Discovery Early Career Researcher Award - Grant ID: DE230100972
Funder
Australian Research Council
Funding Amount
$382,462.00
Summary
Reaching deeper into neuronal networks using optical physics. Understanding the functions and intricacies of the brain is a fundamental challenge in scientific research. This project aims to develop new technologies to construct a microscope able to alter and make sense of neuronal activity in situ. This project also aims to investigate the precise role of a key brain region involved in sensory processing: the locus coeruleus. The results will reveal how this brain region influences brain dynami ....Reaching deeper into neuronal networks using optical physics. Understanding the functions and intricacies of the brain is a fundamental challenge in scientific research. This project aims to develop new technologies to construct a microscope able to alter and make sense of neuronal activity in situ. This project also aims to investigate the precise role of a key brain region involved in sensory processing: the locus coeruleus. The results will reveal how this brain region influences brain dynamics as well as behaviour. Expected outcomes include state of the art microscopes, high impact publications, and international collaborations. The anticipated benefits are the high quality training of the Australian workforce and further establishment of Australia as a leader in microscopy and neuroscience.Read moreRead less
Cellular Ageing: Is the Plasma Membrane the Control Hub? This project aims to determine whether the plasma membrane lipid composition is a major driver of cellular ageing. It expects to generate new knowledge in the molecular mechanism of cellular ageing, utilising our team’s deep expertise in lipid biology, bioinformatics, biophysics, extracellular vesicle biology and cellular ageing. Expected outcomes include the identification of novel cellular ageing markers and anti-ageing targets while als ....Cellular Ageing: Is the Plasma Membrane the Control Hub? This project aims to determine whether the plasma membrane lipid composition is a major driver of cellular ageing. It expects to generate new knowledge in the molecular mechanism of cellular ageing, utilising our team’s deep expertise in lipid biology, bioinformatics, biophysics, extracellular vesicle biology and cellular ageing. Expected outcomes include the identification of novel cellular ageing markers and anti-ageing targets while also cementing long-standing partnerships and fostering new interdisciplinary collaborations. This cellular ageing study will provide novel insights into the basic principles of cellular behaviour, e.g. growth, differentiation, communication and death, reinforcing Australia’s leadership in biological science.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100585
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Does foot shape even matter? Rethinking the function of the human foot. Human feet are unique in shape and structure, having evolved to allow upright locomotion. Despite their importance, we don’t understand how foot shape and structure facilitates upright locomotion.This DECRA aims to explore the relationship between foot morphology and foot function. I will close a large knowledge gap by applying novel experimental and shape modelling approaches to provide unprecedented insights into human foo ....Does foot shape even matter? Rethinking the function of the human foot. Human feet are unique in shape and structure, having evolved to allow upright locomotion. Despite their importance, we don’t understand how foot shape and structure facilitates upright locomotion.This DECRA aims to explore the relationship between foot morphology and foot function. I will close a large knowledge gap by applying novel experimental and shape modelling approaches to provide unprecedented insights into human foot function. The primary expected outcome is a detailed understanding of how foot shape and structure influences our ability to walk and run. This research will create a paradigm shift in how we think about feet in the context of human evolution, human athletic performance and athletic footwear design.Read moreRead less