Probing Anaesthetic Effects with New Functional Imaging Paradigms. This project seeks new insights into the effects of anaesthetics on brain function and repair. Anaesthesia is used in small-animal imaging to immobilise the animal, but in many cases the anaesthesia itself affects the neurophysiological parameters under study. It has also been shown that many anaesthetics enhance recovery after brain injury in small animals. This project plans to exploit a novel functional brain-imaging technique ....Probing Anaesthetic Effects with New Functional Imaging Paradigms. This project seeks new insights into the effects of anaesthetics on brain function and repair. Anaesthesia is used in small-animal imaging to immobilise the animal, but in many cases the anaesthesia itself affects the neurophysiological parameters under study. It has also been shown that many anaesthetics enhance recovery after brain injury in small animals. This project plans to exploit a novel functional brain-imaging technique for conscious animals to gain new insights into the effects of anaesthetics on brain function and recovery from injury. The knowledge gained is expected to improve knowledge of anaesthetic action, guide future anaesthetic use in small animal imaging to improve the accuracy of image-derived research data, and help to clarify how anaesthetics confer neuroprotective effects in brain injury.Read moreRead less
Innovative aluminium extrusion: increased productivity through simulation. This project seeks to develop new approaches to increase the productivity and competitiveness of the Australian aluminium extrusion industry. The project will use customised simulation software to optimise the design of extrusion dies, thereby substantially reducing the time and cost of developing new extrusion dies. It intends to similarly optimise the processing conditions for high quality extrusion, further contributin ....Innovative aluminium extrusion: increased productivity through simulation. This project seeks to develop new approaches to increase the productivity and competitiveness of the Australian aluminium extrusion industry. The project will use customised simulation software to optimise the design of extrusion dies, thereby substantially reducing the time and cost of developing new extrusion dies. It intends to similarly optimise the processing conditions for high quality extrusion, further contributing to cost reduction. Anticipated project outcomes include fundamental models of material deformation behaviour and damage accumulation that, through computer simulation, will increase die life and reduce scrap.Read moreRead less
Molecular probe development for high specificity and spatiotemporal control. This project aims at developing next-generation molecular probes with enhanced specificity and spatiotemporal control for the study of proteins and neuropeptide signalling. It addresses recognised knowledge gaps and technical bottlenecks in neuropeptide and memory research. Expected outcomes include a deeper molecular understanding of long-term memory formation and the role of neuropeptides in this process, as well as i ....Molecular probe development for high specificity and spatiotemporal control. This project aims at developing next-generation molecular probes with enhanced specificity and spatiotemporal control for the study of proteins and neuropeptide signalling. It addresses recognised knowledge gaps and technical bottlenecks in neuropeptide and memory research. Expected outcomes include a deeper molecular understanding of long-term memory formation and the role of neuropeptides in this process, as well as innovative chemistry strategies and novel molecular probes to advance fundamental research across the chemical and biological sciences. Anticipated benefits include technological innovations of relevance to Australia’s biotechnology sector and enhanced capacity for cross-disciplinary collaboration.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC200100052
Funder
Australian Research Council
Funding Amount
$4,789,838.00
Summary
ARC Training Centre for Cryo-Electron Microscopy of Membrane Proteins for Drug Discovery. This Centre aims to train industry-ready, world class graduates in cryo-electron microscopy of membrane proteins. The Centre’s graduates and research results would enable tomorrow’s industrial expansion in structure-enhanced drug design. Expected outcomes are world-first structural biology knowledge and techniques, and the entrepreneurial and technical skills desired by industry. This should provide signifi ....ARC Training Centre for Cryo-Electron Microscopy of Membrane Proteins for Drug Discovery. This Centre aims to train industry-ready, world class graduates in cryo-electron microscopy of membrane proteins. The Centre’s graduates and research results would enable tomorrow’s industrial expansion in structure-enhanced drug design. Expected outcomes are world-first structural biology knowledge and techniques, and the entrepreneurial and technical skills desired by industry. This should provide significant benefits including advancing Australian biotechnological capacity and improved linkages with major pharmaceutical partners. It should also provide a substantive competitive advantage to nascent Australian biotechnology companies that also links into new National investment into drug discovery and development infrastructure.Read moreRead less
The combined use of proteomics and small molecules for target identification and pathway analysis. This project intends to investigate how a series of new small molecules identified from our research to improve the metabolic effects of insulin. This project will integrate medicinal chemistry with proteomics and metabolic biology to identify the cellular targets and their mechanism of action.
Development and use of novel technologies to improve drugs targeting G protein-coupled receptor complexes involved in disease. The purpose of this project is to develop and use new and innovative technologies to improve many of the drugs taken for a wide range of medical conditions. The expected outcomes are the discovery of better drugs and a greater understanding of the drugs currently on the market, particularly enabling improved management of side-effects.