Understanding Mitotic Telomere Deprotection. This project aims to study telomeres, the DNA and protein structures that protect chromosome ends. During cell division, cells under stress intentionally uncap their telomeres. This project expects to generate new knowledge that challenges the conventional notion of telomeres as static elements, showing instead that telomeres can be dynamic signalling hubs. Expected outcomes of this project include an understanding of the genetic, proteomic, and signa ....Understanding Mitotic Telomere Deprotection. This project aims to study telomeres, the DNA and protein structures that protect chromosome ends. During cell division, cells under stress intentionally uncap their telomeres. This project expects to generate new knowledge that challenges the conventional notion of telomeres as static elements, showing instead that telomeres can be dynamic signalling hubs. Expected outcomes of this project include an understanding of the genetic, proteomic, and signalling pathways involved in this novel phenomenon. This should provide significant benefits to our fundamental understanding of biological processes that protect human genomes and provide a valuable dataset for research on telomere biology, DNA repair, and genome stability.Read moreRead less
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
How does the chromatin remodeller CHD4 regulate gene expression? The mechanisms that determine how genes are switched on and off in different tissues and at different times are in many ways still mysterious. It is well established that gene expression patterns in complex organisms are determined in part by the manner in which DNA is physically packaged. Our aim is to define new aspects of these mechanisms that revolve around molecular motors that regulate DNA packaging. This foundational knowled ....How does the chromatin remodeller CHD4 regulate gene expression? The mechanisms that determine how genes are switched on and off in different tissues and at different times are in many ways still mysterious. It is well established that gene expression patterns in complex organisms are determined in part by the manner in which DNA is physically packaged. Our aim is to define new aspects of these mechanisms that revolve around molecular motors that regulate DNA packaging. This foundational knowledge will deepen our understanding of gene regulation in all complex organisms and will inform future efforts to rationally modulate gene expression patterns in agriculture, research and other important areas.Read moreRead less
Identification of Biological pathways regulated by circular RNAs. Circular RNAs (circRNAs) are a, recently discovered molecule. circRNAs are highly abundant and expressed in a tissue and disease specific manner. Yet, currently the understanding of how circRNAs regulate biological processes is very poor. This project aims to use pooled shRNA libraries to screen a large panel of cell lines and systematically identify cellular activities that are regulated by circRNAs. The expected outcome of this ....Identification of Biological pathways regulated by circular RNAs. Circular RNAs (circRNAs) are a, recently discovered molecule. circRNAs are highly abundant and expressed in a tissue and disease specific manner. Yet, currently the understanding of how circRNAs regulate biological processes is very poor. This project aims to use pooled shRNA libraries to screen a large panel of cell lines and systematically identify cellular activities that are regulated by circRNAs. The expected outcome of this study will be a catalogue of functionally active circRNAs. Over the past decades, the wealth of knowledge on the function of linear mRNAs has had a significant impact on medicine and agriculture. Similarly understanding how circRNAs regulate cellular activities may have an analogous impact on humans.Read moreRead less
Differentiation of effector and tissue regulatory T cells . Regulatory T cells (Tregs) populate almost every organ of the body and play a central role in preventing inflammation and maintaining health. To exercise these functions, Tregs undergo a developmental program, the details of which are poorly known. This project will utilize newly developed biological tools and state-of-the-art technology to uncover the molecular mechanisms that govern Treg development and function. The project will gene ....Differentiation of effector and tissue regulatory T cells . Regulatory T cells (Tregs) populate almost every organ of the body and play a central role in preventing inflammation and maintaining health. To exercise these functions, Tregs undergo a developmental program, the details of which are poorly known. This project will utilize newly developed biological tools and state-of-the-art technology to uncover the molecular mechanisms that govern Treg development and function. The project will generate basic scientific knowledge and new intellectual property that will afford new opportunities for research and development. The outcomes of this project will help to devise strategies to treat diseases such as autoimmunity, cancer and metabolic syndrome, and will thus benefit veterinary and human health.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100584
Funder
Australian Research Council
Funding Amount
$424,636.00
Summary
DNA Replication Stress: Characterizing ground zero for genomic instability. The overarching goal of this research is to gain insights into key underlying molecular causes of, and responses to, DNA replication stress - one of the most fundamental biological processes enabling life as we know it. I will use advanced interdisciplinary imaging techniques to directly visualize DNA replication stress structures within cells in order to better understand how cells stop this stress from progressing into ....DNA Replication Stress: Characterizing ground zero for genomic instability. The overarching goal of this research is to gain insights into key underlying molecular causes of, and responses to, DNA replication stress - one of the most fundamental biological processes enabling life as we know it. I will use advanced interdisciplinary imaging techniques to directly visualize DNA replication stress structures within cells in order to better understand how cells stop this stress from progressing into DNA damage. Insights into these processes will have the potential to improve preventative and therapeutic approaches to diseases such as cancer and neurodegeneration. Read moreRead less
Circular RNAs As Genome Destabilisers In Human Disease
Funder
National Health and Medical Research Council
Funding Amount
$2,163,220.00
Summary
Mutation of genes are hallmarks of both cancer and neurological disorders. My research group has identified roles for circular RNAs in both these processes. Now, we must close the loop by investigating the mechanism of these processes. This will inform not only why these genes are commonly mutated, but by exploiting the highly stable circular RNAs they may provide early prognostic/diagnostic biomarkers and even represent novel therapeutic targets for cancer and Huntington’s disease.
Atypical femoral fractures (AFF) are uncommon, but catastrophic, complications of the anti-osteoporosis medications, bisphosphonates. We aim to identify patients either protected from, or at risk of, AFF by identifying changes in their bone geometry, structure and quality, and genes increasing risk of these fractures. In this way, these cheap and effective anti-osteoporosis treatments can be targeted to patients at the lowest risk of AFF and alternative treatments to those at highest risk.
Regulating the composition of biomolecular condensates in living cells. Biomolecular condensation is a novel organising principle of living cells, driven by ‘unmixing’ of the cellular contents into compartments. It is observed from plants to animals and is involved in diverse processes from how cells repair DNA to how they perceive signals. This project aims to reveal how human cells control the composition of condensates, which is critical for their function. It expects to uncover new regulator ....Regulating the composition of biomolecular condensates in living cells. Biomolecular condensation is a novel organising principle of living cells, driven by ‘unmixing’ of the cellular contents into compartments. It is observed from plants to animals and is involved in diverse processes from how cells repair DNA to how they perceive signals. This project aims to reveal how human cells control the composition of condensates, which is critical for their function. It expects to uncover new regulatory principles of cellular organisation by combining methods from quantitative cell biology and statistical physics. Expected benefits include building Australia’s capability in the potentially transformational field of biomolecular condensates, which has diverse future biotechnology applications in health and agriculture.Read moreRead less
The Social Life of Death. This project aims to investigate experiences of death, dying and bereavement amidst rapid social, economic and political transformation. In the wake of COVID19, and as Australia’s anticipated ‘death boom’ approaches, how to foster good deaths has never been more uncertain, nor more urgent. Drawing on innovative methods and socio-cultural theory, and working in partnership with families and communities, this project aims to generate new knowledge to better inform and imp ....The Social Life of Death. This project aims to investigate experiences of death, dying and bereavement amidst rapid social, economic and political transformation. In the wake of COVID19, and as Australia’s anticipated ‘death boom’ approaches, how to foster good deaths has never been more uncertain, nor more urgent. Drawing on innovative methods and socio-cultural theory, and working in partnership with families and communities, this project aims to generate new knowledge to better inform and improve policy and spark cultural renewal around the end of life. Expected outcomes include setting the international benchmark for novel scholarly understandings of death, dying and bereavement, and centring community voices in addressing contemporary challenges to dying well.
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