Translational Gymnastics on the Sendai Virus P/C mRNA

Seminars in virology Pub Date : 1998-03-01 DOI:10.1006/smvy.1997.0138

Joseph Curran , Patrizia Latorre, Daniel Kolakofsky

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引用次数: 25

Abstract

The Sendai virus (SeV) P/C mRNA expresses eight different polypeptide chains using a combination of ribosomal choice and cotranscriptional editing (an internal open reading frame (ORF) is accessed by the addition of a single G residue after a short run of Gs at position 1053 on the mRNA). The longest ORF within the mRNA starts at ATG104 (the second initiation site) and encodes the 568-aa P protein, an essential viral structural protein which serves both as a cofactor for the RNA-dependant RNA polymerase (L protein) and as a part of the assembly complex. The first (ACG81), third (ATG114), fourth (ATG183) and fifth (ATG201) initiation sites are used to express a C-terminal nested set of polypeptides which are in the +1 ORF relative to P, namely C′, C, Y1, and Y2, respectively (collectively named the C proteins). Leaky scanning accounts for translational initiation at the first three start sites (a non-ATG followed by ATGs in progressively stronger contexts). Consistent with this, changing the C′ ACG to an ATG (GCCATG81G; ATG81/C′) ablates all expression from the downstream ATG104/P and ATG114/C initiation codons, whereas initiation from ATG183/Y1 and ATG201/Y2 remains normal in this background. Initiation from ATG183/Y1/ ATG201/Y2 probably takes place by discontinuous scanning via a ribosomal shunt. Scanning complexes appear to assemble at the 5′ cap and then scan the first ≈30 nt of the 5′ UTR before being translocated to an acceptor site close to the Y initiation codons. No specific 5′ UTR or donor site sequence elements are required, and translation of the Y proteins continues even when their start codons are changed to ACG.

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仙台病毒P/C mRNA的翻译体操

仙台病毒(SeV) P/C mRNA通过核糖体选择和共转录编辑的组合表达8种不同的多肽链(通过在mRNA上1053位的G短序列后添加单个G残基来访问内部开放阅读框(ORF))。mRNA中最长的ORF从ATG104(第二个起始位点)开始，编码568-aa P蛋白，这是一种重要的病毒结构蛋白，既是RNA依赖性RNA聚合酶(L蛋白)的辅助因子，也是组装复合体的一部分。第一个起始位点(ACG81)、第三个起始位点(ATG114)、第四个起始位点(ATG183)和第五个起始位点(ATG201)用于表达C端嵌套多肽，这些多肽相对于P位于+1 ORF，分别为C′、C、Y1和Y2(统称为C蛋白)。漏式扫描解释了前三个起始位点的翻译起始(在逐渐增强的环境中，非atg接着是atg)。与此一致，将C ' ACG更改为ATG (GCCATG81G;在此背景下，ATG81/C ')会清除下游ATG104/P和ATG114/C起始密码子的所有表达，而ATG183/Y1和ATG201/Y2的起始密码子则保持正常。ATG183/Y1/ ATG201/Y2起始可能是通过核糖体分流不连续扫描进行的。扫描复合物似乎聚集在5 '帽上，然后扫描5 ' UTR的第一个约30 nt，然后转移到靠近Y起始密码子的受体位点。不需要特定的5 ' UTR或供体位点序列元件，即使Y蛋白的起始密码子变为ACG，其翻译仍在继续。

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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Seminars in virology

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