5'UTR G-quadruplex structure enhances translation in size dependent manner.

Sua Myong, Chun-Ying Lee, Meera Joshi, Ashley Wang
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Abstract

Translation initiation in bacteria is frequently regulated by various structures in the 5' untranslated region (5'UTR). Previously, we demonstrated that G-quadruplex (G4) formation in non-template DNA enhances transcription. In this study, we aimed to explore how G4 formation in mRNA (RG4) at 5'UTR impacts translation using a T7-based in vitro translation system and in E. coli. We showed that RG4 strongly promotes translation efficiency in a size-dependent manner. Additionally, inserting a hairpin upstream of the RG4 further enhances translation efficiency, reaching up to a 12-fold increase. We found that the RG4-dependent effect is not due to increased ribosome affinity, ribosome binding site accessibility, or mRNA stability. We proposed a physical barrier model in which bulky structures in 5'UTR prevent ribosome dislodging and thereby increase the translation output. This study provides biophysical insights into the regulatory role of 5'UTR structures in bacterial translation, highlighting their potential applications in tuning gene expression.

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5’UTR G-四链体结构以大小依赖的方式增强翻译。
细菌中的翻译起始经常受到5'非翻译区(5'UTR)中各种结构的调节。先前,我们证明了非模板DNA中G-四链体(G4)的形成增强了转录。在这项研究中,我们旨在使用基于T7的体外翻译系统和在大肠杆菌中探索5’UTR mRNA(RG4)中G4的形成如何影响翻译。我们发现RG4以一种大小相关的方式有力地提高了翻译效率。此外,在RG4的上游插入发夹进一步提高了翻译效率,达到了12倍的增长。我们发现RG4依赖性效应不是由于核糖体亲和力、核糖体结合位点可及性或mRNA稳定性的增加。我们提出了一个物理屏障模型,在该模型中,5’UTR中的庞大结构可以防止核糖体移位,从而增加翻译输出。这项研究为5’UTR结构在细菌翻译中的调节作用提供了生物物理见解,突出了它们在调节基因表达方面的潜在应用。
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