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Displaying 1 to 3 of 3 results for bacterial pathogens

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  • Advanced Optics Lab

    The Advanced Optics Lab uses innovative optical tools, including laser-based nanotechnologies, to understand cell motility and the regulation of cell shape. We pioneered laser-based nanotechnologies, including optical tweezers, nanotracking, and laser-tracking microrheology. Applications range from physics, pharmaceutical delivery by phagocytosis (cell and tissue engineering), bacterial pathogens important in human disease and cell division.

    Other projects in the lab are related to microscopy, specifically combining fluorescence and electron microscopy to view images of the subcellular structure around proteins.

    Research Areas: optics, microscopy, physics, cellular biology, imaging, nanotechnology, drugs, tissue engineering

    Lab Website

    Principal Investigator

    Scot Kuo, Ph.D.


    Biomedical Engineering

  • Caren L. Freel Meyers Laboratory

    The long-term goal of the Caren L. Freel Meyers Laboratory is to develop novel approaches to kill human pathogens, including bacterial pathogens and malaria parasites, with the ultimate objective of developing potential therapeutic agents.

    Toward this goal, we are pursuing studies of bacterial isoprenoid biosynthetic enzymes comprising the methylerythritol phosphate (MEP) pathway essential in many human pathogens. Studies focus on understanding mechanism and regulation in the pathway toward the development of selective inhibitors of isoprenoid biosynthesis. Our strategies for creating new anti-infective agents involve interdisciplinary research in the continuum of organic, biological and medicinal chemistry. Molecular biology, protein expression and biochemistry, and synthetic chemistry are key tools for our research.

    Research Areas: bacterial pathogens, biochemistry, enzymes, infectious disease, protein expression, synthetic chemistry, isoprenoid biosynthesis, malaria, pharmacology, chemistry, molecular biology

  • Soloski Lab

    The Soloski Lab works to understand how infection can lead to the development of chronic immune-mediated diseases. Our lab studies the role of cellular immune response in controlling infection with gram-negative bacterial pathogens, such as Salmonella typhimurium. Our work has recently focused on the role of the intestinal mucosal immune compartment in controlling oral infection. This effort has identified a new unrecognized subset of T cells residing within the epithelial barrier that expands following infection. Current efforts concentrate on understanding the recognition properties and effector function of this T cell subset and determining if an analogous population exists in the human mucosa. We also strive to understand the human host immune response to infection with Borrelia burgdorfer, the causative agent of Lyme disease.

    Research Areas: bacterial pathogens, immunology, rheumatology, infectious disease, Lyme disease, autoimmune diseases, Salmonella, T cells

    Lab Website

    Principal Investigator

    Mark Soloski, Ph.D.



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