Chip liquid chromatography-inductively coupled plasma-mass spectrometry: a new hyphenated microfluidic instrument for metallomics. An alliance of two Australian universities and a world-leading scientific instrument company will develop innovative technology that will enable new reliable, sensitive and patient-specific medical tests, as well as being used to probe causes of significant diseases that appear to involve trace levels of metals in the body.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346903
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
LC-MS system for Faculty of Sciences, U.N.E. LC-MS is a technique for investigating the composition of complex mixtures and identifying its components. This instrumentation will be utilised at UNE in a diverse range of analytical investigations to further the research aims of scientists in chemistry, biological sciences, archaeology, physics, environmental sciences, marine science as well as biological researchers in specialised units based at UNE. The extraordinarily versatile capacity of this ....LC-MS system for Faculty of Sciences, U.N.E. LC-MS is a technique for investigating the composition of complex mixtures and identifying its components. This instrumentation will be utilised at UNE in a diverse range of analytical investigations to further the research aims of scientists in chemistry, biological sciences, archaeology, physics, environmental sciences, marine science as well as biological researchers in specialised units based at UNE. The extraordinarily versatile capacity of this technique for analysis and identification of organic substances, from small molecules through to large proteins and complex plant and animal metabolites, will provide impetus for existing research and stimulus for new research directions.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120100467
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Unravelling the intrinsic structure and stability of multiply charged anions in the gas-phase using photoelectron spectroscopy and mass spectrometry. Molecules possessing multiple negative charges are common constituents in chemistry, influencing a range of processes ranging from photochemical smog formation to protein structure in vivo. This project will develop new technologies to probe their molecular structure in the gas-phase, leading to a more rigorous understanding of these species.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989491
Funder
Australian Research Council
Funding Amount
$172,025.00
Summary
Multi-Purpose Mass Spectrometry Facility. The Australian Centre for Research on Separation Science (ACROSS) has been established using focused research themes to provide both fundamental and applied research outcomes in separation science. The requested Time of Flight Mass Spectrometer (TOFMS) will be utilised extensively by a large team of researchers working across the broad areas of analytical chemistry, pharmaceutical science, materials science, biochemistry, microfluidics, industrial chemi ....Multi-Purpose Mass Spectrometry Facility. The Australian Centre for Research on Separation Science (ACROSS) has been established using focused research themes to provide both fundamental and applied research outcomes in separation science. The requested Time of Flight Mass Spectrometer (TOFMS) will be utilised extensively by a large team of researchers working across the broad areas of analytical chemistry, pharmaceutical science, materials science, biochemistry, microfluidics, industrial chemistry and hydrometallurgy, aquaculture, forensic analysis, Antarctic studies, and environmental monitoring. This will directly support our work falling under National Research Priorities 1 An Environmentally Sustainable Australia, 2 Promoting and Maintaining Good Health, 3 Frontier Technologies for Building and Transforming Australian Industries, and 4 Safeguarding Australia.Read moreRead less
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: LE0775773
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Integrated electrochemical facility. The proposed facility will significantly enhance the capabilities of the collaborating Universities, provide excellent framework to support both fundamental and applied research, promote research activities to form commercial linkages and partnership with national/international players in a wide range of disciplines. It will bring direct benefit to many organizations through providing services for scientific development, create graduates of high quality, incr ....Integrated electrochemical facility. The proposed facility will significantly enhance the capabilities of the collaborating Universities, provide excellent framework to support both fundamental and applied research, promote research activities to form commercial linkages and partnership with national/international players in a wide range of disciplines. It will bring direct benefit to many organizations through providing services for scientific development, create graduates of high quality, increased capacity for contract research and direct application of research results. The project falls within the state government's key targets of 10 Years Vision for science, technology and innovation (STI 10) towards the formation of highly equipped research precincts.
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Multiplexed bio-imaging mass spectrometry. This project aims to develop technology for simultaneous three-dimensional imaging of trace elements and molecules in biological tissues. This technology is an essential analytical and diagnostic advance to uncover latent mechanistic biology and will reveal subtle metabolic interactions between cells. The project will use laser ablation-inductively coupled plasma-mass spectrometry and lanthanide-conjugated probes to map the zinc metabolic pathway in the ....Multiplexed bio-imaging mass spectrometry. This project aims to develop technology for simultaneous three-dimensional imaging of trace elements and molecules in biological tissues. This technology is an essential analytical and diagnostic advance to uncover latent mechanistic biology and will reveal subtle metabolic interactions between cells. The project will use laser ablation-inductively coupled plasma-mass spectrometry and lanthanide-conjugated probes to map the zinc metabolic pathway in the ageing mouse brain. It is expected to result in a complete imaging solution for quantitative spatial determination of all important elements, co-factors, metabolites and other functional molecules to investigate metabolic pathways which current technologies find difficult or impossible to track. Ultimately this technology is expected to underpin investigations of diseases where trace metal and chemical species dysfunction is implicated.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100140
Funder
Australian Research Council
Funding Amount
$275,000.00
Summary
Quarantined ion chromatography mass spectrometry (IC-MS) facility. This proposal seeks to establish a quarantined facility for 'ion chromatography-mass spectrometry', to provide high resolution ion chromatographic and mass spectrometric analytical capability to the environmental, analytical/bioanalyical, and industrial science research communities. The state-of-the-art facility will represent the only quarantined high-resolution IC-MS facility within Australia, and therefore not only support the ....Quarantined ion chromatography mass spectrometry (IC-MS) facility. This proposal seeks to establish a quarantined facility for 'ion chromatography-mass spectrometry', to provide high resolution ion chromatographic and mass spectrometric analytical capability to the environmental, analytical/bioanalyical, and industrial science research communities. The state-of-the-art facility will represent the only quarantined high-resolution IC-MS facility within Australia, and therefore not only support the above communities within Australia, but the potential to facilitate research collaboration internationally, including supporting Australia's leading Antarctic Science programs. Read moreRead less
Rapid, ultra-sensitive protein structure elucidation by mass spectrometry. This project seeks to develop a method for rapidly discovering classes of molecules that bind to unique sites on proteins. The development of new pharmaceuticals is frequently delayed by the time and resources required to identify the sites that new chemical entities bind to protein targets. A recent discovery has resulted in the ability to completely characterise large protein sequences directly from single mass spectra. ....Rapid, ultra-sensitive protein structure elucidation by mass spectrometry. This project seeks to develop a method for rapidly discovering classes of molecules that bind to unique sites on proteins. The development of new pharmaceuticals is frequently delayed by the time and resources required to identify the sites that new chemical entities bind to protein targets. A recent discovery has resulted in the ability to completely characterise large protein sequences directly from single mass spectra. This project aims to leverage this breakthrough by developing a rapid new approach for revealing ligand-protein binding sites using whole-protein mass spectrometry. This would enable novel sites of interactions between molecules and protein targets to be discovered rapidly with high sensitivity. In turn, this would allow the efficient design of next-generation classes of bioactive molecules.Read moreRead less