从敌人到盟友的转变:病毒如何提高植物的抗旱能力。

Ved Prakash, Veerendra Sharma, Ragunathan Devendran, Ramgopal Prajapati, Bilal Ahmad, Ritesh Kumar
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引用次数: 0

摘要

全球作物生产受到干旱、盐碱、寒冷、洪水等环境因素的严重影响。其中,干旱是降低作物产量的主要非生物胁迫之一。由于全球气温不断升高,预计干旱状况将进一步加剧。一般来说,病毒被视为影响作物产量的病原体。然而,一些研究表明,病毒能诱导植物产生耐旱性。本综述探讨了病毒感染与植物干旱响应机制之间的相互作用机制。我们试图探讨病毒诱导植物产生耐旱性的分子途径和生理变化,包括激素信号转导、抗氧化防御、清除活性氧、RNA 沉默和 miRNA 途径的作用、热休克蛋白、纤维素合成酶等多个基因的表达变化。此外,我们还讨论了与提供抗旱能力有关的各种病毒,并研究了表现出这种现象的植物物种范围。通过运用现有知识和找出认识上的差距,本综述旨在为了解病毒诱导植物耐旱性的复杂动态提供有价值的见解,为未来的研究方向和可持续农业的实际应用铺平道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A transition from enemies to allies: how viruses improve drought resilience in plants.

Global crop production is severely affected by environmental factors such as drought, salinity, cold, flood etc. Among these stresses, drought is one of the major abiotic stresses reducing crop productivity. It is expected that drought conditions will further increase because of the increasing global temperature. In general, viruses are seen as a pathogen affecting the crop productivity. However, several researches are showing that viruses can induce drought tolerance in plants. This review explores the mechanisms underlying the interplay between viral infections and the drought response mechanisms in plants. We tried to address the molecular pathways and physiological changes induced by viruses that confer drought tolerance, including alterations in hormone signaling, antioxidant defenses, scavenging the reactive oxygen species, role of RNA silencing and miRNA pathway, change in the expression of several genes including heat shock proteins, cellulose synthase etc. Furthermore, we discuss various viruses implicated in providing drought tolerance and examine the range of plant species exhibiting this phenomenon. By applying current knowledge and identifying gaps in understanding, this review aims to provide valuable insights into the complex dynamics of virus-induced drought tolerance in plants, paving the way for future research directions and practical applications in sustainable agriculture.

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