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.
New Methods for Structural Biology in Solution. This project aims to expand the range of applications of nuclear magnetic resonance (NMR) spectroscopy in pharmaceutical research, where NMR spectroscopy is already used routinely for the identification of chemical compounds that bind to protein targets. The techniques developed aim at providing rapid and broadly applicable tools for 3D structure determinations of chemical compounds bound to their protein target, identification of protein-protein i ....New Methods for Structural Biology in Solution. This project aims to expand the range of applications of nuclear magnetic resonance (NMR) spectroscopy in pharmaceutical research, where NMR spectroscopy is already used routinely for the identification of chemical compounds that bind to protein targets. The techniques developed aim at providing rapid and broadly applicable tools for 3D structure determinations of chemical compounds bound to their protein target, identification of protein-protein interaction sites and characterization of protein motions. The limits of NMR spectroscopy will be pushed to analyse systems of significantly increased molecular weights. The project includes applications to drug targets such as the dengue virus NS2B/NS3 protease.Read moreRead less
New Methods for Structural Biology in Solution. New technologies will be developed that are sufficiently rapid and inexpensive to compete with and replace the mutagenesis experiments that biologists usually perform to identify and characterize the functionally important parts of a protein. Nuclear magnetic resonance (NMR) spectroscopy techniques in combination with various selective labelling schemes will be developed with the goal of identification and structural characterization of protein-lig ....New Methods for Structural Biology in Solution. New technologies will be developed that are sufficiently rapid and inexpensive to compete with and replace the mutagenesis experiments that biologists usually perform to identify and characterize the functionally important parts of a protein. Nuclear magnetic resonance (NMR) spectroscopy techniques in combination with various selective labelling schemes will be developed with the goal of identification and structural characterization of protein-ligand interactions at increased rates and enhanced accuracy. In addition, the three-dimensional structures of proteins and protein domains of biologically important functions and unknown fold will be determined by NMR. The project aims at techniques of direct impact in pharmaceutical industry.Read moreRead less
THE FIRST DEVELOPMENT OF MULTI-DIMENSIONAL SPECTRO-ELECTROCHEMISTRY AND ITS APPLICATION TO CRUCIAL TRANSFORMATIONS IN INORGANIC SYSTEMS. Electrolysis is a very widespread and efficient method of chemical synthesis both in industry and research. However, the link between the control voltage and the resultant current is often complicated and easily misinterpreted. To overcome this fundamental problem, we propose an optical spectro-electrochemistry instrument based on a two-dimensional CCD detectio ....THE FIRST DEVELOPMENT OF MULTI-DIMENSIONAL SPECTRO-ELECTROCHEMISTRY AND ITS APPLICATION TO CRUCIAL TRANSFORMATIONS IN INORGANIC SYSTEMS. Electrolysis is a very widespread and efficient method of chemical synthesis both in industry and research. However, the link between the control voltage and the resultant current is often complicated and easily misinterpreted. To overcome this fundamental problem, we propose an optical spectro-electrochemistry instrument based on a two-dimensional CCD detection array. This radically new approach enables simultaneous spectroscopic and spatial data mapping in the realm adjacent to an electrode surface. Important applications range from unequivocal identification of elusive molecules to monitoring metal corrosion. Our first objective is to elucidate certain crucial transformations of mono- and binuclear heavy metal complexes.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
Special Research Initiatives - Grant ID: SR0354560
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
AUSTRALIAN RESEARCH NETWORK IN ANALYTICAL SCIENCE (ARNAS). The initiative will provide the foundations for the establishment of an Australian Research Network in Analytical Science (ARNAS), which will bring together fundamental researchers and practitioners working in quantitative chemical analysis and related areas. ARNAS will provide national coordination of research in analytical science, coverage of the newest developments, pooling of expertise and research facilities and resources, and rap ....AUSTRALIAN RESEARCH NETWORK IN ANALYTICAL SCIENCE (ARNAS). The initiative will provide the foundations for the establishment of an Australian Research Network in Analytical Science (ARNAS), which will bring together fundamental researchers and practitioners working in quantitative chemical analysis and related areas. ARNAS will provide national coordination of research in analytical science, coverage of the newest developments, pooling of expertise and research facilities and resources, and rapid dissemination of outcomes. ARNAS will significantly advance the national research agenda for analytical science by improving awareness of research activities and expertise, providing enhanced education and opportunities for the next generation of analytical scientists, and by stimulating new international collaborations.Read moreRead less
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
Characterization of metabolic networks in a microbial pathogen. New methods are needed to understand complex cellular processes such as metabolism. This proposal will support the development of methods in metabolite profiling and flux analysis that provide a global view of metabolic networks in cells and complement other profiling approaches, such as proteomics and transcriptomics. The development of these approaches (collectively termed Systems Biology) is essential for maintaining Australia sc ....Characterization of metabolic networks in a microbial pathogen. New methods are needed to understand complex cellular processes such as metabolism. This proposal will support the development of methods in metabolite profiling and flux analysis that provide a global view of metabolic networks in cells and complement other profiling approaches, such as proteomics and transcriptomics. The development of these approaches (collectively termed Systems Biology) is essential for maintaining Australia science at the forefront of international efforts (National Research Priority 3; Breakthrough science). This project will also directly contribute to our understanding of metabolism of an important human pathogen and provide training to young Australian scientists.Read moreRead less