Pm45、Pm47 和 Pm69 均未检测到。在对所有 26 个受试分离物均有抗性的 7 个品种中,有 4 个品种(恒 S29、长 4640、新农 556 和 ML728)检测到 Pm21。在鄂麦 18 和新麦 296 中分别发现了 Pm2 和 Pm60。有趣的是,在 "鄂麦 16 "中没有检测到任何受测基因,这表明可能存在赋予广谱抗性的新型 Pm 基因。这些发现为这些抗性品种的战略推广和旨在防治白粉病的有针对性的育种计划提供了宝贵的启示。
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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