堆叠瓦维洛夫小麦系列中的有益单倍型,加快多病抗性育种。

IF 4.4 1区 农林科学 Q1 AGRONOMY
Jingyang Tong, Zerihun T Tarekegn, Dilani Jambuthenne, Samir Alahmad, Sambasivam Periyannan, Lee Hickey, Eric Dinglasan, Ben Hayes
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引用次数: 0

摘要

关键信息:我们揭示了被忽视的小麦六种主要病害的抗性遗传关系,并通过多性状单倍型表征建立了基于单倍型块的抗性新形式目录。通过单倍型堆叠模拟,突出了提高多种病害抗性的遗传潜力。小麦生产受到多种真菌病害的威胁,但培育多重抗病性(MDR)机制的潜力仍有待开发。本文在瓦维洛夫小麦多样性面板中发现了六种主要真菌病害的重要全球遗传相关性和潜在的局部基因组区域,包括生物营养性叶锈病(LR)、黄锈病(YR)、茎锈病(SR)、半生物营养性冠腐病(CR)以及坏死性丹斑病(TS)和结节病(SNB)。通过采用由 34,899 个 SNP 和 DArT 标记整合而成的基于单倍型的当地基因组估计育种值,我们在澳大利亚和埃塞俄比亚的 20 多个田间试验中建立了新的抗六种病害的单倍型目录。针对三种锈病,我们确定了在所有环境中具有高单倍型效应变异的单倍型区块;针对至少两种病害,我们确定了多效应单倍型区块,其中有四个单倍型区块对所有六种病害都有影响。通过模拟,我们证明了针对一种病害堆叠最优单倍型可大幅提高抗性,但会间接影响其他五种病害的抗性,这取决于与非目标病害性状的遗传相关性。另一方面,我们的模拟结果显示,将所有病害的有益单倍型组合在一起,对 LR、YR、SR、CR、TS 和 SNB 的抗性分别提高了 48.1%、35.2%、29.1%、12.8%、18.8% 和 32.8%。总之,我们的研究结果凸显了提高小麦 MDR 的遗传潜力。基于单倍型块的新型抗性目录为指导理想的单倍型堆叠提供了有用的资源,有助于培育具有 MDR 的未来小麦栽培品种。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stacking beneficial haplotypes from the Vavilov wheat collection to accelerate breeding for multiple disease resistance.

Key message: We revealed the neglected genetic relationships of resistance for six major wheat diseases and established a haploblock-based catalogue with novel forms of resistance by multi-trait haplotype characterisation. Genetic potential to improve multiple disease resistance was highlighted through haplotype stacking simulations. Wheat production is threatened by numerous fungal diseases, but the potential to breed for multiple disease resistance (MDR) mechanisms is yet to be explored. Here, significant global genetic correlations and underlying local genomic regions were identified in the Vavilov wheat diversity panel for six major fungal diseases, including biotrophic leaf rust (LR), yellow rust (YR), stem rust (SR), hemibiotrophic crown rot (CR), and necrotrophic tan spot (TS) and Septoria nodorum blotch (SNB). By adopting haplotype-based local genomic estimated breeding values, derived from an integrated set of 34,899 SNP and DArT markers, we established a novel haplotype catalogue for resistance to the six diseases in over 20 field experiments across Australia and Ethiopia. Haploblocks with high variances of haplotype effects in all environments were identified for three rusts, and pleiotropic haploblocks were identified for at least two diseases, with four haploblocks affecting all six diseases. Through simulation, we demonstrated that stacking optimal haplotypes for one disease could improve resistance substantially, but indirectly affected resistance for other five diseases, which varied depending on the genetic correlation with the non-target disease trait. On the other hand, our simulation results combining beneficial haplotypes for all diseases increased resistance to LR, YR, SR, CR, TS, and SNB, by up to 48.1%, 35.2%, 29.1%, 12.8%, 18.8%, and 32.8%, respectively. Overall, our results highlight the genetic potential to improve MDR in wheat. The haploblock-based catalogue with novel forms of resistance provides a useful resource to guide desirable haplotype stacking for breeding future wheat cultivars with MDR.

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来源期刊
CiteScore
9.60
自引率
7.40%
发文量
241
审稿时长
2.3 months
期刊介绍: Theoretical and Applied Genetics publishes original research and review articles in all key areas of modern plant genetics, plant genomics and plant biotechnology. All work needs to have a clear genetic component and significant impact on plant breeding. Theoretical considerations are only accepted in combination with new experimental data and/or if they indicate a relevant application in plant genetics or breeding. Emphasizing the practical, the journal focuses on research into leading crop plants and articles presenting innovative approaches.
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