Rejuvenating adult stem cells. This project aims to uncover intimate links between metabolic regulation and longevity in adult stem cells, the source of all cells in the body. Understanding why we age and whether ageing is preventable are research challenges which must be first attacked at a cellular level. This project will try to rejuvenate aged stem cells by interfering with a prospective molecular master switch of aging and also develop an approach to identify and select youthful stem cells. ....Rejuvenating adult stem cells. This project aims to uncover intimate links between metabolic regulation and longevity in adult stem cells, the source of all cells in the body. Understanding why we age and whether ageing is preventable are research challenges which must be first attacked at a cellular level. This project will try to rejuvenate aged stem cells by interfering with a prospective molecular master switch of aging and also develop an approach to identify and select youthful stem cells. The results are expected to be important beyond informing the science of ageing, in the areas of tissue engineering, wound healing, embryology and cancer.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
The fate of dietary selenium in vivo; a direct approach to linking chemical form with biological activity. Dietary selenium supplementation has great potential as a preventative treatment for a range of human health conditions, including cancer, that widely affect the Australian population. However, the adverse effects of such treatments are not fully recognised. This project will increase our knowledge of how selenium compounds are stored and utilised in the body and relate the information to c ....The fate of dietary selenium in vivo; a direct approach to linking chemical form with biological activity. Dietary selenium supplementation has great potential as a preventative treatment for a range of human health conditions, including cancer, that widely affect the Australian population. However, the adverse effects of such treatments are not fully recognised. This project will increase our knowledge of how selenium compounds are stored and utilised in the body and relate the information to clinical observations regarding dietary intake of selenium and other compounds. The new understanding generated will delineate the conditions for safe intake, so that the beneficial effects associated with selenium supplementation may be harnessed more effectively.Read moreRead less
The molecular basis of zinc toxicity to Gram-positive bacteria. Gram-positive bacteria are a major cause of infectious diseases in both developed and developing countries. This project will contribute to our understanding of how zinc causes toxicity to these bacteria and facilitate our exploitation of this Achilles heel, by providing new insights into fundamental aspects of microbial physiology.
Understanding gender differences in pain: Cellular therapies for animal pain. Understanding gender differences in pain: Cellular therapies for animal pain. This project aims to relieve chronic pain in animals and lay the foundations for future human therapies, using molecular assays, cell technologies and immune/hormonal pain generators. Chronic pain affects females more than males. Establishing the fundamental mechanism in pain, the role of immune signalling and molecular mediators will enable ....Understanding gender differences in pain: Cellular therapies for animal pain. Understanding gender differences in pain: Cellular therapies for animal pain. This project aims to relieve chronic pain in animals and lay the foundations for future human therapies, using molecular assays, cell technologies and immune/hormonal pain generators. Chronic pain affects females more than males. Establishing the fundamental mechanism in pain, the role of immune signalling and molecular mediators will enable true pain-modifying treatments that address pivotal triggers in both genders. This project will then use specially selected stem cells separately targeting arthritic male and female pain and demonstrate novel veterinary chronic pain treatments. Expected outcomes are more effective gender-targeted treatments of pain and the realisation of economic value of molecular assays and cell technologies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882382
Funder
Australian Research Council
Funding Amount
$245,000.00
Summary
Biophysical Characterisation Facility. The protein analysis facility will have substantial benefits for basic science and biotechnology. It will create capacity for South Australian researchers to study proteins at the biophysical level. The facility will support research projects within the designated national research priority areas of 'Frontier technologies for building and transforming Australian industries' and 'Promoting and maintaining good health
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989336
Funder
Australian Research Council
Funding Amount
$560,000.00
Summary
The South Australian Facility for Small and Large Molecule X-Ray Diffraction Structure Determination. The precise three dimensional arrangement of atoms within molecular and macromolecular structures defines their function. Thus, the discovery, development and application of biological compounds, catalysts, nanodevices and pharmaceuticals require X-ray diffraction structure determination. These endeavours underpin the conversion of academic research into real benefits for the community and are ....The South Australian Facility for Small and Large Molecule X-Ray Diffraction Structure Determination. The precise three dimensional arrangement of atoms within molecular and macromolecular structures defines their function. Thus, the discovery, development and application of biological compounds, catalysts, nanodevices and pharmaceuticals require X-ray diffraction structure determination. These endeavours underpin the conversion of academic research into real benefits for the community and are critical for the competitiveness of Australian industry, national productivity and economic growth. This application seeks to provide a facility for multidisciplinary scientific development that will enhance academic-industrial collaboration. This will position SA research community for scientific breakthroughs that benefit the Australian community.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668489
Funder
Australian Research Council
Funding Amount
$800,000.00
Summary
South Australian NMR Infrastructure Consortium. The proposed four pieces of NMR infrastructure will significantly enhance NMR facilities in South Australia. As a result, researchers from across the state will have access to a range of spectrometer field strengths to examine samples in the solution and solid phases. The infrastructure will support projects involving fundamental and strategic research spanning nanotechnology and the biological and materials sciences to industry-oriented projects. ....South Australian NMR Infrastructure Consortium. The proposed four pieces of NMR infrastructure will significantly enhance NMR facilities in South Australia. As a result, researchers from across the state will have access to a range of spectrometer field strengths to examine samples in the solution and solid phases. The infrastructure will support projects involving fundamental and strategic research spanning nanotechnology and the biological and materials sciences to industry-oriented projects. In addition, the proposal falls well within the South Australian state government's Science, Technology and Innovation plan for the next ten years to create and equip research precincts at various nodes within Adelaide.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101863
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Strained alkenes as chemical probes for cysteine sulfenic acid. This project aims to introduce strained alkenes as probes for cysteine sulfenic acid, a poorly understood biomarker for oxidative stress. This probe will enable rapid detection of cysteine sulfenic acid and meet an urgent need for tools to map cysteine redox signalling. Moreover, since many enzymes feature a cysteine sulfenic acid at their active site, the strained alkene probes will also serve as useful inhibitor probes of these en ....Strained alkenes as chemical probes for cysteine sulfenic acid. This project aims to introduce strained alkenes as probes for cysteine sulfenic acid, a poorly understood biomarker for oxidative stress. This probe will enable rapid detection of cysteine sulfenic acid and meet an urgent need for tools to map cysteine redox signalling. Moreover, since many enzymes feature a cysteine sulfenic acid at their active site, the strained alkene probes will also serve as useful inhibitor probes of these enzymes. Such inhibitor probes will provide critical information for potential therapeutic applications in human conditions associated with oxidative stress such as ageing, cancer, and heart disease.Read moreRead less
Structure and metabolism of bioactive carbohydrates from brown algae. Brown algae produce a diversity of species-specific carbohydrates in their cell walls that exhibit a variety of biological activities that can be exploited for the development of functional food and biopharmaceutical formulations. However, the metabolic pathways responsible for the biosynthesis of these carbohydrates are poorly characterised. This multidisciplinary project aims to understand the molecular events that control t ....Structure and metabolism of bioactive carbohydrates from brown algae. Brown algae produce a diversity of species-specific carbohydrates in their cell walls that exhibit a variety of biological activities that can be exploited for the development of functional food and biopharmaceutical formulations. However, the metabolic pathways responsible for the biosynthesis of these carbohydrates are poorly characterised. This multidisciplinary project aims to understand the molecular events that control the structure and metabolism of bioactive carbohydrates in the prominent Australian brown alga Ecklonia radiata, with particular focus on alginates and fucoidans. This knowledge will be used to produce in yeast bioactive oligosaccharides that are of high commercial interest to the biopharmaceutical industry.Read moreRead less