Improving Treatment Strategies For Chronic Alphaviral Arthritic Diseases
Funder
National Health and Medical Research Council
Funding Amount
$643,624.00
Summary
Chikungunya virus and Ross River virus cause epidemics of acute and chronic arthritic disease in humans, which is often poorly managed with current treatments. This grant seeks to understand the mechanisms that give rise to disease in order to identify improved treatment strategies. Both the persistence of viral replication in joint tissues and unnecessary inflammatory responses appear to be important factors driving chronic disease.
The shift from cultural institution to creative enterprise. The benefits of this project will be renewal of contemporary research agendas in Chinese studies. Professor Zhang Xiaoming is ideally positioned as head of a large national research centre to update Australian researchers on China's post-WTO developments in the cultural sector and beyond into business enterprise ethics. The benefits of the visit will flow to media and communication studies, policy studies, cultural geography, and Chines ....The shift from cultural institution to creative enterprise. The benefits of this project will be renewal of contemporary research agendas in Chinese studies. Professor Zhang Xiaoming is ideally positioned as head of a large national research centre to update Australian researchers on China's post-WTO developments in the cultural sector and beyond into business enterprise ethics. The benefits of the visit will flow to media and communication studies, policy studies, cultural geography, and Chinese studies.Read moreRead less
Internationalising Creative Industries: China, the WTO and the Knowledge-based Economy. This project investigates the challenges facing the creative industries internationally as the rationales for government support and industry development are seen variously as cultural, as part of the burgeoning services sector, and/or as contributing to the knowledge-based economy. To place the creative industries in an international frame, comparing developed countries? policy and industry strategies with t ....Internationalising Creative Industries: China, the WTO and the Knowledge-based Economy. This project investigates the challenges facing the creative industries internationally as the rationales for government support and industry development are seen variously as cultural, as part of the burgeoning services sector, and/or as contributing to the knowledge-based economy. To place the creative industries in an international frame, comparing developed countries? policy and industry strategies with those of China, the most important developing country, after its admission to the WTO, is a significant conceptual advance and innovation not attempted before. Australia will benefit from international comparisons of industry strategy and growth and from strategic knowledge of China's creative economy dynamics.Read moreRead less
Nicotinic receptor structure and function probed with conotoxins. Nicotinic receptors are intrinsic membrane proteins that play a role in communication in excitable cells, particularly in the nervous system. The primary goals of this project are to define the structural and functional determinants of nicotinic-conotoxin interactions at a molecular level, and develop new selective probes that advance neurophysiological research. The diversity and distribution of nicotinic receptor subtypes being ....Nicotinic receptor structure and function probed with conotoxins. Nicotinic receptors are intrinsic membrane proteins that play a role in communication in excitable cells, particularly in the nervous system. The primary goals of this project are to define the structural and functional determinants of nicotinic-conotoxin interactions at a molecular level, and develop new selective probes that advance neurophysiological research. The diversity and distribution of nicotinic receptor subtypes being uncovered through molecular biology and selective conotoxin probes presents an exciting opportunity for the discovery of new therapeutic agents.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100140
Funder
Australian Research Council
Funding Amount
$1,050,000.00
Summary
A multiple ion beam facility for microscopy and nanofabrication. This project aims to establish a powerful multiple ion beam system for nanoscience research. The demand for customised therapies, secure communication and efficient energy harvesting prompts the development of nanoscale devices that can interface and interact with the environment: nanotechnology systems with fully functional sensors, detectors, energy and data processing modules. This project would increase the ability to observe a ....A multiple ion beam facility for microscopy and nanofabrication. This project aims to establish a powerful multiple ion beam system for nanoscience research. The demand for customised therapies, secure communication and efficient energy harvesting prompts the development of nanoscale devices that can interface and interact with the environment: nanotechnology systems with fully functional sensors, detectors, energy and data processing modules. This project would increase the ability to observe and manipulate the structure of materials at the nanometre length-scale. This project is expected to boost Australia’s research capacity in nanoscience and develop materials for nanoelectronics, energy and the environment, and structural materials. These outcomes will benefit Australia’s capacity to develop advanced manufacturing industries.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100192
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Deep Protein Sequencing, Structure and Quantification Facility. This project aims to establish state-of-the-art complementary mass spectrometers to help research into molecular structure and interactions, post-translational modifications, compound stability and availability within complex biological samples. The facility’s complementary mass spectrometers combine high specificity with high sensitivity and ultrafast scanning, and are expected to rapidly discover, identify and characterise biomole ....Deep Protein Sequencing, Structure and Quantification Facility. This project aims to establish state-of-the-art complementary mass spectrometers to help research into molecular structure and interactions, post-translational modifications, compound stability and availability within complex biological samples. The facility’s complementary mass spectrometers combine high specificity with high sensitivity and ultrafast scanning, and are expected to rapidly discover, identify and characterise biomolecules including peptides, proteins and small molecules. The discovery of unknown compounds is expected to improve fundamental understanding of molecular structure and function, provide opportunities for new bio-industries in health and the environment, and generate commercial opportunities through spin-off companies, patents and licensing.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100127
Funder
Australian Research Council
Funding Amount
$355,000.00
Summary
Superresolution fluorescence imaging in microbiology. Superresolution fluorescence imaging in microbiology:
This project involves the purchase of new, and upgrade of existing, fluorescence imaging tools to facilitate the study of intracellular processes in microbial systems at significantly higher spatial and temporal resolutions than hitherto possible. Visualisation of the structure and dynamics of intracellular molecular assemblies at maximal resolution is required to understand protein funct ....Superresolution fluorescence imaging in microbiology. Superresolution fluorescence imaging in microbiology:
This project involves the purchase of new, and upgrade of existing, fluorescence imaging tools to facilitate the study of intracellular processes in microbial systems at significantly higher spatial and temporal resolutions than hitherto possible. Visualisation of the structure and dynamics of intracellular molecular assemblies at maximal resolution is required to understand protein function inside living cells. The new equipment is designed to provide a fast super-resolution imaging system to study the intracellular dynamics of proteins in vitro and a super-resolution microscope to visualise structures and assemblies inside microbes with a resolution of tens of nanometres, putting in vitro biochemistry into the context of a living cell. Read moreRead less
Large Markov decision processes and combinatorial optimisation. Markov decision processes continue to gain in popularity for modelling a wide range of applications ranging from analysis of supply chains and queueing networks to cognitive science and control of autonomous vehicles. Nonetheless, they tend to become numerically intractable as the size of the model grows fast. Recent works use machine learning techniques to overcome this crucial issue, but with no convergence guarantee. This project ....Large Markov decision processes and combinatorial optimisation. Markov decision processes continue to gain in popularity for modelling a wide range of applications ranging from analysis of supply chains and queueing networks to cognitive science and control of autonomous vehicles. Nonetheless, they tend to become numerically intractable as the size of the model grows fast. Recent works use machine learning techniques to overcome this crucial issue, but with no convergence guarantee. This project aims to provide theoretically sound frameworks for solving large Markov decision processes, and exploit them to solve important combinatorial optimisation problems. This timely project can promote Australia's position in the development of such novel frameworks for many scientific and industrial applications.Read moreRead less
Expanding access to modified proteins via a novel semi-synthetic platform. This project aims to address a critical knowledge gap in understanding how post-translational modifications modulate the structure and activity of proteins. By developing an innovative semi-synthetic platform to produce pure proteins inaccessible by existing methods, the project will reveal how natural protein modifications influence structure and function. Expected outcomes include the delivery of breakthrough technologi ....Expanding access to modified proteins via a novel semi-synthetic platform. This project aims to address a critical knowledge gap in understanding how post-translational modifications modulate the structure and activity of proteins. By developing an innovative semi-synthetic platform to produce pure proteins inaccessible by existing methods, the project will reveal how natural protein modifications influence structure and function. Expected outcomes include the delivery of breakthrough technologies for accessing modified proteins for a range of applications in academia and industry, as well as the generation of new knowledge in the fields of chemistry and biology. The project will lead to the training of interdisciplinary early career researchers and has the potential to benefit Australia’s biotechnology sector.Read moreRead less
Making peptides orally bioavailable. Bioactive peptides are exceptionally useful molecules, however to fully realise their exciting applications key limitations need to be overcome: they can't be delivered orally and they do not last long in the body. This project aims to develop a molecular tag that can dramatically enhance both the oral absorption and time in the body of a peptide. This will include identifying the key elements of the tag required for function, the breadth of peptide cargoes i ....Making peptides orally bioavailable. Bioactive peptides are exceptionally useful molecules, however to fully realise their exciting applications key limitations need to be overcome: they can't be delivered orally and they do not last long in the body. This project aims to develop a molecular tag that can dramatically enhance both the oral absorption and time in the body of a peptide. This will include identifying the key elements of the tag required for function, the breadth of peptide cargoes it can be applied to and the mechanisms underlying this technology. The outcomes of this project will facilitate the future development of peptides for biotechnology, pharmaceutical and veterinary applications.Read moreRead less