Dynamic DNA structure states and memory formation. Activity-induced gene expression is central to neural plasticity, learning, and memory; however, the underlying mechanisms of these processes in the brain have yet to be fully resolved. The aim of this proposal is to obtain a deeper understanding of the functional relationship between genes and brain function. By elucidating the full repertoire of epigenetic mechanisms in the brain during learning and the formation of memory, it is hoped that t .... Dynamic DNA structure states and memory formation. Activity-induced gene expression is central to neural plasticity, learning, and memory; however, the underlying mechanisms of these processes in the brain have yet to be fully resolved. The aim of this proposal is to obtain a deeper understanding of the functional relationship between genes and brain function. By elucidating the full repertoire of epigenetic mechanisms in the brain during learning and the formation of memory, it is hoped that the true nature of brain adaptation across the lifespan will be revealed. Findings which may then provide new opportunities to strengthen, maintain and optimise cognitive function.Read moreRead less
Transcription factors find their targets by reading the epigenetic code. This project aims to elucidate how transcription factors, proteins that regulate gene expression, find their target genes. The hypothesis is that non-DNA binding domains play an essential role in this process. This project expects to transform our understanding of transcription factor families, and how factors in families with the same DNA-binding domain manage to regulate different genes. Expected outcomes of this project ....Transcription factors find their targets by reading the epigenetic code. This project aims to elucidate how transcription factors, proteins that regulate gene expression, find their target genes. The hypothesis is that non-DNA binding domains play an essential role in this process. This project expects to transform our understanding of transcription factor families, and how factors in families with the same DNA-binding domain manage to regulate different genes. Expected outcomes of this project include revealing how accessory proteins help transcription factors identify their targets in the genome by reading epigenetic marks. This should provide significant benefits including improved design of artificial transcription factors to up- or down-regulate specific genes in research and agriculture.Read moreRead less
Role of R-loops and double R-loops in genome organisation and transcription. The majority of our genome is converted to an extensive network of non-protein-coding RNA molecules (ncRNAs), but the function of these ncRNAs is unknown. This project aims to identify and determine the mechanism of action of nuclear ncRNA networks with a particular focus on nuclear ncRNAs that form RNA-DNA hybrids with the genomic DNA. These studies have the potential to lead to ground-breaking discoveries in our under ....Role of R-loops and double R-loops in genome organisation and transcription. The majority of our genome is converted to an extensive network of non-protein-coding RNA molecules (ncRNAs), but the function of these ncRNAs is unknown. This project aims to identify and determine the mechanism of action of nuclear ncRNA networks with a particular focus on nuclear ncRNAs that form RNA-DNA hybrids with the genomic DNA. These studies have the potential to lead to ground-breaking discoveries in our understanding of genome organisation and the mechanism of transcription control, and might provide an entirely new tool-box to manipulate genome function. This should provide significant benefits to efforts to develop innovative biotechnology and genome editing technologies in plants and animals.Read moreRead less
RNA surveillance and the initial steps of RNA biogenesis. This project aims to understand the initial steps of RNA biogenesis and how this process is linked to the chromatin environment. Although less than five per cent of our genome encodes proteins, almost the entire genome is transcribed to RNA. A large portion of these transcripts are degraded during the early steps of RNA biogenesis by the RNA surveillance machinery, but the mechanism for the recognition and degradation of these transcripts ....RNA surveillance and the initial steps of RNA biogenesis. This project aims to understand the initial steps of RNA biogenesis and how this process is linked to the chromatin environment. Although less than five per cent of our genome encodes proteins, almost the entire genome is transcribed to RNA. A large portion of these transcripts are degraded during the early steps of RNA biogenesis by the RNA surveillance machinery, but the mechanism for the recognition and degradation of these transcripts is not understood. New evidence suggests that the chromatin environment of the transcribed locus plays an important role in this process. This project will lead to significant benefits in the implementation of emerging RNA-based technologies and in understanding how genome stability is maintained.Read moreRead less
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
Unravelling the contributions of Denisovan DNA to the peoples of Oceania. This project aims to investigate the impact gene flow from Denisovans, an archaic hominin species, has had on individuals from Papua New Guinea and eastern Indonesia. These people owe up to 5% of their genomes to these mysterious ancestors, but the repercussions of this finding remain poorly understood. In order to identify the biological contributions these fragments of DNA make to the individuals who carry them, this pro ....Unravelling the contributions of Denisovan DNA to the peoples of Oceania. This project aims to investigate the impact gene flow from Denisovans, an archaic hominin species, has had on individuals from Papua New Guinea and eastern Indonesia. These people owe up to 5% of their genomes to these mysterious ancestors, but the repercussions of this finding remain poorly understood. In order to identify the biological contributions these fragments of DNA make to the individuals who carry them, this project aims to combine anthropological genetics with cutting-edge functional genomics in a pioneer multidisciplinary approach. Ultimately, this project may transform our understanding of both the population and evolutionary pressures that have acted upon these groups in the past 50,000 years.Read moreRead less
Engineering improved and multifunctional gene editing systems. Advances in genome editing have enabled the targeted modulation of gene expression in cells and provided new tools for biotechnology. This project will combine computational design and genetic selection to deliver the next generation of precision gene editing tools. These new technologies can be used for modification of genes in any cellular compartment and will be useful for understanding and improving energy metabolism. Increased c ....Engineering improved and multifunctional gene editing systems. Advances in genome editing have enabled the targeted modulation of gene expression in cells and provided new tools for biotechnology. This project will combine computational design and genetic selection to deliver the next generation of precision gene editing tools. These new technologies can be used for modification of genes in any cellular compartment and will be useful for understanding and improving energy metabolism. Increased cellular energy production can be harnessed to make valuable biological products, with unprecedented efficiency.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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Enhancing sleep and wellbeing in working families. This project aims to investigate the role of sleep on individuals’ health by measuring Australians' sleep patterns relative to work and family demands. This project expects to generate new knowledge in the sociology of sleep using innovative data collection bringing together cross-national, nationally representative, longitudinal and physiological data on Australians’ sleep patterns. Expected outcomes of this project are to identify the social a ....Enhancing sleep and wellbeing in working families. This project aims to investigate the role of sleep on individuals’ health by measuring Australians' sleep patterns relative to work and family demands. This project expects to generate new knowledge in the sociology of sleep using innovative data collection bringing together cross-national, nationally representative, longitudinal and physiological data on Australians’ sleep patterns. Expected outcomes of this project are to identify the social and biological determinants of sleep and their links with health, family and economic policy recommendations.Read moreRead less
The sociology of antibiotics and the antimicrobial resistance crisis. This project aims to investigate the sociological dimensions of antibiotics consumption by examining the views and experiences of clinicians, decision-makers, and members of the general population. The project expects to generate new knowledge about the social aspects of antibiotics use and consumer-provider interactions. Expected outcomes of this project include stronger consumer-provider collaborations about antibiotic use a ....The sociology of antibiotics and the antimicrobial resistance crisis. This project aims to investigate the sociological dimensions of antibiotics consumption by examining the views and experiences of clinicians, decision-makers, and members of the general population. The project expects to generate new knowledge about the social aspects of antibiotics use and consumer-provider interactions. Expected outcomes of this project include stronger consumer-provider collaborations about antibiotic use and a new evidence-base to guide policy decisions. This project should provide significant benefits for the national response to antimicrobial resistance, including enhanced public education and public policy.Read moreRead less