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Biological Role of Contraction-Induced Heat Shock Protein Expression. It is well known that mammalian skeletal muscle increases its expression of a group of highly conserved proteins, the heat shock proteins (HSP) in response to repeated contraction. However, the biological role of this expression is unclear. The aim of this project is to determine the biological role of contraction-induced HSP expression. We expect to show that HSP synthesis in response to exercise has three major roles; 1) to ....Biological Role of Contraction-Induced Heat Shock Protein Expression. It is well known that mammalian skeletal muscle increases its expression of a group of highly conserved proteins, the heat shock proteins (HSP) in response to repeated contraction. However, the biological role of this expression is unclear. The aim of this project is to determine the biological role of contraction-induced HSP expression. We expect to show that HSP synthesis in response to exercise has three major roles; 1) to act to repair damaged proteins in recovery from muscle injury 2) to act as a "molecular motor" to translocate proteins from one region of a muscle cell to another and 3) to be released into the circulation in order to act as a central signal to activate immune cells. Such a project will be significant because it will allow for a fundamental understanding as to why these proteins are produced in response to exercise. We expect to enhance our understanding of fundamental cell biology.Read moreRead less
Developing orthogonal synthetic signaling cascades. This project proposes a generic approach for the construction of molecular switches based on artificially autoinhibited proteases. The bottom-up design of protein-based signaling networks is a key goal of synthetic biology. Yet, this remains elusive due to our inability to tailor-make signal transducers and receptors that can be readily compiled into defined signaling networks. Using structure-guided design and directed protein evolution, a set ....Developing orthogonal synthetic signaling cascades. This project proposes a generic approach for the construction of molecular switches based on artificially autoinhibited proteases. The bottom-up design of protein-based signaling networks is a key goal of synthetic biology. Yet, this remains elusive due to our inability to tailor-make signal transducers and receptors that can be readily compiled into defined signaling networks. Using structure-guided design and directed protein evolution, a set of protease-based signal transducers and ligand activated allosteric receptors will be created. The developed components are intended to be used to construct artificial signaling networks in mammalian cells that are orthogonal to the endogenous signaling cascades.Read moreRead less
All-in-vitro engineering and single molecule analysis of protein complexes. The production and engineering of proteins are key methodologies in life sciences. The current project aims to develop new approaches to accelerate the production and analysis of proteins and to apply them to increase our understanding of the basic mechanisms of cell self-maintenance.
High-throughput single-molecule directed evolution. DNA polymerases are essential enzymes in many biotechnological tools, including DNA sequencing and PCR tests. However, existing DNA polymerases have limitations, resulting in inaccuracies and inefficiencies. Existing methods to improve polymerases lack sensitivity to screen for subtle, yet pivotal traits. This project aims to overcome this limitation by developing a new single-molecule directed-evolution system to evolve better polymerases. Wit ....High-throughput single-molecule directed evolution. DNA polymerases are essential enzymes in many biotechnological tools, including DNA sequencing and PCR tests. However, existing DNA polymerases have limitations, resulting in inaccuracies and inefficiencies. Existing methods to improve polymerases lack sensitivity to screen for subtle, yet pivotal traits. This project aims to overcome this limitation by developing a new single-molecule directed-evolution system to evolve better polymerases. With this new technology we aim to identify DNA polymerases with improved performance that benefit biotechnological applications. Additionally, these single-molecule directed-evolution methods will benefit the wider scientific community and lay the foundation for further advances in directed evolution.Read moreRead less
Targeting the host lipid environment to disrupt malaria transmission. This project aims to characterise host molecules (in particular lipids) that are crucial for the transition of malaria parasites from one host to another. Malaria parasites encounter different environments upon their transition from human to the mosquito host. This project expects to generate new knowledge on physiological changes that are triggered by particular differences in micronutrient abundance that allow the parasites ....Targeting the host lipid environment to disrupt malaria transmission. This project aims to characterise host molecules (in particular lipids) that are crucial for the transition of malaria parasites from one host to another. Malaria parasites encounter different environments upon their transition from human to the mosquito host. This project expects to generate new knowledge on physiological changes that are triggered by particular differences in micronutrient abundance that allow the parasites to survive in the new host. Anticipated outcomes include the identification of new intervention strategies and improved transmission model systems for vector-borne diseases. This gained knowledge could provide benefits to future biomedical applications by informing diagnostics or treatment of lipid associated diseases.Read moreRead less
About time; a new biology for the mineralocorticoid receptor . Temporal control of cell function aligns biological pathways with environmental cues and is critical for optimal heath in mammals. This project will shed light on how a hormone receptor, the MR, modulates time keeping of biological clock time in cells. We will bring together cutting edge genetic modals and bioinformatic approaches with a unique set of research models to define the interaction between the MR and the circadian clock a ....About time; a new biology for the mineralocorticoid receptor . Temporal control of cell function aligns biological pathways with environmental cues and is critical for optimal heath in mammals. This project will shed light on how a hormone receptor, the MR, modulates time keeping of biological clock time in cells. We will bring together cutting edge genetic modals and bioinformatic approaches with a unique set of research models to define the interaction between the MR and the circadian clock and its role in the normal biology of the heart. New data will significantly enhance our understanding of the biology of MR and cortisol for the circadian time keeping function in peripheral tissues, and gain a clearer understand how our heart cells adapt to environmental circadian disruptors such as shift work. Read moreRead less
What drives the Anterior Expansion of the Central Nervous System? A striking and highly conserved feature of the central nervous system is that the brain is larger than the spinal cord. Despite the manifest implications this has for nervous system function, the underlying drivers are largely unknown. This project aims to investigate the mechanisms controlling anterior expansion of the central nervous system, and will generate new knowledge in the areas of nervous system development and evolution ....What drives the Anterior Expansion of the Central Nervous System? A striking and highly conserved feature of the central nervous system is that the brain is larger than the spinal cord. Despite the manifest implications this has for nervous system function, the underlying drivers are largely unknown. This project aims to investigate the mechanisms controlling anterior expansion of the central nervous system, and will generate new knowledge in the areas of nervous system development and evolution. This project aims to impact on our understanding of nervous system function, develop bioinformatics tools with broad utility within the biosciences field, strengthen Australia’s international standing in the developmental neuroscience, and enhance the capacity for interdisciplinary international collaborations.Read moreRead less
Reconceptualising industry sector development within the contemporary Australian city: The case of the information technology sector. This project will aim to uncover the reasons why Australia's Information Technology industry is ranked low among OECD countries by evaluating the impact of global and urban geography of the sector on the sector's performance. It will show how policies to achieve more advanced IT sector development need to consider Australia's distinctive position in the global eco ....Reconceptualising industry sector development within the contemporary Australian city: The case of the information technology sector. This project will aim to uncover the reasons why Australia's Information Technology industry is ranked low among OECD countries by evaluating the impact of global and urban geography of the sector on the sector's performance. It will show how policies to achieve more advanced IT sector development need to consider Australia's distinctive position in the global economy and particular factors in the Sydney and Melbourne IT clusters that both help, and hinder, development in ways not considered in present policy models.Read moreRead less
Emotional Behaviour in England, 1930-1980. My aim is produce a study of emotional behaviour in England. This will be a contribution to the expanding history of gender and of the self. The project will demonstrate the importance, in terms of insights into cultural change, of recovery of previous emotional standards. Additionally it will test the claims that have been made about governmentality in the twentieth century.
Barriers and Facilitators of Neighbourhood Networks and Cohesion. Neighbourhoods are critical contexts for health, safety and well-being. In the face of significant urban growth, understanding and enhancing neighbourhood networks and cohesion are high priorities in Australia and internationally. Drawing on longitudinal survey data from 148 Brisbane suburbs combined with census and spatial data, this project will be the first to examine how a neighbourhood's physical and socio-structural context ....Barriers and Facilitators of Neighbourhood Networks and Cohesion. Neighbourhoods are critical contexts for health, safety and well-being. In the face of significant urban growth, understanding and enhancing neighbourhood networks and cohesion are high priorities in Australia and internationally. Drawing on longitudinal survey data from 148 Brisbane suburbs combined with census and spatial data, this project will be the first to examine how a neighbourhood's physical and socio-structural context influences neighbourhood networks and cohesion over time and across the landscape of an entire city. The project aims to advance scientific understanding of neighbourhood networks and cohesion, provide unique insights into its underpinning drivers, and inform urban policy.Read moreRead less