Project description:Various mutations in the rpoB gene, which encodes the RNA polymerase beta subunit, are associated with increased vancomycin (VAN) resistance in vancomycin-intermediate S. aureus (VISA) and hetero-VISA (hVISA) strains. We reported that rpoB mutations are also linked to the expression of the recently found slow VISA (sVISA) phenotype (Saito et al 2014 AAC). Because RpoC and RpoB are components of RNA polymerase, we examined the effect of rpoC(P440L) mutation on the expression of the sVISA phenotype in the Mu3fdh2*V6-5 strain (V6-5), which was derived from a previously reported hVISA strain with the VISA phenotype. V6-5 had an extremely prolonged doubling time (72.2 min) and high vncomycin MIC (16 mg/L). However, the phenotype of V6-5 was unstable, and the strain frequently reverted to hVISA with concomitant loss of slow growth rate, cell wall thickness, and reduced autolysis. Whole genome sequencing of phenotypic revertant strain V6-5-L1 and comparison with V6-5 revealed a second mutation F562L in rpoC. Introduction of the wild-type rpoC gene using multi-copy plasmid resolved the sVISA phenotype of V6-5, indicating that rpoC(P440L) mutation expressed the sVISA phenotype in hVISA. To investigate the mechanisms of resistance in the sVISA strain, we independently isolated additional 10 revertants to hVISA and VISA. In subsequent whole genome analysis, we identified compensatory mutations in the genes of three distinct functional categories; rpoC gene itself as regulatory mutations, peptidoglycan biosynthesis genes, and relQ which is involved in stringent response. It appears that rpoC(P440L) mutation causes sVISA phenotype by augmenting cell-wall peptidoglycan synthesis, and through the control of stringent response. 9 analysis using 60 mer-oligo microarray, 4 rpoC mutant, 2 relQ mutant, 2 mutations associated with the peptidoglycan, 1 wild-type strain

Project description:Understanding novel mechanism bacteria ustilize in the clinics to become resistant to antibiotics is critical. The study aims to identify genes associated with Vancomycin resistance. Clinical isolates from a single patient with increasing resistance to vancomycin were grown in the presence and absence of vancomycin.Staphylococcus aureus strain 2275 is the reference for this series. S. aureus isolates from a single patient were grown in the presence and absence of vancomycin over a 2 hour time course. RNA samples were extracted at 30, 60 90 and 120 minutes post exposure to antibiotic. Samples were hybridized on aminosilane coated slides with 70-mer oligos comparing mock treated and treated cells to the first strain isolated in the lineage. Differnetial gene expression patterns were determined.

Project description:Vancomycin tolerance in multidrug resistance Staphylococcus aureus is correlated with dysregulation of small RNAs although their contribution to antibiotic tolerance in poorly understood. RNA-RNA interactome profiling techniques are expanding our understanding of sRNA-mRNA interactions in bacteria; however, determining the function of these interactions for hundreds of sRNA-mRNA pairs is a major challenge. At steady-state, protein and mRNA abundances are often highly correlated and lower than expected protein abundance may indicate translational repression of an mRNA. We used label-free quantitative proteomics to examine changes in protein expression in vancomycin tolerant S. aureus strain in response to vancomycin treatment. We correlated the protein levels with gene transcript abundance and ribosome occupancy to identify sRNA-mRNA interactions that regulate mRNA translation. We used the machine learning technique self-organising maps (SOMS) to cluster genes with similar transcription and translation patterns and identified a cluster of mRNAs that appeared to be post-transcriptionally repressed. By integrating our clustering analysis with the sRNA-mRNA interactome data generated in vancomycin tolerant S. aureus by RNase III-CLASH, we identified a cluster of sRNAs that may be mediating translational repression. We have confirmed sRNA-dependant post-transcriptional repression of several mRNAs in this cluster. Two of these interactions are mediated by RsaOI, a sRNA that is highly upregulated by vancomycin, and these targets include HPr and the cell-wall autolysin Atl, with only Atl downregulated at the protein level upon vancomycin treatment. These findings suggest RsaOI coordinates carbon metabolism and cell wall turnover during vancomycin treatment

Project description:To determine the response at the transcriptional level of S. coelicolor cells to treatment with 3 antibiotics that target distinct stages of cell wall biosynthesis, biological triplicate cultures of strain M600 were treated with sub-lethal concentrations (10 µg/ml) of vancomycin, bacitracin or moenomycin A. Samples were taken 0, 30, 60, 90 minutes after addition of the antibiotic. A negative control which received no drug treatment was also performed.

Project description:This study aims to determine the global gene expression in vancomycin resistant Enterococcus faecium (VRE) in response to a novel essential oil-vancomycin combination, and the individual components (vancomycin, carvacrol and cuminaldehyde) to help determine the mechanism of action of this antimicrobial formulation. This formulation increases the susceptibility of VRE to vancomycin and the array provides data on the synergistic mechanism of action. Five conditions (1. Control; 2. Carvacrol, 1.98 mM; 3. Cuminaldehyde, 4.20 mM; 4. Vancomycin, 0.031 mg/l; 5. Combination, 1.98 mM Carvacrol, 4.2 mM Cuminaldehyde, 0.031 mg/l vancomycin) all with 1% DMSO were tested in triplicate with a 60 minute exposure time before extraction.

Project description:We used transcriptome profiling by RNAseq to identify the gene expression signatures elucidated in S. coelicolor in response to the three different glycopeptide compounds that share high degree of structural similarities and the same primary mode of action: dalbavancin, vancomycin and chlorobiphenyl-vancomycin.

Project description:The study aims to identify genes associated with Vancomycin resistance. Wild type and a mutant cells line were treated with antibiotic at multiple concentrations and RNA samples extracted over a two hour time course.Staphylococcus aureus strain PA is the reference for this series. Wild type and a mutant cells line were treated with antibiotic at multiple concentrations and RNA samples extracted over a two hour time course. Samples were hybridized on aminosilane coated slides with 70-mer oligos.

Project description:This project investigates the changes in proteome profiles that occurred in the same set of S. mutans wild-type and lrgAB mutant samples used in our recently published RNA-seq study. To this end, mass spectrometry-based label-free quantitative proteomics, a technology known to enable comprehensive identification and quantification of complete bacterial proteomes, was adapted to study changes in S. mutans intracellular protein levels in response to aeration, heat, and vancomycin stress. Furthermore, the degree of correlation between S. mutans protein abundance profiles and gene expression changes was determined. Further understanding of these combined “-omics” data at the cellular or molecular level will enhance our knowledge of Cid/Lrg-mediated cellular responses of S. mutans to adverse environments. Furthermore, these “-omics” data will serve as a valuable resource that can be mined to help clarify the role of the S. mutans stress response and physiological activity to its dynamic survival in the oral cavity.

Project description:Transcriptional profiling to investigate the effect of drug treatment on the E. faecalis cells. For microarray analysis, E. faecalis OG1RF was grown in FMC medium supplemented with 10 mM glucose to an optical density at 600 nm (OD600) of 0.3 and the cultures were divided in 3 aliquots. One aliquot was collected by centrifugation and immediately frozen (untreated control cells). The other aliquots were treated for 30 or 60 min with 1.25 X the minimum inhibitory concentration (MIC) of vancomycin (10 M-NM-<g ml-1). After an exposure time of 30 or 60 minutes, each of these cultures was also centrifuged and the pellets frozen. RNA was then isolated from each pellet for microarray analysis. This process was repeated 3 additional times, for a total of four replicates of each condition. RNA was extracted from four replicate samples of each condition of interest (control cells grown to OD600 = 0.3 in FMC medium supplemented with 10mM glucose, then treated with vancomycin for 30 or 60 minutes) and labeled with Cy3. For each replicate, labeled RNA was hybridized to slides along with Cy5-labeled reference RNA, extracted from E. faecalis OG1RF cells grown in BHI medium to mid-log.

Project description:SigE is a sigma factor found in Streptomyces species and is the key regulator of cell envelope stress response in Streptomyces coelicolor. To determine the regulon of SigE under conditions of cell envelope stress, 10 ug / ml vancomycin was used to induce cell envelope stress in the wild type and a sigE deletion strain of S. coelicolor. Samples were taken 0, 30, 60 and 90 minutes after addition of vancomycin and subjected to transcriptional profiling using Affymetrix arrays. Note – equivalent data for wild type Streptomyces coelicolor M600 is submitted as part of E-MEXP-3032. The data for both M600 (E-MEXP-3032) and J2130 (this submission) were generated at the same time employing the same protocols.