Circular RNA Obelisk-S.sis highly abundant inStreptococcus sanguinisSK36

Abstract

AbstractA new class of viroid-like circular RNAs, called Obelisks, was recently reported by Zheludevet al.1. They identify a specific 1137 nt Obelisk, called Obelisk-S.s, in monoculture transcriptomes ofStreptococcus sanguinisSK36, a commensal bacterium of the human oral microbiome. Here, we report that Obelisk-S.s. is highly abundant in SK36, despite its absence from the SK36 genome (i.e., as DNA). In 11 out of 17 monoculture SK36 RNA-seq datasets examined, Obelisk-S.s. is more abundant than any mRNA. Given its abundance, we hypothesized that multiple Obelisk-S.svariants could coexist within SK36. We found three Obelisk-S.smutations at 5-10% allele frequency in some samples: a R162R synonymous mutation in one set of replicate transcriptomes, and an I48I synonymous mutation and an intergenic mutation in another set of replicate transcriptomes. A simple mathematical model shows how high Obelisk abundance can transiently stabilize intracellular Obelisk populations, and how extreme Obelisk abundances may stabilize intracellular Obelisk populations indefinitely. Evolution experiments with SK36 could test this theory and could shed light on how Obelisks function and evolve within their microbial hosts.