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在小麦-条锈菌互作体系中,相容的 Tsn1-SnToxA 和 Snn1-SnTox1 互作引起的疾病易感性的遗传分析。

Genetic analysis of disease susceptibility contributed by the compatible Tsn1-SnToxA and Snn1-SnTox1 interactions in the wheat-Stagonospora nodorum pathosystem.

机构信息

Department of Plant Sciences, North Dakota State University, Fargo, ND, 58105, USA.

出版信息

Theor Appl Genet. 2010 May;120(7):1451-9. doi: 10.1007/s00122-010-1267-z. Epub 2010 Jan 19.

DOI:10.1007/s00122-010-1267-z
PMID:20084492
Abstract

Stagonospora nodorum is a foliar pathogen of wheat that produces several host-selective toxins (HSTs) and causes the disease Stagonospora nodorum blotch (SNB). The wheat genes Snn1 and Tsn1 confer sensitivity to the HSTs SnTox1 and SnToxA, respectively. The objectives of this study were to dissect, quantify, and compare the effects of compatible Snn1-SnTox1 and Tsn1-SnToxA interactions on susceptibility in the wheat-S. nodorum pathosystem. Inoculation of a wheat doubled haploid population that segregates for both Snn1 and Tsn1 with an S. nodorum isolate that produces both SnTox1 and SnToxA indicated that both interactions were strongly associated with SNB susceptibility. The Snn1-SnTox1 and Tsn1-SnToxA interactions explained 22 and 28% of the variation in disease, respectively, and together they explained 48% indicating that their effects are largely additive. The Snn1-SnTox1 interaction accounted for 50% of the variation when the population was inoculated with an S. nodorum strain where the SnToxA gene had been mutated, eliminating the Tsn1-SnToxA interaction. These results support the theory that the wheat-S. nodorum pathosystem is largely based on multiple host-toxin interactions that follow an inverse gene-for-gene scenario at the host-toxin interface, but disease exhibits quantitative variation due to the mainly additive nature of compatible interactions. The elimination of either Snn1 or Tsn1 toxin sensitivity alleles resulted in decreased susceptibility, but the elimination of both interactions was required to obtain high levels of resistance. We propose the use of molecular markers to select against Snn1, Tsn1, and other toxin sensitivity alleles to develop wheat varieties with high levels of SNB resistance.

摘要

小麦叶斑病菌(Stagonospora nodorum)是一种小麦叶片病原体,可产生几种寄主选择性毒素(HST)并引起叶斑病(SNB)。小麦基因 Snn1 和 Tsn1 分别对 HST SnTox1 和 SnToxA 敏感。本研究的目的是剖析、量化和比较相容的 Snn1-SnTox1 和 Tsn1-SnToxA 相互作用对小麦 - S. nodorum 病理系统易感性的影响。用产生 SnTox1 和 SnToxA 的 S. nodorum 分离株接种 segregates 有 Snn1 和 Tsn1 的小麦双单倍体群体,表明这两种相互作用都与 SNB 易感性密切相关。Snn1-SnTox1 和 Tsn1-SnToxA 相互作用分别解释了疾病变异的 22%和 28%,两者共同解释了 48%,表明它们的作用主要是累加的。当用突变了 SnToxA 基因的 S. nodorum 菌株接种群体时,Snn1-SnTox1 相互作用解释了 50%的变异。这些结果支持了这样一种理论,即小麦 - S. nodorum 病理系统主要基于多种寄主 - 毒素相互作用,这些相互作用遵循寄主 - 毒素界面上的反向基因 - 对基因模式,但由于相容相互作用的主要加性性质,疾病表现出定量变化。消除 Snn1 或 Tsn1 毒素敏感性等位基因会导致易感性降低,但需要消除两种相互作用才能获得高水平的抗性。我们建议使用分子标记来选择对抗 Snn1、Tsn1 和其他毒素敏感性等位基因,以开发具有高水平 SNB 抗性的小麦品种。

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本文引用的文献

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Theor Appl Genet. 2009 Dec;120(1):117-26. doi: 10.1007/s00122-009-1163-6. Epub 2009 Oct 9.
2
SnTox3 acts in effector triggered susceptibility to induce disease on wheat carrying the Snn3 gene.SnTox3在效应子触发的易感性中发挥作用,从而在携带Snn3基因的小麦上引发病害。
PLoS Pathog. 2009 Sep;5(9):e1000581. doi: 10.1371/journal.ppat.1000581. Epub 2009 Sep 18.
3
Reevaluation of a tetraploid wheat population indicates that the Tsn1-ToxA interaction is the only factor governing Stagonospora nodorum blotch susceptibility.
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Genetic mapping using a wheat multi-founder population reveals a locus on chromosome 2A controlling resistance to both leaf and glume blotch caused by the necrotrophic fungal pathogen Parastagonospora nodorum.利用小麦多祖群体进行遗传图谱定位,揭示了控制 2A 染色体上叶枯病和颖枯病的抗坏死真菌病原体禾谷多腔菌的位点。
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