Abstract

Bacteria employ noncoding RNAs to maintain cellular physiology, adapt global gene expression to fluctuating environments, sense nutrients, coordinate their interaction with companion microbes and host cells, and protect themselves against bacteriophages. While bacterial RNA research has made fundamental contributions to biomedicine and biotechnology, the bulk of our knowledge of RNA biology stems from the study of a handful of aerobic model species. In comparison, RNA research is lagging in many medically relevant obligate anaerobic species, in particular the numerous commensal bacteria comprising our gut microbiota. This review presents a guide to RNA-based regulatory mechanisms in the phylum Bacteroidetes, focusing on the most abundant bacterial genus in the human gut, Bacteroides spp. This includes recent case reports on riboswitches, an mRNA leader, cis- and trans-encoded small RNAs (sRNAs) in Bacteroides spp., and a survey of CRISPR-Cas systems across Bacteroidetes. Recent work from our laboratory now suggests the existence of hundreds of noncoding RNA candidates in Bacteroides thetaiotaomicron, the emerging model organism for functional microbiota research. Based on these collective observations, we predict mechanistic and functional commonalities and differences between Bacteroides sRNAs and those of other model bacteria, and outline open questions and tools needed to boost Bacteroidetes RNA research.

Highlights

  • Bacteria employ noncoding RNAs to maintain cellular physiology, adapt global gene expression to fluctuating environments, sense nutrients, coordinate their interaction with companion microbes and host cells, and protect themselves against bacteriophages

  • This review presents a guide to RNA-based regulatory mechanisms in the phylum Bacteroidetes, focusing on the most abundant bacterial genus in the human gut, Bacteroides spp

  • Across the Bacteroidetes, tmRNAs show high sequence conservation and in B. thetaiotaomicron RNA-seq and Northern blot data revealed this RNA to be transcribed as a 507 nt precursor that is processed into the ∼400 nt mature form containing both domains (Ryan et al 2020)

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Summary

DOI Publisher Journal Rights Download date Item License Link to Item

Article; Other Ryan, Daniel; Prezza, Gianluca; Westermann, Alexander J Biol Chem.

Intestinal Bacteroidetes thrive in a dynamic microenvironment
RNA landscape of the Bacteroidetes
AdoCbl riboswitch roc leader
RBP candidates and ribonucleases in Bacteroidetes
RNase YbeY
Bacteroidetes CRISPR systems
Findings
Open questions and how to address them

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