A functional genomic approach for understanding metal ion adaptation in marine cyanobacteria. Unicellular marine cyanobacteria constitute 20-40% of total marine chlorophyll biomass and carbon fixation, and hence significantly impact the global carbon cycle and are very relevant to combating global warming. This research will reveal some of the major mechanisms by which marine cyanobacteria have adapted to metal levels in coastal and oligotrophic environments. Thus these results will help us und ....A functional genomic approach for understanding metal ion adaptation in marine cyanobacteria. Unicellular marine cyanobacteria constitute 20-40% of total marine chlorophyll biomass and carbon fixation, and hence significantly impact the global carbon cycle and are very relevant to combating global warming. This research will reveal some of the major mechanisms by which marine cyanobacteria have adapted to metal levels in coastal and oligotrophic environments. Thus these results will help us understand the distribution and diversity of these organisms in relation to global primary productivity. They will also lead to the development of more robust biomarkers for metal stress and pollution in coastal environments.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
Multiscale modelling: Applications to the Biomedical Sciences. 1) Significant reductions in the costs of developing pharmaceutical treatments, 2) Substantial reduction in hospitalisation costs, 3) Improved treatment of wounds, a significant cause of chronic ill-health which presently costs the Australian HealthCare System A$500,000,000/year.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989859
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
A Multi-Resolution X-ray Microtomography Facility (NanoCT & MicroCT) for Non-Destructive 3D Characterisation. X-ray microtomography platforms are applicable to a wide diversity of research across many of the national research priority areas. The research outlined will provide insights into bone cancer and osteoporosis, promote breakthroughs in the understanding of tumour biology and drive new developments in novel biomaterials, all of which have significant national health benefits. In dentistr ....A Multi-Resolution X-ray Microtomography Facility (NanoCT & MicroCT) for Non-Destructive 3D Characterisation. X-ray microtomography platforms are applicable to a wide diversity of research across many of the national research priority areas. The research outlined will provide insights into bone cancer and osteoporosis, promote breakthroughs in the understanding of tumour biology and drive new developments in novel biomaterials, all of which have significant national health benefits. In dentistry, research supported by this instrumentation will provide Australians with improvements to their dental health. Furthermore applications to industrial materials are providing Australian industries with better characterisation of their products that is leading to improved export performance and consequent improvement in Australia's balance of trade.Read moreRead less
Modelling disease evolution and emergence. Approximately 75% of all emergent diseases have established in humans having switched from other species: Human Immunodeficiency Virus (HIV), Malaria, SARS (Severe Acute Respiratory Syndrome), Ebola, West Nile Virus and many more. Further, cross species infections put our biodiversity and economy at risk: plant and animal diseases entering Australia can destroy crops and at-risk native species. This project will provide for the first time the statistica ....Modelling disease evolution and emergence. Approximately 75% of all emergent diseases have established in humans having switched from other species: Human Immunodeficiency Virus (HIV), Malaria, SARS (Severe Acute Respiratory Syndrome), Ebola, West Nile Virus and many more. Further, cross species infections put our biodiversity and economy at risk: plant and animal diseases entering Australia can destroy crops and at-risk native species. This project will provide for the first time the statistical framework for scientists to assess risk of such diseases entering Australia as a key to combating them.Read moreRead less
Biomolecular surface interactions with smart biomaterials. Current materials used for medical implants are often recognised by the body as foreign materials causing implant rejection or encapsulation. Research into the interactions between biological molecules and chemically and topographically modified materials will aid in the development of new materials and devices that optimise the body's response to the implanted material. The new materials and surfaces developed from this research will pr ....Biomolecular surface interactions with smart biomaterials. Current materials used for medical implants are often recognised by the body as foreign materials causing implant rejection or encapsulation. Research into the interactions between biological molecules and chemically and topographically modified materials will aid in the development of new materials and devices that optimise the body's response to the implanted material. The new materials and surfaces developed from this research will provide longer lasting implants and reduce the need for repeated operations. This will improve the quality of life for implant recipients and reduce health care costs.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100125
Funder
Australian Research Council
Funding Amount
$330,000.00
Summary
Oxidative stress bioanalytical facility. The primary national benefit of this application is that it will provide a currently unavailable, state-of-the-art facility for Australian scientists to define precisely how changes in cellular redox state contribute to biological processes relevant to health and diseases. The facility will uniquely complement, and in many cases integrate with existing facilities in this area of research in Australia. It will act as a platform for major national and inter ....Oxidative stress bioanalytical facility. The primary national benefit of this application is that it will provide a currently unavailable, state-of-the-art facility for Australian scientists to define precisely how changes in cellular redox state contribute to biological processes relevant to health and diseases. The facility will uniquely complement, and in many cases integrate with existing facilities in this area of research in Australia. It will act as a platform for major national and international research collaborations, develop cutting-edge technology and unique local skills, and contribute to Australia maintaining a leading position in redox-related research in biology and medicine. In doing so, the facility will increase the likelihood of gaining future, value-adding funding.Read moreRead less
Recovery and characterization of monooxygenases for biocatalysis and bioremediation through development of novel DNA- and protein-based technology. Australia contains hundreds of sites contaminated with toxic waste and judged to pose significant risk of harm to the public. This project will identify enzymes and organisms capable of remediating such contaminated sites by natural processes. It will also result in training of persons and development of techniques that will contribute to making bi ....Recovery and characterization of monooxygenases for biocatalysis and bioremediation through development of novel DNA- and protein-based technology. Australia contains hundreds of sites contaminated with toxic waste and judged to pose significant risk of harm to the public. This project will identify enzymes and organisms capable of remediating such contaminated sites by natural processes. It will also result in training of persons and development of techniques that will contribute to making bioremediation an environmentally sustainable and cost-effective technology. The environmental proteomics strategy is a frontier technology, expected to have broad applications in health, food science and the environment. Our development of this technology will create a wide range of opportunities for Australian scientists and companies.Read moreRead less
Computer simulation techniques to reduce the incidence of femoral fracture after hip replacement surgery. Australia's ageing population is driving an increase of 5% to 10% a year in the number of primary total hip replacements. We will move beyond conventional surgical techniques, to deliver the science for an accurate, reliable computer-based system that is significantly more accurate and reliable. Optimising implant selection criteria to better match patients' activity levels and bone physiolo ....Computer simulation techniques to reduce the incidence of femoral fracture after hip replacement surgery. Australia's ageing population is driving an increase of 5% to 10% a year in the number of primary total hip replacements. We will move beyond conventional surgical techniques, to deliver the science for an accurate, reliable computer-based system that is significantly more accurate and reliable. Optimising implant selection criteria to better match patients' activity levels and bone physiology and minimise revision rates; this has major implications for the national health budget and patients' quality of life. Our advances will allow the implementation of improved surgical techniques that minimise the risk of implant related bone failure.Read moreRead less
Disgust as a psychosocial defence against infectious disease. Globally, around 1 in 4 deaths result from infectious disease. Humans have evolved two basic means to combat this - an immune system and behaviours to avoid getting sick. This project examines one such behaviour, disgust, and aims to determine its role in disease avoidance. Studying disgust can lead to novel insights into behaviours as diverse as risky sexual decision-making and illness-related stigmatisation (e.g. of people with AID ....Disgust as a psychosocial defence against infectious disease. Globally, around 1 in 4 deaths result from infectious disease. Humans have evolved two basic means to combat this - an immune system and behaviours to avoid getting sick. This project examines one such behaviour, disgust, and aims to determine its role in disease avoidance. Studying disgust can lead to novel insights into behaviours as diverse as risky sexual decision-making and illness-related stigmatisation (e.g. of people with AIDS or cancer). Disgust can also be used to directly improve human health. For example, it can be exploited to boost hand hygiene. If widely applied, this simple measure could annually save an estimated 1.5 million children's lives, reduce rates of flu, colds, food poisoning and hospital acquired infections.Read moreRead less