Marie-Claude Carrier scite author profile

During ribosomal and transfer RNA maturation, external transcribed spacer (ETS) and internal transcribed spacer (ITS) sequences are excised and, as non-functional by-products, are rapidly degraded. However, we report that the 3'ETS of the glyW-cysT-leuZ polycistronic tRNA precursor is highly and specifically enriched by co-purification with at least two different small regulatory RNAs (sRNAs), RyhB and RybB. Both sRNAs are shown to base pair with the same region in the 3'ETS of leuZ (3'ETS(leuZ)). Disrupting the pairing by mutating 3'ETS(leuZ) strongly increased the activity of sRNAs, even under non-inducing conditions. Our results indicate that 3'ETS(leuZ) prevents sRNA-dependent remodeling of tricarboxylic acid (TCA) cycle fluxes and decreases antibiotic sensitivity when sRNAs are transcriptionally repressed. This suggests that 3'ETS(leuZ) functions as a sponge to absorb transcriptional noise from repressed sRNAs. Additional data showing RybB and MicF sRNAs are co-purified with ITS(metZ-metW) and ITS(metW-metV) strongly suggest a wide distribution of this phenomenon.

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Broadening the Definition of Bacterial Small RNAs: Characteristics and Mechanisms of Action

Carrier

Lalaouna

Massé

2018

Annu. Rev. Microbiol.

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The first report of trans-acting RNA-based regulation in bacterial cells dates back to 1984. Subsequent studies in diverse bacteria unraveled shared properties of trans-acting small regulatory RNAs, forming a clear definition of these molecules. These shared characteristics have been used extensively to identify new small RNAs (sRNAs) and their interactomes. Recently however, emerging technologies able to resolve RNA-RNA interactions have identified new types of regulatory RNAs. In this review, we present a broader definition of trans-acting sRNA regulators and discuss their newly discovered intrinsic characteristics.

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DsrA regulatory RNA represses both hns and rbsD mRNAs through distinct mechanisms in Escherichia coli

Lalaouna

Morissette

Carrier

et al. 2015

Molecular Microbiology

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SummaryThe 87 nucleotide long DsrA sRNA has been mostly studied for its translational activation of the transcriptional regulator RpoS. However, it also represses hns mRNA, which encodes H-NS, a major regulator that affects expression of nearly 5% of Escherichia coli genes. A speculative model previously suggested that DsrA would block hns mRNA translation by binding simultaneously to start and stop codon regions of hns mRNA (coaxial model). Here, we show that DsrA efficiently blocked translation of hns mRNA by base-pairing immediately downstream of the start codon. In addition, DsrA induced hns mRNA degradation by actively recruiting the RNA degradosome complex. Data presented here led to a model of DsrA action on hns mRNA, which supports a canonical mechanism of sRNA-induced mRNA degradation by binding to the translation initiation region. Furthermore, using MS2-affinity purification coupled with RNA sequencing technology (MAPS), we also demonstrated that DsrA targets rbsD mRNA, involved in ribose utilization. Surprisingly, DsrA base pairs far downstream of rbsD start codon and induces rapid degradation of the transcript. Thus, our study enables us to draw an extended DsrA targetome.

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Dynamic interactions between the RNA chaperone Hfq, small regulatory RNAs, and mRNAs in live bacterial cells

Park

Prévost

Heideman

et al. 2021

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RNA-binding proteins play myriad roles in regulating RNAs and RNA-mediated functions. In bacteria, the RNA chaperone Hfq is an important post-transcriptional gene regulator. Using live-cell super-resolution imaging, we can distinguish Hfq binding to different sizes of cellular RNAs. We demonstrate that under normal growth conditions, Hfq exhibits widespread mRNA-binding activity, with the distal face of Hfq contributing mostly to the mRNA binding in vivo. In addition, sRNAs can either co-occupy Hfq with the mRNA as a ternary complex, or displace the mRNA from Hfq in a binding face-dependent manner, suggesting mechanisms through which sRNAs rapidly access Hfq to induce sRNA-mediated gene regulation. Finally, our data suggest that binding of Hfq to certain mRNAs through its distal face can recruit RNase E to promote turnover of these mRNAs in an sRNA-independent manner, and such regulatory function of Hfq can be decoyed by sRNA competitors that bind strongly at the distal face.

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A game of tag: MAPS catches up on RNA interactomes

2016

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