Division of Plant Sciences, National Institute of Agrobiological Sciences, Tsukuba, Ibaraki, Japan.
Plant J. 2010 Oct;64(2):343-54. doi: 10.1111/j.1365-313X.2010.04328.x. Epub 2010 Sep 1.
Chitin is a component of fungal cell walls, and its fragments act as elicitors in many plants. The plasma membrane glycoprotein CEBiP, which possesses LysM domains, is a receptor for the chitin elicitor (CE) in rice. Here, we report that the perception of CE by CEBiP contributes to disease resistance against the rice blast fungus, Magnaporthe oryzae, and that enhanced responses to CE by engineering CEBiP increase disease tolerance. Knockdown of CEBiP expression allowed increased spread of the infection hyphae. To enhance defense responses to CE, we constructed chimeric genes composed of CEBiP and Xa21, which mediate resistance to rice bacterial leaf blight. The expression of either CRXa1 or CRXa3, each of which contains the whole extracellular portion of CEBiP, the whole intracellular domain of XA21, and the transmembrane domain from either CEBiP or XA21, induced cell death accompanied by an increased production of reactive oxygen and nitrogen species after treatment with CE. Rice plants expressing the chimeric receptor exhibited necrotic lesions in response to CE and became more resistant to M. oryzae. Deletion of the first LysM domain in CRXA1 abolished these cellular responses. These results suggest that CEs are produced and recognized through the LysM domain of CEBiP during the interaction between rice and M. oryzae and imply that engineering pattern recognition receptors represents a new strategy for crop protection against fungal diseases.
几丁质是真菌细胞壁的组成部分,其片段在许多植物中作为激发子发挥作用。质膜糖蛋白 CEBiP 具有 LysM 结构域,是水稻中几丁质激发子(CE)的受体。在这里,我们报道了 CEBiP 对 CE 的感知有助于对稻瘟病菌(Magnaporthe oryzae)的抗病性,并且通过工程化 CEBiP 增强对 CE 的响应会增加疾病耐受性。CEBiP 表达的敲低允许感染菌丝的扩散增加。为了增强对 CE 的防御反应,我们构建了由 CEBiP 和 Xa21 组成的嵌合基因,它们介导对水稻细菌性条斑病的抗性。表达包含 CEBiP 全长胞外部分、XA21 全长胞内部分以及 CEBiP 或 XA21 的跨膜结构域的 CRXa1 或 CRXa3 中的任何一个,在用 CE 处理后都会诱导细胞死亡,并伴随着活性氧和氮物种的产生增加。表达嵌合受体的水稻植株对 CE 产生坏死性病变,并对 M.oryzae 表现出更强的抗性。在 CRXA1 中删除第一个 LysM 结构域会消除这些细胞反应。这些结果表明,在水稻与 M.oryzae 的相互作用过程中,CEs 通过 CEBiP 的 LysM 结构域产生和识别,并暗示工程化模式识别受体代表了一种针对真菌病的作物保护的新策略。
