Carbohydrates and Carbohydrate-Recognising Proteins as Drug Discovery Targets. The significance and roles of carbohydrates in many biological processes, in particular those processes associated with disease, is now well-recognised. These new directions have captured the attention and imagination of not only academic research groups across the world, but also pharmaceutical and biotechnology companies and has restimulated their interest in the pursuit of carbohydrate-based drugs and drugs against ....Carbohydrates and Carbohydrate-Recognising Proteins as Drug Discovery Targets. The significance and roles of carbohydrates in many biological processes, in particular those processes associated with disease, is now well-recognised. These new directions have captured the attention and imagination of not only academic research groups across the world, but also pharmaceutical and biotechnology companies and has restimulated their interest in the pursuit of carbohydrate-based drugs and drugs against carbohydrate-recognising proteins critical in disease processes. The current application seeks to use some of this information to faciliate the discovery of novel carbohydrate-based chemical entities as inhibitors of the spread of some cancers and diseases caused by pathogenic microorganisms.Read moreRead less
Chemical Mimics Of Bioactive Protein Surfaces. Frontier chemical technology will be developed and applied to construction of new compounds that mimic unstable fragments of bioactive protein surfaces. New materials can contribute to National Research Priorities by presenting new ways of impacting on infection, diseases of the aged, and preventative medicine (drugs, vaccines, diagnostics). The technology and materials will advance basic science at the chemistry-biology interface; permit new applic ....Chemical Mimics Of Bioactive Protein Surfaces. Frontier chemical technology will be developed and applied to construction of new compounds that mimic unstable fragments of bioactive protein surfaces. New materials can contribute to National Research Priorities by presenting new ways of impacting on infection, diseases of the aged, and preventative medicine (drugs, vaccines, diagnostics). The technology and materials will advance basic science at the chemistry-biology interface; permit new applications in medicine, science and industry; present new economic opportunities for building and strengthening Australian companies; attract and train outstanding young people in interdisciplinary science; and enhance the international reputation of Australian science and technology.Read moreRead less
Deciphering genome function in animal development. The normal development of an embryo depends on complex and finely tuned gene regulatory mechanisms. In this Fellowship, I will use sophisticated new technologies to discover which of our 30,000 genes is important for embryonic development, reveal the roles of these genes, and identify the control mechanisms that can go awry to cause birth defects. Our research will suggest new ways to diagnose and deal with these conditions, and will be applicab ....Deciphering genome function in animal development. The normal development of an embryo depends on complex and finely tuned gene regulatory mechanisms. In this Fellowship, I will use sophisticated new technologies to discover which of our 30,000 genes is important for embryonic development, reveal the roles of these genes, and identify the control mechanisms that can go awry to cause birth defects. Our research will suggest new ways to diagnose and deal with these conditions, and will be applicable to stem cell technologies, tissue regeneration, cancer biology, conservation, pest management and livestock breeding, thus delivering significant economic and social benefits to Australia. Read moreRead less
Cellular Plasticity in the Brain: discovering molecular mechanisms controlling the production of neurons during brain development, function, ageing and disease. The program aims to understand the mechanisms regulating Brain Plasticity - this recently discovered property of the brain to respond to environmental stimuli, both physiological and pathological, by producing new functional neurons. Specifically, the program will discover how the brain's stem cells are stimulated to produce new neurons. ....Cellular Plasticity in the Brain: discovering molecular mechanisms controlling the production of neurons during brain development, function, ageing and disease. The program aims to understand the mechanisms regulating Brain Plasticity - this recently discovered property of the brain to respond to environmental stimuli, both physiological and pathological, by producing new functional neurons. Specifically, the program will discover how the brain's stem cells are stimulated to produce new neurons. This understanding will significantly expand our knowledge of how the brain develops, and how functions, like memory, are modulated by neuronal replacement. Discoveries will underpin the development of, in association with Australia's biotechnology sector, a new generation of therapeutics, which treat neurological diseases, like Stroke, by stimulating the production of functional neurons.Read moreRead less