Abstract
ABSTRACTExoribonuclease-resistant RNAs (xrRNAs) are discrete folded RNA elements that block the processive degradation of RNA by exoribonucleases. xrRNAs found in the 3′ untranslated regions (UTRs) of animal-infecting flaviviruses and in all three members of the plant-infecting Dianthovirus adopt a complex ring-like fold that blocks the exoribonuclease; this ability gives rise to viral non-coding subgenomic RNAs. The degree to which these folded RNA elements exist in other viruses and in diverse contexts has been unclear. Using computational tools and biochemical assays, we discovered that xrRNA elements are widely found in viruses belonging to the Tombusviridae and Luteoviridae families of plant-infecting RNA viruses, demonstrating their importance and widespread utility. Unexpectedly, many xrRNAs are located in intergenic regions rather than in the 3’UTR and some are associated with the 5′ ends of subgenomic RNAs with protein-coding potential, suggesting that xrRNAs with similar scaffolds are involved in the maturation or maintenance of diverse subgenomic RNAs, not just the ones generated from the 3′UTR.
Publisher
Cold Spring Harbor Laboratory