The optimal use of IRES (internal ribosome entry site) in expression vectors

Genetic analysis, techniques and applications Pub Date : 1999-11-01 DOI:10.1016/S1050-3862(99)00021-2

Joe Attal, Marie-Claire Théron, Louis Marie Houdebine

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引用次数: 44

Abstract

In higher eucaryotes, natural bicistronic mRNA have been rarely found so far. The second cistron of constructed bicistronic mRNAs is generally considered as not translated unless special sequences named internal ribosome entry site (IRES) are added between the two cistrons. These sequences are believed to recruit ribosomes independently of a cap structure. In the present report, a new IRES found in the HTLV-1 genome is described. A systematic study revealed that this IRES, but also the poliovirus (polio) and the encephalomyocarditis virus (EMCV) IRES work optimally when they are added about 100 nucleotides after the termination codon of the first cistron. Unexpectedly, these IRES became totally inefficient when added after 300–500 nucleotide spacers. This result and others are not compatible with the admitted mechanism of IRES action. The IRES appear to be rather potent translation stimulators. Their effects are particularly emphasized in cells in which the normal mechanism of translation initiation is inhibited. For these reasons, we suggest to call IRES rescue translation stimulators (RTS).

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IRES(内部核糖体进入位点)在表达载体中的最佳使用

在高等真核生物中，迄今为止很少发现天然双链mRNA。构建的双顺子mrna的第二个顺子通常被认为没有翻译，除非在两个顺子之间添加称为内部核糖体进入位点(IRES)的特殊序列。这些序列被认为独立于帽状结构招募核糖体。在本报告中，描述了HTLV-1基因组中发现的一个新的IRES。一项系统研究表明，当在第一个顺子终止密码子后约100个核苷酸处添加该IRES，以及脊髓灰质炎病毒(脊髓灰质炎)和脑心肌炎病毒(EMCV)的IRES时，它们的工作效果最佳。出乎意料的是，当加入300-500个核苷酸间隔时，这些IRES变得完全无效。这一结果和其他结果都与公认的IRES作用机制不相容。IRES似乎是相当有效的翻译刺激物。它们的作用在正常的翻译起始机制被抑制的细胞中被特别强调。基于这些原因，我们建议使用IRES救援翻译刺激器(RTS)。

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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Genetic analysis, techniques and applications

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