Generation of peptidomimetic surfaces for biomaterials applications. Biomedical implants are increasingly being used for the treatment of a variety of ailments. This project will significantly contribute to the development of these bioengineered constructs, by introducing an innovative method for tailoring the nature of the surface of these materials with structures that mimic the response of biological surfaces. This technology has the potential to promote favourable interactions of cells with ....Generation of peptidomimetic surfaces for biomaterials applications. Biomedical implants are increasingly being used for the treatment of a variety of ailments. This project will significantly contribute to the development of these bioengineered constructs, by introducing an innovative method for tailoring the nature of the surface of these materials with structures that mimic the response of biological surfaces. This technology has the potential to promote favourable interactions of cells with biomedical implants, and an initial targeted application will be to use these bioengineered constructs in the treatment of preventable blindness and severe visual impairment, afflictions which affect over 180 million individuals worldwide.Read moreRead less
Electron transfer in proteins, a study of mechanism and function. Our research will probe the mechanisms by which nature's living systems build, maintain, and reproduce. We present an ability to understand these processes at a detailed molecular level using science and technology at the forefront of multidisciplinary research. The research will provide a foundation for new smart materials, technologies and future industries, and also ways forward for future basic scientific research and endeavo ....Electron transfer in proteins, a study of mechanism and function. Our research will probe the mechanisms by which nature's living systems build, maintain, and reproduce. We present an ability to understand these processes at a detailed molecular level using science and technology at the forefront of multidisciplinary research. The research will provide a foundation for new smart materials, technologies and future industries, and also ways forward for future basic scientific research and endeavor. All this is done with the best international researchers and capabilities within a local environment that will help to train the next generation of Australian scientists.Read moreRead less
Mimicking peptide structure - towards an aqueous environment. In this proposal we develop a fundamental understanding of the balance between 'weak' and 'strong' forces to define the properties of peptides and proteins. This will allow the design of new biological probes and materials with tailor-made chemical and physical properties for use in bioengineering, biotechnology, proteomics, and drug design. One such example is the design and preparation of a new chemical agent for the non-surgical tr ....Mimicking peptide structure - towards an aqueous environment. In this proposal we develop a fundamental understanding of the balance between 'weak' and 'strong' forces to define the properties of peptides and proteins. This will allow the design of new biological probes and materials with tailor-made chemical and physical properties for use in bioengineering, biotechnology, proteomics, and drug design. One such example is the design and preparation of a new chemical agent for the non-surgical treatment for cataract, the major cause of blindness world-wide.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668543
Funder
Australian Research Council
Funding Amount
$280,000.00
Summary
A high resolution, high-throughput chromatographic system for separation and characterisation of complex samples. Purchase of this equipment will support innovative and collaborative research addressing three of the National Research Priority areas. For example, defining novel drug delivery systems, or the chemical components present in Australia's bioresources, addresses 'Frontier technologies for building and transforming Australian industries', particularly the priority goals of breakthrough ....A high resolution, high-throughput chromatographic system for separation and characterisation of complex samples. Purchase of this equipment will support innovative and collaborative research addressing three of the National Research Priority areas. For example, defining novel drug delivery systems, or the chemical components present in Australia's bioresources, addresses 'Frontier technologies for building and transforming Australian industries', particularly the priority goals of breakthrough science and frontier technologies. The research into trace components in food products, and on fruit fly chemistry, relates to National Research priority four 'Safeguarding Australia', with a priority goal of protecting Australia from invasive diseases and pests. Nutraceutical research addresses the goal of 'Promoting and maintaining good health'.Read moreRead less
Probing the Tasmanian Devil Serum Proteome for Preclinical Diagnosis of Devil Facial Tumour Disease. The Tasmanian Devil (Sarcophilus harrisii) is a carnivorous marsupial endemic to the island state of Tasmania, and is found all over the state. Over the past decade, a dramatic decline has occurred in the Devil population in association with the emergence of Devil Facial Tumour Disease (DFTD). This project aims to develop a preclinical diagnostic test for DFTD that will provide vital information ....Probing the Tasmanian Devil Serum Proteome for Preclinical Diagnosis of Devil Facial Tumour Disease. The Tasmanian Devil (Sarcophilus harrisii) is a carnivorous marsupial endemic to the island state of Tasmania, and is found all over the state. Over the past decade, a dramatic decline has occurred in the Devil population in association with the emergence of Devil Facial Tumour Disease (DFTD). This project aims to develop a preclinical diagnostic test for DFTD that will provide vital information for use in developing management strategies to ensure the ongoing survival of the Tasmanian Devil. The benefit to Australia in performing this research rests in the new technology that will be developed and the application of this technology to key areas of national and international significance.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
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
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
Self-assembled nanolayers of functionalised latexes as selective and adaptable nano-stationary phases in separation science. A new approach is proposed for the design and synthesis of functionalised ion-exchange stationary phases for analytical nano-separation methods. Desired charged functional groups are first affixed chemically onto nanometre sized latex particles and these particles are then self-assembled mechanically as monoloayer coatings onto a suitable supporting template such as fused ....Self-assembled nanolayers of functionalised latexes as selective and adaptable nano-stationary phases in separation science. A new approach is proposed for the design and synthesis of functionalised ion-exchange stationary phases for analytical nano-separation methods. Desired charged functional groups are first affixed chemically onto nanometre sized latex particles and these particles are then self-assembled mechanically as monoloayer coatings onto a suitable supporting template such as fused silica, monolithic silica or polymer beds, microfibres or microtubes, and channels in microchips. The resultant coated surface then acts as a highly efficient ion-exchange stationary phase which will be used in a wide range of separation technologies including ion chromatography, capillary electrophoresis, capillary electrochromatography and solid-phase microextraction.Read moreRead less