Abstract
Epigenetic modifications in bacteria, such as DNA methylation, have been shown to affect gene regulation, thereby generating cells that are isogenic but with distinctly different phenotypes. Restriction-modification (RM) systems contain prototypic methylases that are responsible for much of bacterial DNA methylation. This review focuses on a distinctive group of type I RM loci that , through phase variation, can modify their methylation target specificity and can thereby switch bacteria between alternative patterns of DNA methylation. Phase variation occurs at the level of the target recognition domains of the hsdS (specificity) gene via reversible recombination processes acting upon multiple hsdS alleles. We describe the global distribution of such loci throughout the prokaryotic kingdom and highlight the differences in loci structure across the various bacterial species. Although RM systems are often considered simply as an evolutionary response to bacteriophages, these multi-hsdS type I systems have also shown the capacity to change bacterial phenotypes. The ability of these RM systems to allow bacteria to reversibly switch between different physiological states, combined with the existence of such loci across many species of medical and industrial importance, highlights the potential of phase-variable DNA methylation to act as a global regulatory mechanism in bacteria.
Highlights
It is just over 50 years since enzymatic modification and restriction of both bacteriophage and bacterial chromosomal DNA was first described (Arber and Dussoix 1962)
This review focuses on a distinctive group of type I RM loci that, through phase variation, can modify their methylation target specificity and can thereby switch bacteria between alternative patterns of DNA methylation
As more genomes are sequenced and as the technological advances that allow the detection and quantification of DNA methylation become more widely available, it is likely that the number of studies reporting the existence of phase-variable type I RM systems among different bacterial species will increase substantially over the few years
Summary
It is just over 50 years since enzymatic modification and restriction of both bacteriophage and bacterial chromosomal DNA was first described (Arber and Dussoix 1962). The main aim of this review is to summarise the information currently available about a distinct group of phasevariable type I RM systems in species where there is the potential for epigenetic effects upon bacterial gene expression and Received: 18 February 2017; Accepted: 9 May 2017 C FEMS 2017. General information on methylation systems, and phase-variable methylation systems in particular, has been reviewed in depth elsewhere (Murray 2000; Srikhanta, Fox and Jennings 2010; Loenen et al 2014a,b)
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