The core genome m5C methyltransferase JHP1050 (M.Hpy99III) plays an important role in orchestrating gene expression in Helicobacter pylori
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Abstract
ABSTRACT Helicobacter pylori encodes a large number of Restriction-Modification (R-M) systems despite its small genome.R-M systems have been described as “primitive immune systems” in bacteria, but the role of methylation in bacterial gene regulation and other processes is increasingly accepted. Every H.pylori strain harbours a unique set of R-M systems resulting in a highly diverse methylome. We identified a highly conserved GCGC-specific m5 C MTase (JHP1050) that was predicted to be active in all of 459 H.pylori genome sequences analyzed. Transcriptome analysis of two H.pylori strains and their respective MTase mutants showed that inactivation of the MTase led to changes in the expression of 225 genes in strain J99, and 29 genes in strain BCM-300.10 genes were differentially expressed in both mutated strains. Combining bioinformatic analysis and site-directed mutagenesis, we demonstrated that motifs overlapping the promoter influence the expression of genes directly, while methylation of other motifs might cause secondary effects.Thus, m5 C methylation modifies the transcription of multiple genes, affecting important phenotypic traits that include adherence to host cells, natural competence for DNA uptake, bacterial cell shape, and susceptibility to copper.
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