Dual-function sRNAs refer to a small subgroup of small regulatory RNAs that merges base-pairing properties of antisense RNAs with peptide-encoding properties of mRNA. Both functions can be part of either same or in another metabolic pathway. Here, we want to update the knowledge of to the already known dual-function sRNAs and review the six new sRNAs found since 2017 regarding their structure, functional mechanisms, evolutionary conservation, and role in the regulation of distinct biological/physiological processes. The increasing identification of dual-function sRNAs through bioinformatics approaches, RNomics and RNA-sequencing and the associated increase in regulatory understanding will likely continue to increase at the same rate in the future. This may improve our understanding of the physiology, virulence and resistance of bacteria, as well as enable their use in technical applications. This article is categorized under: Regulatory RNAs/RNAi/Riboswitches > Regulatory RNAs.
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Insights into bacterial metabolism from small RNAs.
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Division of Molecular and Cellular Biology, Eunice Kennedy Shriver National Institute of Child Health and Human Development, Bethesda, MD 20892-4417, USA. Electronic address:
The study of small, regulatory RNAs (sRNA) that act by base-pairing with target RNAs in bacteria has been steadily advancing, particularly with the availability of more and more transcriptome and RNA-RNA interactome datasets. While the characterization of multiple sRNAs has helped to elucidate their mechanisms of action, these studies also are providing insights into protein function, control of metabolic flux, and connections between metabolic pathways as we will discuss here. In describing several examples of the metabolic insights gained, we will summarize the different types of base-pairing sRNAs including mRNA-derived sRNAs, sponge RNAs, RNA mimics, and dual-function RNAs as well as suggest how information about sRNAs could be exploited in the future.
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Dual-function sRNAs refer to a small subgroup of small regulatory RNAs that merges base-pairing properties of antisense RNAs with peptide-encoding properties of mRNA. Both functions can be part of either same or in another metabolic pathway. Here, we want to update the knowledge of to the already known dual-function sRNAs and review the six new sRNAs found since 2017 regarding their structure, functional mechanisms, evolutionary conservation, and role in the regulation of distinct biological/physiological processes.
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