Structural insights of virus-glycan interactions. Influenza virus, rotavirus and Dengue virus infect the body by adhering to certain types of sugars on the human cell surface. This project will develop a detailed structural understanding of how viruses interact with those sugar molecules for the development of novel drugs and vaccines to combat influenza and rotaviral infections.
Automated structural analysis of proteins by nuclear magnetic resonance (ASAP-NMR): a leap forward in structural studies of proteins using NMR spectroscopy. Proteins form the machinery that makes life possible, and this research will revolutionise study of their three-dimensional structure by making the process faster and cheaper. This approach will be applied to study proteins isolated from animal venoms in order to identify and develop novel pharmaceuticals and bio-insecticides.
Elucidation of structure-function relationships in biological systems utilising advanced electron spin resonance. The human growth hormone receptor and mammalian P450 enzymes are implicated in numerous human disorders and the key to treatment is the rational design and delivery of drugs. This project will require a comprehensive understanding of the biological structure-function relationship which we will acquire using high-resolution electron spin resonance spectroscopy.