LGBTI experiences of cancer survivorship and care. This project aims to understand the experiences and concerns of cancer survivors and carers within lesbian, gay, bisexual, transgender and intersex communities. This vulnerable population reports higher rates of cancer related distress and dissatisfaction with care than the general population. This project will examine the perspectives of cancer survivors, their carers, and professional stakeholders, to inform targeted patient and carer resource ....LGBTI experiences of cancer survivorship and care. This project aims to understand the experiences and concerns of cancer survivors and carers within lesbian, gay, bisexual, transgender and intersex communities. This vulnerable population reports higher rates of cancer related distress and dissatisfaction with care than the general population. This project will examine the perspectives of cancer survivors, their carers, and professional stakeholders, to inform targeted patient and carer resources, and recommendations for cancer care and policy.Read moreRead less
Anti-women online movements: Pathways and patterns of participation . This project aims to understand the influences shaping men’s attraction to anti-women online movements and patterns of participation within them. The project intends to advance sociological research on the endemic problem of anti-women movements advocating violence against women in online environments. Expected outcomes of this project include practical strategies for preventing and reducing participation by men in online move ....Anti-women online movements: Pathways and patterns of participation . This project aims to understand the influences shaping men’s attraction to anti-women online movements and patterns of participation within them. The project intends to advance sociological research on the endemic problem of anti-women movements advocating violence against women in online environments. Expected outcomes of this project include practical strategies for preventing and reducing participation by men in online movements responsible for the harassment and abuse of women and girls. By providing an evidence base and identifying key intervention points to inform policy making, this project should benefit women and girls who experience detrimental impacts on their democratic online participation and negative economic impacts.Read moreRead less
Preventing gendered violence: lessons from the global south. This project aims to study the establishment of police stations for women in Argentina as a key element to preventing gendered violence. This project aims to discover the extent to which the Argentinian interventions prevent the occurrence of gendered violence, and identify aspects that could inform the development of new approaches to preventing gendered violence in Australia. Anticipated outcomes include knowledge critical to develo ....Preventing gendered violence: lessons from the global south. This project aims to study the establishment of police stations for women in Argentina as a key element to preventing gendered violence. This project aims to discover the extent to which the Argentinian interventions prevent the occurrence of gendered violence, and identify aspects that could inform the development of new approaches to preventing gendered violence in Australia. Anticipated outcomes include knowledge critical to developing and implementing new ways to prevent gendered violence, with long-term benefits for national health, wellbeing and productivity.Read moreRead less
Role of Tau and Synapsin in clustering distinct synaptic vesicle pools. Neurotransmitter-containing synaptic vesicles (SVs) are highly enriched in specific locations of brain cells, called nerve terminals via an unknown mechanism. The clustering of SVs depend on the phosphorylation of an unknown set of proteins. Two key proteins have been identified for their phosphorylation pattern and their potential to form membraneless compartments: tau and synapsin. Using highly innovative single-molecule s ....Role of Tau and Synapsin in clustering distinct synaptic vesicle pools. Neurotransmitter-containing synaptic vesicles (SVs) are highly enriched in specific locations of brain cells, called nerve terminals via an unknown mechanism. The clustering of SVs depend on the phosphorylation of an unknown set of proteins. Two key proteins have been identified for their phosphorylation pattern and their potential to form membraneless compartments: tau and synapsin. Using highly innovative single-molecule super-resolution microscopy, this grant will uncover how tau and synapsin phosphorylation controls the clustering of SVs thereby regulating neurotransmitter release. This project uses improved nanoscopic technologies and international
collaborations to unveil novel avenues in our understanding of brain communication.Read moreRead less
Super-resolving neurotransmitter release machinery during priming. Understanding how neurons communicate in the brain is one of the most challenging feats in neuroscience. The assembly of the molecular machinery involved in communication is unknown. This grant aims to understand how priming molecules Munc18 and Munc13, undergo a series of molecular steps leading to the release of neurotransmitter. Using innovative single-molecule super-resolution imaging we will uncover how Munc18 and Munc13 are ....Super-resolving neurotransmitter release machinery during priming. Understanding how neurons communicate in the brain is one of the most challenging feats in neuroscience. The assembly of the molecular machinery involved in communication is unknown. This grant aims to understand how priming molecules Munc18 and Munc13, undergo a series of molecular steps leading to the release of neurotransmitter. Using innovative single-molecule super-resolution imaging we will uncover how Munc18 and Munc13 are spatially and temporally organised to mediate communication. By elucidating how nanoclustering of these essential proteins enables key steps, this grant will reveal how brain cells communicate. This may then provide new opportunities to optimise underlying functions such as cognition, sensory and motor processing.Read moreRead less
The philosophical foundations of women’s rights: a new history, 1600-1750. This project aims to show that the history of women’s rights is much longer and richer than previously thought. There is a common perception that the notion of women’s rights first emerged in the late eighteenth century. This project expects to generate a new understanding of feminist history by investigating texts calling for the recognition of women’s dignity, worth, nobility, and excellence (cognate concepts to rights) ....The philosophical foundations of women’s rights: a new history, 1600-1750. This project aims to show that the history of women’s rights is much longer and richer than previously thought. There is a common perception that the notion of women’s rights first emerged in the late eighteenth century. This project expects to generate a new understanding of feminist history by investigating texts calling for the recognition of women’s dignity, worth, nobility, and excellence (cognate concepts to rights) in England and Europe from 1600 to 1750, against the backdrop of the rise of Cartesianism. The anticipated outcome is greater awareness of an enduring feminist tradition within the history of philosophy. The expected social benefits include a shift in public thinking about feminist history and women in philosophy.Read moreRead less
Click chemistry to reveal how neurons and glia shape perineuronal nets . The extracellular matrix (ECM) and its perineuronal nets (which are net-like structures with holes wrapped around neurons) are largely underexplored, despite representing a remarkable 20% of the brain’s total volume and having been suggested to be involved in many brain functions. Interestingly, digestion of the ECM improves learning and memory, but deficits return once the ECM has reformed. However, how this ECM remodellin ....Click chemistry to reveal how neurons and glia shape perineuronal nets . The extracellular matrix (ECM) and its perineuronal nets (which are net-like structures with holes wrapped around neurons) are largely underexplored, despite representing a remarkable 20% of the brain’s total volume and having been suggested to be involved in many brain functions. Interestingly, digestion of the ECM improves learning and memory, but deficits return once the ECM has reformed. However, how this ECM remodelling is organised at a cell-type level is not understood. Here we aim to close this knowledge gap, using cutting-edge technology including bioconjugation and ultrasound-mediated cargo delivery. Together, this project aims to contribute to a deeper understanding of this major brain compartment in neuronal function. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100561
Funder
Australian Research Council
Funding Amount
$462,237.00
Summary
Understanding how platelets mediate new neuron formation in the adult brain. Exercise boosts the generation of new nerve cells from adult neural stem cells in the part of the brain responsible for learning and memory, the hippocampus. This project aims to investigate the mechanisms behind this effect, in particular, how blood cells known as platelets mediate this process. The expected outcomes include the discovery of new communication pathways between platelets and the brain following exercise ....Understanding how platelets mediate new neuron formation in the adult brain. Exercise boosts the generation of new nerve cells from adult neural stem cells in the part of the brain responsible for learning and memory, the hippocampus. This project aims to investigate the mechanisms behind this effect, in particular, how blood cells known as platelets mediate this process. The expected outcomes include the discovery of new communication pathways between platelets and the brain following exercise and will determine the importance of these blood cells in mediating brain function. This will help to explain how exercise affects the brain and may benefit Australian society through the implementation of new methods to support learning and memory in schools and workplaces, thereby enhancing performance and productivity.Read moreRead less
Migration-Dependent Signalling in Macrophages . The project aims to investigate a mechanism of communication used by immune cells to guide each other towards sites of damage. The project will characterise newly revealed cell signalling membrane trails left behind by migrating cells, utilising biochemistry, innovative imaging and microscopy and a transparent zebrafish model to view cell migration through living tissues. Expected outcomes include new fundamental knowledge in the area of immune cel ....Migration-Dependent Signalling in Macrophages . The project aims to investigate a mechanism of communication used by immune cells to guide each other towards sites of damage. The project will characterise newly revealed cell signalling membrane trails left behind by migrating cells, utilising biochemistry, innovative imaging and microscopy and a transparent zebrafish model to view cell migration through living tissues. Expected outcomes include new fundamental knowledge in the area of immune cell migration with relevance to the basic biology of inflammation, repair and regeneration and new innovations for cell imaging. Significant benefits are expected to arise from this new knowledge and from advanced skills training and improved national capabilities in bio-imaging and analysis.Read moreRead less
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