Rapid method development in pharmaceutical analysis using quality-by-design principles. Chemical analysis using separation methods underpins all stages of drug design and analysis. This project will generate new approaches to greatly reduce the time taken to develop a new method of analysis. This will be achieved through development of new computerised techniques for rapid screening, selection and optimisation of analytical methods.
Fragment based screening to deliver drugs targeting tuberculosis and the gametocyte and liver stages of Plasmodium. This project will identify natural products that bind to critical proteins in malaria and tuberculosis to discover new ways to treat these diseases.
Elucidating structure and function of activation-associated secreted proteins (ASPs) in blood-feeding hookworms – toward new methods of control. The national/community benefits are: (1) to develop a long-term, high quality scientific and technological program contributing to national objectives, including the maintenance of a strong capability in basic research, the development of new scientific concepts and the enhancement of international collaborative links; (2) to strengthen the links betwee ....Elucidating structure and function of activation-associated secreted proteins (ASPs) in blood-feeding hookworms – toward new methods of control. The national/community benefits are: (1) to develop a long-term, high quality scientific and technological program contributing to national objectives, including the maintenance of a strong capability in basic research, the development of new scientific concepts and the enhancement of international collaborative links; (2) to strengthen the links between basic and applied research; (3) to develop excellence in research by promoting collaborative research, resulting in a more efficient use of resources in a national and international context; (4) to enhance the skills-base in biology and biotechnology; (5) to substantially increase global visibility through quality research, leading to an increased investment in Australian science.Read moreRead less
Mitogenomics using a massively parallel reactor platform - from barcoding to diagnostic tools for pathogens of major socioeconomic importance. The national/community benefits are: (1) to develop a long-term, high quality scientific and technological program contributing to national objectives, including the maintenance of a strong capability in basic research, the development of new scientific concepts and the enhancement of international collaborative links; (2) to strengthen the links between ....Mitogenomics using a massively parallel reactor platform - from barcoding to diagnostic tools for pathogens of major socioeconomic importance. The national/community benefits are: (1) to develop a long-term, high quality scientific and technological program contributing to national objectives, including the maintenance of a strong capability in basic research, the development of new scientific concepts and the enhancement of international collaborative links; (2) to strengthen the links between basic and applied research; (3) to develop excellence in research by promoting collaborative research, resulting in a more efficient use of resources in a national and international context; (4) to enhance the skills-base in biology and biotechnology; (5) to substantially increase global visibility through quality research, leading to an increased investment in Australian science.
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Harnessing next-generation technologies to tackle major food-borne parasites and design new interventions. Frontier technologies will be used in this project to unlock the molecular secrets of parasites which cause serious food-borne diseases in animals. The quantum leap made here will lead to radically new ways of treating and controlling such diseases, and provide outstanding international visibility of Australian science and a solid skills/knowledge-base.
Illuminating genomic dark matter to develop new interventions for parasites. This project aims to unravel the molecular basis of parasitism using leading-edge post-genomics approaches. This research expects to explore genomic ‘dark matter’ in the genome to discover how parasites survive and cause disease. The resultant shift in the understanding of molecular mechanisms and processes governing parasitism will lead to new ways of disrupting the intricate parasite-host relationship, which will tran ....Illuminating genomic dark matter to develop new interventions for parasites. This project aims to unravel the molecular basis of parasitism using leading-edge post-genomics approaches. This research expects to explore genomic ‘dark matter’ in the genome to discover how parasites survive and cause disease. The resultant shift in the understanding of molecular mechanisms and processes governing parasitism will lead to new ways of disrupting the intricate parasite-host relationship, which will translate into innovative technologies or products to ameliorate the burden of parasites in livestock animals. Expected socioeconomic benefits include lifting Australia’s scientific knowledge base, reputation in biology and biotechnology, livestock production and investment in translational research.Read moreRead less
Managing microorganisms in Melbourne’s drinking water assets. Safe, fresh drinking water is the most important resource of any country. Melbourne Water Corporation supplies drinking water to more than four million people, and Melbourne is one of the few cities in the world that receives largely unfiltered drinking water from wilderness catchment areas. Built on extensive preliminary collaborative work, the project aims to develop an integrated monitoring and surveillance program, using newly dev ....Managing microorganisms in Melbourne’s drinking water assets. Safe, fresh drinking water is the most important resource of any country. Melbourne Water Corporation supplies drinking water to more than four million people, and Melbourne is one of the few cities in the world that receives largely unfiltered drinking water from wilderness catchment areas. Built on extensive preliminary collaborative work, the project aims to develop an integrated monitoring and surveillance program, using newly developed technologies, to underpin Melbourne Water Corporation’s prevention strategy against key waterborne diseases, including cryptosporidiosis and giardiasis. This project is sharply focused on the National Science and Research Priorities 'Soil and Water', 'Environmental Change' and 'Health'.Read moreRead less
Harnessing the genomics revolution - toward radically new approaches to control neglected parasites of paramount global importance. Frontier technologies will be used to unlock the molecular secrets of neglected parasites causing devastating diseases in animals and humans worldwide. The quantum leap made here will lead to radically new ways of treating and controlling such diseases, outstanding international visibility of Australian science and a solid skills and knowledge-base.
Establishing next-generation technology platforms for the detection and monitoring of microorganisms in Melbourne water catchments. This project will establish a major scientific and technological program in national priority areas to protect drinking water catchments. This industry-linked program will conduct strong applied and basic research. The project will also provide new concepts, a solid skills-base, substantially enhanced global visibility of Australian science and key technological out ....Establishing next-generation technology platforms for the detection and monitoring of microorganisms in Melbourne water catchments. This project will establish a major scientific and technological program in national priority areas to protect drinking water catchments. This industry-linked program will conduct strong applied and basic research. The project will also provide new concepts, a solid skills-base, substantially enhanced global visibility of Australian science and key technological outcomes.Read moreRead less
The mucosal immune system of fish: analysis of the immune repertoire in gut-and gill-associated lymphoid tissues in trout. Infectious disease causes major economic loss to the aquaculture industry, highlighting the need for effective vaccination strategies. While oral or immersion vaccination represents the most cost effective means of protecting fish against infectious disease there are problems associated with inducing an effective immune response in fish that will assist our industry partner ....The mucosal immune system of fish: analysis of the immune repertoire in gut-and gill-associated lymphoid tissues in trout. Infectious disease causes major economic loss to the aquaculture industry, highlighting the need for effective vaccination strategies. While oral or immersion vaccination represents the most cost effective means of protecting fish against infectious disease there are problems associated with inducing an effective immune response in fish that will assist our industry partner (Novartis Animal Vaccines Ltd) to develop improved fish vaccines. The project will provide postgraduate training in the area of fish immunology that is vital to the developing Australian aquaculture industry.Read moreRead less