Differentiation of Cord Blood Stem cells into Thymus (T) cells with regulatory phenotype and function. This project will develop technologies for a stem cell therapy platform based on cord blood stem cells, to enable treatment of autoimmune diseases or transplants. Building on the University of Adelaide's frontier demonstration of differentiation of regulatory Thymus (T) cells from cord blood stem cells, the project will develop techniques to expand the numbers of T cells generated. This has the ....Differentiation of Cord Blood Stem cells into Thymus (T) cells with regulatory phenotype and function. This project will develop technologies for a stem cell therapy platform based on cord blood stem cells, to enable treatment of autoimmune diseases or transplants. Building on the University of Adelaide's frontier demonstration of differentiation of regulatory Thymus (T) cells from cord blood stem cells, the project will develop techniques to expand the numbers of T cells generated. This has the potential to maintain Australia's lead in differentiation of cord blood stem cells and to provide a significant breakthrough in potential treatments of autoimmune diseases (e.g. type 1 diabetes) or transplantation. These diseases affect both a healthy start to life and healthy ageing, and an Australian invention to treat or cure them would have global impact.Read moreRead less
The efficacy of a physical activity intervention in the management of psychological and physical symptoms among breast and prostate cancer patients. The vastly improved survival rates for breast and prostate cancer in recent years has resulted in an ever-increasing number of people living with a history of cancer. Treatment for cancer is often associated with negative side effects like fatigue, depression and sleep disturbance, and an overall impaired quality of life.
This project will assess ....The efficacy of a physical activity intervention in the management of psychological and physical symptoms among breast and prostate cancer patients. The vastly improved survival rates for breast and prostate cancer in recent years has resulted in an ever-increasing number of people living with a history of cancer. Treatment for cancer is often associated with negative side effects like fatigue, depression and sleep disturbance, and an overall impaired quality of life.
This project will assess the effectiveness of a physical activity program in alleviating these symptoms of treatment. The program will include regular walking and gentle resistance strength training.
The outcomes from the project will advance research by shedding light on which symptoms are most helped by physical activity, and how much activity is needed to gain these benefits.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883032
Funder
Australian Research Council
Funding Amount
$1,300,000.00
Summary
800 MHz NMR spectrometer for biomolecular structure-function analysis. An understanding of how organisms function at the molecular level is central to developing the ability to fight many diseases in a rational way. This equipment will provide the capability for many different laboratories around NSW and the ACT to advance our knowledge at this fundamental level, primarily by examining the structures and functions of biomolecules such as proteins.
Understanding mechanistic and systemic regulation of protein prenyltransferases. The proposed research will expand our understanding of lipid-conjugating enzymes that are critical for a multitude of normal cellular functions. We seek to reveal the basic workings of cells and help to explain the development and complexity of signalling networks in eukaryotic evolution. The findings will enable us to explore and exploit the catalytic properties of these lipid-related enzymes for applications in bi ....Understanding mechanistic and systemic regulation of protein prenyltransferases. The proposed research will expand our understanding of lipid-conjugating enzymes that are critical for a multitude of normal cellular functions. We seek to reveal the basic workings of cells and help to explain the development and complexity of signalling networks in eukaryotic evolution. The findings will enable us to explore and exploit the catalytic properties of these lipid-related enzymes for applications in biotechnology. The ultimate aim is to create novel technologies for protein production, modification and analysis that will accelerate the pace of discovery in protein research, basic cell and organism biology, diagnostics, biotechnology and drug discovery. Read moreRead less
Studies on the regulation of the pro-apoptotic protein Bim in mammalian development and cancer. This project is aimed at understanding the regulation of a gene, which is a tumour suppressor and is often mutated or down regulated in many different forms of cancers. A better understanding of how this gene works may eventually lead to better therapeutics to treat these cancers. This is relevant in the Australian context given that our aging population and obesity epidemics (the link between obesity ....Studies on the regulation of the pro-apoptotic protein Bim in mammalian development and cancer. This project is aimed at understanding the regulation of a gene, which is a tumour suppressor and is often mutated or down regulated in many different forms of cancers. A better understanding of how this gene works may eventually lead to better therapeutics to treat these cancers. This is relevant in the Australian context given that our aging population and obesity epidemics (the link between obesity, insulin resistance and various forms of cancers is well established) are leading to a rapid increase in new cancer cases, thus driving a rapid increase in demand for better treatments. This is particularly relevant in Indigenous health where obesity is on the rise following the transition from a traditional to an urban lifestyle.Read moreRead less
Proteomic analysis of subcellular changes during apoptosis. This project aims to use a novel proteomic approach to examine mechanisms of apoptosis at the level of the plasma membrane, mitochondrion, nucleus and cytosol, screening protein extracts of cell organelles by the new technique of SELDI-TOF mass spectrometry in which proteins are adsorbed onto activated chips. This will provide protein mass profiles characteristic of various stages of apoptosis, and will allow identification of proteins ....Proteomic analysis of subcellular changes during apoptosis. This project aims to use a novel proteomic approach to examine mechanisms of apoptosis at the level of the plasma membrane, mitochondrion, nucleus and cytosol, screening protein extracts of cell organelles by the new technique of SELDI-TOF mass spectrometry in which proteins are adsorbed onto activated chips. This will provide protein mass profiles characteristic of various stages of apoptosis, and will allow identification of proteins of interest by conventional proteomic methods. The establishment of SELDI-MS as a viable tool for cell proteomics would open new opportunities to understand a broad range of cellular functions at the level of protein expression.Read moreRead less
DNA methylation-based diagnosis of cancer and identification of novel therapeutic targets. In our aging society, cancer represents a severe economic and quality-of-life threat. DNA methylation switches genes off, and recently, it was shown that defects in DNA methylation contribute to human diseases including cancer. This project will identify defects in DNA methylation associated with cancer. Identifying these defects will enable us to design non-invasive, early diagnostic tests for cancer on b ....DNA methylation-based diagnosis of cancer and identification of novel therapeutic targets. In our aging society, cancer represents a severe economic and quality-of-life threat. DNA methylation switches genes off, and recently, it was shown that defects in DNA methylation contribute to human diseases including cancer. This project will identify defects in DNA methylation associated with cancer. Identifying these defects will enable us to design non-invasive, early diagnostic tests for cancer on blood or bodily excretions, and to pursue novel therapeutic approaches for treating cancer. The expected outcomes would generate exports to markets in the USA and Europe and replace imports of drugs and technology to treat cancer.Read moreRead less
Terahertz and optical coherence tomography for improved cancer imaging. This project aims to improve cancer imaging by combining two complimentary, novel techniques. Its success will create an internationally leading position for Australia in cutting-edge research in optical and terahertz biomedical imaging. This innovative, fundamental research will expand Australia's research capacity in imaging sciences. The nation will benefit from new medical diagnostic techniques that will improve the dete ....Terahertz and optical coherence tomography for improved cancer imaging. This project aims to improve cancer imaging by combining two complimentary, novel techniques. Its success will create an internationally leading position for Australia in cutting-edge research in optical and terahertz biomedical imaging. This innovative, fundamental research will expand Australia's research capacity in imaging sciences. The nation will benefit from new medical diagnostic techniques that will improve the detection and treatment of cancer; as well as aid the clinical assessment of burns. This multidisciplinary, internationally collaborative research has additional wide ranging benefits in biology, medicine, pharmaceutical science and national security.Read moreRead less
Special Research Initiatives - Grant ID: SR0567493
Funder
Australian Research Council
Funding Amount
$99,146.00
Summary
E-Services for Comparative Studies in Molecular Biology. The central challenge of post-genomic biology is to exploit the range of sequence and microarray data to yield greater understanding of biological processes. Large comparative studies are hamstrung by the inaccessibility of specialist comparative tools and the problem of managing large-scale disparate data. This project will provide portal and web services facilities to remove these obstacles, relying on robust and scalable business techno ....E-Services for Comparative Studies in Molecular Biology. The central challenge of post-genomic biology is to exploit the range of sequence and microarray data to yield greater understanding of biological processes. Large comparative studies are hamstrung by the inaccessibility of specialist comparative tools and the problem of managing large-scale disparate data. This project will provide portal and web services facilities to remove these obstacles, relying on robust and scalable business technologies to be made freely available. Our work will be driven by specific applications in bacterial genomics and cancer research, and will support research into prostate cancer and the pathogens Chlamydia and Bacillus anthracis.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668526
Funder
Australian Research Council
Funding Amount
$542,000.00
Summary
Biomolecular discovery and analysis facility. This facility will provide Australian researchers with unrivalled access to advanced cell visualisation and analysis tools, which until very recently were only available to the pharmaceutical industry and large US and European institutions. The facility will allow new approaches to identifying novel natural products and understanding cell signalling pathways. Knowledge of these pathways and the identification of molecules that can affect them are key ....Biomolecular discovery and analysis facility. This facility will provide Australian researchers with unrivalled access to advanced cell visualisation and analysis tools, which until very recently were only available to the pharmaceutical industry and large US and European institutions. The facility will allow new approaches to identifying novel natural products and understanding cell signalling pathways. Knowledge of these pathways and the identification of molecules that can affect them are keys to understanding normal cellular physiology and identifying drug-like molecules able to inhibit malfunctioning pathways found in different disease such as cancer. The facility will accellerate drug discovery and basic research in cell biology and underpin National Research Priorities.Read moreRead less