Abstract
Bacteria are constantly subjected to stressful conditions, such as antibiotic exposure, nutrient limitation and oxidative stress. For pathogenic bacteria, adapting to the host environment, escaping defence mechanisms and coping with antibiotic stress are crucial for their survival and the establishment of a successful infection. Stress adaptation relies heavily on the rate at which the organism can remodel its gene expression programme to counteract the stress. RNA-binding proteins mediating co- and post-transcriptional regulation have recently emerged as important players in regulating gene expression during adaptive responses. Most of the research on these layers of gene expression regulation has been done in Gram-negative model organisms where, thanks to a wide variety of global studies, large post-transcriptional regulatory networks have been uncovered. Unfortunately, our understanding of post-transcriptional regulation in Gram-positive bacteria is lagging behind. One possible explanation for this is that many proteins employed by Gram-negative bacteria are not well conserved in Gram-positives. And even if they are conserved, they do not always play similar roles as in Gram-negative bacteria. This raises the important question whether Gram-positive bacteria regulate gene expression in a significantly different way. The goal of this review was to discuss this in more detail by reviewing the role of well-known RNA-binding proteins in Gram-positive bacteria and by highlighting their different behaviours with respect to some of their Gram-negative counterparts. Finally, the second part of this review introduces several unusual RNA-binding proteins of Gram-positive species that we believe could also play an important role in adaptive responses.
Highlights
Co- and post-transcriptional regulation involves control of transcription, translation efficiency and mRNA transcript stability
The FEBS Journal published by John Wiley & Sons Ltd on behalf of
It is clear that RNA-binding protein (RBP) play an essential role in regulating bacterial gene expression and allowing rapid adaptation to changing environments
Summary
Co- and post-transcriptional regulation involves control of transcription, translation efficiency and mRNA transcript stability. RNA-binding proteins (RBPs) are fundamental components of bacterial co- and posttranscriptional regulatory networks. They can influence transcription and translation in many ways. They can block translation by binding ribosomebinding sites, and they can trigger transcription termination or promote transcription elongation by altering the structure of the mRNA (attenuation and antitermination, respectively). The FEBS Journal (2021) a 2021 The Authors. The FEBS Journal published by John Wiley & Sons Ltd on behalf of
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