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Nutritional requirements of the critically endangered corroboree frog. This project aims to test the effect of dietary carotenoids on an extensive range of fitness-determining traits in the endangered southern corroboree frog. Unprecedented rates of species extinction have been reported for all vertebrates, with amphibians most severely affected. Captive breeding programs play a key role in amphibian conservation, yet there is a lack of knowledge regarding the nutritional requirements of threate ....Nutritional requirements of the critically endangered corroboree frog. This project aims to test the effect of dietary carotenoids on an extensive range of fitness-determining traits in the endangered southern corroboree frog. Unprecedented rates of species extinction have been reported for all vertebrates, with amphibians most severely affected. Captive breeding programs play a key role in amphibian conservation, yet there is a lack of knowledge regarding the nutritional requirements of threatened species. Manipulating captive nutrition is a cost-effective action that will permit recovery teams to more efficiently implement conservation actions. The findings will be of major benefit to amphibian conservation globally.Read moreRead less
Shape-shifting birds: a novel consequence of climate change. This project aims to identify which species are affected by climate change, and whether these changes in their ecology enhance or decrease fitness and survival. Climate change is having drastic effects on animal biology, threatening many species. Recent data suggest that changes in body shape (the size of appendages) is one such effect. By studying the bills and legs of birds this project aims to investigate changes in body shape as a ....Shape-shifting birds: a novel consequence of climate change. This project aims to identify which species are affected by climate change, and whether these changes in their ecology enhance or decrease fitness and survival. Climate change is having drastic effects on animal biology, threatening many species. Recent data suggest that changes in body shape (the size of appendages) is one such effect. By studying the bills and legs of birds this project aims to investigate changes in body shape as a biological response to climate change. This project will model the predicted consequences of changes in body shape on population trends in Australian birds, enabling the prediction of which species are most threatened by climate change, and helping inform conservation priorities.Read moreRead less
Genomic diversity, tolerance and ecology of wildlife disease. This project aims to understand the regulation of viral disease by vertebrate hosts. Viruses are rapidly evolving threats to humans, agriculture and wildlife and understanding of these threats can be transformed by combining the latest genomic, ecological and immune-pathological approaches. This project expects to reveal how hosts manage the bad effects of viruses in natural populations and fill gaps in fundamental knowledge of virus- ....Genomic diversity, tolerance and ecology of wildlife disease. This project aims to understand the regulation of viral disease by vertebrate hosts. Viruses are rapidly evolving threats to humans, agriculture and wildlife and understanding of these threats can be transformed by combining the latest genomic, ecological and immune-pathological approaches. This project expects to reveal how hosts manage the bad effects of viruses in natural populations and fill gaps in fundamental knowledge of virus-host evolution. Anticipated benefits include improved management, risk assessment and decision-making for animal disease and biosecurity in Australia and globally.Read moreRead less
Evolution and specificity of alternative splicing in plants. This project aims to elucidate fundamental principles of alternative splicing, a basic mechanism that plays a vital role in several biological processes across all organisms. Plants are highly effective in adapting to varied environmental, seasonal and climatic conditions and this project aims to uncover how alternative splicing contributes to regulation of gene expression in response to developmental and environmental cues. Uncovering ....Evolution and specificity of alternative splicing in plants. This project aims to elucidate fundamental principles of alternative splicing, a basic mechanism that plays a vital role in several biological processes across all organisms. Plants are highly effective in adapting to varied environmental, seasonal and climatic conditions and this project aims to uncover how alternative splicing contributes to regulation of gene expression in response to developmental and environmental cues. Uncovering the underlying mechanisms of alternative splicing will not only advance fundamental knowledge, but also has the potential to provide tools and technologies through which sensitivities of plants to environmental stress can be potentially manipulated to benefit agriculture.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230101681
Funder
Australian Research Council
Funding Amount
$457,139.00
Summary
Cryo-electron microscopy determination of G protein-coupled receptor states. This project aims to address fundamental knowledge gaps in understanding of the molecular mechanisms of peptide hormone G protein-coupled receptor activation. This will be achieved through cryo-electron microscopy determination of the structure and dynamics of key intermediate states in activation. Novel biochemical approaches will be applied to capture these states, using as exemplar the glucagon receptor that has a br ....Cryo-electron microscopy determination of G protein-coupled receptor states. This project aims to address fundamental knowledge gaps in understanding of the molecular mechanisms of peptide hormone G protein-coupled receptor activation. This will be achieved through cryo-electron microscopy determination of the structure and dynamics of key intermediate states in activation. Novel biochemical approaches will be applied to capture these states, using as exemplar the glucagon receptor that has a broad range of pharmacological tools to facilitate isolation of distinct functional states. The knowledge gained from these studies will advance fundamental understanding of physiologically important receptor activation and efficacy, while the approaches developed will enable similar investigation of other receptor classes.Read moreRead less
The Role of Lck/CD8 Association in Negatively Regulating T cell Activation. This proposal aims to advance our fundamental understanding of how T cell recognition of antigens translates into a T cell activating signal. The proposal will establish whether the major T cell coreceptor also acts as a negative regulator of T cell activation in vivo when antigen recognition is unorthodox. It will also determine whether certain subsets of T cells naturally lack coreceptors in order to facilitate unortho ....The Role of Lck/CD8 Association in Negatively Regulating T cell Activation. This proposal aims to advance our fundamental understanding of how T cell recognition of antigens translates into a T cell activating signal. The proposal will establish whether the major T cell coreceptor also acts as a negative regulator of T cell activation in vivo when antigen recognition is unorthodox. It will also determine whether certain subsets of T cells naturally lack coreceptors in order to facilitate unorthodox antigen recognition. Thus, the proposal will significantly advance our understanding of, and establish new paradigms around, the regulation of T cell activation. Expected long term benefits outside the scope of this proposal include improved immunotherapies and vaccines designed to elicit or suppress T cell responses.Read moreRead less
How do cytokine receptors transmit signals? This project aims to determine the mechanisms of signal transmission by cytokine receptors using state-of-the-art microscopy techniques. Cytokines are small proteins that act as messengers between cells and play fundamental roles in biology. Cytokines bind to receptors on the surface of cells, producing a response within the cells. Yet, how the message is transmitted across the cell membrane is not well understood. Expected outcomes of this project inc ....How do cytokine receptors transmit signals? This project aims to determine the mechanisms of signal transmission by cytokine receptors using state-of-the-art microscopy techniques. Cytokines are small proteins that act as messengers between cells and play fundamental roles in biology. Cytokines bind to receptors on the surface of cells, producing a response within the cells. Yet, how the message is transmitted across the cell membrane is not well understood. Expected outcomes of this project include discovery of mechanisms general to cytokine signalling and new approaches to investigate cytokine biology. This new knowledge will benefit efforts to understand and modulate cytokine signalling in animals and humans, with future impacts in the agriculture, veterinary, and health sectors.Read moreRead less
Understanding how cells regulate self eating during starvation and stress. This project aims to investigate how autophagosomes are built during autophagy by using advanced multi-modal imaging and unique gene-edited human cell lines. This project expects to generate new knowledge on how a family of evolutionary conserved proteins regulate autophagosome formation during starvation and stress conditions. Expected outcomes include the development of frontier imaging technologies that can be subseque ....Understanding how cells regulate self eating during starvation and stress. This project aims to investigate how autophagosomes are built during autophagy by using advanced multi-modal imaging and unique gene-edited human cell lines. This project expects to generate new knowledge on how a family of evolutionary conserved proteins regulate autophagosome formation during starvation and stress conditions. Expected outcomes include the development of frontier imaging technologies that can be subsequently utilised for the advancement of any field of cell biology. This should provide significant benefits by placing Australia at the forefront of cell biology technologies and increasing our understanding of how plant and human cells can protect themselves during starvation and stress.
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