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DNA Methylation Epigenetically Regulates Gene Expression in Burkholderia cenocepacia and Controls Biofilm Formation, Cell Aggregation, and Motility

Ian Vandenbussche, Andrea Saß, Marta Pinto‐Carbó, Olga Mannweiler, Leo Eberl, Tom Coenye

2020mSphere27 citationsDOIOpen Access PDF

Abstract

CF patients diagnosed with Burkholderia cenocepacia infections often experience rapid deterioration of lung function, known as cepacia syndrome. B. cenocepacia has a large multireplicon genome, and much remains to be learned about regulation of gene expression in this organism. From studies in other (model) organisms, it is known that epigenetic changes through DNA methylation play an important role in this regulation. The identification of B. cenocepacia genes of which the expression is regulated by DNA methylation and identification of the regulatory systems involved in this methylation are likely to advance the biological understanding of B. cenocepacia cell adaptation via epigenetic regulation. In time, this might lead to novel approaches to tackle B. cenocepacia infections in CF patients.

Topics & Concepts

Burkholderia cenocepaciaEpigeneticsBiologyDNA methylationGeneRegulation of gene expressionBiofilmMethylationGeneticsBurkholderia cepacia complexGene expressionMicrobiologyBurkholderiaVirulenceBacteriaCystic Fibrosis Research AdvancesChild Nutrition and Water AccessEpigenetics and DNA Methylation
DNA Methylation Epigenetically Regulates Gene Expression in Burkholderia cenocepacia and Controls Biofilm Formation, Cell Aggregation, and Motility | Litcius