ABSTRACT: Molecular characterization of multi-drug resistant (MDR) Gram-negative pathogens from hospital environments, patients and staff in a teaching hospital in Ghana
Project description:Children with acute measles were admitted to the University Teaching Hospital in Lusaka, Zambia. Peripheral blood was collected at hospital entry, discharge and 1-month follow-up. Control samples were also collected from uninfected children. All children were HIV negative. Keywords: Clinical timecourse
2007-06-07 | GSE5808 | GEO
Project description:Hospital Epidemiology Study, Neonatal Sepsis in the Ho Teaching Hospital, Ghana
Project description:Regulatory RNAs (sRNAs) are now considered as major players in many physiological and adaptive responses in pathogenic bacteria. sRNAs have been extensively studied in Gram-negative bacteria, but less information is available in Gram-positive pathogens. There is a spread of multidrug-resistant (MDR) opportunistic organisms, grouped as “ESKAPE” pathogens, which comprise enterococci, a leading cause of hospital-acquired infections and outbreaks with emergence of MDR isolates, especially vancomycin-resistant Enterococcus faecium (VREF). Note that no information about sRNA expression is known in this major opportunistic pathogen. By transcriptomic and genomic analyses using E. faecium Aus0004 reference strain, 249 transcribed IGRs, including sRNA candidates, were detected and, using a series of cut-offs, this set was lowered down to 54 sRNAs while 7 that were predicted based on comparative sequence analysis. RNA-seq was performed with and without subinhibitory concentrations (SIC) of daptomycin, a cyclic lipopeptide antibiotic used for VREF infections. Under daptomycin SIC exposure, 260 genes (9.1% of the genome) had a significant alteration of expression including 80 upregulated genes and 180 downregulated genes. Among the repressed genes, a large proportion (55%) coded for proteins involved in carbohydrate and transport metabolism. Also, we focused on the 9 sRNAs exhibiting the highest expression, and all of them were confirmed as expressed along bacterial growth by Northern blots and qPCR. Out of these 9 sRNAs, four had significantly lower or higher expression in the presence of daptomycin SIC, and therefore responded to antibiotic exposure. Finally, we also tested the expression of these 9 sRNAs in a collection of isogenic Aus0004 mutants with increasing levels of daptomycin resistance, and we observed by qPCR that some sRNAs had a significantly modified expression in daptomycin resistance mutants. It highlights the significant implication of some of the E. faecium sRNAs in the early steps of the development of daptomycin resistance. This is the first experimental genome-wide sRNA identification in Gram-positive E. faecium, a leading cause of hospital acquired infections.
2017-02-16 | GSE94924 | GEO
Project description:Genome sequencing of MDR bacteria from a veterinary teaching hospital
Project description:Elizabethkingia meningoseptica previously known as Chryseobacteriummeningosepticum is a gram-negative bacillus, commonly encountered in hospital environment. The pathogen is highly prevalent in hospital acquired neonatal meningitis. We performed unbiased global proteomic profiling and Proteogenomics analysis of E meningoseptica using shotgun proteomic sequencing approach. In all, we report peptide level evidence for 2796 annotated proteins. In addition, proteogenomic analysis of GSSPs resulted in the identification of four novel genes and revised existing annotation of seven genes. This database will serve as a crucial tool for future studies such as drug and vaccine design.
