Cap-independent translation of picornavirus RNAs: structure and function of the internal ribosomal entry site.

Enzyme Pub Date : 1990-01-01 DOI:10.1159/000468766
S K Jang, T V Pestova, C U Hellen, G W Witherell, E Wimmer
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引用次数: 210

Abstract

Picornaviruses are mammalian plus-strand RNA viruses whose genomes serve as mRNA. A study of the structure and function of these viral mRNAs has revealed differences among them in events leading to the initiation of protein synthesis. A large segment of the 5' nontranslated region, approximately 400 nucleotides in length, promotes 'internal' entry of ribosomes independent of the non-capped 5' end of the mRNA. This segment, which we have called the internal ribosome entry site (IRES), maps approximately 200 nt down-stream from the 5' end and is highly structured. IRES elements of different picornaviruses, although functionally similar in vitro and in vivo, are not identical in sequence or structure. However, IRES elements of the genera entero- and rhinoviruses, on the one hand, and cardio- and aphthoviruses, on the other hand, reveal similarities corresponding to phylogenetic kinship. All IRES elements contain a conserved Yn-Xm-AUG unit (Y, pyrimidine; X, nucleotide) which appears essential for IRES function. The IRES elements of cardio-, entero- and aphthoviruses bind a cellular protein, p57. In the case of cardioviruses, the interaction between a specific stem-loop of the IREs is essential for translation in vitro. The IRES elements of entero- and cardioviruses also bind the cellular protein, p52, but the significance of this interaction remains to be shown. The function of p57 or p52 in cellular metabolism is unknown. Since picornaviral IRES elements function in vivo in the absence of any viral gene products, we speculate that IRES-like elements may also occur in specific cellular mRNAs releasing them from cap-dependent translation. IRES elements are useful tools in the construction of high yield expression vectors, or for tagging cellular genetic elements.

小核糖核酸不依赖于帽的翻译:内部核糖体进入位点的结构和功能。
小核糖核酸病毒是哺乳动物的正链RNA病毒,其基因组充当mRNA。对这些病毒mrna的结构和功能的研究揭示了它们在导致蛋白质合成起始的事件中的差异。5'非翻译区有一大段,长度约为400个核苷酸,促进核糖体的“内部”进入,而不依赖于mRNA的5'端。这个片段,我们称之为内部核糖体进入位点(IRES),位于5'端下游约200nt处,结构高度结构化。不同小核糖核酸病毒的IRES元件虽然在体外和体内功能相似,但在序列或结构上并不相同。然而,肠病毒和鼻病毒属以及心病毒和口腔病毒属的IRES元素显示出与系统发育亲缘关系相对应的相似性。所有IRES元素都含有一个保守的Yn-Xm-AUG单位(Y,嘧啶;X,核苷酸),这似乎是IRES功能所必需的。心脏病毒、肠病毒和口腔病毒的IRES元件结合细胞蛋白p57。在心脏病毒的情况下,IREs的特定茎环之间的相互作用对于体外翻译至关重要。肠病毒和心病毒的IRES元件也结合细胞蛋白p52,但这种相互作用的重要性仍有待证实。p57或p52在细胞代谢中的功能尚不清楚。由于小核糖核酸病毒IRES元件在体内没有任何病毒基因产物的情况下发挥作用,我们推测IRES样元件也可能出现在特定的细胞mrna中,将它们从帽依赖翻译中释放出来。IRES元件是构建高产表达载体或标记细胞遗传元件的有用工具。
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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