Exogenous expression of barley HvWRKY6 in wheat improves broad-spectrum resistance to leaf rust, Fusarium crown rot, and sharp eyespot

生物 丁香假单胞菌 茉莉酸 水杨酸 NPR1 植物抗病性 稻黄单胞菌 脱落酸 系统获得性抵抗 转基因作物 病菌 转基因 植物 基因 微生物学 遗传学 拟南芥 突变体 心力衰竭 利钠肽 内科学 医学
作者
Mengyu Li,Shuqing Zhao,Junyu Yang,Yan Ren,Jun Su,Jiaojie Zhao,Xiaopeng Ren,Chuyuan Wang,Shisheng Chen,Xiumei Yu,Feng Chen,Xiaodong Wang
出处
期刊:International Journal of Biological Macromolecules [Elsevier BV]
卷期号:218: 1002-1012 被引量:6
标识
DOI:10.1016/j.ijbiomac.2022.07.138
摘要

Systemic acquired resistance (SAR) is a broad-spectrum plant defense phenomena controlled by the salicylic acid receptor NPR1. Key regulators of the SAR signaling pathway showed great potentials to improve crop resistance to various diseases. In our previous investigation, a barley transcription factor gene HvWRKY6 was identified as downstream of NPR1 during SAR. However, the broad-spectrum resistance features and molecular mechanisms of HvWRKY6 remain to be explored. In this study, a transgenic wheat line exogenously expressing HvWRKY6 showed improved resistance to leaf rust, Fusarium crown rot (FCR), and sharp eyespot. The model pathogen Pseudomonas syringae pv. tomato DC3000 was employed to induce the SAR response in wheat plants' leaf region adjacent to the infiltration area. Transcriptome sequencing revealed activation of broad-spectrum defense responses by expressing HvWRKY6 in a pathogen-independent manner. Based on the differentially expressed genes in plant hormone signal transduction, we speculated that the enhanced resistance in HvWRKY6-OE wheat transgenic line was associated with activation of the salicylic acid pathway and suppression of the abscisic acid and jasmonic acid pathways. These findings suggest that the transgenic line HvWRKY6-OE might be applied for the genetic improvement of wheat to several fungal diseases; the underlying resistance mechanism was clarified.

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