Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883036
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Integrated Vibrational Spectroscopic Mapping for Archeological, Biological, Geological, Materials, and Medical Research. The expected benefits that will arise will include: green chemical processes with improved environmental and economic impacts; improved treatments and diagnoses of diseases; understanding of fundamental geological processes; identification of the earliest forms; studies of archaeological artefacts; evolution of life on Earth; the design of improved dental materials. Ultimatel ....Integrated Vibrational Spectroscopic Mapping for Archeological, Biological, Geological, Materials, and Medical Research. The expected benefits that will arise will include: green chemical processes with improved environmental and economic impacts; improved treatments and diagnoses of diseases; understanding of fundamental geological processes; identification of the earliest forms; studies of archaeological artefacts; evolution of life on Earth; the design of improved dental materials. Ultimately, this research will include economic and social benefits in; industrial processes; the mining industry; medicine; and dentistry. An understanding of the origin and early evolution of life on Earth also has many social implications.Read moreRead less
The fate of dietary selenium in vivo; a direct approach to linking chemical form with biological activity. Dietary selenium supplementation has great potential as a preventative treatment for a range of human health conditions, including cancer, that widely affect the Australian population. However, the adverse effects of such treatments are not fully recognised. This project will increase our knowledge of how selenium compounds are stored and utilised in the body and relate the information to c ....The fate of dietary selenium in vivo; a direct approach to linking chemical form with biological activity. Dietary selenium supplementation has great potential as a preventative treatment for a range of human health conditions, including cancer, that widely affect the Australian population. However, the adverse effects of such treatments are not fully recognised. This project will increase our knowledge of how selenium compounds are stored and utilised in the body and relate the information to clinical observations regarding dietary intake of selenium and other compounds. The new understanding generated will delineate the conditions for safe intake, so that the beneficial effects associated with selenium supplementation may be harnessed more effectively.Read moreRead less
Nanoprobe and Microprobe Spectroscopic Techniques in Drug Design, Probing Mechanisms of Diseases, and Bioinorganic Chemistry. Nanoprobe and microprobe spectroscopic techniques offer unparalleled opportunities to probe the structures and distributions of drugs, carcinogens, and biomolecules in cultured cells and tissues. Such techniques represent new frontiers in understanding in vivo metabolic processes at the molecular level, as well as providing unprecedented information on the metabolism and ....Nanoprobe and Microprobe Spectroscopic Techniques in Drug Design, Probing Mechanisms of Diseases, and Bioinorganic Chemistry. Nanoprobe and microprobe spectroscopic techniques offer unparalleled opportunities to probe the structures and distributions of drugs, carcinogens, and biomolecules in cultured cells and tissues. Such techniques represent new frontiers in understanding in vivo metabolic processes at the molecular level, as well as providing unprecedented information on the metabolism and distributions of pharmaceuticals and toxins involved in the treatment and cause of diseases, such as cancer. This project is aimed at pushing the boundaries of nanoprobe and microprobe (X-ray absorption, SRIXE, PIXE, Raman and two-photon fluorescence) techniques for such applications.Read moreRead less
DNA Dynamics is Shear and Extensional Flows: Simulation and Single Molecule Experiments. The proposal seeks to establish a collaboration between Monash University and Stanford University in order to combine several recent experimental and theoretical advances that have been made by the individual groups in single molecule experimental techniques, extensional rheometry, and molecular rheology, to obtain new insights into the structure and dynamics of biopolymers. The central aim is to make a sign ....DNA Dynamics is Shear and Extensional Flows: Simulation and Single Molecule Experiments. The proposal seeks to establish a collaboration between Monash University and Stanford University in order to combine several recent experimental and theoretical advances that have been made by the individual groups in single molecule experimental techniques, extensional rheometry, and molecular rheology, to obtain new insights into the structure and dynamics of biopolymers. The central aim is to make a significant contribution towards bringing state-of-the-art techniques used for the characterization of polymeric systems to bear on the nature and origin of the elastic properties of biopolymers.Read moreRead less
The flow properties of proteins and other biopolymers. The living cell is an extraordinary organization with a vast variety of biomacromolecules carrying out myriads of functions with great specificity and accuracy. The key issue in cell biology is to unravel the structures of biopolymers and the deep connection that exists between structure and function. This interdisciplinary research program combines recent advances in experimental and theoretical rheology, with advances in protein science, t ....The flow properties of proteins and other biopolymers. The living cell is an extraordinary organization with a vast variety of biomacromolecules carrying out myriads of functions with great specificity and accuracy. The key issue in cell biology is to unravel the structures of biopolymers and the deep connection that exists between structure and function. This interdisciplinary research program combines recent advances in experimental and theoretical rheology, with advances in protein science, to investigate the response of biopolymers to deformation. This approach will lead to insights into the problem of protein folding, the interaction of biopolymers with surfaces, and the physical basis for the mechanical properties of biopolymers.Read moreRead less
Elucidating the Mode of Action of Nicotinic Receptor Ligands. Changes in brain function can cause human diseases such as epilepsy, schizophrenia and Alzheimer's disease. To develop new medicines to treat these conditions we need to study how drugs act in the brain. This project will use new methods of chemistry to make drugs, which will then be tested for biological activity at important brain receptors. This will tell us which compounds are most effective as potential drugs and also exactly whe ....Elucidating the Mode of Action of Nicotinic Receptor Ligands. Changes in brain function can cause human diseases such as epilepsy, schizophrenia and Alzheimer's disease. To develop new medicines to treat these conditions we need to study how drugs act in the brain. This project will use new methods of chemistry to make drugs, which will then be tested for biological activity at important brain receptors. This will tell us which compounds are most effective as potential drugs and also exactly where they act in the brain. Read moreRead less
Elucidating the Mode of Action of Nicotinic Receptor Ligands. Changes in brain function can cause human diseases such as epilepsy, schizophrenia and Alzheimer's disease. To develop new medicines to treat these conditions we need to study how drugs act in the brain. This project will use new methods of chemistry to make drugs, which will then be tested for biological activity at important brain receptors. This will tell us which compounds are most effective as potential drugs and also exactly whe ....Elucidating the Mode of Action of Nicotinic Receptor Ligands. Changes in brain function can cause human diseases such as epilepsy, schizophrenia and Alzheimer's disease. To develop new medicines to treat these conditions we need to study how drugs act in the brain. This project will use new methods of chemistry to make drugs, which will then be tested for biological activity at important brain receptors. This will tell us which compounds are most effective as potential drugs and also exactly where they act in the brain. Read moreRead less
Development of Pyrrolopyrimidines as Inhibitors of ATP-Binding Proteins. This project seeks to generate analogues of natural products that have been found to be active against cancer cells and tropical parasites. The new materials produced by this project will aid in the study of biochemical processes involved in diseases such as cancer and lymphatic filariasis, thus leading the way to development of these compounds as potential treatments for such diseases.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0236167
Funder
Australian Research Council
Funding Amount
$580,000.00
Summary
The Sydney Combinatorial Research Facility. The proposal is to establish a multidisciplinary inter-institutional research facility for solution-phase combinatorial chemistry synthesis and analysis, and medium to high throughput biological evaluation of lead compounds through fluorescence detection methods. This will be the first and only multi-user facility of its type in Sydney. It will provide through its synthetic node at NSW and Macquarie Universities and biological screening node at Univers ....The Sydney Combinatorial Research Facility. The proposal is to establish a multidisciplinary inter-institutional research facility for solution-phase combinatorial chemistry synthesis and analysis, and medium to high throughput biological evaluation of lead compounds through fluorescence detection methods. This will be the first and only multi-user facility of its type in Sydney. It will provide through its synthetic node at NSW and Macquarie Universities and biological screening node at University of Sydney an essential resource that will enable modern combinatorial techniques to be applied to chemical and drug-lead development studies in the region.Read moreRead less
Total chemical synthesis of a redesigned enzyme, HIV-1 PR, containing an artificial tunable catalytic apparatus. The research project proposed represents a novel approach using total chemical synthesis to study the enzyme action of the HIV-1 PR, an aspartyl protease essential for the replication of AIDS virus. The redesign of the catalytic apparatus will allow us to investigate molecular aspects of its action. The synthetic polypeptide chain will be folded and characterised for the correct folde ....Total chemical synthesis of a redesigned enzyme, HIV-1 PR, containing an artificial tunable catalytic apparatus. The research project proposed represents a novel approach using total chemical synthesis to study the enzyme action of the HIV-1 PR, an aspartyl protease essential for the replication of AIDS virus. The redesign of the catalytic apparatus will allow us to investigate molecular aspects of its action. The synthetic polypeptide chain will be folded and characterised for the correct folded structure by NMR, and assayed for enzymatic activity. It can be expected that significant new insights into the molecular basis of the properties of the HIV-1 PR will be obtained. This will be an important contribution to biomedical research.Read moreRead less