About time; a new biology for the mineralocorticoid receptor . Temporal control of cell function aligns biological pathways with environmental cues and is critical for optimal heath in mammals. This project will shed light on how a hormone receptor, the MR, modulates time keeping of biological clock time in cells. We will bring together cutting edge genetic modals and bioinformatic approaches with a unique set of research models to define the interaction between the MR and the circadian clock a ....About time; a new biology for the mineralocorticoid receptor . Temporal control of cell function aligns biological pathways with environmental cues and is critical for optimal heath in mammals. This project will shed light on how a hormone receptor, the MR, modulates time keeping of biological clock time in cells. We will bring together cutting edge genetic modals and bioinformatic approaches with a unique set of research models to define the interaction between the MR and the circadian clock and its role in the normal biology of the heart. New data will significantly enhance our understanding of the biology of MR and cortisol for the circadian time keeping function in peripheral tissues, and gain a clearer understand how our heart cells adapt to environmental circadian disruptors such as shift work. Read moreRead less
To what extent does Australian food policy consider its health impact. This research will examine how public policies relating to food can be made healthier. The diet of Australians currently contributes to high rates of disease including diabetes, heart disease and the underlying issue of obesity. It will examine Australian agriculture and food processing, manufacturing and marketing and the environmental impacts of these sectors. The research will analyse policy documents and interview key peo ....To what extent does Australian food policy consider its health impact. This research will examine how public policies relating to food can be made healthier. The diet of Australians currently contributes to high rates of disease including diabetes, heart disease and the underlying issue of obesity. It will examine Australian agriculture and food processing, manufacturing and marketing and the environmental impacts of these sectors. The research will analyse policy documents and interview key people involved in each sector to determine their views on the ways in which our food supply affects our health. It will result in policy recommendations advising how the Australian food sector can be made more supportive of health and equity. Policy makers will be engaged with our findings through a Food Policy Summit. Read moreRead less
Australian Heritage: constructing the first Aboriginal reference genome. This project aims to use DNA sequencing technologies to generate the first complete and accurate Aboriginal genomes, along with maps of genomic variation around Australia. It will combine a range of advanced analytical methods to integrate past and present indigenous genetic diversity from human populations around the world into a new pan-human reference genome. This project will lead to a step change in our understanding o ....Australian Heritage: constructing the first Aboriginal reference genome. This project aims to use DNA sequencing technologies to generate the first complete and accurate Aboriginal genomes, along with maps of genomic variation around Australia. It will combine a range of advanced analytical methods to integrate past and present indigenous genetic diversity from human populations around the world into a new pan-human reference genome. This project will lead to a step change in our understanding of global human genomic variants and provide a range of new targets relevant to medical biology, while significantly improving our knowledge of human genetic history and its consequences in the modern day.Read moreRead less
Designing liveable neighbourhoods to support healthy ageing. This project aims to identify whether neighbourhood liveability influences healthy ageing, and the extent to which this association is modified by individual preferences and socioeconomic disadvantage using longitudinal analyses. The research expects to generate new knowledge on urban design that supports healthy ageing, which is mostly derived from cross-sectional studies. Expected outcomes include evidence-based recommendations for i ....Designing liveable neighbourhoods to support healthy ageing. This project aims to identify whether neighbourhood liveability influences healthy ageing, and the extent to which this association is modified by individual preferences and socioeconomic disadvantage using longitudinal analyses. The research expects to generate new knowledge on urban design that supports healthy ageing, which is mostly derived from cross-sectional studies. Expected outcomes include evidence-based recommendations for informing urban design and health policies to support healthy ageing and ageing in place, which is a key government agenda in Australia. This should provide benefits such as the delivery of high quality liveable environments that support healthy ageing and reduced aged care expenditure.Read moreRead less
Historical frontier violence: drivers, legacy and the role of truth-telling. This project aims to build data to identify the historical factors that incited frontier violence; quantify the legacy on communities today and conduct fieldwork to understand how historical trauma is transmitted across generations. This project expects to develop new knowledge on the circumstances and legacy of settlement and the origins of gaps in life prospects between Indigenous and non-Indigenous Australians. Our e ....Historical frontier violence: drivers, legacy and the role of truth-telling. This project aims to build data to identify the historical factors that incited frontier violence; quantify the legacy on communities today and conduct fieldwork to understand how historical trauma is transmitted across generations. This project expects to develop new knowledge on the circumstances and legacy of settlement and the origins of gaps in life prospects between Indigenous and non-Indigenous Australians. Our expectation is that this will increase public acceptance of the circumstances of settlement and the need to make amends. This project should help increase public support for truth-telling and better relations between Indigenous and non-Indigenous Australians, a vital step towards reconciliation and healing the nation. Read moreRead less
Augmenting the activity of glyoxalase-1 to increase dicarbonyl clearance . Reactive intermediates generated during our metabolism contribute to ageing. Glyoxalase-1 is a key defence enzyme against these toxic intermediates and therefore ageing itself. This project aims to investigate novel pathways how the expression and activity of glyoxalase-1 are regulated. This interdisciplinary project expects to generate new understanding by combining relevant cell and animal models, protein chemistry, epi ....Augmenting the activity of glyoxalase-1 to increase dicarbonyl clearance . Reactive intermediates generated during our metabolism contribute to ageing. Glyoxalase-1 is a key defence enzyme against these toxic intermediates and therefore ageing itself. This project aims to investigate novel pathways how the expression and activity of glyoxalase-1 are regulated. This interdisciplinary project expects to generate new understanding by combining relevant cell and animal models, protein chemistry, epigenetics and structural biology. It is expected that this work will improve understanding of this fundamental biological defence. This will allow us to identify the potential means to enhance the capacity of glyoxalase-1 to the future benefit of biological ageing.Read moreRead less
Signaling in the crypt: a novel metabolic pathway in intestinal stem cells. The gut is the most rapidly renewing tissue in the body, driven by a highly active stem cell niche. Bile acids are emerging as critical regulators of this stem cell niche and disruption of bile acid homeostasis has profoundly adverse effects on intestinal renewal and hence gut health. We are addressing a critical gap in our understanding of how bile acids are controlled within stem cell niche. The aim of the project is ....Signaling in the crypt: a novel metabolic pathway in intestinal stem cells. The gut is the most rapidly renewing tissue in the body, driven by a highly active stem cell niche. Bile acids are emerging as critical regulators of this stem cell niche and disruption of bile acid homeostasis has profoundly adverse effects on intestinal renewal and hence gut health. We are addressing a critical gap in our understanding of how bile acids are controlled within stem cell niche. The aim of the project is to define the critical role of a novel enzyme called UGT8 in controlling intestinal stem cell response to bile acids; this is achieved by modulating UGT8 activity in intestinal stem cell models and determining the effects on stem cell function and the key signalling pathways that control intestinal homeostasis and renewal.Read moreRead less
Unravelling the complexities of cell death pathways . This project aims to test if cells can flexibly rewire their cell death pathways to ensure that the absence or inhibition of one type of cell death can be compensated through the triggering of another. The project expects to generate new knowledge in the area of programed cell death, and more specifically will address why cells have multiple programmed ways to die. Expected outcomes of this project include the provision of unprecedented insig ....Unravelling the complexities of cell death pathways . This project aims to test if cells can flexibly rewire their cell death pathways to ensure that the absence or inhibition of one type of cell death can be compensated through the triggering of another. The project expects to generate new knowledge in the area of programed cell death, and more specifically will address why cells have multiple programmed ways to die. Expected outcomes of this project include the provision of unprecedented insights into the molecular regulation of how cells orchestrate and integrate cell death pathways. This should provide significant benefits, such as providing the knowledge base needed to improve our abilities to manipulate cell death both in basic research and commercial applications of cell death.Read moreRead less
Trails of migration out of Africa in harmful mutations of the First Peoples. This project aims to study harmful mutations specific to Indigenous populations. The process of migration out of Africa has left its footprints in the mutations present in world populations. By investigating these unique signatures, this project aims to characterise the harmful mutations specific to Aboriginal Australians using the whole genome sequences of the First Peoples. The expected outcomes will benefit future ....Trails of migration out of Africa in harmful mutations of the First Peoples. This project aims to study harmful mutations specific to Indigenous populations. The process of migration out of Africa has left its footprints in the mutations present in world populations. By investigating these unique signatures, this project aims to characterise the harmful mutations specific to Aboriginal Australians using the whole genome sequences of the First Peoples. The expected outcomes will benefit future Aboriginal health research to better understand the mutations associated with various genetic diseases.Read moreRead less
EFR3: Novel gatekeeper of cell proliferation. This interdisciplinary, cross-institutional project uses leading-edge mass spectrometry and the yeast genetic model to enhance knowledge of fundamental signalling mechanisms common to cell proliferation of eukaryotic cells. Building on extensive preliminary data that identifies novel energy-stress control points, this research will generate insights into critical and conserved features of nutrient stress control of cell proliferation that ensures cel ....EFR3: Novel gatekeeper of cell proliferation. This interdisciplinary, cross-institutional project uses leading-edge mass spectrometry and the yeast genetic model to enhance knowledge of fundamental signalling mechanisms common to cell proliferation of eukaryotic cells. Building on extensive preliminary data that identifies novel energy-stress control points, this research will generate insights into critical and conserved features of nutrient stress control of cell proliferation that ensures cell survival. This project advances basic and applied biology. Its outcomes will be relevant to several research areas and industries, specifically to the propagation of cell cultures that nowadays contributes to the production of a myriad of biotechnical and pharmaceutical commodities.
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