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 aim 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 show 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 find that the RG4-dependent effect is not due to increased ribosome affinity, ribosome binding site accessibility, or mRNA stability. We propose a physical barrier model in which bulky structures in 5′UTR biases ribosome movement toward the downstream start codon, thereby increasing the translation output. This study provides biophysical insights into the regulatory role of 5′UTR structures in in vitro and bacterial translation, highlighting their potential applications in tuning gene expression.
CITATION STYLE
Lee, C. Y., Joshi, M., Wang, A., & Myong, S. (2024). 5′UTR G-quadruplex structure enhances translation in size dependent manner. Nature Communications, 15(1). https://doi.org/10.1038/s41467-024-48247-8
Mendeley helps you to discover research relevant for your work.