Over recent years several examples of randomly switching methyltransferases, associated with Type III restriction-modification (R-M) systems, have been described in pathogenic bacteria. In every case examined, changes in simple DNA sequence repeats result in variable methyltransferase expression and result in global changes in gene expression, and differentiation of the bacterial cell into distinct phenotypes. These epigenetic regulatory systems are called phasevarions, phase-variable regulons, and are widespread in bacteria, with 17.4% of Type III R-M system containing simple DNA sequence repeats. A distinct, recombination-driven random switching system has also been described in Streptococci in Type I R-M systems that also regulate gene expression. Here, we interrogate the most extensive and well-curated database of R-M systems, REBASE, by searching for all possible simple DNA sequence repeats in the hsdRMS genes that encode Type I R-M systems. We report that 7.9% of hsdS, 2% of hsdM, and of 4.3% of hsdR genes contain simple sequence repeats that are capable of mediating phase variation. Phase variation of both hsdM and hsdS genes will lead to differential methyltransferase expression or specificity, and thereby the potential to control phasevarions. These data suggest that in addition to well characterized phasevarions controlled by Type III mod genes, and the previously described Streptococcal Type I R-M systems that switch via recombination, approximately 10% of all Type I R-M systems surveyed herein have independently evolved the ability to randomly switch expression via simple DNA sequence repeats.
Keywords: R‐M systems; bacterial pathogenesis; epigenetics; phase variation; phasevarion.
© 2019 The Authors. The FASEB Journal published by Wiley Periodicals, Inc. on behalf of Federation of American Societies for Experimental Biology.