Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100152
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Melbourne and La Trobe rapid integrated X-ray diffraction facility. This new facility will enable rapid X-ray diffraction studies of macromolecular crystals which are critical in reaching an understanding of cellular signalling events and interactions between microbial pathogens and their host organisms at the atomic level.
Cellular Responses to Adversity: Oxidative Stress and Protection Against Oxidative Damage. A deficiency in the protein haem oxygenase-1 causes severe biological consequences in animals and humans. These include decreased reproduction, retarded development, the inability of the body to handle iron, chronic inflammation and increased susceptibility to age-associated diseases. This study will determine how a deficiency of the protein alters cells at the level of genes, proteins and protein function ....Cellular Responses to Adversity: Oxidative Stress and Protection Against Oxidative Damage. A deficiency in the protein haem oxygenase-1 causes severe biological consequences in animals and humans. These include decreased reproduction, retarded development, the inability of the body to handle iron, chronic inflammation and increased susceptibility to age-associated diseases. This study will determine how a deficiency of the protein alters cells at the level of genes, proteins and protein functions. By doing so, the project will illuminate how haem oxygenase-1 alters cell functions in a beneficial way. This information will eventually assist in preventing the serious disorders associated with deficiency of haem oxygenase-1. It will also provide the basis for novel treatments to slow down age-associated diseases.Read moreRead less
Pathophysiological mechanisms in equine dyschondroplasia (osteochondrosis). Dyschondroplasia (osteochondrosis) is a developmental orthopaedic disease of horses, which causes significant wastage within the Thoroughbred racing industry. The disease affects growth cartilage beneath joint surfaces in such a way that cartilage fails to be replaced by bone, resulting in defects in the joint surface and lameness. This project will identify differences in gene expression between normal cartilage and ea ....Pathophysiological mechanisms in equine dyschondroplasia (osteochondrosis). Dyschondroplasia (osteochondrosis) is a developmental orthopaedic disease of horses, which causes significant wastage within the Thoroughbred racing industry. The disease affects growth cartilage beneath joint surfaces in such a way that cartilage fails to be replaced by bone, resulting in defects in the joint surface and lameness. This project will identify differences in gene expression between normal cartilage and early dyschondroplastic lesions, in order to identify the sequence of molecular events leading to induction of disease. The basic understanding of joint development obtained from this work will assist in the development of strategies to prevent and diagnose dyschondroplasia in horses.Read moreRead less
Coordinating energy metabolism to enhance exercise capacity. Diet and exercise contribute to health and ageing productively whereas high caloric diets and sedentary life styles are deleterious. The enzyme AMPK regulates energy metabolism in response to diet and exercise and by studying it we expect to learn why diet and exercise are beneficial at the molecular level. This may allow the development of nutritional, exercise and drug strategies to enhance exercise capacity and well being during ....Coordinating energy metabolism to enhance exercise capacity. Diet and exercise contribute to health and ageing productively whereas high caloric diets and sedentary life styles are deleterious. The enzyme AMPK regulates energy metabolism in response to diet and exercise and by studying it we expect to learn why diet and exercise are beneficial at the molecular level. This may allow the development of nutritional, exercise and drug strategies to enhance exercise capacity and well being during ageing as well as suppress age onset diseases that include obesity diabetes cardiovascular disease hypertension and neurodegeneration.Read moreRead less
Systems therapeutics for metabolism: AMPK isoform specific drugs. Living cells have to maintain a steady balance between energy production and consumption in order to function properly. A key regulator of energy balance is an enzyme known as 5' AMP-activated protein kinase (AMPK), which regulates the burning and storage of fuels such as fat and sugars, in response to changes in energy demand. This project will provide a major advancement in our understanding of the regulation of AMPK at the mo ....Systems therapeutics for metabolism: AMPK isoform specific drugs. Living cells have to maintain a steady balance between energy production and consumption in order to function properly. A key regulator of energy balance is an enzyme known as 5' AMP-activated protein kinase (AMPK), which regulates the burning and storage of fuels such as fat and sugars, in response to changes in energy demand. This project will provide a major advancement in our understanding of the regulation of AMPK at the molecular level, and lay the foundations for the development of more effective drugs to treat energy balance disorders such as obesity and Type 2 diabetes. Furthermore, this proposal will contribute to enriching Australia's international profile and competitiveness in this important area of research.Read moreRead less
Body fluids: sweet protection against infection? Serious health problems caused by pathogenic microorganisms are in sharp increase due to aging population, escalating numbers of immunocompromised people and the increased resistance of microorganisms to currently available antibiotics. Our research will lead to development of new approaches to protect people and animals from pathogens before they invade the body. The commercial possibilities for new and natural antimicrobials are present from bot ....Body fluids: sweet protection against infection? Serious health problems caused by pathogenic microorganisms are in sharp increase due to aging population, escalating numbers of immunocompromised people and the increased resistance of microorganisms to currently available antibiotics. Our research will lead to development of new approaches to protect people and animals from pathogens before they invade the body. The commercial possibilities for new and natural antimicrobials are present from both the health and agricultural sectors in Australia and abroad. The technologies used and further developed will serve as a state-of-the-art training ground for the next generation of postgraduate students encompassing the integration of genomics, proteomics and glycomics technologies.Read moreRead less
Characterisation of a powerful molecular motor, the FtsK DNA translocase. The FtsK protein is a fast and powerful molecular motor, a pump that can, and does, move an entire bacterial chromosome. This project will uncover the detail of the mechanism used by this motor to convert the cell's chemical energy source Adenosine Triphosphate (ATP) into movement of DNA; revealing the molecular detail of a fast and powerful motor.
Determining the regulation of vitamin D metabolism. The proposed project will lead to a better understanding of factors that influence the biological function of vitamin D. This will impact in several areas of human health and will provide new avenues for the development of preventative approaches and treatment of cancer. This project is based on the use of 'Frontier Technologies' that will be applied to elucidate basic biological questions.
Identifying the pathways employed by growth hormone to regulate the proliferation of adult neural stem cells. As stem cells underpin the maintenance and regeneration of the brain and are known to decline in number and competence with age; understanding exactly how these cells are regulated is of broad national benefit. Furthermore, given the regulatory role of growth hormone throughout the body, insights gained from this project should lead to the discovery of novel therapeutic targets both with ....Identifying the pathways employed by growth hormone to regulate the proliferation of adult neural stem cells. As stem cells underpin the maintenance and regeneration of the brain and are known to decline in number and competence with age; understanding exactly how these cells are regulated is of broad national benefit. Furthermore, given the regulatory role of growth hormone throughout the body, insights gained from this project should lead to the discovery of novel therapeutic targets both within and outside the nervous system, ultimately leading to preventative and restorative strategies for maintaining good health. Finally, this Proposal is of significant national benefit as it will undoubtedly advance our knowledge base in stem cell biology, helping to maintain Australia as a global leader in stem cell research.Read moreRead less