‘A Phosphorylation Signal Activates Genome-Wide Transcriptional Control by BfmR’

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“The nosocomial pathogen Acinetobacter baumannii is a major threat to human health. The sensor kinase-response regulator system, BfmS-BfmR, is essential to multidrug resistance and virulence in the bacterium and represents a potential antimicrobial target. Important questions remain about how the system controls resistance and pathogenesis. Although BfmR knockout alters expression of >1000 genes, its direct regulon is undefined. Moreover, how phosphorylation controls the regulator is unclear. Here, we address these problems by combining mutagenesis, ChIP-seq, and in vitro phosphorylation to study the functions of phospho-BfmR.”

Find the paper and full list of authors in Nucleic Acids Research.

View on Site: ‘A Phosphorylation Signal Activates Genome-Wide Transcriptional Control by BfmR’
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