Seeking causes of unexplained respiratory illness in children by identifying new respiratory viruses. Many respiratory illnesses including the common cold, ear infections, asthma attacks, the flu and pneumonia have no known cause even after all specimen testing is complete. This project will use 'virus hunting' experience to find and sequence as-yet-undiscovered viruses from such specimens so that they can be studied in more detail.
Fragment based screening to deliver drugs targeting tuberculosis and the gametocyte and liver stages of Plasmodium. This project will identify natural products that bind to critical proteins in malaria and tuberculosis to discover new ways to treat these diseases.
SNARE-mediated perforin and cytokine release in natural killer cells. Cytotoxic cells release toxic granules and cytokine messengers to kill pathogen infected and cancerous cells and to mount immune responses. This project will investigate different SNARE molecules that regulate the secretion of perforin from granules and cytokines from other carriers, assisting in the understanding of complex but essential cellular pathways.
Formation of the Chlamydial Inclusion Requires Host Trafficking Pathways. Using cellular and biochemical approaches this project aims to examine the membrane trafficking pathways hijacked by the pathogen Chlamydia and to define the key components of these pathways. Chlamydia are obligate intracellular pathogens responsible for a range of human and animal diseases. In order to survive within the host cell, the pathogen hijacks the host's membrane trafficking pathways to engineer an intracellular ....Formation of the Chlamydial Inclusion Requires Host Trafficking Pathways. Using cellular and biochemical approaches this project aims to examine the membrane trafficking pathways hijacked by the pathogen Chlamydia and to define the key components of these pathways. Chlamydia are obligate intracellular pathogens responsible for a range of human and animal diseases. In order to survive within the host cell, the pathogen hijacks the host's membrane trafficking pathways to engineer an intracellular niche called an inclusion. In addition to providing a permissive environment, this strategy also shields the pathogen from the host's immune system.Read moreRead less
Regulation of human immunodeficiency virus type 1 (HIV-1) replication by viral and cellular proteins. Using a mouse model, human cells will be treated with a very powerful antiviral protein using a gene therapy approach so as to block the human immunodeficiency virus (HIV) from growing. By learning how this antiviral protein works, this project will assist in the development of new strategies to treat HIV infection.