Phosphatase Regulators Mediate Long-term Changes In Presynaptic Terminals
Funder
National Health and Medical Research Council
Funding Amount
$984,163.00
Summary
The strength of communication between each nerve cell in the brain depends on how active that nerve cell has been. This enables the brain to be adaptable and is a way for the brain to set up circuits that underlie how we learn and remember. More or less release of chemical messengers (neurotransmitters) into nerve cell junctions changes the strength of nerve cell communication. We have discovered a new chemical signalling pathway controlling neurotransmitter release.
Chemical Aided Phospoproteome Sequencing With Mass Spectrometry
Funder
National Health and Medical Research Council
Funding Amount
$141,000.00
Summary
Essentially all of the body's functions from muscle contraction, energy expenditure through to appetite are controlled by a complex molecular communications system. One of the key elements involves the modification of proteins to alter their properties by adding and removing phosphate. By analysing this process in response to diet and exercise we will obtain a greater understanding of their health benefits and understand how type 2 diabetes and obesity develop at the molecular level.
The Role Of Parasite Adhesins In Plasmodium Falciparum Invasion Of Human Erythrocytes
Funder
National Health and Medical Research Council
Funding Amount
$385,434.00
Summary
Invasion of red blood cells is essential for the survival of malaria parasite within the human host. Red blood cell invasion is mediated by recognition of parasite proteins to specific blood surface receptors. My research focuses on understanding these parasite protein-host receptor interactions with emphasis on translating these findings as novel approaches for the prevention and treatment of malaria.
Metabolic Wiring In Adipocytes - Unique Role In Maintaining Long-term Health
Funder
National Health and Medical Research Council
Funding Amount
$1,077,886.00
Summary
Fat cell metabolism is wired to optimize the cell’s ability to make and store lipid while programming the cell to fulfil its function in whole body metabolism. We will: 1) map fat cell metabolism under optimal and insulin resistant conditions; 2) explore the role of 3 nodes in his metabolic circuit predicted as control points; 3) use a novel genetically engineered mouse model to explore the functional significance of fat cell metabolism in whole body insulin sensitivity.