Melinda R. Grosser

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UNLABELLED The ability of Staphylococcus aureus to resist host innate immunity augments the severity and pervasiveness of its pathogenesis. Nitric oxide (NO˙) is an innate immune radical that is critical for the efficient clearance of a wide range of microbial pathogens. Exposure of microbes to NO˙ typically results in growth inhibition and induction of(More)
Neutrophils serve critical roles in inflammatory responses to infection and injury, and mechanisms governing their activity represent attractive targets for controlling inflammation. The commensal microbiota is known to regulate the activity of neutrophils and other leucocytes in the intestine, but the systemic impact of the microbiota on neutrophils(More)
UNLABELLED Acquisition of numerous virulence determinants affords Staphylococcus aureus greater pathogenicity than other skin-colonizing staphylococci in humans. Additionally, the metabolic adaptation of S. aureus to nonrespiratory conditions encountered during infection (e.g., hypoxia, nitric oxide, iron chelation) has been implicated as contributing to S.(More)
For bacterial species that are not known to be naturally competent, such as Staphylococcus aureus and Staphylococcus epidermidis, electroporation is an efficient method for introducing genetic material into the cell. The technique utilizes electrical pulses to transiently permeabilize bacterial cell membranes, which allows for the passage of plasmid DNA(More)
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