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Integration of the <i>Salmonella</i> Typhimurium Methylome and Transcriptome Reveals That DNA Methylation and Transcriptional Regulation Are Largely Decoupled under Virulence-Related Conditions

Jeffrey S. Bourgeois, Caroline Anderson, Liuyang Wang, Jennifer L. Modliszewski, Wei Chen, Benjamin H. Schott, Nicolas Devos, Dennis C. Ko

2022mBio20 citationsDOIOpen Access PDF

Abstract

While recent breakthroughs have enabled intense study of bacterial DNA modifications, limitations in current work have potentiated a surprisingly untested narrative that DNA methylation is a common mechanism of the bacterial response to environmental conditions. Essentially, whether epigenetic regulation of bacterial transcription is a common, generalizable phenomenon is a critical unanswered question that we address here. We found that most DNA methylation is static in Salmonella enterica serovar Typhimurium, even when the bacteria are grown under dramatically different conditions that cause broad changes in the transcriptome. Further, even when the methylation of individual bases change, these changes generally do not correlate with changes in gene expression. Finally, we demonstrate methods by which data can be stratified in order to identify coupled changes in methylation and gene expression.

Topics & Concepts

DNA methylationEpigeneticsTranscriptomeBiologyDNAGeneticsVirulenceTranscription (linguistics)MethylationComputational biologyGeneGene expressionLinguisticsPhilosophyBacterial Genetics and BiotechnologyVibrio bacteria research studiesMicrobial Community Ecology and Physiology
Integration of the <i>Salmonella</i> Typhimurium Methylome and Transcriptome Reveals That DNA Methylation and Transcriptional Regulation Are Largely Decoupled under Virulence-Related Conditions | Litcius