Project description:We aimed to compare transcriptomic changes in T cells in response to sterile bacterial culture supernatants derived from different E.coli and S.aureus strains. Gene expression was analyzed at two different time points.
Project description:Staphylococcus aureus is the most common cause of hospital-acquired infection. In healthy hosts outside of the health care setting, S.aureus is a frequent colonizer of the human nose but rarely causes severe invasive infection such as bacteremia, endocarditis, or osteomyelitis. To identify genes associated with community-acquired invasive isolates, regions of genomic variability, and the S.aureus population structure, we compared 61 community-acquired invasive isolates of S.aureus and 100 nasal carriage isolates from healthy donors using a microarray spotted with PCR products representing every gene from the seven S.aureus sequencing projects. The core genes common to all strains were identified, and 10 dominant lineages of S.aureus were clearly discriminated. Each lineage carried a unique combination of hundreds of core variable (CV) genes scattered throughout the chromosome, suggesting a common ancestor but early evolutionary divergence. Many CV genes are regulators of virulence genes or known or predicted to be expressed on the bacterial surface and to interact with the host during nasal colonization and infection. Within each lineage, isolates showed substantial variation in the carriage of mobile genetic elements and their associated virulence and resistance genes, indicating frequent horizontal transfer. However, we were unable to identify any association between lineage or gene and invasive isolates. We suggest that the S.aureus gene combinations necessary for invasive disease may also be necessary for nasal colonization and that community-acquired invasive disease is strongly dependent on host factors. Data is also available from http://bugs.sgul.ac.uk/E-BUGS-33
Project description:Macrophages infected with S. aureus were subjected to gene expression profiling to undertake a complete understanding of the interaction induced gene expression changes in both, S.aureus and the RAW macrophages.
Project description:Dermal macrophages were sorted from the ears of CCR2-/- mice that were uninfected, injected with PBS or injected with S.aureus strain Newmann 107 CFU/ml live S. aureus was injecetd in 10µl PBS.
Project description:understanding the biology of methicillin resistant staphylococcus aureus (MRSA) is crucialto unlocking insights for new targets in the fight against this pathogen, there is howeverlimited reports of methadological approaches for carrying proteomic and metabolomic profiling in S.aureus. Therefore, we describe the use of a dual-functionality methanol extraction method for the concurrent extraction of protein and metabolites from S.aureus and reporton the comparative analysis of the proteomic and metabolomic profiles of MRSA versus methicillin sensitive S. aureus (MSSA). Using a reference strain from MRSA and MSSA, we first compared the MRSA proteome extracted using the methanol method to the one from the traditionally used urea method. Then using the methanol extraction method, we compared the proteome and metabolome of MRSA versus MSSA. Through this study, we demonstrated the effectivnessof the methanol-based-dual-extraction method, providing simultaneous insights into the proteomic and metabolomic landscapes of S.aureus strains, demonstrating the utility of proteomic and metabolomic profiling for elucidating the biological basis of antimicrobial resistance
2024-08-10 | PXD050411 | Pride
Project description:Whole Genome Analysis of S.aureus
Project description:To identify new genetic elements required for S.aureus pathogenesis, we performed a transposon sequencing in the context of acute murine penumonia. We screened conditionally essential genes identified by Tn-seq and confirmed 6 previously uncharacterized genes were important during infection. As further study, we performed RNA-seq to identify uncharacterized genes.
Project description:OrR drosophila 3rd instar larvae were subjected to septic injury with a mixture of E.coli and S.aureus at 3h, 6h and 18h. Plasmatocytes were isolated afterwards and subjected to RNA-seq