Exploiting the self-assembly of hydrophobin proteins to engineer functional nanostructuring surfaces. There is an increasing world-wide demand for advanced nano-biomaterials with novel properties. We will use natural hydrophobin proteins to coat nanodevices and make them more compatible with biological systems. Hydrophobin coatings will be applicable to biosensors, medical devices, diagnostics and drug delivery systems. The research will lead to an understanding of the basic mechanisms of protei ....Exploiting the self-assembly of hydrophobin proteins to engineer functional nanostructuring surfaces. There is an increasing world-wide demand for advanced nano-biomaterials with novel properties. We will use natural hydrophobin proteins to coat nanodevices and make them more compatible with biological systems. Hydrophobin coatings will be applicable to biosensors, medical devices, diagnostics and drug delivery systems. The research will lead to an understanding of the basic mechanisms of protein self-assembly and will have application outcomes that contribute to Australia being an important player in the field of nanotechnology. This is critical for Australia's long term competitiveness and productivity in and beyond the 21st century.Read moreRead less
Design of Novel Polymer Micro-Porous Coatings. This project utilises unique polymer structures that self-organise into highly-ordered polymer films. These polymer films have arrays of pores with pore diameters on the micron scale. These films are suitable for high-technology membranes applications, in for instance, biosensors.
Design of Polymeric Devices for Biotechnological Applications. The research project focuses on the development of functional polymer particles for diagnostic applications. Advanced polymer chemistry will be used to synthesize devices for reliable and fast diagnostic systems. The outcome of this work will help promoting and maintaining good health in Australia by developing novel technologies and advanced materials based on polymer science.
Polymer Stabilized and Bio-functionalised Metal Nanoparticles As Potential Vectors For Drug Therapies. The project aims to make novel nanoparticles (extremely small, nano means one billionth of a metre) that carry medicines to very specific sites of the body and then release them. This would result in much improved outcomes for conventional chemotherapy but may also allow new gene therapies where diseases can be silenced at their source.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883068
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
Dako ACIS III Cellular Image Acquisition and Analysis System. The scientific advances that will be possible with the acquisition of this novel, cutting-edge instrument will enhance the research outputs of all investigators using it. The ability to visualize and analyze cells and tissues from many different animal species, to elucidate both normal and abnormal functions, will be enhanced by the use of this technology. This will lead to production of quantitative statistical data that in turn will ....Dako ACIS III Cellular Image Acquisition and Analysis System. The scientific advances that will be possible with the acquisition of this novel, cutting-edge instrument will enhance the research outputs of all investigators using it. The ability to visualize and analyze cells and tissues from many different animal species, to elucidate both normal and abnormal functions, will be enhanced by the use of this technology. This will lead to production of quantitative statistical data that in turn will inform new approaches to improve and maintain the health of humans and other animals.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989105
Funder
Australian Research Council
Funding Amount
$495,000.00
Summary
An Advanced Mass Spectrometry Facility for Applications in Proteomics and Organic Chemistry. Biomolecular research and research training, in which proteomics is core, has become a critical component of post-industrial development in the Hunter region. Development of a cutting edge proteomics facility will benefit a research community comprising over 50 researchers and 150 undergraduate students significantly enhancing their research productivity and translation of outcomes in areas of national i ....An Advanced Mass Spectrometry Facility for Applications in Proteomics and Organic Chemistry. Biomolecular research and research training, in which proteomics is core, has become a critical component of post-industrial development in the Hunter region. Development of a cutting edge proteomics facility will benefit a research community comprising over 50 researchers and 150 undergraduate students significantly enhancing their research productivity and translation of outcomes in areas of national importance. These include understanding the impact of the environment on plant and animal development, pest animal control, development of new biotechnology tools, new drugs and new methods for the detection of narcotics and explosives.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668479
Funder
Australian Research Council
Funding Amount
$265,000.00
Summary
Advanced Imaging Flow Cytometry Facility for NSW. The scientific advances that will be possible with the acquisition of this novel, cutting-edge instrument will enhance the research outputs of all investigators using it. Projects where the investigation of single cells is used to elucidate the basic life processes of eukaryotic cells across all species of animals, including the investigation of both normal and abnormal function, will be immeasurably enhanced by both the qualitative and quantitat ....Advanced Imaging Flow Cytometry Facility for NSW. The scientific advances that will be possible with the acquisition of this novel, cutting-edge instrument will enhance the research outputs of all investigators using it. Projects where the investigation of single cells is used to elucidate the basic life processes of eukaryotic cells across all species of animals, including the investigation of both normal and abnormal function, will be immeasurably enhanced by both the qualitative and quantitative statistical information about these processes that is generated by this instrument. This in turn will inform new approaches to improve and maintain the health of the human and animal community.Read moreRead less
Development of novel fluorescent proteins from marine organisms for in vivo fluorescence imaging technologies and cancer research. The Australian Great Barrier Reef (GBR) is a national treasure and the development of fluorescent proteins (FPs) from reef organisms for in vivo imaging and biotechnology will enhance the appreciation of this resource. Nowadays, imaging of biochemical processes in living cells is essential for knowing the roles of various genes and proteins in health and diseases. Th ....Development of novel fluorescent proteins from marine organisms for in vivo fluorescence imaging technologies and cancer research. The Australian Great Barrier Reef (GBR) is a national treasure and the development of fluorescent proteins (FPs) from reef organisms for in vivo imaging and biotechnology will enhance the appreciation of this resource. Nowadays, imaging of biochemical processes in living cells is essential for knowing the roles of various genes and proteins in health and diseases. The global market for fluorescence-based products is estimated in billions of dollars p.a. The discovery of natural FPs from GBR with superior molecular, biophysical and optical characteristics to those of commercially available FPs offers a unique opportunity to develop advanced tools to study cellular processes and develop diagnostic assays for diseases such as cancer.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100010
Funder
Australian Research Council
Funding Amount
$720,000.00
Summary
A 5-D Correlative Imaging Platform: Combining the strengths of light and electron microscopy. This will be Australia's first dedicated five-dimensional multiphoton-microscopy platform, allowing observation of dynamic structures across different length and time scales under controlled temperatures, followed by high-resolution electron microscopy studies on the same samples. This platform will provide a unique characterisation tool to Australia's top-flight investigators, and so contribute to the ....A 5-D Correlative Imaging Platform: Combining the strengths of light and electron microscopy. This will be Australia's first dedicated five-dimensional multiphoton-microscopy platform, allowing observation of dynamic structures across different length and time scales under controlled temperatures, followed by high-resolution electron microscopy studies on the same samples. This platform will provide a unique characterisation tool to Australia's top-flight investigators, and so contribute to the nation's research priorities. It will enable: fundamental studies of cancer, neural diseases and immune disorders; the development of frontier technologies, such as smart nanomaterials, biosensors and targeted drug delivery; and applied research to help plants and soils adapt to climate variability, and to increase sustainable use of water.Read moreRead less