电子信号和植物对食草动物的反应:简评。

Plant signaling & behavior Pub Date : 2023-12-31 Epub Date: 2023-12-05 DOI:10.1080/15592324.2023.2277578
Jéssica K S Pachú, Francynes C O Macedo, José B Malaquias, Francisco S Ramalho, Ricardo F Oliveira, Wesley A C Godoy, Angélica S Salustino
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引用次数: 0

摘要

长期以来,电信号一直被忽视,植物信号研究主要集中在化学和水力信号方面。近年来的研究发现,植物能够发射、处理和传递生物电信号,以调节各种生理功能。许多重要的生物和生理现象都伴随着这些细胞电表现,这支持了关于生物电作为一种基本 "模式 "在应对环境压力和这些生物的活动再生方面的重要性的假设。在吸食昆虫和/或施用系统性杀虫剂造成的压力下,转基因植物的电信号也得到了表征和鉴别。这些结果可以指导未来的研究,旨在阐明抗逆和植物防御过程中的相关因素,从而帮助制定成功的害虫综合防治策略。因此,这篇小型综述包括了针对生物胁迫的电信号传递的研究成果。我们还展示了电信号的产生和传播过程,并介绍了如何测量这些电位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Electrical signalling and plant response to herbivory: A short review.

For a long time, electrical signaling was neglected at the expense of signaling studies in plants being concentrated with chemical and hydraulic signals. Studies conducted in recent years have revealed that plants are capable of emitting, processing, and transmitting bioelectrical signals to regulate a wide variety of physiological functions. Many important biological and physiological phenomena are accompanied by these cellular electrical manifestations, which supports the hypothesis about the importance of bioelectricity as a fundamental 'model' for response the stresses environmental and for activities regeneration of these organisms. Electrical signals have also been characterized and discriminated against in genetically modified plants under stress mediated by sucking insects and/or by the application of systemic insecticides. Such results can guide future studies that aim to elucidate the factors involved in the processes of resistance to stress and plant defense, thus aiding in the development of successful strategies in integrated pest management. Therefore, this mini review includes the results of studies aimed at electrical signaling in response to biotic stress. We also demonstrated how the generation and propagation of electrical signals takes place and included a description of how these electrical potentials are measured.

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