Project description:Macrolide resistance, increasingly identified in Streptococcus pneumoniae and a wide range of other Gram-positive bacteria, is often due to efflux pumps encoded by the mef/mel(msr) operon found on discrete mobile genetic elements. The regulation of mef/mel(msr) in these elements is not well understood. We defined the promoter controlling the mef(E)/mel operon in S. pneumoniae, identified cis-acting 5′ regulatory elements and determined the mechanism of macrolide-inducible expression of the efflux pump. The mef(E)/mel transcriptional start site was a guanine 327 bp upstream of the mef(E) start codon. Consensus pneumococcal promoter -10 (5′-TATACT-3′) and -35 (5′-TTGAAC-3′) boxes separated by a 17 bp spacer were identified 7 bp upstream of the start site. Analysis of the predicted secondary structure of the 327 bp 5’ region identified four pairs of inverted repeats R1-R8 predicted to fold into stem-loops, a small leader peptide (MTASMRLR) required for macrolide induction and a Rho-independent transcription terminator involving the R5/R6 stem loop. Mutational analyses of the regulatory region identified transcriptional attenuation as the model for the inducible expression of macrolide efflux, which was confirmed by RNA-Seq expression data. The 327 bp region 5’ of mef(E) was highly conserved in other mef/mel(msr)-containing genetic elements complexes including Tn1207.1 and the 5612IQ complex in pneumococci and Tn1207.3 in Group A streptococci. Induction of the mef(E)/mel operon and macrolide efflux occurs by anti-attenuation in the presence of inducing macrolides and appears to be a mechanism

Project description:Macrolide resistance, increasingly identified in Streptococcus pneumoniae and a wide range of other Gram-positive bacteria, is often due to efflux pumps encoded by the mef/mel(msr) operon found on discrete mobile genetic elements. The regulation of mef/mel(msr) in these elements is not well understood. We defined the promoter controlling the mef(E)/mel operon in S. pneumoniae, identified cis-acting 5′ regulatory elements and determined the mechanism of macrolide-inducible expression of the efflux pump. The mef(E)/mel transcriptional start site was a guanine 327 bp upstream of the mef(E) start codon. Consensus pneumococcal promoter -10 (5′-TATACT-3′) and -35 (5′-TTGAAC-3′) boxes separated by a 17 bp spacer were identified 7 bp upstream of the start site. Analysis of the predicted secondary structure of the 327 bp 5’ region identified four pairs of inverted repeats R1-R8 predicted to fold into stem-loops, a small leader peptide (MTASMRLR) required for macrolide induction and a Rho-independent transcription terminator involving the R5/R6 stem loop. Mutational analyses of the regulatory region identified transcriptional attenuation as the model for the inducible expression of macrolide efflux, which was confirmed by RNA-Seq expression data. The 327 bp region 5’ of mef(E) was highly conserved in other mef/mel(msr)-containing genetic elements complexes including Tn1207.1 and the 5612IQ complex in pneumococci and Tn1207.3 in Group A streptococci. Induction of the mef(E)/mel operon and macrolide efflux occurs by anti-attenuation in the presence of inducing macrolides and appears to be a mechanism RNA-seq was performed on wild type and mutant cultures of four strains of Streptococcus pneumoniae untreated, or treated with spiramycin, LL-37 or erythromycin

Project description: Not available

Project description: Not available

Project description: Not available

Project description: Not available

Project description: Not available

Project description: Not available

Project description: Not available

Project description: Not available