Department of Plant Bioscience, Life and Energy Convergence Research Institute, Pusan National University, Miryang 627-706, South Korea.
Department of Plant Bioscience, Life and Energy Convergence Research Institute, Pusan National University, Miryang 627-706, South Korea.
J Proteomics. 2019 Mar 30;196:120-130. doi: 10.1016/j.jprot.2018.04.015. Epub 2018 Jun 30.
Previously, we reported a novel Magnaporthe oryzae- secreted protein MSP1, which triggers cell death and pathogen-associated molecular pattern (PAMP)-triggered immune (PTI) responses in rice. To investigate the MSP1 induced defense response in rice at the protein level, we employed a label-free quantitative proteomic approach, in parallel with flg22 treatment, which is a well-known elicitor. Exogenous application of MSP1 to rice leaves induced an oxidative burst, MAPK3/6 activation, and activation of pathogenesis-related genes (DUF26, PBZ, and PR-10). MaxQuant based label free proteome analysis led to the identification of 4167 protein groups of which 433 showed significant differences in response to MSP1 and/or flg22 treatment. Functional annotation of the differential proteins showed that majority of the proteins related to primary, secondary, and lipid metabolism were decreased, while proteins associated mainly with the stress response, post-translational modification and signaling were increased in abundance. Moreover, several peroxidases and receptor kinases were induced by both the elicitors, highlighting their involvement in MSP1 and flg22 induced signaling in rice. Taken together, the results reported here contribute to our understanding of MSP1 and flg22 triggered immune responses at the proteome level, thereby increasing our overall understanding of PTI signaling in rice. BIOLOGICAL SIGNIFICANCE: MSP1 is a M. oryzae secreted protein, which triggers defense responses in rice. Previous reports have shown that MSP1 is required for the pathogenicity of rice blast fungus, however, the exact mechanism of its action and its downstream targets in rice are currently unknown. Identification of the downstream targets is required in order to understand the MSP1 induced signaling in rice. Moreover, key proteins identified could also serve as potential candidates for the generation of disease resistance crops by modulating stress signaling pathways. Therefore, here we employed, for the first time, a label-free quantitative proteomic approach to investigate the MSP1 induced signaling in rice together with flg22. Functional annotation of the differential proteins showed that majority of the proteins related to primary, secondary, and lipid metabolism were decreased, while proteins related to the defense response, signaling and ROS detoxification were majorly increased. Thus, as an elicitor, recombinant MSP1 proteins could be utilized to inducing broad pathogen resistance in crops by priming the local immune responses.
先前,我们报道了一种新型稻瘟病菌分泌蛋白 MSP1,它能触发水稻细胞死亡和病原体相关分子模式(PAMP)触发的免疫(PTI)反应。为了在蛋白质水平上研究 MSP1 诱导的水稻防御反应,我们采用了无标记定量蛋白质组学方法,同时使用 flg22 处理作为对照,flg22 是一种众所周知的诱导剂。外源性 MSP1 处理水稻叶片会引发氧化爆发、MAPK3/6 激活以及病程相关基因(DUF26、PBZ 和 PR-10)的激活。基于 MaxQuant 的无标记蛋白质组分析导致鉴定出 4167 个蛋白质组,其中 433 个在 MSP1 和/或 flg22 处理后表现出显著差异。差异蛋白的功能注释表明,与初级、次级和脂质代谢相关的大多数蛋白减少,而与应激反应、翻译后修饰和信号转导相关的蛋白增加。此外,两种诱导剂都诱导了几种过氧化物酶和受体激酶的表达,这突出了它们在 MSP1 和 flg22 诱导的水稻信号转导中的作用。总之,这些结果有助于我们理解 MSP1 和 flg22 触发的免疫反应在蛋白质组水平上的作用,从而提高我们对水稻 PTI 信号转导的整体理解。
MSP1 是一种稻瘟病菌分泌蛋白,能触发水稻的防御反应。先前的研究表明,MSP1 是稻瘟病菌致病性所必需的,但它在水稻中的确切作用机制及其下游靶标目前尚不清楚。为了了解 MSP1 诱导的水稻信号转导,需要鉴定其下游靶标。此外,鉴定出的关键蛋白也可以作为通过调节应激信号通路来生成抗病作物的潜在候选蛋白。因此,我们首次采用无标记定量蛋白质组学方法,同时使用 flg22 研究 MSP1 诱导的水稻信号转导。差异蛋白的功能注释表明,与初级、次级和脂质代谢相关的大多数蛋白减少,而与防御反应、信号转导和 ROS 解毒相关的蛋白主要增加。因此,作为一种诱导剂,重组 MSP1 蛋白可以通过启动局部免疫反应来利用诱导作物广谱抗病性。
