Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775590
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
A single crystal X-ray diffractometer with CCD detector for structural analysis of small molecules. In recent years their have been major advances in the capacity of instrumentation to determine the crystal and molecular structure of chemical compounds and materials which in turn has resulted in a rapidly growing understanding of the relationship between the structure of molecules and their function in the design of new materials and as drugs for the treatment of disease and pain. This infrastr ....A single crystal X-ray diffractometer with CCD detector for structural analysis of small molecules. In recent years their have been major advances in the capacity of instrumentation to determine the crystal and molecular structure of chemical compounds and materials which in turn has resulted in a rapidly growing understanding of the relationship between the structure of molecules and their function in the design of new materials and as drugs for the treatment of disease and pain. This infrastructure also provides training of an international standard for undergraduate and post graduate students, thus building the skills capabilities of Australian scientists in the workforce.Read moreRead less
Development of metal probes for the selective recognition of DNA. Transition metal complexes with large aromatic ligands have recently been shown to bind DNA by intercalation. However, controversy continues over their base sequence and groove selectivity. We will synthesise a range of chiral metal complexes and screen these against combinatorial oligonucleotide libraries to determine their base sequence selectivity. The information obtained will help us design better intercalators that can be us ....Development of metal probes for the selective recognition of DNA. Transition metal complexes with large aromatic ligands have recently been shown to bind DNA by intercalation. However, controversy continues over their base sequence and groove selectivity. We will synthesise a range of chiral metal complexes and screen these against combinatorial oligonucleotide libraries to determine their base sequence selectivity. The information obtained will help us design better intercalators that can be used as sensitive molecular probes and may find application as antitumour drugs. Binding interaction between the complex and DNA will be studied by NMR spectroscopy.Read moreRead less
A new G-protein coupled receptor target for conotoxins. We aim to understand the interaction between venom components from the marine cone snail, a major source of potential drug leads, and a key receptor in nerve cell signalling. This receptor plays a role in many nervous system functions and has been proposed as a target for treating a range of diseases including pain, depression and drug addiction. It is critical that we understand this interaction so we can fully exploit the potential of the ....A new G-protein coupled receptor target for conotoxins. We aim to understand the interaction between venom components from the marine cone snail, a major source of potential drug leads, and a key receptor in nerve cell signalling. This receptor plays a role in many nervous system functions and has been proposed as a target for treating a range of diseases including pain, depression and drug addiction. It is critical that we understand this interaction so we can fully exploit the potential of these molecules as drug leads. The potential exists for multibillion dollar markets for these new drugs that could provide significant economic benefits to Australia.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0238397
Funder
Australian Research Council
Funding Amount
$550,000.00
Summary
A ROBOTIC NMR SPECTROMETER FOR ACCELERATED DRUG DISCOVERY. The aim is to establish a facility that will use a robotic NMR instrument to help in the characterisation of drug-protein interactions and in the discovery of new drugs or agrichemicals. The significance is that with the wealth of new information arising on protein sequences from genomics programs there is an urgent need to accelerate the rate of discovery of ligands that bind to these proteins. Such ligands may provide useful drug lea ....A ROBOTIC NMR SPECTROMETER FOR ACCELERATED DRUG DISCOVERY. The aim is to establish a facility that will use a robotic NMR instrument to help in the characterisation of drug-protein interactions and in the discovery of new drugs or agrichemicals. The significance is that with the wealth of new information arising on protein sequences from genomics programs there is an urgent need to accelerate the rate of discovery of ligands that bind to these proteins. Such ligands may provide useful drug leads or help in defining the function of newly discovered proteins. The outcomes will be new knowledge on protein structure and function, and potentially, new bio-active molecules.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775481
Funder
Australian Research Council
Funding Amount
$304,000.00
Summary
X-ray Molecular Structure Elucidation Facility (MSEF). X-ray diffraction plays a key role in identification and molecular characterization. X-ray techniques are the single most widely used analytical resource in structure determination and provide invaluable information for scientists working in the fields of synthesis, nanotechnology, polymer chemistry, and protein chemistry amongst many others. The facility brings together a multidisciplinary team of scientists and provides state-of-the-art re ....X-ray Molecular Structure Elucidation Facility (MSEF). X-ray diffraction plays a key role in identification and molecular characterization. X-ray techniques are the single most widely used analytical resource in structure determination and provide invaluable information for scientists working in the fields of synthesis, nanotechnology, polymer chemistry, and protein chemistry amongst many others. The facility brings together a multidisciplinary team of scientists and provides state-of-the-art research and training facilities.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453671
Funder
Australian Research Council
Funding Amount
$133,770.00
Summary
NMR Facility for Natural Products Research. The aim is to establish a facility that will use high-field NMR and LC-NMR equipment to help in the characterisation of unknown compounds from natural products and in the discovery of new drugs and agrichemicals. The significance is that the facility will accelerate the rate of discovery of new bioactive molecules and will provide a wealth of new information on plant biodiversity. The outcomes will be new knowledge in natural products chemistry, and po ....NMR Facility for Natural Products Research. The aim is to establish a facility that will use high-field NMR and LC-NMR equipment to help in the characterisation of unknown compounds from natural products and in the discovery of new drugs and agrichemicals. The significance is that the facility will accelerate the rate of discovery of new bioactive molecules and will provide a wealth of new information on plant biodiversity. The outcomes will be new knowledge in natural products chemistry, and potentially, new bioactive molecules.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346733
Funder
Australian Research Council
Funding Amount
$399,466.00
Summary
Ultra-Sensitive CCD Diffractometer with High Intensity X-ray Photon Generator. X-ray photon diffraction from single crystals provides the most accurate, precise and detailed three dimensional chemical structure information. It is however often difficult to obtain crystals of complex chemical assemblies, such as those used in nanotechnology and photon technology, suitable for diffraction analysis using equipment currently available at Australian chemical crystal structure facilities. The collab ....Ultra-Sensitive CCD Diffractometer with High Intensity X-ray Photon Generator. X-ray photon diffraction from single crystals provides the most accurate, precise and detailed three dimensional chemical structure information. It is however often difficult to obtain crystals of complex chemical assemblies, such as those used in nanotechnology and photon technology, suitable for diffraction analysis using equipment currently available at Australian chemical crystal structure facilities. The collaborating institutions seek to overcome this problem by purchasing a high sensitivity CCD area detector coupled to an intense laboratory source of X-ray photons. The installation of the equipment would be the first of its kind at an Australian facility and only the fourth worldwide.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882977
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Enhanced NMR Research, Characterisation and Analysis Facility. Studying molecular species is at the heart of chemistry and biochemistry and fundamental to improving our understanding of molecular mechanisms and interactions. This becomes important for elucidating aspects of biological function, medicinal and pharmaceutical chemistry, materials science and synthetic methodology, which all underpin health and technology advances in Australia. The infrastructure will support projects involving fun ....Enhanced NMR Research, Characterisation and Analysis Facility. Studying molecular species is at the heart of chemistry and biochemistry and fundamental to improving our understanding of molecular mechanisms and interactions. This becomes important for elucidating aspects of biological function, medicinal and pharmaceutical chemistry, materials science and synthetic methodology, which all underpin health and technology advances in Australia. The infrastructure will support projects involving fundamental and strategic research spanning nanotechnology and the biological and materials sciences to industry-oriented projects.Read moreRead less
Biocompatible Ionic Liquids - Preserving Bioactive Structure and Function. A family of liquids recently discovered at Monash University has an ability to preserve bioactive molecules that represents a breakthrough in biotechnology. These new biocompatible ionic liquids will be investigated for applications in the treatment of diseases such as haemophilia. The ability of these liquids to stabilise a wide range of enzymes also opens up the potential of their use in a range of biosensors such as b ....Biocompatible Ionic Liquids - Preserving Bioactive Structure and Function. A family of liquids recently discovered at Monash University has an ability to preserve bioactive molecules that represents a breakthrough in biotechnology. These new biocompatible ionic liquids will be investigated for applications in the treatment of diseases such as haemophilia. The ability of these liquids to stabilise a wide range of enzymes also opens up the potential of their use in a range of biosensors such as blood glucose monitors for diabetes management. In collaborations with research groups worldwide, these materials will also be applied to the preservation of bioactivity in applications including cryopreservation of endangered species such as coral and in medical therapeutics. Read moreRead less
Experimental Electron Densities, Crystal Engineering and Molecular Recognition: A Supramolecular Approach to Drug Design. GABA receptors are important therapeutic targets for the treatment of a number of disorders from memory dysfunction, to muscle spasticity and chronic pain. This project is designed to address some of the fundamental questions associated with drug/target interactions. This work will lead to a greater understanding of how the chemical structure of a drug can be tailored to prod ....Experimental Electron Densities, Crystal Engineering and Molecular Recognition: A Supramolecular Approach to Drug Design. GABA receptors are important therapeutic targets for the treatment of a number of disorders from memory dysfunction, to muscle spasticity and chronic pain. This project is designed to address some of the fundamental questions associated with drug/target interactions. This work will lead to a greater understanding of how the chemical structure of a drug can be tailored to produce a more effective compound. The outcomes of this program will highlight Australia as a strong contributing nation in molecular design. It is certain that the outcomes of this program will benefit Australia by providing a much greater level of understanding of the fundamental properties of molecules and how others may be rationally designed to suit a specific role.Read moreRead less