Project description:Nosocomiicoccus ampullae overview

Project description:Nosocomiicoccus ampullae DSM 19163 genome sequencing

Project description:Nosocomiicoccus ampullae 19-00310 genome sequencing and assembly

Project description:Nosocomiicoccus ampullae DSM 19163 genome sequencing and assembly

Project description:VRE blood culture isolates 2018-2021

Project description:WGS blood culture isolates from critically ill patients

Project description:Gene expression in human umbilical vein endothelial cells (HUVEC) was investigated by microarray analysis after 4 h infection with S. aureus isolated from healthy nasal carriers (n=5) and from blood (n=5) of septic patients. All bacterial isolates were spa-typed and characterized with a DNA microarray to determine the presence of virulence genes. Experiment Overall Design: Five S. aureus (designated BI-BV) from a collection of blood culture isolates (Department of Clinical Microbiology, Ryhov County Hospital, Jönköping, Sweden) from septic patients were selected. Isolates from patients with diabetes, endocarditis, drug addicts and persons with an operation within the three last years were excluded. Two S. aureus isolates were from patients with an abscess in the psoas muscle, two from patients with spondylitis and one from a wound in the neck. Another five isolates (CI-CV) were randomly selected from a collection of S. aureus obtained from healthy male nasal carriers collected in a previous study.

Project description:Nosocomiicoccus sp. overview

Project description:The opportunistic pathogen Staphylococcus aureus is carried asymptomatically by about one-third of the human population. Body sites known to be colonized by S. aureus are the skin, nasopharynx and gut. In particular, the mechanisms that allow S. aureus to pass the gut epithelial barrier and to invade the bloodstream are poorly understood. Therefore, our present study was aimed at investigating possible differences between gut-colonizing and bacteremia isolates of S. aureus. To this end, 74 gut-colonizing isolates from healthy individuals and 144 blood-culture isolates were characterized by whole-genome sequencing. Subsequently, the cellular and extracellular proteomes of six representative isolates were examined by mass spectrometry. Lastly, the virulence potential of these isolates was evaluated using infection models based on human gut epithelial cells, blood cells, and a small animal infection model. Intriguingly, our results show that gut-colonizing and bacteremia isolates with the same sequence type (ST1 or ST5) are very similar at the genomic and proteomic levels. Nonetheless, they display differences in virulence, but gut-colonizing isolates may be more virulent than bacteremia isolates and vice versa. Importantly, we show that the main decisive factor preventing infection of gut epithelial cells in vitro is the presence of a tight barrier. Based on our present observations, we propose that the integrity of the gut epithelial layer, rather than the pathogenic potential of a gut-colonizing S. aureus strain, is the main decisive factor that determines whether this colonizer will become an invasive pathogen.

Project description:Whole genome sequencing of Staphylococcus aureus clinical isolates from blood culture