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The impact of copper on protein turnover. This project aims to elaborate a novel discovery by the research team, that a conserved copper-binding site in a group of conserved conjugating enzymes promotes ubiquitination of a range of essential proteins leading to their rapid degradation, which might be a means of maintaining copper homeostasis. This project will employ a range of integrated physicochemical, biochemical and cell biology approaches to illuminate the molecular nature of this copper a ....The impact of copper on protein turnover. This project aims to elaborate a novel discovery by the research team, that a conserved copper-binding site in a group of conserved conjugating enzymes promotes ubiquitination of a range of essential proteins leading to their rapid degradation, which might be a means of maintaining copper homeostasis. This project will employ a range of integrated physicochemical, biochemical and cell biology approaches to illuminate the molecular nature of this copper action on the enzyme and its partners. Expected outcomes include an analytical understanding of the molecular mechanisms of this process, and enhanced interdisciplinary collaboration between experts. Potential benefits include new strategies to intervene in copper-related disorders of aging.Read moreRead less
Greening the production of peptides and proteins . This project aims to develop a green and sustainable synthetic platform for the production of peptide and protein molecules. The synthetic methodology that will be developed has the potential to solve a major technological gap in the field by providing an efficient and cost-effective method for manufacturing peptides and proteins with a substantial reduction in reagent and solvent waste over currently employed methods. Expected outcomes include ....Greening the production of peptides and proteins . This project aims to develop a green and sustainable synthetic platform for the production of peptide and protein molecules. The synthetic methodology that will be developed has the potential to solve a major technological gap in the field by providing an efficient and cost-effective method for manufacturing peptides and proteins with a substantial reduction in reagent and solvent waste over currently employed methods. Expected outcomes include the delivery of a breakthrough green technology for accessing high value peptide and protein targets in academia and industry, and the training of industry-ready early career researchers, both of which will benefit Australia’s growing biotechnology and pharmaceutical manufacturing sectors.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100134
Funder
Australian Research Council
Funding Amount
$796,206.00
Summary
Super-resolution platform to accelerate biological and molecular research. This application aims to establish a new molecular analysis platform integrating a microfluid capillary electrophoresis interface directly to a mass spectrometer with advanced data scanning technology. This enables label-free detection, quantitation and characterisation of intact proteins, lipids and metabolites with unprecedented sensitivity, resolution and throughput. It will enhance ARC projects spanning natural produc ....Super-resolution platform to accelerate biological and molecular research. This application aims to establish a new molecular analysis platform integrating a microfluid capillary electrophoresis interface directly to a mass spectrometer with advanced data scanning technology. This enables label-free detection, quantitation and characterisation of intact proteins, lipids and metabolites with unprecedented sensitivity, resolution and throughput. It will enhance ARC projects spanning natural product discovery, biotechnology, agriculture, and animal, plant and marine biology, as well as single-cell proteomics, lipidomics and metabolomics. It will ensure Australia remains at the forefront of molecular and biological research and create new training and collaborative opportunities both nationally and internationally.Read moreRead less
Site-specific protein functionalisation at diselenides via photocatalysis . This project aims to develop a new photocatalytic reaction for the on demand functionalisation of proteins. The synthetic methodology will solve a major technological gap in the field by enabling efficient access to proteins with defined modifications at specific locations. Functionalised proteins generated in the project will underpin a detailed understanding of how specific modifications influence the structure and fun ....Site-specific protein functionalisation at diselenides via photocatalysis . This project aims to develop a new photocatalytic reaction for the on demand functionalisation of proteins. The synthetic methodology will solve a major technological gap in the field by enabling efficient access to proteins with defined modifications at specific locations. Functionalised proteins generated in the project will underpin a detailed understanding of how specific modifications influence the structure and function of several important proteins. The project will generate significant new knowledge in the fields of chemistry and biology and will foster interdisciplinary collaboration, nationally and internationally. The breakthrough technology also has the potential to benefit Australia’s biotechnology sector.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230101236
Funder
Australian Research Council
Funding Amount
$444,154.00
Summary
Chimeric molecules for precision protein modification. This project aims to address fundamental questions on how natural modifications of proteins cause functional changes inside cells. The project expects to generate new knowledge in the areas of organic chemistry and chemical biology through the development of a synthetic platform for the discovery of a novel class of chimeric molecules that can trigger precise modifications of proteins. Expected outcomes include a detailed understanding of ho ....Chimeric molecules for precision protein modification. This project aims to address fundamental questions on how natural modifications of proteins cause functional changes inside cells. The project expects to generate new knowledge in the areas of organic chemistry and chemical biology through the development of a synthetic platform for the discovery of a novel class of chimeric molecules that can trigger precise modifications of proteins. Expected outcomes include a detailed understanding of how specific modifications modulate protein and cellular function. Significant benefits of this interdisciplinary project include access to a new class of molecules for basic research that may also find use for cell engineering applications within the growing biotechnology sector in Australia.Read moreRead less
A peptide platform to fight pests threatening global food security. This project aims to develop a platform technology for the efficient design of new crop protection agents based on peptides to protect Australia’s food security. It will be first applied against the highly destructive fall armyworm, currently spreading alarmingly in Australia. The project is significant because insect pests cause huge economic and environmental impacts. Peptides are a new generation of crop protection agents tha ....A peptide platform to fight pests threatening global food security. This project aims to develop a platform technology for the efficient design of new crop protection agents based on peptides to protect Australia’s food security. It will be first applied against the highly destructive fall armyworm, currently spreading alarmingly in Australia. The project is significant because insect pests cause huge economic and environmental impacts. Peptides are a new generation of crop protection agents that are potentially more effective and sustainable than chemical pesticides. Expected outcomes are a new rapid response technology and associated lead molecules to protect against current and emerging pests. Major benefits are increased food security, improved crop yields and a more sustainable agriculture industry. Read moreRead less