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Translation fidelity of human ribosomes

人类核糖体的翻译保真度

基本信息

批准号：
36478-2013
负责人：
BrakierGingras, Léa
金额：
$ 2.62万
依托单位：
Université de Montréal
依托单位国家：
加拿大
项目类别：
Discovery Grants Program - Individual
财政年份：
2013
资助国家：
加拿大
起止时间：
2013-01-01 至 2014-12-31
项目状态：
已结题

来源：
https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=521374
关键词：
Translation fidelity human ribosomes

项目摘要

Translation of messenger RNAs into functional proteins is a critical event for the cellular life. It is carried out by the ribosomes whose RNA moiety plays the main control in this activity. A major role in the control of translational fidelity is exerted by three universally conserved bases of ribosomal RNA (rRNA) that monitor the geometry of the duplex between the anticodon of the incoming aminoacyl-transfer RNA and the codon of the messenger RNA. However, post-transcriptional rRNA modifications (mostly 2'-O-ribose methylation and pseudouridylation) that cluster in functionally important regions of the ribosome appear to contribute to optimizing the control of translational fidelity. The translation accuracy of bacteria and yeast has been intensively studied and the role of rRNA modifications has also been studied to some extent for these organisms. However, there is a strong need for an investigation of translation accuracy in mammalian cells. Our aim is to investigate the translation accuracy of human ribosomes, analyzing two cases: young cells and senescent (old) cells. We will generate reporters capable of measuring various types of errors in translation in human cells, i.e. misreading of sense and nonsense codons and shifts of the reading frame. Those reporters will be introduced in cultured fibroblasts by retroviral infection and will monitor translation accuracy in young and old cells. The modifications of rRNA in ribosomes from young and old cells will also be analyzed, and we will investigate whether there is a relationship between changes in translation accuracy and changes in rRNA modifications. A long-term goal will be to explore the functional consequences of changes in translational accuracy, such as the production of misfolded proteins.

信使rna翻译成功能蛋白是细胞生命的关键事件。它是由核糖体进行的，核糖体的RNA片段在这种活性中起主要控制作用。控制翻译保真度的主要作用是由核糖体RNA （rRNA）的三个普遍保守的碱基发挥作用，它们监测进入的氨基转移RNA的反密码子和信使RNA的密码子之间的双工的几何形状。然而，聚集在核糖体功能重要区域的转录后rRNA修饰（主要是2'- o -核糖甲基化和假尿嘧啶化）似乎有助于优化翻译保真度的控制。细菌和酵母的翻译准确性已经得到了深入的研究，rRNA修饰在这些生物中的作用也得到了一定程度的研究。然而，迫切需要对哺乳动物细胞的翻译准确性进行研究。我们的目的是研究人类核糖体的翻译准确性，分析两种情况：年轻细胞和衰老（老年）细胞。我们将生成能够测量人类细胞翻译中各种类型错误的报告器，即有义密码子和无义密码子的误读以及阅读框的移位。这些报告基因将被引入经逆转录病毒感染的培养成纤维细胞中，并将监测年轻细胞和老年细胞的翻译准确性。我们还将分析年轻细胞和老年细胞核糖体中rRNA的修饰，我们将研究翻译精度的变化与rRNA修饰的变化之间是否存在关系。长期目标将是探索翻译准确性变化的功能后果，例如错误折叠蛋白质的产生。