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Acquisition of the mitochondrial genome restores mitochondrial function. The aim of this project is to show that cancer cells with heavily damaged mitochondrial DNA (mtDNA) can acquire the mitochondrial genome from the host and that this results in the recovery of their mitochondrial function. The project is highly significant, as it aims to show in vivo mitochondrial transfer with functional consequences. The project aims to open a new avenue of research and could result in a shift in our under ....Acquisition of the mitochondrial genome restores mitochondrial function. The aim of this project is to show that cancer cells with heavily damaged mitochondrial DNA (mtDNA) can acquire the mitochondrial genome from the host and that this results in the recovery of their mitochondrial function. The project is highly significant, as it aims to show in vivo mitochondrial transfer with functional consequences. The project aims to open a new avenue of research and could result in a shift in our understanding of some features of cellular communication and how cells can overcome unfavourable situations.Read moreRead less
Cystine flux and hydrogen peroxide breakdown in reuteri group lactobacilli. We have discovered, and aim to fully dissect a novel function of reuteri group lactobacilli. These microbes inhabit the surfaces of the gastrointestinal and reproductive tracts of humans and are also used as probiotics, and in the dairy industry. This function mediates the production and breakdown of large amounts of hydrogen peroxide, cystine and thiols. These are highly bioactive and affect human cells and other bacter ....Cystine flux and hydrogen peroxide breakdown in reuteri group lactobacilli. We have discovered, and aim to fully dissect a novel function of reuteri group lactobacilli. These microbes inhabit the surfaces of the gastrointestinal and reproductive tracts of humans and are also used as probiotics, and in the dairy industry. This function mediates the production and breakdown of large amounts of hydrogen peroxide, cystine and thiols. These are highly bioactive and affect human cells and other bacteria at the surfaces of the gastrointestinal and reproductive tracts, and thiols are also flavourants in dairy products. Our research will inform the rational development of probiotics, the management and treatment of unpleasant conditions such as Crohn's disease and bacterial vaginosis, and innovation in dairy fermentations.Read moreRead less
Chemical principles underpinning a spermostatic-microbiostatic agent capable of preventing pregnancy and the spread of sexually transmitted disease. This project explores the development of a method for simultaneously controlling fertility while preventing the spread of sexually transmitted diseases. A novel aspect of the approach, that will dramatically influence product development, is that the active principles will only be generated on contact with seminal plasma.
Endosomal Protein Transport: From Molecular Structures to Biological Function. Intracellular transport of biomolecules through the endosomal organelle is critical for normal cellular processes such as signalling, homoeostasis and development. Defects in this fundamental process and subversion of it by bacterial and viral pathogens also lead to many different human diseases. This project will build on Australia's strong programme of structural and cellular biology research to develop key insights ....Endosomal Protein Transport: From Molecular Structures to Biological Function. Intracellular transport of biomolecules through the endosomal organelle is critical for normal cellular processes such as signalling, homoeostasis and development. Defects in this fundamental process and subversion of it by bacterial and viral pathogens also lead to many different human diseases. This project will build on Australia's strong programme of structural and cellular biology research to develop key insights into endosomal trafficking at the molecular level. Outcomes from this work will place Australia at the forefront of international efforts to understand this essential biological process and will have important implications for future design of pharmaceuticals.Read moreRead less
Chemical and Biochemical Characterisation of Novel Iron Chelators with Therapeutic Potential. Iron is essential for life, but iron-overload is a potentially fatal condition. There is no natural mechanism to excrete iron in humans, so patients suffering from iron-overload disorders are treated with the chelator Desferal to enable iron excretion typically from an early age. Desferal is orally ineffective and must be given by subcutaneous infusion (12-24h, 5-6 days/week) resulting in poor patient c ....Chemical and Biochemical Characterisation of Novel Iron Chelators with Therapeutic Potential. Iron is essential for life, but iron-overload is a potentially fatal condition. There is no natural mechanism to excrete iron in humans, so patients suffering from iron-overload disorders are treated with the chelator Desferal to enable iron excretion typically from an early age. Desferal is orally ineffective and must be given by subcutaneous infusion (12-24h, 5-6 days/week) resulting in poor patient compliance. We will conduct critical chemical and biological experiments with a new series of potentially orally active iron chelators identified in our lab. The results from this project will be vital for the development of these compounds as pharmaceuticals.Read moreRead less
From genotype to phenotype - systems biology bridging the gap. This project is basic research at the forefront of international science and deals with a fundamental question of modern biology: 'How do genes determine the makeup of an organism?' The main outcome will be a deeper understanding of the internal working mechanisms of a higher organism. The project combines some of the most advanced systems technologies - genomics, proteomics, metabonomics, fluxomics and computational biology in a nov ....From genotype to phenotype - systems biology bridging the gap. This project is basic research at the forefront of international science and deals with a fundamental question of modern biology: 'How do genes determine the makeup of an organism?' The main outcome will be a deeper understanding of the internal working mechanisms of a higher organism. The project combines some of the most advanced systems technologies - genomics, proteomics, metabonomics, fluxomics and computational biology in a novel and unique way. This combination is in itself a major advancement of scientific methods that will accelerate discovery in the field of systems biology. In this respect, the project is a premier example of the priority goal Breakthrough Science and of the national research priority Frontier Technologies.Read moreRead less
Comparative toxicology of a fumigant and gasotransmitters: Testing a new model of fumigant toxicity in Caenorhabditis elegans. Fumigants share physical, chemical and functional properties with a medically important class of signalling molecules called gasotransmitters. This project proposes that the toxicity of fumigants is directly caused by their ability to mimic and disrupt gasotransmitter signalling. This project will test this hypothesis using the fumigant phosphine, a chemical that protect ....Comparative toxicology of a fumigant and gasotransmitters: Testing a new model of fumigant toxicity in Caenorhabditis elegans. Fumigants share physical, chemical and functional properties with a medically important class of signalling molecules called gasotransmitters. This project proposes that the toxicity of fumigants is directly caused by their ability to mimic and disrupt gasotransmitter signalling. This project will test this hypothesis using the fumigant phosphine, a chemical that protects the vast majority of the world grain supply from insect pests. This work will show us what makes a fumigant toxic. This knowledge will facilitate the discovery and effective deployment of new fumigants.Read moreRead less
New Antioxidants Impacting on ROS and Free Radical Mediated Cellular Damage and Disease. Oxidative stress describes the condition where free radicals damage cells and biological systems and this stress underlies many diseases including neurological conditions and aging disorders such as Alzheimer's Disease. This project sets out to create new forms of powerful antioxidant drugs able to probe the mechanisms of such diseases with the view to developing new treatments and therapies.
Coenzyme Q as a measure of environmental stress in aquatic ecosystems. Australia's marine and freshwater water resources including high profile regions such as the Great Barrier Reef and the Murray-Darling River system are under increasing threat. This project is significant as it aims to provide a rapid tool to quantify low-level impacts in aquatic systems and provide a novel and accurate early-warning-system of stress within aquatic environments. Through the innovative development of an assay ....Coenzyme Q as a measure of environmental stress in aquatic ecosystems. Australia's marine and freshwater water resources including high profile regions such as the Great Barrier Reef and the Murray-Darling River system are under increasing threat. This project is significant as it aims to provide a rapid tool to quantify low-level impacts in aquatic systems and provide a novel and accurate early-warning-system of stress within aquatic environments. Through the innovative development of an assay system from proven biomedical technologies it will be possible to deliver a significant community benefit by providing an early warning mechanism for the combined effects of urban and industrial impacts on our invaluable marine and freshwater resources.Read moreRead less
Cholesterol and Hydroxycholesterol Shaping Phagocytosis. Reports now show that membrane cholesterol and 25-hydroxycholesterol (25HC) are required for immune cells to ingest and kill pathogens by phagocytosis. This project will measure phagocytosis in macrophages with genetically or pharmacologically varied cholesterol and 25HC, to compare and quantify the ingestion of different bacteria, fungi and particles. This project will also address the link between cholesterol synthesis, its storage in li ....Cholesterol and Hydroxycholesterol Shaping Phagocytosis. Reports now show that membrane cholesterol and 25-hydroxycholesterol (25HC) are required for immune cells to ingest and kill pathogens by phagocytosis. This project will measure phagocytosis in macrophages with genetically or pharmacologically varied cholesterol and 25HC, to compare and quantify the ingestion of different bacteria, fungi and particles. This project will also address the link between cholesterol synthesis, its storage in lipid bodies and its availability for phagocytosis, based on preliminary data showing such defects in the staggerer mouse model. Notably, cholesterol dysregulation is now a prevalent condition in society and our results will reveal at a fundamental, molecular level how this might compromise immune defenses.Read moreRead less