Chitin-signaling-dependent responses to insect oral secretions in rice cells propose the involvement of chitooligosaccharides in plant defense against herbivores.
Yasukazu Kanda, Tomonori Shinya, David Wari, Yuko Hojo, Yuka Fujiwara, Wataru Tsuchiya, Zui Fujimoto, Bart P H J Thomma, Yoko Nishizawa, Takashi Kamakura, Ivan Galis, Masaki Mori
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引用次数: 0
Abstract
Plants recognize molecules related to a variety of biotic stresses through pattern recognition receptors to activate plant immunity. In the interactions between plants and chewing herbivores, such as lepidopteran larvae, oral secretions (OS) are deposited on wounded sites, which results in the elicitation of plant immune responses. The widely conserved receptor-like kinase CHITIN ELICITOR RECEPTOR KINASE 1 (CERK1) has been broadly associated with the recognition of microbial components, such as fungal chitin, but its relevance to herbivory remained unclear. In this study, we used receptor-knockout rice (Oryza sativa) and larvae of the lepidopteran pest Mythimna loreyi to demonstrate that the induction of immune responses triggered by larval OS in rice cells largely depends on CERK1 (OsCERK1). CHITIN ELICITOR-BINDING PROTEIN (CEBiP), an OsCERK1-interacting receptor-like protein that was proposed as the main chitin receptor, also contributed to the responses of rice cells to OS collected from three different lepidopteran species. Furthermore, CEBiP knockout rice seedlings showed lower OS-triggered accumulation of jasmonic acid. These results strongly suggest that the OsCERK1 and CEBiP recognize a particular OS component in chewing lepidopteran herbivores, and point toward the presence of chitooligosaccharides in the OS. Targeted perturbation to chitin recognition, through the use of fungal effector proteins, confirmed the presence of chitooligosaccharides in the OS. Treatments of wounds on rice plants with chitooligosaccharides enhanced a set of immune responses, leading to resistance against an herbivorous insect. Our data show that rice recognizes chitooligosaccharides during larval herbivory to activate resistance, and identifies chitin as a novel herbivore-associated molecular pattern.
植物通过模式识别受体识别与各种生物压力有关的分子,从而激活植物免疫。在植物与鳞翅目幼虫等咀嚼性食草动物的相互作用中,口腔分泌物(OS)会沉积在受伤部位,从而引起植物免疫反应。广泛保守的受体样激酶几丁质酶RECEPTOR KINASE 1(CERK1)与微生物成分(如真菌几丁质)的识别广泛相关,但其与食草动物的相关性仍不清楚。在这项研究中,我们利用受体敲除的水稻(Oryza sativa)和鳞翅目害虫Mythimna loreyi的幼虫证明,幼虫OS在水稻细胞中诱导的免疫反应在很大程度上依赖于CERK1(OsCERK1)。CEBiP是一种与OsCERK1相互作用的受体样蛋白,被认为是几丁质的主要受体。此外,CEBiP 基因敲除的水稻幼苗显示出较低的 OS 触发的茉莉酸积累。这些结果有力地表明,OsCERK1 和 CEBiP 能识别咀嚼鳞翅目食草动物的特定 OS 成分,并指出 OS 中存在壳寡糖。通过使用真菌效应蛋白对几丁质识别进行靶向干扰,证实了 OS 中存在壳寡糖。用壳寡糖处理水稻植株上的伤口可增强一系列免疫反应,从而提高对食草昆虫的抵抗力。我们的数据表明,水稻在幼虫食草过程中能识别壳寡糖,从而激活抗性,并确定几丁质是一种新型的食草动物相关分子模式。
期刊介绍:
Publishing the best original research papers in all key areas of modern plant biology from the world"s leading laboratories, The Plant Journal provides a dynamic forum for this ever growing international research community.
Plant science research is now at the forefront of research in the biological sciences, with breakthroughs in our understanding of fundamental processes in plants matching those in other organisms. The impact of molecular genetics and the availability of model and crop species can be seen in all aspects of plant biology. For publication in The Plant Journal the research must provide a highly significant new contribution to our understanding of plants and be of general interest to the plant science community.