Skip Navigation

Masks are required inside all of our care facilities. We are vaccinating all eligible patients. Learn more:

Vaccines, Boosters & Additional Doses | Testing | Patient Care | Visitor Guidelines | Coronavirus | Email Alerts

Find more COVID-19 testing locations on Maryland.gov.

Find a Research Lab

Research Lab Results for malaria

Displaying 1 to 8 of 8 results
Results per page:
  • Caren L. Freel Meyers Laboratory

    Lab Website

    The long-term goal of the Caren L. Freel Meyers Laboratory is to develop novel approaches to ki...ll 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.
    view more

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

    Lab Website
    Principal Investigator:
    Christopher Potter, Ph.D.
    Neuroscience

    The Christopher Potter Lab functions at an intersection between systems and cellular neuroscien...ce. We are interested in how neurons and circuits function in the brain to achieve a common goal (olfaction), but we also develop, utilize and build tools (molecular and genetic) that allow us to directly alter neuronal functions in a living organism. The specific focus of my laboratory is to understand how the insect brain receives, interprets, and responds to odors. Insects rely on their sense of smell for all major life choices, from foraging to mating, from choosing where to lay eggs to avoiding predators and dangers. We are interested in understanding at the neuronal level how odors regulate these behaviors. Our long-term aim is to apply this knowledge to better control insects that pose a threat to human health. Our general approach towards achieving this goal is to develop and employ new genetic methods that enable unprecedented control over neural circuits in both the model organism Drosophila melanogaster and human malaria vector Anopheles gambiae. view more

    Research Areas: neural circuits, neurons, brain, neuroscience, olfactory system
  • Peter Agre Lab

    Principal Investigator:
    Peter Agre, M.D.
    Biological Chemistry

    Work in the Peter Agre Lab focuses on the molecular makeup of human diseases, particularly mala...ria, hemolytic anemias and blood group antigens. In 2003, Dr. Agre earned the Nobel Prize in Chemistry for discovering aquaporin water channels. Building on that discovery, our recent research has included studies on the protective role of the brain water channel AQP4 in murine cerebral malaria, as well as defective urinary-concentrating ability as a result of a complete deficiency in aquaporin-1. We also collaborate on scientific training and research efforts with 20 Baltimore-area labs and in field studies in Zambia and Zimbabwe. view more

    Research Areas: infectious disease, anemia, malaria
  1. 1
Create lab profile
Edit lab profile
back to top button