The molecular mechanism of action of bacterial epigenetic regulators. This project aims to determine the mechanisms of action of a class of bacterial epigenetic regulators. Many bacteria exhibit phase variable expression of genes (random, high frequency on/off switching of expression), typically due to simple DNA repeats within the gene(s) that encode them. Many bacterial species contain phase variable DNA methyltransferases that regulate epigenetics and control expression of distinct sets of pr ....The molecular mechanism of action of bacterial epigenetic regulators. This project aims to determine the mechanisms of action of a class of bacterial epigenetic regulators. Many bacteria exhibit phase variable expression of genes (random, high frequency on/off switching of expression), typically due to simple DNA repeats within the gene(s) that encode them. Many bacterial species contain phase variable DNA methyltransferases that regulate epigenetics and control expression of distinct sets of proteins (phasevarions) via variable methylation of the genome. The precise mechanism of action of these regulators is unknown. Characterisation of these systems will provide better understanding of bacterial gene regulation and adaptation, which will inform biotechnology and vaccine development and could contribute to economic and health advancements.Read moreRead less