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
Generation and Exploitation of Fermentation Products in the Chemical Synthesis of Biologically Active Compounds with Therapeutic Potential. Dramatic developments in biotechnology have provided access to genetically engineered micro-organisms capable of effecting unusual transformations so as to form novel compounds of great value in chemical synthesis. This project will combine the powers of biotechnology with those of chemical synthesis to produce compounds that have therapeutic potential in th ....Generation and Exploitation of Fermentation Products in the Chemical Synthesis of Biologically Active Compounds with Therapeutic Potential. Dramatic developments in biotechnology have provided access to genetically engineered micro-organisms capable of effecting unusual transformations so as to form novel compounds of great value in chemical synthesis. This project will combine the powers of biotechnology with those of chemical synthesis to produce compounds that have therapeutic potential in the treatment of Alzheimer's disease, cancer and viral infections.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100087
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Regional Facility for Molecular Characterisation and Mapping. Researchers at the Schools of Chemistry at The Australian National University and University of Wollongong are involved in a range of projects where new molecules are synthesised or discovered in natural products such as rainforest plants and marine organisms. Some of the molecules have already shown promise against diseases such as Alzheimer's and cardiovascular disease. In order to fully characterise these molecules, two complementa ....Regional Facility for Molecular Characterisation and Mapping. Researchers at the Schools of Chemistry at The Australian National University and University of Wollongong are involved in a range of projects where new molecules are synthesised or discovered in natural products such as rainforest plants and marine organisms. Some of the molecules have already shown promise against diseases such as Alzheimer's and cardiovascular disease. In order to fully characterise these molecules, two complementary mass spectrometers, replacing ageing instrumentation will be commissioned at each site. In addition, researchers in Wollongong will acquire a MALDI mass spectrometer capable of imaging the distribution of molecules on tissues that may be pathologically important.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560940
Funder
Australian Research Council
Funding Amount
$229,326.00
Summary
Stable Isotope Ratio Mass Spectrometry Facility. This application for a Stable Isotope Ratio Mass Spectrometer Facility provides a focus for research collaboration and training in northern Australia. The Facility will enhance strong collaboration between organisations committed to increasing understanding of unique northern environments, and will include the Arafura Timor Research Facility, a Major National Research Facility. The Facility will contribute to studies of conservation biology, nat ....Stable Isotope Ratio Mass Spectrometry Facility. This application for a Stable Isotope Ratio Mass Spectrometer Facility provides a focus for research collaboration and training in northern Australia. The Facility will enhance strong collaboration between organisations committed to increasing understanding of unique northern environments, and will include the Arafura Timor Research Facility, a Major National Research Facility. The Facility will contribute to studies of conservation biology, natural resource management, environmental and marine science and resource development in the tropical north. It will help develop knowledge bases, innovative approaches to environmental management and sustainable development and high levels of research and research training for regional development.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0344441
Funder
Australian Research Council
Funding Amount
$390,000.00
Summary
New Generation Metalloenzyme Magnetic Circular Dichroism Spectrometer Systems. Funding is sought to enhance the existing collaborations between UQ, ANU, Sydney and other universities in the study of metal-centred molecules of biological interest through the construction of advanced magnetic circular dichroism (MCD) spectrometers. These facilities will be the best instruments of their kind, and will enable researchers at Australian institutions to enhance the quality of their research and remain ....New Generation Metalloenzyme Magnetic Circular Dichroism Spectrometer Systems. Funding is sought to enhance the existing collaborations between UQ, ANU, Sydney and other universities in the study of metal-centred molecules of biological interest through the construction of advanced magnetic circular dichroism (MCD) spectrometers. These facilities will be the best instruments of their kind, and will enable researchers at Australian institutions to enhance the quality of their research and remain internationally competitive through the application of modern MCD spectroscopic techniques to the study of metal-centred biomolecules. These facilities will drive a number of programs in the area of metalloenzyme and photosystem II research.Read moreRead less
Fluorine-labelled proteins for NMR spectroscopy. The technique developed in this project has direct impact on pharmaceutical research: NMR spectroscopy is used routinely to identify chemical compounds that bind to protein targets. This project includes the development of novel assignment techniques of 19F-labelled proteins, so that 19F-NMR can be used to detect specific binding interactions. One of the methods proposed here is designed to reveal structural information about the binding mode in s ....Fluorine-labelled proteins for NMR spectroscopy. The technique developed in this project has direct impact on pharmaceutical research: NMR spectroscopy is used routinely to identify chemical compounds that bind to protein targets. This project includes the development of novel assignment techniques of 19F-labelled proteins, so that 19F-NMR can be used to detect specific binding interactions. One of the methods proposed here is designed to reveal structural information about the binding mode in solution with atomic detail. This knowledge can significantly accelerate drug development. It is otherwise only available from crystal structures that can not always be determined.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775529
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Structural elucidation by chemical degradation mass spectrometry using a linear ion trap with electron transfer dissociation. The mass spectrometric instrumentation that we plan to acquire represents a true breakthrough in technology, and will be the first of its kind in operation in Australia. The instrument to be purchased will improve the ability of a wide cross section of researchers to characterize compounds important in fields as varied as medical research, agricultural biotechnology, and ....Structural elucidation by chemical degradation mass spectrometry using a linear ion trap with electron transfer dissociation. The mass spectrometric instrumentation that we plan to acquire represents a true breakthrough in technology, and will be the first of its kind in operation in Australia. The instrument to be purchased will improve the ability of a wide cross section of researchers to characterize compounds important in fields as varied as medical research, agricultural biotechnology, and natural product characterization. All types of chemical research, from fundamental to applied, will benefit from access to this system, which has clearly positive implications with regard to societal impact. Implementing this type of frontier technology is an essential step in maintaining the world class capabilities of the Australian research community.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100096
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
A unique soft matter high-performance scanning probe microscopy (HP-SPM) facility. Soft matter research touches every aspect of our lives as it covers materials from the range of plastics found in cars, television sets and other mass-manufactured products, to new medical materials for tissue engineering and sensors. The proposed facility will enable Australia's leading scientists in this area to understand better how soft matter, including both biological and new advanced soft materials, behave ....A unique soft matter high-performance scanning probe microscopy (HP-SPM) facility. Soft matter research touches every aspect of our lives as it covers materials from the range of plastics found in cars, television sets and other mass-manufactured products, to new medical materials for tissue engineering and sensors. The proposed facility will enable Australia's leading scientists in this area to understand better how soft matter, including both biological and new advanced soft materials, behaves on the nano-scale level. This will put Australian researchers and engineers in a leading position for developing new treatments against cancer and other diseases, as well as harnessing the power of biology for application in areas such as waste treatment and energy production.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882289
Funder
Australian Research Council
Funding Amount
$520,000.00
Summary
New generation mass spectrometers for characterisation of molecular shape and size. The ion mobility mass spectrometer (IMMS at UOW) will be the first of its kind in Australia, and together with the ion trap mass spectrometer (ITMS at ANU) will continue the tradition of this partnership in providing researchers with cutting-edge instrumentation for nationally and internationally important projects including: (i) fundamental understanding of the ways in which biomolecules recognize one another, ( ....New generation mass spectrometers for characterisation of molecular shape and size. The ion mobility mass spectrometer (IMMS at UOW) will be the first of its kind in Australia, and together with the ion trap mass spectrometer (ITMS at ANU) will continue the tradition of this partnership in providing researchers with cutting-edge instrumentation for nationally and internationally important projects including: (i) fundamental understanding of the ways in which biomolecules recognize one another, (ii) investigating the structure(s) of lipids (fats) in cardiovascular disease and cataract, (iii) developing anticancer drugs, and (iv) development of new materials.Read moreRead less