植物食草昆虫的分子相互作用网络

Chao Hu , Yu-Ting Li , Yu-Xi Liu , Ge-Fei Hao , Xue-Qing Yang
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引用次数: 0

摘要

植物与食草昆虫之间的相互作用十分复杂,涉及多种因素,推动了物种的形成,并导致植物和昆虫分子开始共同进化和多样化。各种分子过程调控着植物与食草昆虫之间的相互作用。在此,我们将讨论植物通过激活早期信号元件感知食草昆虫取食的分子模式、由多种植物激素组成的植物防御网络的串扰以及昆虫对植物防御反应的各种适应性变化。植物防御和昆虫反防御都是相互适应的分子过程。植物与食草昆虫相互作用的分子模型可以更直观地帮助我们理解植物与食草昆虫之间的共同进化军备竞赛。这些结果将为阐明和丰富植物与食草昆虫的相互作用网络提供详实的证据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Molecular interaction network of plant-herbivorous insects

The interactions between plants and herbivorous insects are complex and involve multiple factors, driving species formation and leading to the beginning of co-evolution and diversification of plant and insect molecules. Various molecular processes regulate the interactions between plants and herbivorous insects. Here, we discuss the molecular patterns of plant perception of herbivorous insect feeding through activation of early signaling components, crosstalk of plant defense network composed of multiple plant hormones, and various adaptive changes in insect responses to plant defenses. Both plant defenses and insect counter-defenses are molecular adaptation processes to each other. Molecular models of plant-herbivorous insect interactions can more intuitively help us to understand the co-evolutionary arms race between plants and herbivorous insects. These results will provide detailed evidence to elucidate and enrich the interaction network of plant-herbivorous insects.

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