REGULATION OF RYANODINE RECEPTOR CALCIUM CHANNELS BY THE CALCIUM BINDING PROTEIN CALSEQUESTRIN. The project is to examine the functional interaction between two proteins in skeletal muscle that are essential for Ca2+ regulation and hence contraction, respiration and movement in all vertebrate species. One protein, the ryanodine receptor, releases calcium from stores inside the muscle cell. The other protein, calsequestrin, binds and sequesters calcium ions. We have recently discovered that th ....REGULATION OF RYANODINE RECEPTOR CALCIUM CHANNELS BY THE CALCIUM BINDING PROTEIN CALSEQUESTRIN. The project is to examine the functional interaction between two proteins in skeletal muscle that are essential for Ca2+ regulation and hence contraction, respiration and movement in all vertebrate species. One protein, the ryanodine receptor, releases calcium from stores inside the muscle cell. The other protein, calsequestrin, binds and sequesters calcium ions. We have recently discovered that the proteins also bind to each other and that calsequestrin regulates Ca2+ release from the stores through the ryanodine receptor ion channel. This regulation is likely to be important in conserving store calcium during stress or fatigue.Read moreRead less
Involvement of cell coupling in vascular function: Development of a computational model. Gap junctions are intercellular channels which enable the production of coordinated responses in multicellular tissues and organs. Blood vessels are comprised of endothelial cells surrounded by smooth muscle cells and gap junctions exist within and between these layers. The present proposal will determine the fundamental role of gap junctions in regulating blood flow and blood pressure. Our data will enable ....Involvement of cell coupling in vascular function: Development of a computational model. Gap junctions are intercellular channels which enable the production of coordinated responses in multicellular tissues and organs. Blood vessels are comprised of endothelial cells surrounded by smooth muscle cells and gap junctions exist within and between these layers. The present proposal will determine the fundamental role of gap junctions in regulating blood flow and blood pressure. Our data will enable us to develop a computational model of the vascular wall and so predict how changes in electrical properties, as occur during pressure changes, can influence blood flow. Since ageing is accompanied by an increase in blood pressure, our results will contribute to a better understanding of blood flow regulation in our ageing population.Read moreRead less
How triadin and junctin communicate with ryanodine receptors deep within a calcium store to determine skeletal muscle contraction. The project results will provide a platform for muscle relaxants and other drugs that will specifically target either the heart or skeletal muscle and will have applications in the livestock, veterinary and pharmaceutical Industries. The project falls within the National Research Priorities of Promoting and Maintaining Good Health and Frontier Technologies for Buil ....How triadin and junctin communicate with ryanodine receptors deep within a calcium store to determine skeletal muscle contraction. The project results will provide a platform for muscle relaxants and other drugs that will specifically target either the heart or skeletal muscle and will have applications in the livestock, veterinary and pharmaceutical Industries. The project falls within the National Research Priorities of Promoting and Maintaining Good Health and Frontier Technologies for Building and Transforming Australian Industries, as well as the national priority goal of Ageing well, Ageing Productively. The project will be of national benefit in training undergraduate students, PhD students and a postdoctoral fellow in state-of-the-art techniques in an internationally competitive research field.Read moreRead less
Physiology of oxygen transport in the mammalian kidney. This project aims to improve understanding of oxygen regulation in renal tissue and knowledge of the physiology of the kidney. The mammalian kidney receives more oxygen than it uses or needs, and yet renal tissue is commonly found to be hypoxic. This project proposes that oxygen transport to the renal tissue is limited by blood vessel surface area. The project expects to generate anatomical data currently missing from the renal physiology c ....Physiology of oxygen transport in the mammalian kidney. This project aims to improve understanding of oxygen regulation in renal tissue and knowledge of the physiology of the kidney. The mammalian kidney receives more oxygen than it uses or needs, and yet renal tissue is commonly found to be hypoxic. This project proposes that oxygen transport to the renal tissue is limited by blood vessel surface area. The project expects to generate anatomical data currently missing from the renal physiology community, and potentially change the accepted story of oxygen homeostasis in the kidney. This will provide significant benefits, such as the provision of the foundational physiological science behind a determinant of kidney health and its flow-on impact to quality of life.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100206
Funder
Australian Research Council
Funding Amount
$550,000.00
Summary
Lattice light sheet microscopy for imaging biology in real space and time. This project aims to establish a Lattice Light-Sheet Microscope (LLSM) Facility, to provide the dedicated computing infrastructure needed for terabyte-scale image acquisition and handling. Lattice light sheet microscopy allows four-dimensional imaging of live biological specimens from individual molecules to small organisms. The microscope images live specimens without phototoxicity or photobleaching, enabling prolonged i ....Lattice light sheet microscopy for imaging biology in real space and time. This project aims to establish a Lattice Light-Sheet Microscope (LLSM) Facility, to provide the dedicated computing infrastructure needed for terabyte-scale image acquisition and handling. Lattice light sheet microscopy allows four-dimensional imaging of live biological specimens from individual molecules to small organisms. The microscope images live specimens without phototoxicity or photobleaching, enabling prolonged imaging of significant physiological or biophysical events. Expected outcomes include high impact discoveries and publications in fundamental research, rapid solutions for industry-focussed projects and opportunities for collaboration, research and development. The imaging is expected to reveal key scientific insights and showcase biology to the public.Read moreRead less
Amino acids as nutrients - the molecular basis of amino acid absorption in kidney and intestine. Nutrition is a critical factor for well being and health. This is highlighted by the increase in frequency of type II diabetes and the obesity problem that all societies with a western diet face. Most studies in nutrition focus on fat and carbohydrates because of their direct involvement in obesity and diabetes. Proteins and the resulting peptides and amino acids, however, form 10-15% of our nutritio ....Amino acids as nutrients - the molecular basis of amino acid absorption in kidney and intestine. Nutrition is a critical factor for well being and health. This is highlighted by the increase in frequency of type II diabetes and the obesity problem that all societies with a western diet face. Most studies in nutrition focus on fat and carbohydrates because of their direct involvement in obesity and diabetes. Proteins and the resulting peptides and amino acids, however, form 10-15% of our nutrition. At a time where protein-rich diets are recommended to fight obesity and diabetes, it is important to understand the basis of protein absorption and metabolism. This project investigates the mechanism and mediators of amino acid absorption in kidney and intestine. Read moreRead less
Structural Determinants of an Intracellular Calcium Store. Understanding the molecular interactions between key proteins in calcium signalling in muscle and the heart will allow calcium signalling to be used as a platform for a variety of purposes. These include reducing the debilitating effects of changes in calcium signalling and muscle performance in aging and in genetically- or drug-induced disorders. The project will have benefits for Australian biotechnology since it will facilitate the de ....Structural Determinants of an Intracellular Calcium Store. Understanding the molecular interactions between key proteins in calcium signalling in muscle and the heart will allow calcium signalling to be used as a platform for a variety of purposes. These include reducing the debilitating effects of changes in calcium signalling and muscle performance in aging and in genetically- or drug-induced disorders. The project will have benefits for Australian biotechnology since it will facilitate the design of novel compounds for treating muscle disorders in animals and humans, for improving meat quality and for use as insecticides. The project will facilitate graduate and undergraduate training in basic science with exposure to biotechnology, through our commercial partner Biotron.Read moreRead less
Sensory integration in the whisker pathway: cortical transformations and the neuronal mechanisms that underlie decision confidence. How does the brain use information collected by sensory systems to make decisions? This study combines behavioural experiments with neuronal recording from various brain regions to understand the neuronal mechanisms that integrate sensory signals to generate representations and guide the appropriate behavioural action.
Neuronal activity underlying efficient sensory processing. This project aims to study how neuronal activity in the sensory cortex efficiently represents the external world. Operating with a finite quantity of attentional resources, the brain needs to prioritise processing to provide important information about a situation. This project combines neurophysiology, behavioural and computational sciences to study attention mechanisms in rodents. This multidisciplinary project aims to develop a novel ....Neuronal activity underlying efficient sensory processing. This project aims to study how neuronal activity in the sensory cortex efficiently represents the external world. Operating with a finite quantity of attentional resources, the brain needs to prioritise processing to provide important information about a situation. This project combines neurophysiology, behavioural and computational sciences to study attention mechanisms in rodents. This multidisciplinary project aims to develop a novel paradigm for studying sensory prioritisation in rodents as a model organism.Read moreRead less
Unified framework of intestinal motility. The project aims to establish how a few fundamental mechanisms determine the large repertoire of intestinal motor patterns responsible for moving nutrients along the digestive tract. The project will combine experimental and theoretical data, with biomechanical and electrophysiological models to create a new understanding of this essential function of the body.