不同的多细胞毛状体类型协调番茄中食草动物的机械感应和防御。

Chao Sun,JinBo Wei,XinYun Gu,MinLiang Wu,Meng Li,YiXi Liu,NingKai An,KeMeng Wu,ShaSha Wu,JunQing Wu,MeiZhi Xu,JiaChen Wu,YaLing Wang,DaiYin Chao,YouJun Zhang,Shuang Wu
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引用次数: 0

摘要

食草动物诱发的伤害可引起植物的防御反应。然而,植物是否拥有能够检测食草动物威胁并在伤害发生前启动准备防御的监视系统仍不清楚。在这项研究中,我们发现番茄(Solanum lycopersicum)的毛状体能够检测到食草动物产生的机械刺激并做出反应。机械刺激优先被长毛状体感知,这种机械感觉是通过毛状体内部通信传递的。这种交流可能涉及钙波,传递的信号会激活短腺毛体中的茉莉酸(JA)信号通路,导致萜烯生物合成的毛利(Wo)-SlMYC1 调控模块上调。这种诱导的防御机制为植物提供了一个对抗食草动物入侵威胁的早期预警系统。我们的研究结果从一个角度探讨了多细胞毛状体在植物防御中的作用以及毛状体内部沟通的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Different multicellular trichome types coordinate herbivore mechanosensing and defense in tomato.
Herbivore-induced wounding can elicit a defense response in plants. However, whether plants possess a surveillance system capable of detecting herbivore threats and initiating preparatory defenses before wounding occurs remains unclear. In this study, we reveal that tomato (Solanum lycopersicum) trichomes can detect and respond to the mechanical stimuli generated by herbivores. Mechanical stimuli are preferentially perceived by long trichomes, and this mechanosensation is transduced via intra-trichome communication. This communication presumably involves calcium waves, and the transduced signals activate the jasmonic acid (JA) signaling pathway in short glandular trichomes, resulting in the upregulation of the Woolly (Wo)-SlMYC1 regulatory module for terpene biosynthesis. This induced defense mechanism provides plants with an early warning system against the threat of herbivore invasion. Our findings represent a perspective on the role of multicellular trichomes in plant defense and the underlying intra-trichome communication.
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