Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668266
Funder
Australian Research Council
Funding Amount
$264,000.00
Summary
High Resolution Cellular and Molecular Imaging System. Understanding where molecules are within cells, and how they interact with each other, is fundamental to significant advances being made in biology. Our research will use advanced imaging techniques to localize proteins within a variety of cells including neurons and germ cells. We will be able to determine how the different molecules within a single cell interact with each other. This information is relevant to many biological mechanisms ....High Resolution Cellular and Molecular Imaging System. Understanding where molecules are within cells, and how they interact with each other, is fundamental to significant advances being made in biology. Our research will use advanced imaging techniques to localize proteins within a variety of cells including neurons and germ cells. We will be able to determine how the different molecules within a single cell interact with each other. This information is relevant to many biological mechanisms and to many human diseases. Furthermore, our research will help maintain Australia's strong international reputation in the fields of neuroscience, protein trafficking and stem cells. Read moreRead less
Molecular neurobiology of the GABAB receptor: Studies of heteromeric receptor function and signalling. The G protein-coupled receptor (GPCR) for the inhibitory transmitter gamma- aminobutyric acid (GABA) is a unique heterodimer. Molecular analyses will be undertaken to provide insights into its signalling mechanisms and functional regulation. Investigations employing point mutant and chimeric receptors will analyse how ligand binding to the extracellular domain of the GABA-BR1 subunit triggers ....Molecular neurobiology of the GABAB receptor: Studies of heteromeric receptor function and signalling. The G protein-coupled receptor (GPCR) for the inhibitory transmitter gamma- aminobutyric acid (GABA) is a unique heterodimer. Molecular analyses will be undertaken to provide insights into its signalling mechanisms and functional regulation. Investigations employing point mutant and chimeric receptors will analyse how ligand binding to the extracellular domain of the GABA-BR1 subunit triggers G protein-coupling to the intracellular portion of the GABA-BR2 subunit. Focus will be on different modes of GPCR signalling, including constitutive activity and roles for membrane and cytosolic regulatory proteins. Targeted studies of GABAB receptor subunits will provide new information on the mechanistic regulation of GPCR signalling.Read moreRead less
Novel cellular functions of the microtubule-associated protein tau: Physiological and pathological implications. The social and economic burden of Alzheimer's disease (AD) is enormous, and by 2040 more than 500,000 Australians will suffer from this disease. A key histopathological hallmark of this and many other related diseases are insoluble deposits of the protein tau. Research into novel functions of tau in signalling and transport (both of which are heavily compromised in diseased brains) wi ....Novel cellular functions of the microtubule-associated protein tau: Physiological and pathological implications. The social and economic burden of Alzheimer's disease (AD) is enormous, and by 2040 more than 500,000 Australians will suffer from this disease. A key histopathological hallmark of this and many other related diseases are insoluble deposits of the protein tau. Research into novel functions of tau in signalling and transport (both of which are heavily compromised in diseased brains) will be followed directly by assay development for tau-directed drug screening. The national benefit of this research is manifold by (a) patenting new data, (b) developing treatment strategies for an un-curable disease, and (c) establishing links to the growing Australian biotech industry (in addition to existing links to international pharmaceutical companies).Read moreRead less
The biological and pathological functions of TDP-43. The social and economic burden of neurodegenerative such as MND is enormous. A key histopathological hallmark of this and many other related diseases are deposits of the protein TDP-43. Our research aims at understanding its largely unknown functions, for example by generating transgenic animal models. These will form the base for the development for a TDP-43-directed drug treatment. The national benefit of this research is manifold: by deciph ....The biological and pathological functions of TDP-43. The social and economic burden of neurodegenerative such as MND is enormous. A key histopathological hallmark of this and many other related diseases are deposits of the protein TDP-43. Our research aims at understanding its largely unknown functions, for example by generating transgenic animal models. These will form the base for the development for a TDP-43-directed drug treatment. The national benefit of this research is manifold: by deciphering basic biological mechanisms, patenting new data, developing treatment strategies for un-curable and fatal disorders, and expanding links to Australian biotech and international pharmaceutical companies.Read moreRead less
Neuronal functions of the microtubule-associated protein tau in development and ageing. The project uses a combination of transgenic mouse strains characterised by neurodegeneration and senescence-accelerated (SAM) mice, to determine the first steps of the aggregation of the protein tau in degenerating neurons, how absence of tau protects from brain atrophy, and in which physiological processes tau is involved. This project provides the biological foundation for a tau-based therapy of senescence ....Neuronal functions of the microtubule-associated protein tau in development and ageing. The project uses a combination of transgenic mouse strains characterised by neurodegeneration and senescence-accelerated (SAM) mice, to determine the first steps of the aggregation of the protein tau in degenerating neurons, how absence of tau protects from brain atrophy, and in which physiological processes tau is involved. This project provides the biological foundation for a tau-based therapy of senescence-associated conditions. It provides the biological foundation for developing effective therapies for human neurodegenerative conditions, by preventing tau aggregation and phosphorylation. We will patent new data and expand our existing links to Australian biotech and international pharmaceutical companies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454170
Funder
Australian Research Council
Funding Amount
$187,341.00
Summary
Biacore3000-Expansion of Proteomics Facility. The sequencing of the human genome has led to redirection of effort towards the rapid characterisation of the products of genes, proteins. This project will establish state of the art facilities for protein identification and characterisation in the Hunter Region. The investigators are representative of several major research programs and are unified by their specific expertise in the fundamental molecular mechanisms underlying the control of cellula ....Biacore3000-Expansion of Proteomics Facility. The sequencing of the human genome has led to redirection of effort towards the rapid characterisation of the products of genes, proteins. This project will establish state of the art facilities for protein identification and characterisation in the Hunter Region. The investigators are representative of several major research programs and are unified by their specific expertise in the fundamental molecular mechanisms underlying the control of cellular processes in plants, animals and humans. Understanding these mechanisms will provide the basis for improved management of the environment and pathological conditions through identifying molecular targets for diagnosis, genetic manipulation or drug design.Read moreRead less
Calcium signalling in neurons of the central nervous system. Understanding of the processes of cell-to-cell communication between neurons that comprise the brain and central nervous system is of primary importance to our understanding of fundamental phenomena such as voluntary and reflex movement, sensory responses and learning and memory. We would like to obtain a better understanding of how calcium controls neuronal and synaptic function. These studies will combine high-speed fluorescence ima ....Calcium signalling in neurons of the central nervous system. Understanding of the processes of cell-to-cell communication between neurons that comprise the brain and central nervous system is of primary importance to our understanding of fundamental phenomena such as voluntary and reflex movement, sensory responses and learning and memory. We would like to obtain a better understanding of how calcium controls neuronal and synaptic function. These studies will combine high-speed fluorescence imaging, electrophysiological recording, gene transfer using Adeno- and Sindbis viruses, and genetically designed and targeted biosensors to describe key "descriptors" of the calcium signals generated as neurons of the central nervous system ?talk? to each other.Read moreRead less
A redox sensor and triple receptor function for guanylyl cyclase. Nitric oxide (NO) protects from blood vessel spasms and clot formation. Conversely, insufficient NO occurs in cardiovascular disease. Life-saving drugs like glycerol trinitrate supply more NO to blood vessels, however these drugs are limited in their action when their target protein (NOGC) is decreased or defective, eg. in hypertension or arteriosclerosis. We have elucidated the reason for this defect and simultaneously discovered ....A redox sensor and triple receptor function for guanylyl cyclase. Nitric oxide (NO) protects from blood vessel spasms and clot formation. Conversely, insufficient NO occurs in cardiovascular disease. Life-saving drugs like glycerol trinitrate supply more NO to blood vessels, however these drugs are limited in their action when their target protein (NOGC) is decreased or defective, eg. in hypertension or arteriosclerosis. We have elucidated the reason for this defect and simultaneously discovered an entirely novel group of drugs which activate NOGC without NO. Impressively, these drugs are most effective in diseased blood vessels. The aim is the development of novel blood pressure lowering/anti-anginal drugs with higher effectiveness and less side-effects because they work in an entirely new way.Read moreRead less
Hierarchical Phosphorylation of Tyrosine Hydroxylase is Dependent on the Activation Sequence of Signaling Pathways. Protein phosphorylation is a fundamental process in biology. It controls protein expression and function in all cells. Hierarchical phosphorylation is defined as the phosphorylation of a protein at one site leading to an altered phosphorylation at another site on the same protein and an altered biological outcome. We have discovered that the enzyme tyrosine hydroxylase undergoes a ....Hierarchical Phosphorylation of Tyrosine Hydroxylase is Dependent on the Activation Sequence of Signaling Pathways. Protein phosphorylation is a fundamental process in biology. It controls protein expression and function in all cells. Hierarchical phosphorylation is defined as the phosphorylation of a protein at one site leading to an altered phosphorylation at another site on the same protein and an altered biological outcome. We have discovered that the enzyme tyrosine hydroxylase undergoes a form of hierarchical phosphorylation not previously reported. Here we examine hierarchical phosphorylation in rat and human tyrosine hydroxylase and its functional consequence in intact cells. The approaches and methods developed will also be applicable to investigation of hierarchical phosphorylation in other proteins.Read moreRead less
Olfactory signal transduction in Drosophila melanogaster. This project will strengthen Australia's research capabilities in the areas of molecular neurobiology and neurogenetics. The project will equip students with the intellectual and technical skills needed to work in priority areas such as genomics and biotechnology, as well as in medical and agricultural research, and education. The research has possible long term applications in modifying the behaviour of insects of agricultural or medical ....Olfactory signal transduction in Drosophila melanogaster. This project will strengthen Australia's research capabilities in the areas of molecular neurobiology and neurogenetics. The project will equip students with the intellectual and technical skills needed to work in priority areas such as genomics and biotechnology, as well as in medical and agricultural research, and education. The research has possible long term applications in modifying the behaviour of insects of agricultural or medical importance. For example, by inhibiting the ability of insects to perceive specific odours it may ultimately be possible to prevent insects that carry disease from identifying target animals, or plant pests from locating their host plants.Read moreRead less