Effect of base methylation on binding and mobility of bacterial protein Hfq on double-stranded DNA
Abstract
Regulation of protein mobility is a fundamental aspect of cellular processes. In this study, we examined the impact of DNA methylation on the diffusion of nucleoid associated protein Hfq. This protein is one of the most abundant proteins that shapes the bacterial chromosome and is involved in several aspects of nucleic acid metabolism. Fluorescence microscopy was employed to monitor the movement of Hfq along double-stranded DNA, which was stretched due to confinement within a nanofluidic channel. The mobility of Hfq is significantly influenced by DNA methylation. Our results underscore the importance of bacterial epigenetic modifications in governing the movement of nucleoid associated proteins such as Hfq. Increased levels of methylation result in enhanced binding affinity, which in turn slows down the diffusion of Hfq on DNA. The reported control of protein mobility by DNA methylation has potential implications for the mechanisms involved in target DNA search processes and dynamic modelling of the bacterial chromosome.