Modular Polymerase Synthesis and Internal Protein Domain Swapping via Dual Opposed Frameshifts in the Ebola Virus L Gene.

IF 3.3 3区 医学 Q2 MICROBIOLOGY Pathogens Pub Date : 2024-09-25 DOI:10.3390/pathogens13100829
David B Stubbs, Jan A Ruzicka, Ethan W Taylor
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Abstract

Sequence analysis of the Zaire ebolavirus (EBOV) polymerase (L gene) mRNA, using online tools, identified a highly ranked -1 programmed ribosomal frameshift (FS) signal including an ideal slippery sequence heptamer (UUUAAAA), with an overlapping coding region featuring two tandem UGA codons, immediately followed by an RNA region that is the inverse complement (antisense) to a region of the mRNA of the selenoprotein iodothyronine deiodinase II (DIO2). This antisense interaction was confirmed in vitro via electrophoretic gel shift assay, using cDNAs at the EBOV and DIO2 segments. The formation of a duplex between the two mRNAs could trigger the ribosomal frameshift, by mimicking the enhancing role of a pseudoknot structure, while providing access to the selenocysteine insertion sequence (SECIS) element contained in the DIO2 mRNA. This process would allow the -1 frame UGA codons to be recoded as selenocysteine, forming part of a C-terminal module in a low abundance truncated isoform of the viral polymerase, potentially functioning in a redox role. Remarkably, 90 bases downstream of the -1 FS site, an active +1 FS site can be demonstrated, which, via a return to the zero frame, would enable the attachment of the entire C-terminal of the polymerase protein. Using a construct with upstream and downstream reporter genes, spanning a wildtype or mutated viral insert, we show significant +1 ribosomal frameshifting at this site. Acting singly or together, frameshifting at these sites (both of which are highly conserved in EBOV strains) could enable the expression of several modified isoforms of the polymerase. The 3D modeling of the predicted EBOV polymerase FS variants using the AI tool, AlphaFold, reveals a peroxiredoxin-like active site with arginine and threonine residues adjacent to a putative UGA-encoded selenocysteine, located on the back of the polymerase "hand". This module could serve to protect the viral RNA from peroxidative damage.

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埃博拉病毒 L 基因中的模块化聚合酶合成和内部蛋白结构域互换
利用在线工具对扎伊尔伊波拉病毒(EBOV)聚合酶(L基因)mRNA进行序列分析,发现了一个高度排序的-1程序核糖体移帧(FS)信号,包括一个理想的滑动序列七聚体(UUUAAAA)、其编码区与两个串联 UGA 密码子重叠,紧接着的 RNA 区域与硒蛋白碘甲腺原氨酸脱碘酶 II (DIO2) mRNA 的一个区域反义互补(反义)。这种反义相互作用通过电泳凝胶转移法在体外使用 EBOV 和 DIO2 段的 cDNA 得到了证实。这两种 mRNA 之间形成的双链可以通过模拟假结结构的增强作用来触发核糖体框架转换,同时为 DIO2 mRNA 中所含的硒半胱氨酸插入序列(SECIS)元件提供访问途径。这一过程将使-1框中的UGA密码子重新编码为硒半胱氨酸,形成病毒聚合酶低丰度截断异构体中C-末端模块的一部分,从而发挥潜在的氧化还原作用。值得注意的是,在-1 FS位点下游90个碱基处,可以发现一个活跃的+1 FS位点,通过返回零帧,可以连接整个聚合酶蛋白的C-末端。我们利用一个带有上游和下游报告基因的构建体,跨越野生型或突变型病毒插入物,在该位点上显示出明显的+1核糖体框架转换。这些位点(这两个位点在 EBOV 株系中都是高度保守的)单独或共同发生的核糖体移帧可以使聚合酶的几种修饰异构体得以表达。利用人工智能工具 AlphaFold 对预测的 EBOV 聚合酶 FS 变体进行的三维建模显示,聚合酶 "手 "的背面有一个类似过氧化物酶的活性位点,其精氨酸和苏氨酸残基与一个假定的 UGA 编码的硒半胱氨酸相邻。该模块可保护病毒 RNA 免受过氧化损伤。
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来源期刊
Pathogens
Pathogens Medicine-Immunology and Allergy
CiteScore
6.40
自引率
8.10%
发文量
1285
审稿时长
17.75 days
期刊介绍: Pathogens (ISSN 2076-0817) publishes reviews, regular research papers and short notes on all aspects of pathogens and pathogen-host interactions. There is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental and/or methodical details must be provided for research articles.
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