Boyce Thompson Institute for Plant Research, Tower Road, Ithaca, NY 14853, USA.
Mol Plant Pathol. 2010 Jan;11(1):155-60. doi: 10.1111/j.1364-3703.2009.00564.x.
On infection by pathogens, plants initiate defence responses that are able to curtail infection locally. These responses are mediated either by receptor-like proteins that recognize pathogen-associated molecular patterns or by the protein products of disease resistance (R) genes. At the same time, primary defence responses often result in the generation of signals that induce what is known as systemic acquired resistance (SAR), such that defence responses are enhanced on secondary pathogen challenge in distal tissues. R protein-mediated SAR induction is normally accompanied by a type of programmed cell death known as the hypersensitive response (HR) and, in some instances, cell death alone has been implicated in the induction of SAR. This has raised the question of whether R protein-mediated signalling per se induces SAR or whether SAR is an indirect result of the induction of HR. Using the Rx gene of potato, which confers resistance to Potato Virus X in the absence of cell death, we have shown that the HR is dispensable for R protein-mediated induction of SAR and that Rx-induced SAR is mediated by the same salicylate-dependent pathway induced by other R proteins.
植物在受到病原体感染时,会启动防御反应,从而能够在局部范围内遏制感染。这些反应是通过识别病原体相关分子模式的类受体蛋白或通过疾病抗性 (R) 基因的蛋白质产物来介导的。与此同时,初级防御反应通常会产生诱导所谓的系统获得性抗性 (SAR) 的信号,从而在次生病原体攻击远程组织时增强防御反应。R 蛋白介导的 SAR 诱导通常伴随着一种称为过敏反应 (HR) 的程序性细胞死亡,并且在某些情况下,细胞死亡本身已被牵连在 SAR 的诱导中。这就提出了一个问题,即 R 蛋白介导的信号本身是否诱导 SAR,还是 SAR 是 HR 诱导的间接结果。我们使用赋予马铃薯对马铃薯 X 病毒抗性而不发生细胞死亡的马铃薯 Rx 基因表明,HR 对于 R 蛋白介导的 SAR 诱导是可有可无的,并且 Rx 诱导的 SAR 是由其他 R 蛋白诱导的相同水杨酸依赖性途径介导的。