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Transcending language barriers to environmental sciences. This project aims to enhance the global flow of scientific knowledge for biodiversity conservation by tackling the impediment of language barriers. The project draws from literature reviews, modelling and global surveys to shed light on details of biodiversity science published in non-English languages, and how language impedes the use of biodiversity science in decision-making. The project will produce a database and search system for no ....Transcending language barriers to environmental sciences. This project aims to enhance the global flow of scientific knowledge for biodiversity conservation by tackling the impediment of language barriers. The project draws from literature reviews, modelling and global surveys to shed light on details of biodiversity science published in non-English languages, and how language impedes the use of biodiversity science in decision-making. The project will produce a database and search system for non-English conservation studies and recognise the importance of translations to better inform policies and practices. This will benefit national and international environmental sciences and policies by increasing knowledge available for synthesis and facilitating science-led conservation.
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Regulation of cell proliferation and survival by the ubiquitin system. This project aims to investigate how the fundamental processes of cell division and cell death are controlled at the molecular level by protein degradation enzymes (known as ubiquitin ligases), and how these regulate cellular homeostasis. Using interdisciplinary approaches incorporating proteomics, biochemistry, and molecular cell biology, this project seeks to delineate the components of signalling pathways implicated in the ....Regulation of cell proliferation and survival by the ubiquitin system. This project aims to investigate how the fundamental processes of cell division and cell death are controlled at the molecular level by protein degradation enzymes (known as ubiquitin ligases), and how these regulate cellular homeostasis. Using interdisciplinary approaches incorporating proteomics, biochemistry, and molecular cell biology, this project seeks to delineate the components of signalling pathways implicated in the degradation of proteins implicated in cell division and cell death. Expected outcomes include an increased understanding of how proteins are specifically selected for degradation. Protein degradation pathways operate with remarkable selectivity and this work is expected to illuminate the mechanisms of substrate targeting. The biochemical approaches will provide insight and impact in the areas of cell signaling, organelle biology and cell biology.Read moreRead less
Molecular basis of glutamate receptor trafficking in neuronal plasticity . Neurons communicate via synapses, where chemicals (such as glutamate) are released to transmit neuronal signals. This proposal is aimed at understanding the molecular mechanisms of neuronal communication and adaptive plasticity, which are essential for normal brain function. The proposed research will combine biophysical, biochemical, molecular and cell biological assays to elucidate how the trafficking of glutamate recep ....Molecular basis of glutamate receptor trafficking in neuronal plasticity . Neurons communicate via synapses, where chemicals (such as glutamate) are released to transmit neuronal signals. This proposal is aimed at understanding the molecular mechanisms of neuronal communication and adaptive plasticity, which are essential for normal brain function. The proposed research will combine biophysical, biochemical, molecular and cell biological assays to elucidate how the trafficking of glutamate receptors is regulated in neurons during plasticity and learning. The outcomes will enhance our understanding of how neural plasticity is generated and maintained, knowledge that is critical for our understanding of the cellular correlates of information, sensory and motor processing, as well as learning, memory and cognition.Read moreRead less
Regulation of 3D Cell Migration by Microtubule-Dependent Processes. The overarching aim of this research is to elucidate the molecular mechanisms that cells use to move in 3D environments: a basic biological function essential to development and homeostasis. During these processes, cells interact with their surroundings where they translate biophysical forces into biochemical signals to adapt their shape to move. This requires distinct signalling, controlled in space and time, to regulate the cr ....Regulation of 3D Cell Migration by Microtubule-Dependent Processes. The overarching aim of this research is to elucidate the molecular mechanisms that cells use to move in 3D environments: a basic biological function essential to development and homeostasis. During these processes, cells interact with their surroundings where they translate biophysical forces into biochemical signals to adapt their shape to move. This requires distinct signalling, controlled in space and time, to regulate the crosstalk between organelles and the cytoskeleton. To date, the role of microtubules remains elusive. Using interdisciplinary approaches combining advanced imaging technology with novel cell biology methods, the project aims to uncover fundamental knowledge about how cells interact with their environment.Read moreRead less
Making social cohesion ecocentric through Indigenous language and song . This project expects to develop Indigenous language and song in ways that reframe and Indigenise social cohesion, expanding it from a human-centric policy goal to include connections with everything in Country. Designing and implementing an unprecedented and sustained program of Noongar language and song revitalisation in the south of Western Australia across community, schools, and the performing arts, it should advance th ....Making social cohesion ecocentric through Indigenous language and song . This project expects to develop Indigenous language and song in ways that reframe and Indigenise social cohesion, expanding it from a human-centric policy goal to include connections with everything in Country. Designing and implementing an unprecedented and sustained program of Noongar language and song revitalisation in the south of Western Australia across community, schools, and the performing arts, it should advance the potential for Indigenous expressive culture to nourish reciprocal social and ecological relationships that are adaptable to environmental change. Emerging from a hotspot for biodiversity and global warming, it intends to explore how Indigenous creative responses can focus and spur action on pressing global challenges.
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Indian Ocean globalisation and the westward Austronesian expansion. This project aims to apply a multi-analytical archaeological science approach to investigate how cross-cultural interaction transformed peoples, societies and environments in the Indian Ocean. It plans to trace the movement of people, plants, animals, goods and practices to Madagascar and the Comoros over 1000 years ago in order to critically assess evidence for early long-distance contacts between Southeast Asia and Africa. The ....Indian Ocean globalisation and the westward Austronesian expansion. This project aims to apply a multi-analytical archaeological science approach to investigate how cross-cultural interaction transformed peoples, societies and environments in the Indian Ocean. It plans to trace the movement of people, plants, animals, goods and practices to Madagascar and the Comoros over 1000 years ago in order to critically assess evidence for early long-distance contacts between Southeast Asia and Africa. The project seeks to enhance Australia’s capacity for archaeological science and deliver significant social and cultural benefits by shedding light on the history of the diverse but interconnected Indo-Pacific world in which Australia now occupies a central geopolitical position.Read moreRead less
Uncovering a novel energy-sensing mechanism in the brain. This project aims to investigate a novel regulator of energy homeostasis in the brain, a protein kinase called SIK3. Energy homeostasis is essential for life as it ensures an adequate supply of fuel to cells of the body. This project intends to generate new knowledge about molecular switches to regulate energy homeostasis by using innovative gene technologies and transgenic animal models. The expected outcomes include generating fundament ....Uncovering a novel energy-sensing mechanism in the brain. This project aims to investigate a novel regulator of energy homeostasis in the brain, a protein kinase called SIK3. Energy homeostasis is essential for life as it ensures an adequate supply of fuel to cells of the body. This project intends to generate new knowledge about molecular switches to regulate energy homeostasis by using innovative gene technologies and transgenic animal models. The expected outcomes include generating fundamental insights into how SIK3 in the hypothalamic neurons regulates energy homeostasis. Benefits include improving population health and wellbeing, informing the development of new bio-medical technologies, and expanding the capabilities of Australia’s next generation of researchers.
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Microbiome Regulation of the Host Mitochondrial Genome. This project aims to describe newly discovered processes by which bacteria that reside in the gut of an animal influences host mitochondria, the powerhouses of the cell. Using advanced genetic and molecular methodologies, this project aims to generate new knowledge on improving mitochondrial function as well as advance our understanding of the emerging field of microbiome research. Expected outcomes include a novel and universal technology ....Microbiome Regulation of the Host Mitochondrial Genome. This project aims to describe newly discovered processes by which bacteria that reside in the gut of an animal influences host mitochondria, the powerhouses of the cell. Using advanced genetic and molecular methodologies, this project aims to generate new knowledge on improving mitochondrial function as well as advance our understanding of the emerging field of microbiome research. Expected outcomes include a novel and universal technology platform in which to engineer small molecules and probiotics to improve mitochondrial health and enhance fitness in a range of animals. This should provide significant benefits, through both scientifically relevant outcomes and economic benefits through technological advancements.Read moreRead less
Imaging the foundation of the nervous system. This Project aims to understand the formation of the neural tube; a fundamental tissue structure that generates the brain and the spinal cord. Using interdisciplinary approaches and exploiting recent advances in transgenic and imaging technologies, the Project expects to reveal the complex interplay of molecular, cellular and mechanical processes that direct neural tissue formation and cell fate specification. Outcomes from the Project include knowle ....Imaging the foundation of the nervous system. This Project aims to understand the formation of the neural tube; a fundamental tissue structure that generates the brain and the spinal cord. Using interdisciplinary approaches and exploiting recent advances in transgenic and imaging technologies, the Project expects to reveal the complex interplay of molecular, cellular and mechanical processes that direct neural tissue formation and cell fate specification. Outcomes from the Project include knowledge of previously intractable developmental processes, training of future scientists and development of international collaborations. This should provide enhanced imaging capacity, a higher quality scientific workforce and position Australia at the forefront of developmental biology.
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A fast comparative method for historical linguistics. Linguists are able to infer ancient histories of languages by a procedure known as the Comparative Method. Its results are used in related studies of human genetic and cultural change. However, the Comparative Method is a manual-only process and thus currently is a bottleneck for the science of unravelling the human past. This project aims to overcome this limitation and significantly accelerate linguistic discovery, by combining recent advan ....A fast comparative method for historical linguistics. Linguists are able to infer ancient histories of languages by a procedure known as the Comparative Method. Its results are used in related studies of human genetic and cultural change. However, the Comparative Method is a manual-only process and thus currently is a bottleneck for the science of unravelling the human past. This project aims to overcome this limitation and significantly accelerate linguistic discovery, by combining recent advances in computational language processing, statistics and cultural-evolutionary modelling. By producing innovative mathematical means for rapidly discovering ancient language relationships, it will enable a breakthrough in our capacity to uncover human linguistic, genetic and cultural heritage worldwide.Read moreRead less