Recently, a large number of circular RNAs (circRNAs) were discovered in eukaryotes, some of which were reported to be translated through a cap-independent fashion. However, study of circRNA translation is still not trivial. Here we describe two distinct systems to generate the translatable circRNAs containing validated open reading frames (ORF) to analyze their translation in living cells. The first system is a plasmid reporter containing a single exon with split GFP fragments in reverse order, which can be efficiently back-spliced to generate a circRNA encoding intact GFP. The second system is a self-splicing reporter containing an intact Renilla luciferase (Rluc) ORF and the flanking split group I introns in reverse order, which can produce circRNAs through in vitro self-splicing of the precursor RNAs. Both circRNA systems can serve as the platforms for mechanistic studies of circRNA translation, and also serve as the reliable systems to measure the activity of IRES-mediated translation.
Keywords: Back-splicing; Cap-independent translation; Circular RNA; Internal ribosomal entry sites; Self-splicing.
Copyright © 2021. Published by Elsevier Inc.