病毒RNA沉默抑制因子的多样性及其在病毒特异性症状中的作用

2区 医学 Q1 Medicine Advances in Virus Research Pub Date : 2022-01-01 Epub Date: 2022-07-20 DOI:10.1016/bs.aivir.2022.06.001
Vitantonio Pantaleo, Chikara Masuta
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引用次数: 1

摘要

RNA沉默是一种进化上保守的、同源依赖的基因失活系统,在转录或转录后水平上调控大多数生物过程。在植物、昆虫和某些哺乳动物系统中,RNA沉默构成了抗病毒防御机制的基础。为了对抗基于RNA沉默的抗病毒反应,病毒采用包括RNA沉默抑制机制在内的复制和宿主入侵策略。事实上,病毒可以表达被称为RNA沉默抑制因子(rss)的蛋白质。在过去的二十年中,植物病毒学中的沉默研究主要致力于发现和描述RSSs。结果令人兴奋,这些研究揭示了(i)属于不同病毒分类群的rss具有令人难以置信的蛋白质多样性和机制,(ii) rss的多功能性:它们可以在病毒感染期间实现多种功能,并针对RNA沉默机制中的一个或多个关键点。一些模型病毒系统的rss已经成为非常深入研究的主题;它们已被证明是研究植物生理学、植物生物学和病毒与植物相互作用的真正分子工具,甚至在某些情况下扩展了植物对其他生物和非生物应激源的反应的知识。RSS在系统发育、作用机制上的多样性,以及在单个病毒基因组中频繁出现多个RSS,都表明它们在进化以克服宿主防御方面具有极强的可塑性。在本章中,我们提出并讨论了与四种病毒分类群(双病毒、多病毒、tombusvirus和cucumovirus)的rss相关的最新发现。
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Diversity of viral RNA silencing suppressors and their involvement in virus-specific symptoms.

RNA silencing is an evolutionarily conserved and homology-dependent gene inactivation system that regulates most biological processes at either the transcriptional or post-transcriptional level. In plants, insects and certain mammalian systems, RNA silencing constitutes the basis of the antiviral defense mechanism. To counteract RNA silencing-based antiviral responses viruses adopt strategies of replication and host invasion that include mechanisms of RNA silencing suppression. Indeed, viruses can express proteins known as RNA silencing suppressors (RSSs). Over the last two decades, silencing studies in plant virology have been largely devoted to the discovery and description of RSSs. The result has been exciting and these studies have revealed (i) an incredible diversity of proteins and mechanisms of RSSs belonging to various viral taxonomic groups, (ii) the multifunctionality of RSSs: they can fulfill several functions during viral infection and target one or more key points in the RNA silencing machinery. Some RSSs of model viral systems have been the subject of exceptional in-depth studies; they have proven to be real molecular tools for studying plant physiology, plant biology and virus-plant interactions, even in some cases extending the knowledge of the response of plants to other biotic and abiotic stressors. RSS diversity in phylogenesis, in mechanism of action and the frequent presence of more than one RSS in a single viral genome all suggest that they are extremely plastic in evolving to overcome host defenses. In this chapter, we present and discuss the most recent findings related to the well-studied RSSs of four viral taxonomic groups: geminiviruses, potyviruses, tombusviruses and cucumoviruses.

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7
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>12 weeks
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