中间偃麦草 TiAP1 与小麦白粉病菌的壳质脱乙酰酶互作并提高小麦对其的抗性。

Thinopyrum intermedium TiAP1 interacts with a chitin deacetylase from Blumeria graminis f. sp. tritici and increases the resistance to Bgt in wheat.

机构信息

State Key Laboratory of Crop Biology, Shandong Key Laboratory of Crop Biology, College of Agronomy, Shandong Agricultural University, Tai'an, China.

Plant Defence Genetics Lab, Department of Plant and Environmental Sciences, University of Copenhagen, Frederiksberg C, Denmark.

出版信息

Plant Biotechnol J. 2022 Mar;20(3):454-467. doi: 10.1111/pbi.13728. Epub 2021 Oct 21.

DOI:10.1111/pbi.13728

PMID:34651397

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8882775/

Abstract

The biotrophic fungal pathogen Blumeria graminis f. sp. tritici (Bgt) is a crucial factor causing reduction in global wheat production. Wild wheat relatives, for example Thinopyrum intermedium, is one of the wild-used parents in wheat disease-resistant breeding. From T. intermedium line, we identified the aspartic protease gene, TiAP1, which is involved in resistance against Bgt. TiAP1 is a secreted protein that accumulates in large amounts at the infection sites of Bgt and extends to the intercellular space. Yeast two-hybrid, luciferase complementation imaging and bimolecular florescent complimentary analysis showed that TiAP1 interacted with the chitin deacetylase (BgtCDA1) of Bgt. The yeast expression, purification and in vitro test confirmed the chitin deacetylase activity of BgtCDA1. The bombardment and VIGS-mediated host-induced gene silencing showed that BgtCDA1 promotes the invasion of Bgt. Transcriptome analysis showed the cell wall xylan metabolism, lignin biosynthesis-related and defence genes involved in the signal transduction were up-regulated in the transgenic TiAP1 wheat induced by Bgt. The TiAP1 in wheat may inactivate the deacetylation function of BgtCDA1, cause chitin oligomers expose to wheat chitin receptor, then trigger the wheat immune response to inhibit the growth and penetration of Bgt, and thereby enhance the resistance of wheat to pathogens.

摘要

活体营养型真菌病原体小麦白粉菌（Blumeria graminis f. sp. tritici，Bgt）是导致全球小麦减产的关键因素。野生近缘小麦种，例如中间偃麦草，是小麦抗病育种中常用的野生亲本之一。我们从中间偃麦草中鉴定出一个参与抗白粉菌的天冬氨酸蛋白酶基因 TiAP1。TiAP1 是一种分泌蛋白，在白粉菌侵染部位大量积累，并延伸到细胞间隙。酵母双杂交、荧光素酶互补成像和双分子荧光互补分析表明，TiAP1 与白粉菌的几丁质脱乙酰酶（BgtCDA1）相互作用。酵母表达、纯化和体外试验证实了 BgtCDA1 的几丁质脱乙酰酶活性。轰击和 VIGS 介导的宿主诱导基因沉默表明，BgtCDA1 促进了白粉菌的入侵。转录组分析表明，在 Bgt 诱导的转基因 TiAP1 小麦中，细胞壁木聚糖代谢、木质素生物合成相关和参与信号转导的防御基因被上调。小麦中的 TiAP1 可能使 BgtCDA1 的脱乙酰化功能失活，导致壳聚糖寡聚物暴露在小麦壳聚糖受体上，从而触发小麦的免疫反应，抑制白粉菌的生长和穿透，从而增强小麦对病原体的抗性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7842/11383523/da18a94376ad/PBI-20-454-g005.jpg

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中间偃麦草 TiAP1 与小麦白粉病菌的壳质脱乙酰酶互作并提高小麦对其的抗性。

Thinopyrum intermedium TiAP1 interacts with a chitin deacetylase from Blumeria graminis f. sp. tritici and increases the resistance to Bgt in wheat.

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