RNA-binding proteins rewire transcriptomes in immune cell differentiation. This project aims to combine advanced computational and experimental techniques to investigate a new layer of gene regulation by novel RNA binding proteins (RBP) which control messenger RNA length in immune cells. This project expects to demonstrate that these RBPs have a profound effect on immune cell differentiation and response to infection. Expected outcomes include the discovery of new RBPs regulating immunity, with ....RNA-binding proteins rewire transcriptomes in immune cell differentiation. This project aims to combine advanced computational and experimental techniques to investigate a new layer of gene regulation by novel RNA binding proteins (RBP) which control messenger RNA length in immune cells. This project expects to demonstrate that these RBPs have a profound effect on immune cell differentiation and response to infection. Expected outcomes include the discovery of new RBPs regulating immunity, with mechanism and function determined by novel CRISPR editing of a transgenic mouse model. The significant benefit will be a more complete understanding of RNA mechanisms of immune response, which will be critical in informing future advances in the rapidly developing areas of RNA-based biotechnologies and synthetic immunology.Read moreRead less
Uncovering an evolutionary advanced mechanism of gene expression control. This project aims to uncover a new mechanism that activates gene expression in mammals, which involves unexpected connections between the core components of chromosomes and essential enzymatic machines required for the expression of genes. This project will generate new knowledge on the poorly understood process of how the extensive genomic information of multicellular organisms is selectively chosen to enable the expressi ....Uncovering an evolutionary advanced mechanism of gene expression control. This project aims to uncover a new mechanism that activates gene expression in mammals, which involves unexpected connections between the core components of chromosomes and essential enzymatic machines required for the expression of genes. This project will generate new knowledge on the poorly understood process of how the extensive genomic information of multicellular organisms is selectively chosen to enable the expression of only the required subset of genes. This will revolutionise our understanding of the mechanisms of gene control thereby shaping the field in the future. Significantly, this will allow new ways to manipulate gene expression that will impact biotechnology by providing new efficient ways to produce proteins or RNA. Read moreRead less
The New Collaborative Environmental Governance: Natural Resource Management in Australia. This project will evaluate the new regional natural resource management arrangements that have been established across Australia. The project outcomes will enable policy-makers nationally to identify opportunities for innovative policies and programs which can achieve better results for the environment (reducing environmental degradation), and for the economy (reducing costs to rural industries and to regul ....The New Collaborative Environmental Governance: Natural Resource Management in Australia. This project will evaluate the new regional natural resource management arrangements that have been established across Australia. The project outcomes will enable policy-makers nationally to identify opportunities for innovative policies and programs which can achieve better results for the environment (reducing environmental degradation), and for the economy (reducing costs to rural industries and to regulators) while substantially increasing effective community participation. The project will also provide principles with the potential to reshape environmental strategy and establish Australia as a leader in collaborative environmental governance internationally.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
Dissecting a RNA-histone variant interaction and its role in splicing. This project aims to define the molecular details of how a chromatin component, histone H2A.B, binds RNA and influences RNA splicing. This is unprecedented for histones, which are typically associated with DNA and transcriptional regulation. Over 90 per cent of human genes may be alternatively spliced. This explains how complex organisms develop from a limited set of genes, but how alternative splicing decisions are made is u ....Dissecting a RNA-histone variant interaction and its role in splicing. This project aims to define the molecular details of how a chromatin component, histone H2A.B, binds RNA and influences RNA splicing. This is unprecedented for histones, which are typically associated with DNA and transcriptional regulation. Over 90 per cent of human genes may be alternatively spliced. This explains how complex organisms develop from a limited set of genes, but how alternative splicing decisions are made is unclear. The intended outcome is to reveal links between chromatin, RNA splicing and gene expression regulation to explain how multicellular organisms have evolved. The translation of this knowledge will ultimately provide long-term economic and health benefits for Australia.Read moreRead less
Understanding how dynamic changes in chromatin composition control genome function. DNA is tightly packaged in eukaryotic cells as chromatin. Important genetic processes, such as transcription, require manipulation of chromatin structure to access the DNA. The cell sets up specialised chromatin structures to regulate these processes. Currently, precise molecular details of these specialised structures are limited. This project will push the envelope of an in vitro model chromatin system and dete ....Understanding how dynamic changes in chromatin composition control genome function. DNA is tightly packaged in eukaryotic cells as chromatin. Important genetic processes, such as transcription, require manipulation of chromatin structure to access the DNA. The cell sets up specialised chromatin structures to regulate these processes. Currently, precise molecular details of these specialised structures are limited. This project will push the envelope of an in vitro model chromatin system and determine the architecture of several chromatin states with unique functional implications inside the cell. This will unravel the molecular instructions that define how our genomes are organised, significantly advancing our knowledge of fundamental eukaryotic genome biology and paving the way for the future development of new tools and therapies.Read moreRead less
The social and environmental implications of privately regulated food quality standards for agri-food networks in Asia-Pacific. This proposal will contribute to an environmentally sustainable Australia in two ways. First, the research will highlight barriers to the uptake of environmental standards among fruit and vegetable growers as well as potential strategies to encourage certification. Second, the research will assess the extent to which compliance with internationally harmonised standards ....The social and environmental implications of privately regulated food quality standards for agri-food networks in Asia-Pacific. This proposal will contribute to an environmentally sustainable Australia in two ways. First, the research will highlight barriers to the uptake of environmental standards among fruit and vegetable growers as well as potential strategies to encourage certification. Second, the research will assess the extent to which compliance with internationally harmonised standards actually assists or encourages farmers to address local priority environmental issues. Improved understanding of the social and environmental impact of standards will highlight domestic policy and regulatory shifts which may be necessary to maximise positive environmental outcomes.Read moreRead less
Climate Change Projections and Policy Design Under Uncertainty. The issue of climate change and policy responses is one of the most important questions facing the world today. This research develops a global framework for understanding the many complexities surrounding this issue, for undertaking projections of emissions, for evaluating alternative policy proposals and for developing new policies. In particular it will provide a framework for undertaking alternative scenarios about future econom ....Climate Change Projections and Policy Design Under Uncertainty. The issue of climate change and policy responses is one of the most important questions facing the world today. This research develops a global framework for understanding the many complexities surrounding this issue, for undertaking projections of emissions, for evaluating alternative policy proposals and for developing new policies. In particular it will provide a framework for undertaking alternative scenarios about future economic growth and carbon emissions and attempt to quantify uncertainties. It will also focus on major developing countries such as China and India which will be critical in the future evolution of world economic activity and greenhouse emissions.Read moreRead less
Chromatin structure and pervasive transcription. This project aims to understand mechanisms that repress pervasive transcription and to identify chromatin characteristics that repress transcription initiation outside the promoter regions. Chromatin characteristics, such as position, occupancy and turnover-rate of nucleosomes, establish an elaborate genomic indexing mechanism, which defines functional units in the genome. Defects in this process increase pervasive transcription, toxic accumulatio ....Chromatin structure and pervasive transcription. This project aims to understand mechanisms that repress pervasive transcription and to identify chromatin characteristics that repress transcription initiation outside the promoter regions. Chromatin characteristics, such as position, occupancy and turnover-rate of nucleosomes, establish an elaborate genomic indexing mechanism, which defines functional units in the genome. Defects in this process increase pervasive transcription, toxic accumulation of non-coding transcripts and genomic instability. This work aims to understand eukaryotic genome organisation and may have long-term therapeutic implications for cancer and ageing-related diseases.Read moreRead less