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Development and evaluation of novel antibacterial coatings. Infections caused by bacterial biofilms adhering to biomedical implants and devices cause considerable problems in human health care. This project aims to develop a thin coating that can be applied to a wide range of implants and devices to prevent such bacterial infections. The coating is based on novel antibacterials from Australian plants.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989374
Funder
Australian Research Council
Funding Amount
$550,000.00
Summary
South Australian High-Resolution and Ion-Mobility Mass Spectrometry Facility. The analytical facility will enhance (i) fundamental research to understand the mechanisms of the reactions of charged species with neutral molecules, and (ii) the provision of structural information, including the precise atomic composition of any molecule, small or large. Research supported by this facility includes (a)nanotechnology, including supramolecular chemistry, (b) bioscience: cancer research, neurodegenera ....South Australian High-Resolution and Ion-Mobility Mass Spectrometry Facility. The analytical facility will enhance (i) fundamental research to understand the mechanisms of the reactions of charged species with neutral molecules, and (ii) the provision of structural information, including the precise atomic composition of any molecule, small or large. Research supported by this facility includes (a)nanotechnology, including supramolecular chemistry, (b) bioscience: cancer research, neurodegenerate diseases (e.g. Parkinson's disease) osteoarthritis, inflammation, cardiac diseases and synthetic approaches to anticancer and other drugs.Read moreRead less
Characterisation of a new class of antimicrobial agent for multidrug-resistant infections. New drugs are required to combat the development of antibiotic resistance. This project will conduct further tests on a new compound that has shown initial activity against resistant superbugs by understanding how it works against bacteria and varying the chemical structure to improve effectiveness.
Bio-inspired molecular electronics: from nanoscience to nanotechnology. This project aims to investigate electron transport in naturally occurring peptides, while exploiting their electronic properties to promote the design and development of functional bio-inspired molecular electronic devices. Molecular electronics is at the forefront of international interdisciplinary research, with its significance and necessity stemming from the inevitable physical limitations of existing silicon-based elec ....Bio-inspired molecular electronics: from nanoscience to nanotechnology. This project aims to investigate electron transport in naturally occurring peptides, while exploiting their electronic properties to promote the design and development of functional bio-inspired molecular electronic devices. Molecular electronics is at the forefront of international interdisciplinary research, with its significance and necessity stemming from the inevitable physical limitations of existing silicon-based electronics. This project aims to establish a foundation to advance fundamental knowledge in this area, which will lead to the design and development of functional bio-inspired molecular electronic devices.Read moreRead less
Mycobacterial Cholesterol Degradation: A Unique Metabolic Weakness? This project aims to understand the use of the steroid cholesterol as a source of essential metabolic building blocks by bacteria. Cholesterol utilisation is a key feature of many bacterial pathogens which have evolved to survive in niche environments. By understanding the initial step in cholesterol degradation and the bioinorganic and bioorganic chemistry of the metalloenzymes that catalyse it, this work aims to develop strate ....Mycobacterial Cholesterol Degradation: A Unique Metabolic Weakness? This project aims to understand the use of the steroid cholesterol as a source of essential metabolic building blocks by bacteria. Cholesterol utilisation is a key feature of many bacterial pathogens which have evolved to survive in niche environments. By understanding the initial step in cholesterol degradation and the bioinorganic and bioorganic chemistry of the metalloenzymes that catalyse it, this work aims to develop strategies to block this activity. This will turn a key strength of these bacteria into a potent weakness and will generate the proof of principle and knowledge required for the future development of effective strategies to combat pathogenic bacteria.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560751
Funder
Australian Research Council
Funding Amount
$432,474.00
Summary
Facility for the Analysis of Biomacromolecular Interactions. A facility for the analysis of biological macromolecules and their interactions with ligand molecules is required to support a large number of research projects in high priority areas including mechanisms of aging, drug development and bio/nanotechnology at three different universities. The instrumentation will (i) afford quantitative measurements of binding affinities between biological and chemical macromolecules, which are available ....Facility for the Analysis of Biomacromolecular Interactions. A facility for the analysis of biological macromolecules and their interactions with ligand molecules is required to support a large number of research projects in high priority areas including mechanisms of aging, drug development and bio/nanotechnology at three different universities. The instrumentation will (i) afford quantitative measurements of binding affinities between biological and chemical macromolecules, which are available only in small quantities, and small, drug related molecules (by microcalorimetry and dual polarization interferometry), and (ii) provide equipment necessary for sample characterization and purification prior to quantitative measurements (CD spectroscopy, and FPLC equipment).Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346895
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
A Mass Directed Molecular Resolution Laboratory. The proposed "Mass Directed Molecular Resolution Laboratory" combines an integrated suite of instrumentation housed in purpose built laboratories with technical expertise to provide an unique "one stop shop" to meet the burgeoning mass spectrometry needs of the chemical community in the Melbourne area. This truly collaborative effort will service the needs of 17 research groups with 92 PhD students and post doctoral researchers and will enhance ex ....A Mass Directed Molecular Resolution Laboratory. The proposed "Mass Directed Molecular Resolution Laboratory" combines an integrated suite of instrumentation housed in purpose built laboratories with technical expertise to provide an unique "one stop shop" to meet the burgeoning mass spectrometry needs of the chemical community in the Melbourne area. This truly collaborative effort will service the needs of 17 research groups with 92 PhD students and post doctoral researchers and will enhance existing excellence in a range of areas. Finally, the laboratory will provide opportunities to: collaborate and consult with industry; train postgraduate students in instrumentation used at the cutting edge of chemical and biochemical sciences.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100075
Funder
Australian Research Council
Funding Amount
$315,000.00
Summary
Acoustic liquid handling robotics for bioactive compound discovery. This project aims to use a Labcyte Echo 550 acoustic dispenser with Combination Software to deliver sophisticated assay-ready screening. The Echo is the only liquid handling dispenser for 1536-well microplates and will allow Australian researchers to develop assay miniaturisation. The robotics will provide our nation’s researchers with a distinct competitive edge by enhancing assay sophistication, accuracy and reproducibility wh ....Acoustic liquid handling robotics for bioactive compound discovery. This project aims to use a Labcyte Echo 550 acoustic dispenser with Combination Software to deliver sophisticated assay-ready screening. The Echo is the only liquid handling dispenser for 1536-well microplates and will allow Australian researchers to develop assay miniaturisation. The robotics will provide our nation’s researchers with a distinct competitive edge by enhancing assay sophistication, accuracy and reproducibility while reducing cost. The expected benefits will advance the elucidation of molecular mechanisms involved in complex biological phenomena. The benefits of this are substantial, including reduction in test compound and reagents, which in turn reduces laboratory costs, conserves cells and increases data quality.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453832
Funder
Australian Research Council
Funding Amount
$550,910.00
Summary
New directions in biomolecular mass spectrometry. The combined UoW/ANU mass spectrometry facility supports a range of research projects in high priority areas including proteomics, mechanisms of aging, anticancer drugs and pathogenicity. The facility has several key deficiencies: 1) the ability to study very high molecular weight biomolecular complexes, 2) the ability to study ion-molecule interactions that have implications in mechanisms of chemistry in nature, and 3) researchers at ANU lack es ....New directions in biomolecular mass spectrometry. The combined UoW/ANU mass spectrometry facility supports a range of research projects in high priority areas including proteomics, mechanisms of aging, anticancer drugs and pathogenicity. The facility has several key deficiencies: 1) the ability to study very high molecular weight biomolecular complexes, 2) the ability to study ion-molecule interactions that have implications in mechanisms of chemistry in nature, and 3) researchers at ANU lack essential walk-up access to high sensitivity protein sequence analysis (MS/MS). The placement of resources that address these deficiencies in one geographical region and collaboration between these institutions will produce a research interaction unique in Australia.Read moreRead less
Biologically active peptides from Australian and Russian Amphibians. Bowie's group has identified many host-defence peptides from Australian anurans, including antimicrobial and anticancer active peptides, and neuropeptides that inhibit the formation of the ubiquitous chemical messenger nitric oxide. Lebedev's group from Moscow have initiated a collaboration with us to investigate active peptides from unstudied Russian frogs and newts. Preliminary investigations show these are very different f ....Biologically active peptides from Australian and Russian Amphibians. Bowie's group has identified many host-defence peptides from Australian anurans, including antimicrobial and anticancer active peptides, and neuropeptides that inhibit the formation of the ubiquitous chemical messenger nitric oxide. Lebedev's group from Moscow have initiated a collaboration with us to investigate active peptides from unstudied Russian frogs and newts. Preliminary investigations show these are very different from those isolated from Australian anurans and some already show potential for development as pharmaceuticals.Read moreRead less