Response of Proteins to External Non-Ionising Radiation: an Experimental and Computer Modelling Investigation. The expanding use of digital technologies such as mobile phones has led to major health concerns about the effects of non-ionising pulsed radiation exposure which has been shown to produce instantaneous temperature rises undetectable by normal thermometry. The health implications of exposure are not understandable without establishing molecular mechanisms by which pulsed microwaves can ....Response of Proteins to External Non-Ionising Radiation: an Experimental and Computer Modelling Investigation. The expanding use of digital technologies such as mobile phones has led to major health concerns about the effects of non-ionising pulsed radiation exposure which has been shown to produce instantaneous temperature rises undetectable by normal thermometry. The health implications of exposure are not understandable without establishing molecular mechanisms by which pulsed microwaves can cause biological effects. We aim to establish methods for studying the molecular mechanisms of protein structural and energetic changes occurring due to non-ionising radiation. The results will help our industry partner to design specific drugs as well as formulate a scientifically based standard for microwave utilisation.Read moreRead less
Numerical Modelling and Experimental Studies to Design and Engineer Nanoparticulate Systems for Bioapplications. Project outcomes will enhance Australia's reputation for scientific innovation in the field of bio-nanotechnology. The project will expand the knowledge base in this area and increase Australia's international profile in research on nanomaterials for bio-related applications. The project partners UNSW and Australian company (Minomic), integrating their skills, expertise and facilities ....Numerical Modelling and Experimental Studies to Design and Engineer Nanoparticulate Systems for Bioapplications. Project outcomes will enhance Australia's reputation for scientific innovation in the field of bio-nanotechnology. The project will expand the knowledge base in this area and increase Australia's international profile in research on nanomaterials for bio-related applications. The project partners UNSW and Australian company (Minomic), integrating their skills, expertise and facilities to address current limitations in understanding the stability of magnetic nanoparticles in biological fluids. The Australian partners will play a leading role in commercializing new applications for functionalized magnetic nanoparticles. The project will provide an excellent multidisciplinary research environment and training for early career researchers.Read moreRead less
The Chemistry and Biochemistry of Chromium: Cancer and Nutrition. Of all of the human carcinogens, chromium(VI) has the highest level of occupational exposure, and is of increasing concern as an environmental carcinogen, as highlighted by the film Erin Brockovitch. Similarly, chromium(III) nutritional supplement consumption by humans and animals is rising rapidly, despite mounting concerns about their cancer risks. However, the complexity of Cr biochemistry is such that it is still poorly unde ....The Chemistry and Biochemistry of Chromium: Cancer and Nutrition. Of all of the human carcinogens, chromium(VI) has the highest level of occupational exposure, and is of increasing concern as an environmental carcinogen, as highlighted by the film Erin Brockovitch. Similarly, chromium(III) nutritional supplement consumption by humans and animals is rising rapidly, despite mounting concerns about their cancer risks. However, the complexity of Cr biochemistry is such that it is still poorly understood. This project aims at providing new insights into Cr biochemistry that are of relevance in evaluating risk factors for occupational and environmental exposure and for producing safer Cr dietary supplements.Read moreRead less
Gas phase studies of reactive organic radicals: a novel approach using mass spectrometry. Radical reactions play a crucial role in a range of important chemistries, ranging from the formation of photochemical smog to the accumulation of pathogens in the ageing body. Despite their importance, the reactions of many radicals are poorly understood because of current experimental limitations. In this project we propose to develop two new and broadly applicable techniques for probing radical chemistry ....Gas phase studies of reactive organic radicals: a novel approach using mass spectrometry. Radical reactions play a crucial role in a range of important chemistries, ranging from the formation of photochemical smog to the accumulation of pathogens in the ageing body. Despite their importance, the reactions of many radicals are poorly understood because of current experimental limitations. In this project we propose to develop two new and broadly applicable techniques for probing radical chemistry in the gas phase via novel applications of mass spectrometry. Combined with quantum chemical calculations and state-of-the-art thermodynamic measurements these methods will provide a comprehensive understanding of the reactivity of key organic radicals.Read moreRead less
Cross-linked Tyrosine Residues in Peptides and Proteins. Many peptides and proteins have recently been found to contain unusual structural modifications, commonly in the form of cross-linked tyrosine residues. The aims of this project are to design and synthesise examples of these cross-linked tyrosine structures, thereby enabling the preparation of models of the modified proteins. Outcomes of this research will include an increased understanding of the relationship between the three-dimensional ....Cross-linked Tyrosine Residues in Peptides and Proteins. Many peptides and proteins have recently been found to contain unusual structural modifications, commonly in the form of cross-linked tyrosine residues. The aims of this project are to design and synthesise examples of these cross-linked tyrosine structures, thereby enabling the preparation of models of the modified proteins. Outcomes of this research will include an increased understanding of the relationship between the three-dimensional structure and biological activity of peptides/proteins, the generation of lead compounds for new anti-bacterial and anti-fungal pharmaceuticals, and the preparation of biological 'markers' of the processes involved in neurodegenerative diseases and aging.Read moreRead less
Hydrogen Bonding, Hydrogen Transfer, Hydrogenation and Hydrogenolysis: A Computational Quantum Chemistry Investigation. This proposal aims to carry out state-of-the-art chemistry research using computer modelling rather than traditional laboratory methods. The computer calculations are directed towards designing catalysts that will provide more efficient ways to convert environmentally harmful carbon dioxide to a valuable chemical fuel methanol, and to convert toxic polychlorinated hydrocarbon ....Hydrogen Bonding, Hydrogen Transfer, Hydrogenation and Hydrogenolysis: A Computational Quantum Chemistry Investigation. This proposal aims to carry out state-of-the-art chemistry research using computer modelling rather than traditional laboratory methods. The computer calculations are directed towards designing catalysts that will provide more efficient ways to convert environmentally harmful carbon dioxide to a valuable chemical fuel methanol, and to convert toxic polychlorinated hydrocarbon wastes to benign products. The increased understanding of free radicals that will stem from this research may ultimately help in dealing with problems associated with heart disease, some forms of cancer and vitamin B12 deficiency. New generations of chemists will be trained at the highest level in this burgeoning field of computational chemistry.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883030
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
High-Resolution Field Emission Scanning Electron Microscopy (FESEM) Platform for Characterisation at the Nanometre-Level. The Field Emission Scanning Electron Microscope (FESEM) is designed to provide fundamental insights into physical and biological systems though characterisation and analysis of structures on nanometre length scales. This versatile instrument will support a wide range of research projects covering all four national research priorities. These range from the characterisation of ....High-Resolution Field Emission Scanning Electron Microscopy (FESEM) Platform for Characterisation at the Nanometre-Level. The Field Emission Scanning Electron Microscope (FESEM) is designed to provide fundamental insights into physical and biological systems though characterisation and analysis of structures on nanometre length scales. This versatile instrument will support a wide range of research projects covering all four national research priorities. These range from the characterisation of light alloys to boost and intensify Australia's aluminium, magnesium and titanium alloy industries, to tissue engineering for the repair of human elastic tissues in skin, artery, bladder and lung, to the study of microtubules in plant cells for genetic manipulation of plants to withstand environmental stresses such as drought or salinity.Read moreRead less
Characterisation of two-pore domain potassium channels: structure-function studies of the M1-P1 loops of TASK channels. TWIK-related Acid Sensitive K+ (TASK) channels are members of the novel class of two-pore domain potassium channel family. They are potently inhibited by local anaesthetics and have been implicated as having important roles in many pathophysiological conditions such as heart arrythmias, stroke, epilepsy, breast and other cancers. The in depth structural and functional character ....Characterisation of two-pore domain potassium channels: structure-function studies of the M1-P1 loops of TASK channels. TWIK-related Acid Sensitive K+ (TASK) channels are members of the novel class of two-pore domain potassium channel family. They are potently inhibited by local anaesthetics and have been implicated as having important roles in many pathophysiological conditions such as heart arrythmias, stroke, epilepsy, breast and other cancers. The in depth structural and functional characterisation of this class of potassium channels is of great importance as they are interesting targets for new therapeutic developments. Advancement of knowledge in the structure and function of these channels will underpin drug targeting that will aid preventative healthcare, allowing Australians to age well and age productively.Read moreRead less
Mass Spectrometric Investigations of Conformation and Dynamics of Biological Complexes. The new collaboration between the leading mass spectrometry groups at University Wollongong and Cambridge University will benefit both partners. Researchers at Wollongong will have access to an ion mobility mass spectrometry technology not currently available in Australia that will contribute to our understanding of complicated cellular processes such as chromosome replication. The researchers' experience wit ....Mass Spectrometric Investigations of Conformation and Dynamics of Biological Complexes. The new collaboration between the leading mass spectrometry groups at University Wollongong and Cambridge University will benefit both partners. Researchers at Wollongong will have access to an ion mobility mass spectrometry technology not currently available in Australia that will contribute to our understanding of complicated cellular processes such as chromosome replication. The researchers' experience with this technology will pave the way for introduction of the technology to Australia and benefit the wider scientific community in wide-ranging projects such as development of new antibiotics and vaccines. Students from both institutions will benefit from experiencing science from an international perspective.Read moreRead less
Electro-active and migratory peptides in lipid bilayers: NMR and biophysical studies. All living things are characterized by the separation of inner space from the surrounding medium by a self-assembling membrane. Selective entry and exit of water, ions and solutes is a defining feature of each type of cell. Some proteins sense the voltage difference across the cell membrane and open or close in response to voltage changes. Others, like bacterial toxins assemble in the membrane as pores, while o ....Electro-active and migratory peptides in lipid bilayers: NMR and biophysical studies. All living things are characterized by the separation of inner space from the surrounding medium by a self-assembling membrane. Selective entry and exit of water, ions and solutes is a defining feature of each type of cell. Some proteins sense the voltage difference across the cell membrane and open or close in response to voltage changes. Others, like bacterial toxins assemble in the membrane as pores, while other peptides migrate across the membrane piggy-backing their peptide cargo. The aim is to understand the molecular mechanisms in examples of these membrane-active peptides and proteins with a view to enabling rational intervention into their operation in situ in normal and disease states.Read moreRead less