A reliable physical model of molecular motion in crystals. The scientific benefits would flow, in the first instance, to the large national and international communities of scientists whose research makes use of the results of X-ray diffraction experiments. Applications of the research to amino acids and peptides will benefit investigations into the structure and molecular dynamics of biological systems, including proteins and enzymes. Studies of charge densities in crystals will obtain a standa ....A reliable physical model of molecular motion in crystals. The scientific benefits would flow, in the first instance, to the large national and international communities of scientists whose research makes use of the results of X-ray diffraction experiments. Applications of the research to amino acids and peptides will benefit investigations into the structure and molecular dynamics of biological systems, including proteins and enzymes. Studies of charge densities in crystals will obtain a standard tool for improved modelling of molecular motion, resulting in physically more realistic charge density functions, and hence greater insight into the relationship between properties of crystals and their constituent molecules.Read moreRead less
NMR Studies of Second Generation Polynuclear Platinum Compounds. Cancer affects one in four Australians and 50% of cancer patients are treated with cisplatin. BBR3464 is a new type of platinum anticancer drug that has shown promise in clinical trials, including results in cancers that do not respond to cisplatin treatment. Second-generation analogues, now under development, may offer significant advantages. This international collaboration between Prof. Berners-Price and the inventor of these ne ....NMR Studies of Second Generation Polynuclear Platinum Compounds. Cancer affects one in four Australians and 50% of cancer patients are treated with cisplatin. BBR3464 is a new type of platinum anticancer drug that has shown promise in clinical trials, including results in cancers that do not respond to cisplatin treatment. Second-generation analogues, now under development, may offer significant advantages. This international collaboration between Prof. Berners-Price and the inventor of these new drugs puts Australian research at the forefront of the clinical development. There is the potential for the generation of new IP from new strategies in the design of improved anticancer drugs. The project builds strong international links and provides international training for Australian PhD students.Read moreRead less
NMR studies on DNA interactions of polynuclear platinum. BBR3464 is representative of a class of structurally unique platinum anticancer drugs, and is currently undergoing clinical trials. The anticancer activity most likely depends on binding to DNA, but the mechanism is different from that of the widely used drug, cisplatin. This project uses NMR spectroscopy to follow in detail the stepwise formation of DNA adducts. Further extension to reactions of polynuclear platinum complexes with sulfur ....NMR studies on DNA interactions of polynuclear platinum. BBR3464 is representative of a class of structurally unique platinum anticancer drugs, and is currently undergoing clinical trials. The anticancer activity most likely depends on binding to DNA, but the mechanism is different from that of the widely used drug, cisplatin. This project uses NMR spectroscopy to follow in detail the stepwise formation of DNA adducts. Further extension to reactions of polynuclear platinum complexes with sulfur nucleophiles will aid in understanding their metabolism and toxicity. The results of this work will aid in the selection of back-up clinical candidates and the design of drugs that target specific sequences of DNA for use in novel gene-based therapies.Read moreRead less
Simulation of ligand binding-induced conformational changes in biological systems. This project is focused on the development of a methodology that will allow using molecular dynamics simulations to study fundamental biochemical reactions. The benefits to the Australian community are two fold: i) the software developed will be made available to the whole scientific community through peer-reviewed publication. Australian researchers will have the possibility to exploit the software in advance thr ....Simulation of ligand binding-induced conformational changes in biological systems. This project is focused on the development of a methodology that will allow using molecular dynamics simulations to study fundamental biochemical reactions. The benefits to the Australian community are two fold: i) the software developed will be made available to the whole scientific community through peer-reviewed publication. Australian researchers will have the possibility to exploit the software in advance through collaborations with our research group. ii) During this collaboration Australian PhD students will have the opportunity to spend a few months overseas to learn about the most advanced computational techniques and interact with top researchers in the computational chemistry field.Read moreRead less
Blocking of the interfaces of polymeric ion sensors - implications for novel sensor applications. Control of the transmembrane fluxes of polymeric ion sensors represents a paradigm shift that has revolutionised the use of these analytically important devices. This project will develop and characterise innovative methods for controlling these fluxes by using blocked interfaces, and this has important ramifications for the development of robust and reliable sensors, as well as novel biosensors.
Geology and geochemistry of Permian and Triassic sediments in Perth Basin for exploration of petroleum in WA. A mutlidisciplinery approach using molecular organic geochemical analyses combined with geological information will innovatively contribute to a coherent portrayal of the decline, collapse and subsequent recovery of biological species at the Permian/Triassic extinction event in Western Australia and other parts of the world. The proposed study will particulary focus on environmental ch ....Geology and geochemistry of Permian and Triassic sediments in Perth Basin for exploration of petroleum in WA. A mutlidisciplinery approach using molecular organic geochemical analyses combined with geological information will innovatively contribute to a coherent portrayal of the decline, collapse and subsequent recovery of biological species at the Permian/Triassic extinction event in Western Australia and other parts of the world. The proposed study will particulary focus on environmental changes closely related to deposition of petroleum source rocks globally but also focussing on the Perth Basin of the Triassic. This information will then be used to better identify rocks in Australia offering good sources of petroleum.Read moreRead less
The investigation of the effects of catalyst doping, element substitution and defects design in carbon materials for hydrogen storage. The successful introduction of an efficient and clean hydrogen economy is contingent on developing a cost-effective storage technology. Carbon materials have demonstrated significant promise in this area. The project aims to investigate the storage capacity of hydrogen in carbon materials by doping catalysts, substituting elements and introducing designed defect ....The investigation of the effects of catalyst doping, element substitution and defects design in carbon materials for hydrogen storage. The successful introduction of an efficient and clean hydrogen economy is contingent on developing a cost-effective storage technology. Carbon materials have demonstrated significant promise in this area. The project aims to investigate the storage capacity of hydrogen in carbon materials by doping catalysts, substituting elements and introducing designed defects into the structures of carbon materials, with both theoretical and experimental methods. This project also aims to foster a long term linkage with the National Institute of Advanced Industrial Science and Technology, Japan thus enhancing Australian Universities's integration with the research institutions overseas in research and developmentRead moreRead less
The role of water uptake in novel all solid-state polymeric ion sensors. This research will enable the development of robust all solid-state polymeric ion sensors based on unplasticized copolymers. Significantly, the physical and chemical robustness of these copolymer ion sensors will allow their widespread use in new and exciting analytical applications, e.g., in-situ analysis of environmental samples in submersible instruments, clinical analysis of whole blood, in-vivo use of miniaturized ele ....The role of water uptake in novel all solid-state polymeric ion sensors. This research will enable the development of robust all solid-state polymeric ion sensors based on unplasticized copolymers. Significantly, the physical and chemical robustness of these copolymer ion sensors will allow their widespread use in new and exciting analytical applications, e.g., in-situ analysis of environmental samples in submersible instruments, clinical analysis of whole blood, in-vivo use of miniaturized electrodes in biological media, especially single cells and minute samples in biology and forensic science, etc. Extensive use of neutron characterization techniques aligns strongly this project with the new OPAL reactor to be commissioned in 2007.Read moreRead less
Chemostat experiments to mimic toxic environments associated with mass extinction events. This project will help scientists understand past climate changes and understand the mechanisms of global warming. This in turn will improve our ability to forecast future climate change, and help Australia manage current threats to its biodiversity. Importantly, this project will enable students and young professionals to be trained in state-of-the-art technologies, leading to quality scientists ready for ....Chemostat experiments to mimic toxic environments associated with mass extinction events. This project will help scientists understand past climate changes and understand the mechanisms of global warming. This in turn will improve our ability to forecast future climate change, and help Australia manage current threats to its biodiversity. Importantly, this project will enable students and young professionals to be trained in state-of-the-art technologies, leading to quality scientists ready for employment in geoscience industries, and raising the profile of science careers in Australia.Read moreRead less