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Brain sodium channel: functional role of developmentally regulated alternative splicing. This project will identify the roles of neonatal and adult forms of a sodium channel in the function of neurons in the developing brain. Sodium channels are vital for brain function and this study will improve our understanding of the function of healthy brain as well as of underlying mechanisms of some neurological disorders.
Hemispheric asymmetry of motor and language representation: Effects of hand preference and mirror movements. The neuroscience community has recently exploited advances in brain imaging to understand cerebral representation of many cognitive functions. The proposed study will expand our knowledge of brain-behaviour relationships, another key area of cognitive neuroscience research. Its successful funding and completion will increase Australia's standing as a major contributor to world research ou ....Hemispheric asymmetry of motor and language representation: Effects of hand preference and mirror movements. The neuroscience community has recently exploited advances in brain imaging to understand cerebral representation of many cognitive functions. The proposed study will expand our knowledge of brain-behaviour relationships, another key area of cognitive neuroscience research. Its successful funding and completion will increase Australia's standing as a major contributor to world research outcomes in this innovative and important field, and place Australia at its forefront. The investigator's access to advanced brain imaging and to the unique population of individuals with mirror movements, combined with expertise and experience in neuropsychology and brain imaging, places the research in an internationally competitive position.Read moreRead less
The capacity for exceptional brain repair in a novel rodent species. This project aims to provide a new and much-needed living tool for studying brain injury and repair. The project expects to generate new evidence of effective brain repair in a mammalian species, the spiny mouse. In particular, it will provide important knowledge of the cellular responses that coordinate to allow mammalian brain repair, revealing targets for future understanding and treatment. Expected outcomes include an in-de ....The capacity for exceptional brain repair in a novel rodent species. This project aims to provide a new and much-needed living tool for studying brain injury and repair. The project expects to generate new evidence of effective brain repair in a mammalian species, the spiny mouse. In particular, it will provide important knowledge of the cellular responses that coordinate to allow mammalian brain repair, revealing targets for future understanding and treatment. Expected outcomes include an in-depth characterisation of how neurons and non-neuronal cells (glia) contribute to brain repair, and the identification of new pathways or targets for mammalian brain repair. In the long-term this should provide significant benefits for future research focused on improving the lives of people affected by brain injury. Read moreRead less
Deciphering the cellular defences against aggregating proteins in human disease. Cells have inbuilt defences for coping with proteins that bend into abnormal sticky shapes that form toxic clusters. In many diseases, including Huntington's, the clusters severely damage nerve cells. This project will identify the genes and mechanisms cells use to protect themselves from toxic clusters, which could provide new therapeutic targets.
Molecular dissection of the functional regions of genes that encode actinins (ACTN2 and ACTN3) and their contribution to normal variation in skeletal muscle function. The project has discovered a common genetic variant that affects skeletal muscle structure, function and metabolism and influences athletic ability, and response to diet and exercise. The project will study how this gene influences muscle bulk and strength, the metabolic efficiency of muscle and the risk of obesity in the general ....Molecular dissection of the functional regions of genes that encode actinins (ACTN2 and ACTN3) and their contribution to normal variation in skeletal muscle function. The project has discovered a common genetic variant that affects skeletal muscle structure, function and metabolism and influences athletic ability, and response to diet and exercise. The project will study how this gene influences muscle bulk and strength, the metabolic efficiency of muscle and the risk of obesity in the general population.Read moreRead less