Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453295
Funder
Australian Research Council
Funding Amount
$369,697.00
Summary
NMR cryosystem for structural and functional biology. State-of-the-art hardware is requested for the 600-MHz NMR spectrometers situated at University of Sydney and UNSW. A cryosystem installed at USyd. will provide a massive boost in productivity and will allow projects previously inaccessible due to excessive turn-around times, or sensitivity or solubility problems to become tractable. This system will provide new opportunities to researchers from USyd., UNSW and ANU, but will restrict the ver ....NMR cryosystem for structural and functional biology. State-of-the-art hardware is requested for the 600-MHz NMR spectrometers situated at University of Sydney and UNSW. A cryosystem installed at USyd. will provide a massive boost in productivity and will allow projects previously inaccessible due to excessive turn-around times, or sensitivity or solubility problems to become tractable. This system will provide new opportunities to researchers from USyd., UNSW and ANU, but will restrict the versatility of the USyd. instrument. The installation of a TBI probe at UNSW will counter this, and provide a REAL network of NMR instruments across NSW and the ACT.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100036
Funder
Australian Research Council
Funding Amount
$470,000.00
Summary
A protein molecular interaction and localization facility. This proposal will address a major gap in our mass spectrometry capabilities and aid in our understanding of protein interactions and tissue distribution in areas such as neuroscience, microbiology, immunology, and botany, as well as enhance our understanding of fundamental gas phase chemistry of protein molecules. It brings together a highly successful multidisciplinary team of high-profile researchers with a track record of collaborati ....A protein molecular interaction and localization facility. This proposal will address a major gap in our mass spectrometry capabilities and aid in our understanding of protein interactions and tissue distribution in areas such as neuroscience, microbiology, immunology, and botany, as well as enhance our understanding of fundamental gas phase chemistry of protein molecules. It brings together a highly successful multidisciplinary team of high-profile researchers with a track record of collaboration and delivering outcomes from shared facilities. In addition to these key scientific outcomes this project will also facilitate the training of several new personnel in a skill area for which there is a critical shortage (mass spectrometry) and promote true cross-disciplinary skills.Read moreRead less
O-GlcNAc-phosphorylation: a novel post-translational modification regulating vesicle recycling. We will determine a biological role for our discovery of a hybrid protein modification (both carbohydrate and phosphate) on a brain protein that is involved in nerve cell communication. If this modification is more widespread, then we will have discovered a new level of cellular regulation. This discovery is likely to have a broad benefit. It will advance the understanding of carbohydrate and phosphat ....O-GlcNAc-phosphorylation: a novel post-translational modification regulating vesicle recycling. We will determine a biological role for our discovery of a hybrid protein modification (both carbohydrate and phosphate) on a brain protein that is involved in nerve cell communication. If this modification is more widespread, then we will have discovered a new level of cellular regulation. This discovery is likely to have a broad benefit. It will advance the understanding of carbohydrate and phosphate modified proteins. For example, there may be consequences for the model of hyperphosphorylated and carbohydrate modified proteins involved in neurodegeneration. There will also be a targeted benefit. An improved understanding of the mechanism of neurotransmission will benefit in designing compounds to fight diseases of neurotransmission.Read moreRead less
The Role of Metals in the Biology of the Ageing Brain. Aims
1.To advance basic understanding of the interactions between cellular proteins and biologically important metals
2. To learn how these interactions change as the organism ages
3. To study the pathological results of aberrant metal biology using animal and cellular models of major age-dependent neurodegenerative disease.
In a rapidly ageing society, neurodegenerative disorders such as Alzheimer's and Parkinson's diseases will presen ....The Role of Metals in the Biology of the Ageing Brain. Aims
1.To advance basic understanding of the interactions between cellular proteins and biologically important metals
2. To learn how these interactions change as the organism ages
3. To study the pathological results of aberrant metal biology using animal and cellular models of major age-dependent neurodegenerative disease.
In a rapidly ageing society, neurodegenerative disorders such as Alzheimer's and Parkinson's diseases will present a medical and economic challenge demanding novel and powerful science. This research will lead both to deeper understanding of the basic mechanisms underlying such disorders and to tools for designing new and effective treatments.
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Visualising neuron-glia interactions in the injured central nervous system. The adult brain and spinal cord recovery poorly from injury. Attempts to overcome this problem include methods to promote the intrinsic regenerative capacity of injured neurons, and modulating the inhibitory extracellular environment to become permissive to regeneration. The goal of this project is to investigate an endogenous regenerative mechanism in the injured brain. This project will use the latest, cutting-edge mic ....Visualising neuron-glia interactions in the injured central nervous system. The adult brain and spinal cord recovery poorly from injury. Attempts to overcome this problem include methods to promote the intrinsic regenerative capacity of injured neurons, and modulating the inhibitory extracellular environment to become permissive to regeneration. The goal of this project is to investigate an endogenous regenerative mechanism in the injured brain. This project will use the latest, cutting-edge microscopy techniques to visualise whether the endogenous astrocyte protein metallothionein can promote regeneration in the injured nervous system of living zebrafish. The successful outcomes of this project will provide significant insight into understanding how the brain responds to injury.Read moreRead less
Pathogenic And Adaptive Molecular Interactions With Mutant Huntingtin Exon 1
Funder
National Health and Medical Research Council
Funding Amount
$727,117.00
Summary
This project aims to determine how the gene mutation that causes Huntington’s disease (HD) damages cells in the brain. The diseased gene creates a protein that is abnormally sticky, which causes it to form clumps. Our goal is to determine the components of the cell that are disrupted and damaged as clumping happens. Understanding this link will enable therapeutics to be logically designed in efforts to prevent harm to the brain, potentially before symptoms are evident.
Cellular Pathogenesis Of Neurodegenerative Disorders
Funder
National Health and Medical Research Council
Funding Amount
$124,530.00
Summary
Alzheimer's disease is the most common neurodegenerative disease of the ageing population and is associated with toxicity of the Abeta peptide. Prion diseases (eg CJD in humans) are infectious neurodegenerative disorders caused by misfolding of the prion protein. This proposal aims to bring together similar features of these diseases using novel cell and animal based studies to develop better diagnostics and greater understanding of the molecular basis of these disorders with a view to developin ....Alzheimer's disease is the most common neurodegenerative disease of the ageing population and is associated with toxicity of the Abeta peptide. Prion diseases (eg CJD in humans) are infectious neurodegenerative disorders caused by misfolding of the prion protein. This proposal aims to bring together similar features of these diseases using novel cell and animal based studies to develop better diagnostics and greater understanding of the molecular basis of these disorders with a view to developing interventional therapies.Read moreRead less
The mode of action of the haem protein neuroglobin in protecting nerve cells. Outcomes from this project will assist in developing new treatments for stroke and chronic degenerative brain disorders by characterising how the haem protein neuroglobin protects neurons of the central and peripheral nervous system from oxidative damage. This project will also develop pharmacological strategies to boost the concentration of neuroglobin in neurons.
Conductance states of a brain glutamine transporter. Brain transporters are the target for many neuroactive drugs that are used to treat anxiety, depression and other psychotic disorders. Transport processes are also targeted to deliver neurotransmitter precursors to the brain to treat disorders such as Parkinson's disease. In this project we will study a transport process crucial for the function of neurons that release glutamate and GABA (gamma-aminobutyric acid) as neurotransmitters. The stud ....Conductance states of a brain glutamine transporter. Brain transporters are the target for many neuroactive drugs that are used to treat anxiety, depression and other psychotic disorders. Transport processes are also targeted to deliver neurotransmitter precursors to the brain to treat disorders such as Parkinson's disease. In this project we will study a transport process crucial for the function of neurons that release glutamate and GABA (gamma-aminobutyric acid) as neurotransmitters. The study of this transport process will be important for understanding disorders like epilepsy and other disorders affecting neuronal excitability.Read moreRead less