RfaH Counter-Silences Inhibition of Transcript Elongation by H-NS–StpA Nucleoprotein Filaments in Pathogenic Escherichiacoli
Christine M. Hustmyer, Michael B. Wolfe, Rodney A. Welch, Robert Landick
Abstract
, and RNA polymerase (RNAP) locations on DNA in the uropathogenic E. coli strain CFT073. Although H-NS-StpA filaments bind only 18% of the CFT073 genome, all loci at which RfaH binds RNAP are also bound by H-NS-StpA and are silenced when RfaH is absent. Thus, RfaH represents a distinct class of counter-silencer that acts on elongating RNAP to enable transcription through repressive nucleoprotein filaments. Our findings define a new mechanism of elongation counter-silencing and explain how RfaH functions as a virulence regulator.
Topics & Concepts
OperonRegulonBiologyTranscription (linguistics)RNA polymeraseDNAElongation factorRepressor lexAGeneticsEscherichia coliCell biologyMolecular biologyGeneRepressorRNATranscription factorRibosomeLinguisticsPhilosophyEscherichia coli research studiesBacterial Genetics and BiotechnologyAntibiotic Resistance in Bacteria