How triadin and junctin communicate with ryanodine receptors deep within a calcium store to determine skeletal muscle contraction. The project results will provide a platform for muscle relaxants and other drugs that will specifically target either the heart or skeletal muscle and will have applications in the livestock, veterinary and pharmaceutical Industries. The project falls within the National Research Priorities of Promoting and Maintaining Good Health and Frontier Technologies for Buil ....How triadin and junctin communicate with ryanodine receptors deep within a calcium store to determine skeletal muscle contraction. The project results will provide a platform for muscle relaxants and other drugs that will specifically target either the heart or skeletal muscle and will have applications in the livestock, veterinary and pharmaceutical Industries. The project falls within the National Research Priorities of Promoting and Maintaining Good Health and Frontier Technologies for Building and Transforming Australian Industries, as well as the national priority goal of Ageing well, Ageing Productively. The project will be of national benefit in training undergraduate students, PhD students and a postdoctoral fellow in state-of-the-art techniques in an internationally competitive research field.Read moreRead less
Early life overfeeding - mechanisms for programming obesity and long-term immune dysfunction. Early life overfeeding can lead to obesity and related changes in adulthood. With this study we will discover how overfeeding can permanently alter an animal's development so that its body weight and immune functions are dysregulated. The outcomes will facilitate appropriate design of animal experiments considering the impact of neonatal programming. They will also contribute to more efficient feeding p ....Early life overfeeding - mechanisms for programming obesity and long-term immune dysfunction. Early life overfeeding can lead to obesity and related changes in adulthood. With this study we will discover how overfeeding can permanently alter an animal's development so that its body weight and immune functions are dysregulated. The outcomes will facilitate appropriate design of animal experiments considering the impact of neonatal programming. They will also contribute to more efficient feeding protocols for meat production in agriculture and identify targets for risk management and for preventing and ameliorating early life overfeeding effects in humans. This investigation therefore has clear benefits to the social, economic, and health aspects of obesity and to basic science and agriculture.Read moreRead less
Dissecting the impact of stress on reproduction: Novel peptide mediates inhibitory effects of stress on female reproduction. This research proposal offers a pioneering opportunity to develop treatments that overcome the negative impact of stress on reproduction. Specifically, knowledge generated in this project will be vital in the development of strategic defences against the impact of stress on reproduction. This project fundamentally addresses Research Priority 2: Promoting and maintaining go ....Dissecting the impact of stress on reproduction: Novel peptide mediates inhibitory effects of stress on female reproduction. This research proposal offers a pioneering opportunity to develop treatments that overcome the negative impact of stress on reproduction. Specifically, knowledge generated in this project will be vital in the development of strategic defences against the impact of stress on reproduction. This project fundamentally addresses Research Priority 2: Promoting and maintaining good health. Given that suppression of reproduction by stress occurs in all mammalian species including humans, domestic animals and wildlife, being able to prevent or overcome stress-induced reproductive dysfunction will generate significant health, social, economic and ecological benefits. Read moreRead less
Early Nutrition and the Programming of Body Composition in Cattle. Australia is the worlds largest beef exporter with the net value of beef export valued at $4.6 billion. The economy of rural and regional Australia relies upon cattle production with the industry bringing a total value to these communities of $7.4 billion. Cattle production in remote Australia is becoming less viable as input costs of production increase relative to income earned and the beef industry is keen to transform produc ....Early Nutrition and the Programming of Body Composition in Cattle. Australia is the worlds largest beef exporter with the net value of beef export valued at $4.6 billion. The economy of rural and regional Australia relies upon cattle production with the industry bringing a total value to these communities of $7.4 billion. Cattle production in remote Australia is becoming less viable as input costs of production increase relative to income earned and the beef industry is keen to transform production methods. Protein is the major limiting nutrient in the Australian rangelands and this proposal will provide new information on how providing protein to cattle during critical periods in their pregnancy can 'program' the body composition of the growing calf to be optimal for the market.Read moreRead less
The importance of phenotypic plasticity in maintaining and introducing variation. This research is a synthesis of behaviour, natural and sexual selection, physiology, and natural and breeding ecology-important interactions that are rarely considered simultaneously in biology. It will contribute to our understanding of life-history decisions, and a long-neglected source of the variation that is the raw material for adaptation and for economically-important breeding programs . These results will h ....The importance of phenotypic plasticity in maintaining and introducing variation. This research is a synthesis of behaviour, natural and sexual selection, physiology, and natural and breeding ecology-important interactions that are rarely considered simultaneously in biology. It will contribute to our understanding of life-history decisions, and a long-neglected source of the variation that is the raw material for adaptation and for economically-important breeding programs . These results will have far-reaching implications for economically-important improvements to medicine, conservation, and crop and livestock production. This work will strengthen Australia's strong research profile in evolutionary genetics, physiology and ecology.Read moreRead less
Determinants of metabolic rate in animals. The metabolic rate of an animal represents its fundamental "cost of living" and varies dramatically (>100-fold) between different vertebrate species. We have proposed the "membrane pacemaker theory" to explain this variation and currently this is the only mechanistic explanation of metabolic variation between species. It has received significant international interest. A species metabolic rate and its maximum lifespan are connected but the precise mecha ....Determinants of metabolic rate in animals. The metabolic rate of an animal represents its fundamental "cost of living" and varies dramatically (>100-fold) between different vertebrate species. We have proposed the "membrane pacemaker theory" to explain this variation and currently this is the only mechanistic explanation of metabolic variation between species. It has received significant international interest. A species metabolic rate and its maximum lifespan are connected but the precise mechanistic link between them is unknown. We will investigate the mechanisms underlying the "membrane pacemaker theory" as an explanation of the metabolic rates of vertebrate species and its role in the determination of maximum lifespan.Read moreRead less
Of birds and bees: membrane lipids and the determination of maximum lifespan. The underlying mechanisms that determine why different animals have different maximum lifespans are unknown. Why do queen bees live for years but the genetically-identical workers bees live for only weeks? Similarly, to understand why birds live much longer than similar-sized mammals will give immense insight into the processes that cause ageing. Understanding the aging process in animals will have significant implicat ....Of birds and bees: membrane lipids and the determination of maximum lifespan. The underlying mechanisms that determine why different animals have different maximum lifespans are unknown. Why do queen bees live for years but the genetically-identical workers bees live for only weeks? Similarly, to understand why birds live much longer than similar-sized mammals will give immense insight into the processes that cause ageing. Understanding the aging process in animals will have significant implications for human health as the biggest risk factor for most diseases is age. Such understanding will help to cope with the worldwide problems of an aging population.Read moreRead less
Deconstructing the neural circuits regulating appetite. This project aims to expand our knowledge about the neural circuits that influence a feeding response in the absence of emotional or cognitive obstacles. Feeding behaviour is a fundamental physiological process in all animals. Despite the seemingly simple endpoint, feeding behaviour is affected by numerous factors including stress and motivation that can inhibit feeding behaviour. This knowledge is critical to maximise growth and survival i ....Deconstructing the neural circuits regulating appetite. This project aims to expand our knowledge about the neural circuits that influence a feeding response in the absence of emotional or cognitive obstacles. Feeding behaviour is a fundamental physiological process in all animals. Despite the seemingly simple endpoint, feeding behaviour is affected by numerous factors including stress and motivation that can inhibit feeding behaviour. This knowledge is critical to maximise growth and survival in many Australian sectors including agriculture, conservation and basic science.Read moreRead less
Investigating the "membrane pacemaker" theory of aging. All animals age and die but the basis of the aging process is still not completely understood. Recent Australian research into the basis of the metabolism in different animals has suggested that the fatty acid composition of biological membranes may be the final part of the puzzle. Understanding why different species have such different lifespans will give profound insight into the aging process. Because it is such a fundamental biological ....Investigating the "membrane pacemaker" theory of aging. All animals age and die but the basis of the aging process is still not completely understood. Recent Australian research into the basis of the metabolism in different animals has suggested that the fatty acid composition of biological membranes may be the final part of the puzzle. Understanding why different species have such different lifespans will give profound insight into the aging process. Because it is such a fundamental biological process, understanding how aging occurs and what determines lifespan will have obvious benefits to understanding the basis of many aging-associated diseases. Understanding the role of dietary fats in influencing lifespan will also be of benefit to the community, both national and international. Read moreRead less
Structural Determinants of an Intracellular Calcium Store. Understanding the molecular interactions between key proteins in calcium signalling in muscle and the heart will allow calcium signalling to be used as a platform for a variety of purposes. These include reducing the debilitating effects of changes in calcium signalling and muscle performance in aging and in genetically- or drug-induced disorders. The project will have benefits for Australian biotechnology since it will facilitate the de ....Structural Determinants of an Intracellular Calcium Store. Understanding the molecular interactions between key proteins in calcium signalling in muscle and the heart will allow calcium signalling to be used as a platform for a variety of purposes. These include reducing the debilitating effects of changes in calcium signalling and muscle performance in aging and in genetically- or drug-induced disorders. The project will have benefits for Australian biotechnology since it will facilitate the design of novel compounds for treating muscle disorders in animals and humans, for improving meat quality and for use as insecticides. The project will facilitate graduate and undergraduate training in basic science with exposure to biotechnology, through our commercial partner Biotron.Read moreRead less