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Mass spectrometry to reveal the role of lipids in protein misfolding. This project aims to develop an integrated mass spectrometry-based approach to determine structures and dynamics of membrane associated proteins, and discover how lipids cause protein misfolding implicated in neurodegeneration. Lipid membranes may influence protein (mis)folding, aggregation and related toxicity. However, the complex and dynamic nature of the lipid-protein interactions involved means traditional methods cannot ....Mass spectrometry to reveal the role of lipids in protein misfolding. This project aims to develop an integrated mass spectrometry-based approach to determine structures and dynamics of membrane associated proteins, and discover how lipids cause protein misfolding implicated in neurodegeneration. Lipid membranes may influence protein (mis)folding, aggregation and related toxicity. However, the complex and dynamic nature of the lipid-protein interactions involved means traditional methods cannot easily characterise them, and they are poorly understood at a molecular level. The project expects to develop tools to bridge a critical gap in structural biology, while understanding lipid-protein interactions could lead to new therapies. This will ultimately provide benefits such as reduced health costs and better health outcomes.Read moreRead less
Boosting brain plasticity and motor function in older adults. Ageing is associated with a pronounced decline in many motor, cognitive, and other brain functions, but the cause remains elusive. This project will examine the mechanisms that contribute to a decline in brain plasticity and motor function in the elderly. Using novel brain stimulation techniques, the project aims to develop an optimal approach to boost plasticity in the ageing brain and improve motor function. A better understanding o ....Boosting brain plasticity and motor function in older adults. Ageing is associated with a pronounced decline in many motor, cognitive, and other brain functions, but the cause remains elusive. This project will examine the mechanisms that contribute to a decline in brain plasticity and motor function in the elderly. Using novel brain stimulation techniques, the project aims to develop an optimal approach to boost plasticity in the ageing brain and improve motor function. A better understanding of changes in brain function and plasticity with advancing age is expected to help to optimise the design of preventative programs aimed at rejuvenating motor and cognitive function in the elderly.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101494
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Terahertz sensing of proteins associated with Alzheimer's disease. This project aims to use terahertz radiation to study the proteins associated with Alzheimer's Disease (AD) in order to contribute towards the development of an accurate, non-invasive diagnostic tool. The project will increase our knowledge of the causes of AD, improve its diagnosis, and allow for better treatment to target the symptoms of AD.