https://www.selleckchem.com/products/mrt68921.html athways to process pyruvate. Metabolic differences between these closely-related isolates suggest an even wider variety of differences in growth across S. flexneri and Shigella in general. Exploring this variation further may assist the development or application of vaccines and therapeutics to combat Shigella infections.Bacterial genomes can be methylated at particular motifs by methyltransferases (M). This DNA modification allows restriction endonucleases (R) to discriminate between self and foreign DNA. While the accepted primary function of such restriction modification (RM) systems is to degrade incoming foreign DNA, other roles of RM systems and lone R or M components have been found in genome protection, stability and the regulation of various phenotypes. The Burkholderia cepacia complex (Bcc) is a group of closely related opportunistic pathogens with biotechnological potential. Here, we constructed and analysed mutants lacking various RM components in the clinical Bcc isolate Burkholderia cenocepacia H111 and used SMRT sequencing of single mutants to assign the B. cenocepacia H111 Ms to their cognate motifs. DNA methylation is shown to affect biofilm formation, cell shape, motility, siderophore production and membrane vesicle production. Moreover, DNA methylation had a large effect on the maintenance of the Bcc virulet is shown that DNA methylation affects various phenotypic traits, the most noteworthy being lysogenicity of a bacteriophage and maintenance of a virulence megaplasmid.Streptococcus mutans is a commensal of the human oral microbiome that can promote dental caries under conditions of dysbiosis. This study investigates metalloregulators and their involvement in the S. mutans oxidative stress response. Oxidative stress in the human mouth can derive from temporal increases in reactive oxygen species (ROS) after meal consumption and from endogenous bacterial ROS-producers that colonize the dentition.