Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453630
Funder
Australian Research Council
Funding Amount
$274,692.00
Summary
High-Speed Confocal Microscope Live Cell Recording System. The high-speed confocal microscope live cell recording system we are establishing represents new generation equipment. It allows quality imaging of selected subcellular regions of live cells combined with simultaneous electrophysiological recording at rates and sensitivity hitherto not possible. This equipment provides a window of opportunity for major research advances in that it allows real-time two and three-dimensional imaging of fun ....High-Speed Confocal Microscope Live Cell Recording System. The high-speed confocal microscope live cell recording system we are establishing represents new generation equipment. It allows quality imaging of selected subcellular regions of live cells combined with simultaneous electrophysiological recording at rates and sensitivity hitherto not possible. This equipment provides a window of opportunity for major research advances in that it allows real-time two and three-dimensional imaging of fundamental cellular activities that previously could not be viewed. It will allow major advances in priority health-related research and will provide an ideal research tool to introduce young scientists and students to cutting edge research.Read moreRead less
Transduction of neuronal signals by brain macroglial cells: implications for neuronal function. Study of mechanisms regulating brain cell (neuron and glial) communication is essential for understanding of normal brain function and transformations that occur in neurodegenerative states and age-related disorders. Mechanisms underlying neuron-glia communication are not well understood. By combining cell physiology, digital imaging technologies, and genetically designed and delivered molecules we w ....Transduction of neuronal signals by brain macroglial cells: implications for neuronal function. Study of mechanisms regulating brain cell (neuron and glial) communication is essential for understanding of normal brain function and transformations that occur in neurodegenerative states and age-related disorders. Mechanisms underlying neuron-glia communication are not well understood. By combining cell physiology, digital imaging technologies, and genetically designed and delivered molecules we will enhance our understanding of this brain cell communication and critical roles played by intracellular calcium. This will enhance international competitiveness of Australian biological research and provide novel insight of glial function in neurodegeneration and potential for specific therapeutic intervention in disease.Read moreRead less
Identifying novel roles of disease-related proteins in the regulation of exocytosis and nervous communication. This research aims to identify new molecules involved in regulating nerve communication and hormone secretion and which are relevent to human diseases and conditions including Type 2 Diabetes, Down Syndrome, Alzheimer's Disease and Huntington's Disease. The findings may provide new targets in the treatments of such conditions. This research is therefore of special relevance to National ....Identifying novel roles of disease-related proteins in the regulation of exocytosis and nervous communication. This research aims to identify new molecules involved in regulating nerve communication and hormone secretion and which are relevent to human diseases and conditions including Type 2 Diabetes, Down Syndrome, Alzheimer's Disease and Huntington's Disease. The findings may provide new targets in the treatments of such conditions. This research is therefore of special relevance to National Research Priority 2: Promoting and Maintaining Good Health and especially to the sub-areas of this Research Priority 2: Ageing well, ageing productively and Preventative healthcare.Read moreRead less