Periodic nano-ratchets: a new paradigm for biomolecule separation. This project proposes the theoretical and experimental study of a new separation principle. The platform technologies developed from this research will see wide ranging applications. They will reveal new insights into fundamental phenomena of membranes and separation processes underpinning development of new generation of separation technologies. New membranes and microchip separation devices which can be applied to genomic, prot ....Periodic nano-ratchets: a new paradigm for biomolecule separation. This project proposes the theoretical and experimental study of a new separation principle. The platform technologies developed from this research will see wide ranging applications. They will reveal new insights into fundamental phenomena of membranes and separation processes underpinning development of new generation of separation technologies. New membranes and microchip separation devices which can be applied to genomic, proteomic, forensic and a range medical, biotechnological and analytical applications will be readily achievable. This is an international and interdisciplinary research project and its outcomes will enhance Australia's ability in frontier technologies, advanced materials.Read moreRead less
Selective enrichment of proteins using micro-Gradiflow technology and characterisation of proteins using LC-MS/MS. This project describes crucial areas for the technology development of protein enrichment and fractionation. While current techniques are powerful, the usefulness to identify and characterise proteins of low abundance from massively complex samples in the presence of abundant proteins is limited and requires up to mililitre volumes. We intend to develop the micro-Gradiflow technolog ....Selective enrichment of proteins using micro-Gradiflow technology and characterisation of proteins using LC-MS/MS. This project describes crucial areas for the technology development of protein enrichment and fractionation. While current techniques are powerful, the usefulness to identify and characterise proteins of low abundance from massively complex samples in the presence of abundant proteins is limited and requires up to mililitre volumes. We intend to develop the micro-Gradiflow technology in association with Gradipore as a means of protein fractionation using microlitre volumes of sample. This technology will be applicable to all areas of proteomic research and in particular to the study of cell differentiation. The outcome for Australian industry, our competitiveness both industrial and scientific, and the potential for economic advancement is tremendous.Read moreRead less
Advanced Separation Technologies and Chemometric Data Processing for Macromolecular Materials and Metabolite Profiling. The project will develop innovative separation technologies for specialised materials, which could lead the scientific export industry in Australia, with employment benefits to the community. Partner, Dow has links with researchers around the world, and this project will allow Australian researchers to access the network of Dow laboratories and projects and develop a long-term ....Advanced Separation Technologies and Chemometric Data Processing for Macromolecular Materials and Metabolite Profiling. The project will develop innovative separation technologies for specialised materials, which could lead the scientific export industry in Australia, with employment benefits to the community. Partner, Dow has links with researchers around the world, and this project will allow Australian researchers to access the network of Dow laboratories and projects and develop a long-term relationship. The analysis methods to be developed will focus on metabolite profiling which has relevance to a broad range of biological monitoring activities from human health, to plant genetics and breeding. New generation polymer materials will be characterised by using the new techniques developed. The methods will be platform technologies for future studies eg. anti-terrorism bio- and chemo-monitoring.Read moreRead less
New separation technologies for profiling metabolites in biological samples. Metabolomics is an important new field of science that is contributing to the understanding of life processes at the molecular level. But a widely acknowledged major limitation of current metabolomics technologies is the inability to accurately identify high numbers of detected metabolites in the biological extracts being studied. This project will develop cutting-edge separation science approaches to address this exist ....New separation technologies for profiling metabolites in biological samples. Metabolomics is an important new field of science that is contributing to the understanding of life processes at the molecular level. But a widely acknowledged major limitation of current metabolomics technologies is the inability to accurately identify high numbers of detected metabolites in the biological extracts being studied. This project will develop cutting-edge separation science approaches to address this existing problem in metabolomics analysis. In doing so it will provide enormous benefit to Australian biotechnology and biomedical research and play a major role in transferring capabilities to laboratories and research institutes that are involved in research aimed at elucidating biological pathways and networks.Read moreRead less
Novel approach to study mechanisms of Na+ transport in plants using Lab on a Chip technology. A Lab on a Chip for sodium ion measurements in plants is proposed, offering a long overdue solution to the lack of appropriate techniques to study the mechanisms of sodium iron uptake, transport and compartmentation. Sodium ion transport is a key determinant of salt tolerance, but a good understanding of its transport mechanisms is lacking since no appropriate measurement tools are available. Using the ....Novel approach to study mechanisms of Na+ transport in plants using Lab on a Chip technology. A Lab on a Chip for sodium ion measurements in plants is proposed, offering a long overdue solution to the lack of appropriate techniques to study the mechanisms of sodium iron uptake, transport and compartmentation. Sodium ion transport is a key determinant of salt tolerance, but a good understanding of its transport mechanisms is lacking since no appropriate measurement tools are available. Using the system proposed here, sodium ion is separated from interfering ions, allowing fast and selective measurements. A series of ground breaking studies towards sodium ion uptake, transport and compartmentation in plants will be conducted using this Lab on a Chip.Read moreRead less
Integrated Multidimensional Gas Chromatography - Spectroscopic Detection Methodology for Chemical Marker Discovery. Chemical species are pervasive in our modern society and are found in personal care products, foods, additives, petroleum products, illicit drugs, pharmaceuticals and pollutants. Each sample must be analysed to determine its accurate composition, and as a safeguard. This requires chemical methods of analysis. Classical chemical methods may fail when samples become too complex, or t ....Integrated Multidimensional Gas Chromatography - Spectroscopic Detection Methodology for Chemical Marker Discovery. Chemical species are pervasive in our modern society and are found in personal care products, foods, additives, petroleum products, illicit drugs, pharmaceuticals and pollutants. Each sample must be analysed to determine its accurate composition, and as a safeguard. This requires chemical methods of analysis. Classical chemical methods may fail when samples become too complex, or they may lead to imprecise identification. This Frontier Technologies proposal has broad national and international relevance through development of new methods for authentication of chemical identity and the subsequent superior ability to characterise numerous sample compositions.Read moreRead less
Non-discriminatory, universal and sensitive detection technologies for fluid based separation techniques in the pharmaceutical industry. The proposed research is focused on the specific needs of Australian and global pharmaceutical industries, and addresses a problem which is becoming increasingly significant with new classes of pharmaceuticals. Successful achievement of the goals of the project will result in major savings of cost and time during drug development and will lead to the productio ....Non-discriminatory, universal and sensitive detection technologies for fluid based separation techniques in the pharmaceutical industry. The proposed research is focused on the specific needs of Australian and global pharmaceutical industries, and addresses a problem which is becoming increasingly significant with new classes of pharmaceuticals. Successful achievement of the goals of the project will result in major savings of cost and time during drug development and will lead to the production of safer drugs. The project will expand collaboration between Australia researchers and the world's largest pharmaceutical company. Specialised training will be provided to both postdoctoral and postgraduate researchers, positioning them to make strong contributions to Australia's growing pharmaceutical industry.Read moreRead less
Disposable microdevices for fast ion analysis. The design and fabrication of a microdevice for ion chromatography will introduce Australia to the field of miniaturised total analytical systems (µTAS). The availability of infrastructure, technology and experience in the µTAS area will provide the foundation for specialised commercialisation of sophisticated, chip-based analytical instruments. These instruments have important applications in forensic, clinical and environmental chemistry.
Simulation, Modelling, Prediction and Two-Dimensional Retention Database Development in Comprehensive Two-Dimensional Gas Chromatography (GC×GC). Quality of life is enhanced by the application of chromatography to many aspects of living. It is an existing technology made more powerful when used as comprehensive two-dimensional gas chromatography (GC×GC), an advanced form of GC. This project will apply new interpretation strategies to GC×GC to improve precise chemical analysis in many areas inclu ....Simulation, Modelling, Prediction and Two-Dimensional Retention Database Development in Comprehensive Two-Dimensional Gas Chromatography (GC×GC). Quality of life is enhanced by the application of chromatography to many aspects of living. It is an existing technology made more powerful when used as comprehensive two-dimensional gas chromatography (GC×GC), an advanced form of GC. This project will apply new interpretation strategies to GC×GC to improve precise chemical analysis in many areas including: measurement of 'good fats' in foods, sources of illicit drugs, allergens in perfumes, disease profiling through metabolite monitoring and the detection of performance enhancing drugs in sport. Based on this research, the science of chromatography will be advanced in Australia and throughout the world, using Australian technology and expertise.Read moreRead less
Characterising post-translational modifications in bacterial proteins. This project represents the first global attempt to characterize post-translational modifications in bacterial proteins using the tools of proteomics. Modifications to proteins are key elements in altering their function. In bacteria, modifications are important in cell-cell adhesion, signalling and triggering of the immune response. Characterisation of modified proteins and their sites of modification represents an opportuni ....Characterising post-translational modifications in bacterial proteins. This project represents the first global attempt to characterize post-translational modifications in bacterial proteins using the tools of proteomics. Modifications to proteins are key elements in altering their function. In bacteria, modifications are important in cell-cell adhesion, signalling and triggering of the immune response. Characterisation of modified proteins and their sites of modification represents an opportunity to understand how bacterial cell populations communicate in the environment, as well as aid in understanding pathogenesis in medical, veterinary and food-borne pathogens. Therefore, improved vaccine targets and therapeutics, as well as method-based products, may be generated by this project.Read moreRead less