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一种新型小麦颖枯病菌寄主选择性毒素与小麦感病基因相互作用的特性分析

Characterization of the interaction of a novel Stagonospora nodorum host-selective toxin with a wheat susceptibility gene.

作者信息

Friesen Timothy L, Zhang Zengcui, Solomon Peter S, Oliver Richard P, Faris Justin D

机构信息

United States Department of Agriculture-Agriculture Research Service Cereal Crops Research Unit, Northern Crop Science Laboratory, Fargo, North Dakota 58105, USA.

出版信息

Plant Physiol. 2008 Feb;146(2):682-93. doi: 10.1104/pp.107.108761. Epub 2007 Dec 7.

DOI:10.1104/pp.107.108761
PMID:18065563
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2245837/
Abstract

Recent work suggests that the Stagonospora nodorum-wheat pathosystem is controlled by host-selective toxins (HSTs; SnToxA, SnTox1, and SnTox2) that interact directly or indirectly with dominant host genes (Tsn1, Snn1, and Snn2) to induce disease. Here we describe and characterize a novel HST designated SnTox3, and the corresponding wheat sensitivity/susceptibility gene identified on chromosome arm 5BS, which we designated as Snn3. SnTox3 is a proteinaceous necrosis-inducing toxin between 10 and 30 kD in size. The S. nodorum isolates Sn1501 (SnToxA-, SnTox2+, and SnTox3+), SN15 (SnToxA+, SnTox2+, and SnTox3+), and SN15KO18, a strain of SN15 with a disrupted form of SnToxA, were evaluated on a population of wheat recombinant inbred lines. A compatible Snn3-SnTox3 interaction played a significant role in the development of disease caused by isolates Sn1501 and SN15KO18, with Snn2 being epistatic to Snn3. Snn3 was not significantly associated with disease caused by SN15 presumably due to the major effects observed for Snn2 and Tsn1, which were largely additive. This work introduces a fourth HST produced by S. nodorum and builds on the notion that the S. nodorum-wheat pathosystem is largely based on multiple host-toxin interactions that follow an inverse gene-for-gene scenario.

摘要

近期研究表明,小麦叶枯病菌-小麦互作系统受寄主选择性毒素(HSTs;SnToxA、SnTox1和SnTox2)控制,这些毒素直接或间接与显性寄主基因(Tsn1、Snn1和Snn2)相互作用以诱发病害。在此,我们描述并鉴定了一种新的HST,命名为SnTox3,以及在5BS染色体臂上鉴定出的相应小麦敏感/感病基因,我们将其命名为Snn3。SnTox3是一种大小在10至30 kD之间的蛋白质坏死诱导毒素。在一组小麦重组自交系上评估了小麦叶枯病菌分离株Sn1501(SnToxA-、SnTox2+和SnTox3+)、SN15(SnToxA+、SnTox2+和SnTox3+)以及SN15KO18(一种SnToxA形式被破坏的SN15菌株)。Snn3与SnTox3的相容性互作对由分离株Sn1501和SN15KO18引起的病害发展起到了重要作用,其中Snn2对Snn3起上位作用。Snn3与由SN15引起的病害无显著关联,可能是由于观察到Snn2和Tsn1的主要效应,它们在很大程度上是累加的。这项工作引入了小麦叶枯病菌产生的第四种HST,并基于这样一种观点,即小麦叶枯病菌-小麦互作系统很大程度上基于遵循反向基因对基因模式的多种寄主-毒素相互作用。

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The Tsn1-ToxA interaction in the wheat-Stagonospora nodorum pathosystem parallels that of the wheat-tan spot system.小麦-小麦壳针孢病菌致病系统中Tsn1与ToxA的相互作用与小麦-黄斑病系统中的情况相似。
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