Reconceptualizing transcriptional slippage in plant RNA viruses.

IF 5.1 1区生物学 Q1 MICROBIOLOGY

mBio Pub Date : 2024-10-16 Epub Date: 2024-09-17 DOI:10.1128/mbio.02120-24

Adrian A Valli, María Luisa Domingo-Calap, Alfonso González de Prádena, Juan Antonio García, Hongguang Cui, Cécile Desbiez, Juan José López-Moya

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Abstract

RNA viruses have evolved sophisticated strategies to exploit the limited encoded information within their typically compact genomes. One of them, named transcriptional slippage (TS), is characterized by the appearance of indels in nascent viral RNAs, leading to changes in the open reading frame (ORF). Although members of unrelated viral families express key proteins via TS, the available information about this phenomenon is still limited. In potyvirids (members of the Potyviridae family), TS has been defined by the insertion of an additional A at A_n motifs (n ≥ 6) in newly synthesized transcripts at a low frequency, modulated by nucleotides flanking the A-rich motif. Here, by using diverse experimental approaches and a collection of plant/virus combinations, we discover cases not following this definition. In summary, we observe (i) a high rate of single-nucleotide deletions at slippage motifs, (ii) overlapping ORFs acceded by slippage at an U₈ stretch, and (iii) changes in slippage rates induced by factors not related to cognate viruses. Moreover, a survey of whole-genome sequences from potyvirids shows a widespread occurrence of species-specific A_n/U_n (n ≥ 6) motifs. Even though many of them, but not all, lead to the production of truncated proteins rather than access to overlapping ORFs, these results suggest that slippage motifs appear more frequently than expected and play relevant roles during virus evolution. Considering the potential of this phenomenon to expand the viral proteome by acceding to overlapping ORFs and/or producing truncated proteins, a re-evaluation of TS significance during infections of RNA viruses is required.IMPORTANCETranscriptional slippage (TS) is used by RNA viruses as another strategy to maximize the coding information in their genomes. This phenomenon is based on a peculiar feature of viral replicases: they may produce indels in a small fraction of newly synthesized viral RNAs when transcribing certain motifs and then produce alternative proteins due to a change of the reading frame or truncated products by premature termination. Here, using plant-infecting RNA viruses as models, we discover cases expanding on previously established features of plant virus TS, prompting us to reconsider and redefine this expression strategy. An interesting conclusion from our study is that TS might be more relevant during RNA virus evolution and infection processes than previously assumed.

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重新认识植物 RNA 病毒中的转录滑动。

RNA 病毒进化出了复杂的策略，以利用其典型的紧凑基因组中有限的编码信息。其中一种策略被命名为转录滑动（TS），其特点是在新生病毒 RNA 中出现嵌段，导致开放阅读框（ORF）发生变化。尽管不相关的病毒家族成员通过 TS 表达关键蛋白，但有关这一现象的现有信息仍然有限。在壶形病毒（Potyviridae 家族成员）中，TS 的定义是在新合成的转录本中低频率地在 An 基序（n ≥ 6）处插入一个额外的 A，并受 A-富集基序侧翼核苷酸的调节。在这里，我们通过使用不同的实验方法和一系列植物/病毒组合，发现了不符合这一定义的情况。总之，我们观察到：(i) 在滑移图案处的单核苷酸缺失率很高；(ii) 在 U8 片段上通过滑移增加的重叠 ORF；(iii) 与同源病毒无关的因素引起的滑移率变化。此外，对壶形病毒全基因组序列的调查显示，物种特异性 An/Un（n ≥ 6）基序广泛存在。尽管其中许多（但并非全部）会导致产生截短蛋白，而不是进入重叠的 ORF，但这些结果表明，滑动基序的出现比预期的要频繁，并在病毒进化过程中发挥着相关作用。考虑到这种现象有可能通过进入重叠的 ORF 和/或产生截短蛋白来扩展病毒蛋白质组，因此需要重新评估 TS 在 RNA 病毒感染过程中的意义。重要意义转录滑动（TS）被 RNA 病毒用作另一种策略，以最大限度地增加其基因组中的编码信息。这种现象是基于病毒复制酶的一个特殊特征：当转录某些图案时，它们可能会在一小部分新合成的病毒 RNA 中产生嵌段，然后由于阅读框的改变或过早终止而产生截短产物，从而产生替代蛋白质。在这里，我们以植物感染的 RNA 病毒为模型，发现了一些扩展了以前确定的植物病毒 TS 特征的案例，促使我们重新考虑和定义这种表达策略。我们的研究得出了一个有趣的结论，即在 RNA 病毒进化和感染过程中，TS 的相关性可能比以前假设的更大。

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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来源期刊

mBio MICROBIOLOGY-

CiteScore

10.50

自引率

3.10%

发文量

762

审稿时长

1 months

期刊介绍： mBio® is ASM''s first broad-scope, online-only, open access journal. mBio offers streamlined review and publication of the best research in microbiology and allied fields.