Advanced water treatment technologies to minimise nitrogenous disinfection by-products in drinking water: understanding the role of organic nitrogen. This project will identify improved methods for treatment of drinking water to prevent the formation of potentially hazardous disinfection by-products. It will assist water resource managers and regulators to select the most economical and safe treatment for each type of water source and to plan for future demands on our limited water supplies.
Novel semio-chemical approach to control the Australian Sheep Blowfly . The Australian Federal Government through the 'Smart Farming' initiative highlights the need for improved multidisciplinary measures in order to remain at the global forefront of the invention and adoption of technology. This multidisciplinary project (entomology, biotechnology, analytical chemistry and genomics) will rapidly inform the management of fly strike on an important Australian resource merino sheep. This will bui ....Novel semio-chemical approach to control the Australian Sheep Blowfly . The Australian Federal Government through the 'Smart Farming' initiative highlights the need for improved multidisciplinary measures in order to remain at the global forefront of the invention and adoption of technology. This multidisciplinary project (entomology, biotechnology, analytical chemistry and genomics) will rapidly inform the management of fly strike on an important Australian resource merino sheep. This will build the key biochemical data in order to develop a novel fly lure technology (at scale) to be used on farm delivering national benefit through improved animal welfare and safety considerations for producers, and will establish the best approach to disseminate this scientific information to stakeholders such as farmers.Read moreRead less
A global platform for identifying emerging chemical threats. This project aims to develop an automated early warning social network to systematically detect newly identified emerging chemical threats. Rapid identification of chemical exposures is key to managing chemical threats and associated risks. Global collaboration and sharing of archived, high-resolution mass spectrometry data through open/social platforms will revolutionise data processing and chemical threat identification. This project ....A global platform for identifying emerging chemical threats. This project aims to develop an automated early warning social network to systematically detect newly identified emerging chemical threats. Rapid identification of chemical exposures is key to managing chemical threats and associated risks. Global collaboration and sharing of archived, high-resolution mass spectrometry data through open/social platforms will revolutionise data processing and chemical threat identification. This project will result in a new and cost-effective approach for the identification, tracking and prioritisation of emerging chemical threats and address key national and global health risks. The outcomes include the first spatial and temporal distribution of new emerging chemical threats in Australia.Read moreRead less
Visualising below the tip of the proteome iceberg. Proteomics attempts to understand human biology by examining the protein components of cells and tissues. Unfortunately, currently available technology only allows approximately 10% of the complexity of these cells and tissues to be concurrently investigated. This project will the physical, chemical and functional properties of protein classes for enrichment, as well as improve technologies for protein visualization, identification and character ....Visualising below the tip of the proteome iceberg. Proteomics attempts to understand human biology by examining the protein components of cells and tissues. Unfortunately, currently available technology only allows approximately 10% of the complexity of these cells and tissues to be concurrently investigated. This project will the physical, chemical and functional properties of protein classes for enrichment, as well as improve technologies for protein visualization, identification and characterization. These approaches will allow the scientific community to further mine beneath the surface of the proteomics 'iceberg'.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989125
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Enhanced Capacity in Ultra-Trace Level Detection and Speciation of Compounds of Environmental, Biological and Materials Science Interest. The proposed integrated facility will strongly support collaborative research in areas of high national priority. These are environmental sustainability, development of new materials and designing molecules of therapeutic value on the basis of better understanding the relevant biological processes. This support will lead to maximizing the outcomes of numerous ....Enhanced Capacity in Ultra-Trace Level Detection and Speciation of Compounds of Environmental, Biological and Materials Science Interest. The proposed integrated facility will strongly support collaborative research in areas of high national priority. These are environmental sustainability, development of new materials and designing molecules of therapeutic value on the basis of better understanding the relevant biological processes. This support will lead to maximizing the outcomes of numerous projects already funded by the Australian Research Council which require accurate and highly sensitive analysis. This will improve the cost effectiveness of research funding and will further strengthen the outstanding reputation of Australia science worldwide.Read moreRead less
Differential Isotope Proteome Mapping of Transforming Growth Factor Beta Cell Signalling. Our research will capitalise on Australia's expertise and prior infrastructure investments in frontier, proteomic technologies to elucidate novel intracellular signalling pathways that contribute to the development of cancer. New approaches will be developed using isotopes to provide sensitive and accurate measurements of changes in protein expression levels. This technology will allow us to define complex ....Differential Isotope Proteome Mapping of Transforming Growth Factor Beta Cell Signalling. Our research will capitalise on Australia's expertise and prior infrastructure investments in frontier, proteomic technologies to elucidate novel intracellular signalling pathways that contribute to the development of cancer. New approaches will be developed using isotopes to provide sensitive and accurate measurements of changes in protein expression levels. This technology will allow us to define complex intracellular signalling networks. This is an important step towards identifying new drug targets that are responsible for tumour growth. Australian science will benefit from the training of new scientists in modern, post-genome technologies where there is currently a world shortage of experienced personnel.Read moreRead less
Microfluidic Separation Science: Innovative Technology for Characterising Complex Chemical Systems. At present there is a need for fast and detailed chemical analysis of complex samples, such as those important to biomedical diagnostics and forensic science. Innovative technology will be developed here in order to reduce analysis time whilst maintaining the integrity of the chemical information contained within the sample. This step change in separation science will directly aid biomedical diagn ....Microfluidic Separation Science: Innovative Technology for Characterising Complex Chemical Systems. At present there is a need for fast and detailed chemical analysis of complex samples, such as those important to biomedical diagnostics and forensic science. Innovative technology will be developed here in order to reduce analysis time whilst maintaining the integrity of the chemical information contained within the sample. This step change in separation science will directly aid biomedical diagnostics, forensic sample determination and industrial process monitoring through decreased analysis time with an increase in the chemical information gained. By performing chemical separations on a microfluidic scale a reduction in both the cost of analysis and impact of solvent waste on the environment will be achieved.Read moreRead less
Identification and isolation of new pharmaceutical opiate analogues: today's problems tomorrow's solutions. This project will identify and characterise the impurity profiles across opiate alkaloid production, which will enhance the development of manufacturing processes through the reduction of problem impurities and provide potential new drug substances from the isolation of other opiate derived concomitant species.
On-fibre separation science with ambient ionisation mass spectrometry. This project aims to combine fibre-based electrofluidics and ambient ionisation mass spectrometry. Fibre-based electrophoresis is a separation technology which is cheaper, simpler and faster than pre-MS analyses. This project will use the fibre simultaneously as the ionisation platform for ambient mass spectrometry, combining the processes of separation and ionisation in a portable and flexible platform. The developed technol ....On-fibre separation science with ambient ionisation mass spectrometry. This project aims to combine fibre-based electrofluidics and ambient ionisation mass spectrometry. Fibre-based electrophoresis is a separation technology which is cheaper, simpler and faster than pre-MS analyses. This project will use the fibre simultaneously as the ionisation platform for ambient mass spectrometry, combining the processes of separation and ionisation in a portable and flexible platform. The developed technology is expected to provide new capability in bioanalysis, proteomics and rapid clinical diagnostics. Future benefits may include new commercial fibre based technologies which could be applied within industrial and clinical laboratories within the next ten years.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775725
Funder
Australian Research Council
Funding Amount
$465,000.00
Summary
Molecular separation and characterisation - A facility for advanced mass spectroscopy and chromatography. Characterising molecular composition is a basic need for the progress of many sciences. It is used to examine traditional and modern medicinal chemistry, bio-active peptides, molecular modulation of chemical properties, markers of disease and system status, and can also be used to elucidate molecular mechanisms and interactions in a system. This can only be achieved through precise measureme ....Molecular separation and characterisation - A facility for advanced mass spectroscopy and chromatography. Characterising molecular composition is a basic need for the progress of many sciences. It is used to examine traditional and modern medicinal chemistry, bio-active peptides, molecular modulation of chemical properties, markers of disease and system status, and can also be used to elucidate molecular mechanisms and interactions in a system. This can only be achieved through precise measurement using the frontier technologies described in this grant. This proposal ensures international competitiveness on a broad front, and supports highest level research training and bio/chemical/medical research in several priority research areas. Read moreRead less