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Development of a gene delivery system to access neuronal cells. Understanding the pathways for gene delivery and efficient expression will result in new knowledge in the areas of biotechnology and cell biology. This project will result in significant new information on vesicular trafficking pathways in neurons. An effective gene delivery system will realise significant commercial potential for our partner organisations and economic benefit to other Australian industry. This project aligns direct ....Development of a gene delivery system to access neuronal cells. Understanding the pathways for gene delivery and efficient expression will result in new knowledge in the areas of biotechnology and cell biology. This project will result in significant new information on vesicular trafficking pathways in neurons. An effective gene delivery system will realise significant commercial potential for our partner organisations and economic benefit to other Australian industry. This project aligns directly with the National Research Priority of "Promoting and maintaining good health" with a specific benefit for patients that suffer mental and physical degeneration and for their families.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668246
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Advanced Cell Labelling and Imaging Facility. Understanding the genetic regulation of cellular processes such as migration, differentiation and growth is an important frontier technology with significant biomedical potential. The Australian community is facing an increasing need to provide solutions for a variety of human diseases and disorders, including birth defects, nervous system injury and stroke, and ageing-related conditions. The proposed facility will allow researchers to test in vivo g ....Advanced Cell Labelling and Imaging Facility. Understanding the genetic regulation of cellular processes such as migration, differentiation and growth is an important frontier technology with significant biomedical potential. The Australian community is facing an increasing need to provide solutions for a variety of human diseases and disorders, including birth defects, nervous system injury and stroke, and ageing-related conditions. The proposed facility will allow researchers to test in vivo gene/pharmaceutical therapies as well as to better understand the genetic regulation of normal cellular processes. Read moreRead less
Investigations into the Versatility of Peptide Nucleic Acid Conjugates. Neurodegeneration and cancer are two of the greatest frontiers in modern medicine. They impose significant medical, financial and social burdens on sufferers, carers and the wider community. Novel technologies with the ability to help diagnosis, enlighten researchers to the biological principles governing the disease and that can make a contribution to prevention, quality of life issues and survival of sufferers are of utmos ....Investigations into the Versatility of Peptide Nucleic Acid Conjugates. Neurodegeneration and cancer are two of the greatest frontiers in modern medicine. They impose significant medical, financial and social burdens on sufferers, carers and the wider community. Novel technologies with the ability to help diagnosis, enlighten researchers to the biological principles governing the disease and that can make a contribution to prevention, quality of life issues and survival of sufferers are of utmost importance. This project aims to make a significant contribution to these areas using antisense technologies against some previously studied targets.Read moreRead less
Modulation of protein folding pathways: a new platform technology for molecular medicine. Misfolding of proteins is becoming recognised as a major cause of inherited disease. We propose to develop a chemical agent that will optimise the folding of alpha1-antitrypsin (AAT), misfolding of which gives rise to inheritable liver and lung disease. This agent will have potential application as a therapy for sufferers of AAT-misfolding disease and for improving the yield of AAT purified from human plasm ....Modulation of protein folding pathways: a new platform technology for molecular medicine. Misfolding of proteins is becoming recognised as a major cause of inherited disease. We propose to develop a chemical agent that will optimise the folding of alpha1-antitrypsin (AAT), misfolding of which gives rise to inheritable liver and lung disease. This agent will have potential application as a therapy for sufferers of AAT-misfolding disease and for improving the yield of AAT purified from human plasma, which is the current agent used to treat patients with AAT-misfolding disease.Read moreRead less
Constructing The Building Blocks For Future Nanomaterial Design: Self-assembly and Information Storage in Synthetic Macromolecules. The Federation Fellowship will be used to build a research team with the expertise and the capabililty to assemble the building-blocks required for future applications in nanomateral design. This will be of benefit both to the general Australian research community in the development of new materials and also to support the creation of a vibrant high-tech industry u ....Constructing The Building Blocks For Future Nanomaterial Design: Self-assembly and Information Storage in Synthetic Macromolecules. The Federation Fellowship will be used to build a research team with the expertise and the capabililty to assemble the building-blocks required for future applications in nanomateral design. This will be of benefit both to the general Australian research community in the development of new materials and also to support the creation of a vibrant high-tech industry utilising synthetic materials for applications such as responsive membranes and 'clever' drug deliveryRead moreRead less
Unraveling the genetic networks of cancer development. Cancer causes nearly 30% of all deaths in Australia and the aging of our population means that its incidence will increase for the foreseeable future. The past two decades of cancer research have yielded great advances in identifying the genetic mutations that contribute to cancer, but our understanding of how these mutations cooperate to transform a healthy cell into a tumour cell remains limited. High-throughput genomic analysis of DNA fro ....Unraveling the genetic networks of cancer development. Cancer causes nearly 30% of all deaths in Australia and the aging of our population means that its incidence will increase for the foreseeable future. The past two decades of cancer research have yielded great advances in identifying the genetic mutations that contribute to cancer, but our understanding of how these mutations cooperate to transform a healthy cell into a tumour cell remains limited. High-throughput genomic analysis of DNA from large numbers of tumours is essential to identify and understand the combinations of cancer mutations that are most deadly. Such studies can form the basis for developing better diagnostics and new treatments for patients whose tumours are resistant to current therapies.Read moreRead less
Synthesis of the pyrrolo[2,1-c][1,4]benzodiazepines: potent DNA binders. Chemicals that bind to DNA have a long history of use as anticancer drugs. In recent times, the biotechnology revolution has greatly expanded our understanding of how these drugs work and the genetic basis of a wide range of other diseases. The aim of this project is to discover novel compounds that selectively bind to DNA. Starting from a class of naturally occurring compounds (called the pyrrolobenzodiazepines) as a templ ....Synthesis of the pyrrolo[2,1-c][1,4]benzodiazepines: potent DNA binders. Chemicals that bind to DNA have a long history of use as anticancer drugs. In recent times, the biotechnology revolution has greatly expanded our understanding of how these drugs work and the genetic basis of a wide range of other diseases. The aim of this project is to discover novel compounds that selectively bind to DNA. Starting from a class of naturally occurring compounds (called the pyrrolobenzodiazepines) as a template, it will develop powerful new methods to supply wholly new DNA interactive molecules with great potential as new drugs to treat cancer or other genetic diseases.Read moreRead less
Anti-Cancer Natural Products: Total Synthesis and Biological Evaluation of Lasonolide A and Analogues. One in three men and one in four women in Australia will be diagnosed with cancer before they reach 75. Cancer is a leading cause of death within this country with 28% of deaths each year due to this disease. Although there have been advances in the treatment of various forms of cancer there remains a pressing need for new therapies with improved potency, selectivity and reduced side effects. T ....Anti-Cancer Natural Products: Total Synthesis and Biological Evaluation of Lasonolide A and Analogues. One in three men and one in four women in Australia will be diagnosed with cancer before they reach 75. Cancer is a leading cause of death within this country with 28% of deaths each year due to this disease. Although there have been advances in the treatment of various forms of cancer there remains a pressing need for new therapies with improved potency, selectivity and reduced side effects. This project will provide new compounds of potential clinical use in the treatment of cancer, thereby aiding the large population of Australians who will be affected by this disease. Furthermore, the new advanced materials produced by this project will aid in the study of biochemical processes involved in cancer.Read moreRead less
Redox-Tuneable Sensitisers for Photodynamic Therapy of Malignant and Non-Malignant Proliferative Diseases. Cancer is currently Australia's leading cause of death with 85 231 new cases reported during 2000, costing the health system >$2 billion annually. Photodynamic Therapy is a promising anti-cancer therapy which combines the action of a photosensitising drug and light to destroy tumours. This project will lead to the development of new photosensitisers which will enable the specific targeting ....Redox-Tuneable Sensitisers for Photodynamic Therapy of Malignant and Non-Malignant Proliferative Diseases. Cancer is currently Australia's leading cause of death with 85 231 new cases reported during 2000, costing the health system >$2 billion annually. Photodynamic Therapy is a promising anti-cancer therapy which combines the action of a photosensitising drug and light to destroy tumours. This project will lead to the development of new photosensitisers which will enable the specific targeting of tumours while protecting healthy tissue from damage. Post-treatment skin photosensitivity will be minimised by antioxidant features integrated into the photosensitisers. The development of improved photosensitisers during this project will ultimately lead to improved treatment and new alternatives for Australian cancer sufferers.Read moreRead less
Genetic manipulation of Clostridium sporogenes. The overall objective of this project is to develop genetic methods for the manipulation of the anaerobic bacterium Clostridium sporogenes. Specifically, the project aims to manipulate this microorganism so that genes encoding enzymes that convert prodrugs to anticancer drugs can be introduced and stably maintained on its chromosome. The significance of the project is that the resultant bacteria, and others constructed using these methods, will th ....Genetic manipulation of Clostridium sporogenes. The overall objective of this project is to develop genetic methods for the manipulation of the anaerobic bacterium Clostridium sporogenes. Specifically, the project aims to manipulate this microorganism so that genes encoding enzymes that convert prodrugs to anticancer drugs can be introduced and stably maintained on its chromosome. The significance of the project is that the resultant bacteria, and others constructed using these methods, will then be able to be tested for their ability to act as specific drug delivery systems for use in the treatment of solid tumours.Read moreRead less