Melatonin and reactive oxygen and nitrogen species: a model for the plant redox network

Melatonin Research Pub Date : 2019-08-31 DOI:10.32794/11250036

M. B. Arnao, J. Hernández-Ruiz

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引用次数: 102

Abstract

Melatonin (N-acetyl-5-methoxytryptamine) was discovered in plants in 1995; since then numerous functions have been attributed to this molecule in vascular plants. In addition to its recognized role as a universal antioxidant, other relevant functions have been studied in plants such as its rhizogenic- and vegetative-growth effects, protection against leaf senescence and influences on photosynthesis and on the stomatal apparatus. Also, melatonin has a protective role in stress situations (biotic and abiotic), acting as an osmoregulation and a metabolic corrector when confronted with different stresses. One of the most outstanding aspects is the involvement of melatonin as a multi-signaling molecule in plants. The dual roles of melatonin in physiological stress situations involve both its direct action (free of receptor action) as an antioxidant and its role as a regulator of gene expression. Its relationship with central elements of the plant redox network such as reactive oxygen species (ROS) and reactive nitrogen species (RNS) and the regulation of relevant elements is discussed. All recent data on melatonin are incorporated to present an updated model, where the balance between ROS and RNS, and between these and melatonin is a regulatory key center in the responses.

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褪黑素与活性氧和活性氮物种:植物氧化还原网络的模型

褪黑素(n -乙酰-5-甲氧基色胺)是1995年在植物中发现的;从那时起，这个分子在维管植物中发挥了许多功能。除了公认的抗氧化剂作用外，人们还研究了其在植物中的其他相关功能，如其根生和营养生长作用、防止叶片衰老以及对光合作用和气孔装置的影响。此外，褪黑素在压力情况下(生物和非生物)具有保护作用，在面临不同压力时充当渗透调节和代谢纠正剂。其中一个最突出的方面是褪黑激素作为一种多信号分子参与植物。褪黑激素在生理应激情况下的双重作用包括其作为抗氧化剂的直接作用(不受受体作用)和作为基因表达调节剂的作用。讨论了其与植物氧化还原网络中心元件活性氧(ROS)和活性氮(RNS)的关系以及相关元件的调控。所有关于褪黑激素的最新数据都被纳入到一个更新的模型中，其中ROS和RNS之间的平衡以及它们与褪黑激素之间的平衡是反应的调节关键中心。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Melatonin Research

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