Non-Coding RNA (Sep 2021)

Binding of the RNA Chaperone Hfq on Target mRNAs Promotes the Small RNA RyhB-Induced Degradation in <i>Escherichia coli</i>

  • David Lalaouna,
  • Karine Prévost,
  • Seongjin Park,
  • Thierry Chénard,
  • Marie-Pier Bouchard,
  • Marie-Pier Caron,
  • Carin K. Vanderpool,
  • Jingyi Fei,
  • Eric Massé

DOI
https://doi.org/10.3390/ncrna7040064
Journal volume & issue
Vol. 7, no. 4
p. 64

Abstract

Read online

Many RNA-RNA interactions depend on molecular chaperones to form and remain stable in living cells. A prime example is the RNA chaperone Hfq, which is a critical effector involved in regulatory interactions between small RNAs (sRNAs) and cognate target mRNAs in Enterobacteriaceae. While there is a great deal of in vitro biochemical evidence supporting the model that Hfq enhances rates or affinities of sRNA:mRNA interactions, there is little corroborating in vivo evidence. Here we used in vivo tools including reporter genes, co-purification assays, and super-resolution microscopy to analyze the role of Hfq in RyhB-mediated regulation, and we found that Hfq is often unnecessary for efficient RyhB:mRNA complex formation in vivo. Remarkably, our data suggest that a primary function of Hfq is to promote RyhB-induced cleavage of mRNA targets by RNase E. Moreover, our work indicates that Hfq plays a more limited role in dictating regulatory outcomes following sRNAs RybB and DsrA complex formation with specific target mRNAs. Our investigation helps evaluate the roles played by Hfq in some RNA-mediated regulation.

Keywords