一种昆虫唾液鞘蛋白作为保守的HAMP触发植物对昆虫和病原体的抗性。

An Insect Salivary Sheath Protein Triggers Plant Resistance to Insects and Pathogens as a Conserved HAMP.

作者信息

Qi Liangxuan, Li Jing, Li Shuai, Li Jing, Wang Han, Yang Lei, Tan Xinyang, Zhao Zhichang, Luo Guanghua, Jing Maofeng, Hoffmann Ary A, Fang Jichao, Ji Rui

机构信息

Institute of Plant Protection, Jiangsu Academy of Agricultural Sciences, Jiangsu Key Laboratory for Food and Safety-State Key Laboratory Cultivation Base of Ministry of Science and Technology, Nanjing, 210014, China.

College of Plant Protection, Nanjing Agricultural University, Nanjing, 210014, China.

出版信息

Adv Sci (Weinh). 2025 Jun;12(21):e2415474. doi: 10.1002/advs.202415474. Epub 2025 Apr 1.

DOI:10.1002/advs.202415474

PMID:40167256

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12140304/

Abstract

Herbivore-associated molecular patterns (HAMPs) in saliva enable plants to detect herbivores and activate pattern-triggered immunity (PTI). Piercing-sucking herbivores secrete gel saliva, forming salivary sheaths that assist in feeding, however, the role of proteins within these sheaths in modulation of plant defenses remains poorly understood. Here, a thermostable HAMP, myosin light chain 1-like (myosin) is identified, from the salivary sheath of the small brown planthopper (SBPH) Laodelphax striatellus. Myosin is a widely conserved arthropod protein, and acts as an elicitor of BAK1-dependent PTI responses in several plant species. Plants are able to specifically recognize the myosin 41-amino-acid peptide (MP41), which acts as a minimal immunogenic epitope. Furthermore, myosin and MP41 stimulate jasmonic acid and HO production in rice. The resulting defenses not only diminish planthopper performance directly but also induce volatile emissions, attracting a common parasitoid. Additionally, expression of myosin in rice increased plant resistance to a chewing insect as well as to viral and fungal pathogens. However, silencing myosin in SBPH resulted in disruption of salivary sheath formation, reducing insect feeding efficiency. This study demonstrates that myosin from the SBPH salivary sheath serves as a critical and unavoidable HAMP, triggering broad-spectrum plant resistance to various insects and pathogens.

摘要

唾液中的食草动物相关分子模式（HAMPs）使植物能够检测到食草动物并激活模式触发免疫（PTI）。刺吸式食草动物分泌凝胶状唾液，形成有助于取食的唾液鞘，然而，这些鞘内蛋白质在调节植物防御中的作用仍知之甚少。在此，从小型褐飞虱（SBPH）灰飞虱的唾液鞘中鉴定出一种热稳定的HAMPs，肌球蛋白轻链1样蛋白（肌球蛋白）。肌球蛋白是一种广泛保守的节肢动物蛋白，在几种植物物种中作为BAK1依赖性PTI反应的激发子。植物能够特异性识别肌球蛋白41个氨基酸的肽段（MP41），它作为最小的免疫原性表位。此外，肌球蛋白和MP41刺激水稻中茉莉酸和H₂O₂的产生。由此产生的防御不仅直接降低飞虱的生存能力，还诱导挥发性物质的释放，吸引一种常见的寄生蜂。此外，水稻中肌球蛋白的表达增强了植物对咀嚼式昆虫以及病毒和真菌病原体的抗性。然而，在SBPH中沉默肌球蛋白会导致唾液鞘形成的破坏，降低昆虫的取食效率。这项研究表明，SBPH唾液鞘中的肌球蛋白作为一种关键且不可避免的HAMPs，触发植物对各种昆虫和病原体的广谱抗性。

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一种昆虫唾液鞘蛋白作为保守的HAMP触发植物对昆虫和病原体的抗性。

An Insect Salivary Sheath Protein Triggers Plant Resistance to Insects and Pathogens as a Conserved HAMP.

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