Litcius/Paper detail

Engineering circular RNA for enhanced protein production

Robert Chen, Sean K. Wang, Julia A. Belk, Laura Amaya, Zhijian Li, Angel Cardenas, Brian T. Abe, Chun‐Kan Chen, Paul A. Wender, Howard Y. Chang

2022Nature Biotechnology424 citationsDOIOpen Access PDF

Abstract

Circular RNAs (circRNAs) are stable and prevalent RNAs in eukaryotic cells that arise from back-splicing. Synthetic circRNAs and some endogenous circRNAs can encode proteins, raising the promise of circRNA as a platform for gene expression. In this study, we developed a systematic approach for rapid assembly and testing of features that affect protein production from synthetic circRNAs. To maximize circRNA translation, we optimized five elements: vector topology, 5' and 3' untranslated regions, internal ribosome entry sites and synthetic aptamers recruiting translation initiation machinery. Together, these design principles improve circRNA protein yields by several hundred-fold, provide increased translation over messenger RNA in vitro, provide more durable translation in vivo and are generalizable across multiple transgenes.

Topics & Concepts

Internal ribosome entry siteCircular RNATranslation (biology)Computational biologyUntranslated regionProtein biosynthesisSynthetic biologyRNABiologyRNA splicingRibosomal binding siteEukaryotic translationMessenger RNACell biologyGeneGeneticsViral Infections and Immunology ResearchRNA and protein synthesis mechanismsRNA Interference and Gene Delivery