Structural And Drug Discovery Studies Of Medically Important Protein Complexes
Funder
National Health and Medical Research Council
Funding Amount
$438,577.00
Summary
My research is focused on structural studies of medically important biological systems, where specific protein complex formation contributes to human illnesses. I use X-ray crystallography to visualize the whole complex at atomic resolution as well as to determine whether binding partners have undergone changes in shape upon complex formation. This structural information then helps me in drug design with goals to either disrupt or modulate the complex.
Discovering And Targeting Genes Regulating Skeletal Muscle Function, Metabolism, And Adaptations To Exercise Interventions
Funder
National Health and Medical Research Council
Funding Amount
$431,000.00
Summary
Muscle wasting and decreased in mitochondrial function due to ageing or lack of physical activity are associated with reduced quality of life. The overarching aim is to develop a unique research program focusing on targeting specific genes, and to discover novel genes regulating muscle wasting and mitochondrial (dis)function. I anticipate this approach to assist in the development of targeted and personalised prevention and therapy for diseases associated with muscle (dis)function.
Understanding Allosteric Modulation And Biased Signalling At Family B GPCRs
Funder
National Health and Medical Research Council
Funding Amount
$428,065.00
Summary
Family B GPCRs are therapeutic targets for drugs treating osteoporosis, hypercalcaemia, Paget’s disease, type II diabetes and are being actively pursued for other diseases that represent major global health burdens. Despite huge financial input, there are no orally available drugs that act on these receptors. This speaks to a lack of mechanistic understanding of how they work. My research focuses on addressing this question and how to exploit these receptors to design and identify better drugs.
Assembly Of Mitochondrial Respiratory Chain Complexes And Their Defects Associated With Disease.
Funder
National Health and Medical Research Council
Funding Amount
$413,431.00
Summary
Mitochondrial “respiratory chain complexes are multi-subunit assemblies that function to produce most of our cellular energy. Defects in the assembly of these complexes can result in mitochondrial disease, including infant death. The assembly of the respiratory complexes is a complicated procedure and the mechanisms involved in disease remain elusive. This work will aid in our understanding of how these protein complexes are built and how defects in their assembly can cause disease.