Nuclear magnetic resonance (NMR) studies of complex cellular responses: isotopomer sub-spaces, 'lost' ATP and 'tunable' anisotropy. Red blood cells (RBCs) transport oxygen around the body but they have other roles that are mediated by complex interconnecting metabolic pathways that generate myriad metabolites including ATP. A longstanding conundrum is the inability to account for ~60% of ATP turnover in human RBCs. Processes that may consume this 'lost' ATP, include autonomous motion of the cel ....Nuclear magnetic resonance (NMR) studies of complex cellular responses: isotopomer sub-spaces, 'lost' ATP and 'tunable' anisotropy. Red blood cells (RBCs) transport oxygen around the body but they have other roles that are mediated by complex interconnecting metabolic pathways that generate myriad metabolites including ATP. A longstanding conundrum is the inability to account for ~60% of ATP turnover in human RBCs. Processes that may consume this 'lost' ATP, include autonomous motion of the cell membrane called 'flickering', and maintenance of the biconcave-disc shape. NMR spectroscopy of quadrupolar nuclei in chiral aligned media, and isotopomer analysis will be used to define the kinetics of metabolism and membrane processes and thus help define the molecular basis of major blood disorders. Read moreRead less
NMR Spectroscopy of Complex Cellular Processes. The Theme is the cell viewed as a complex regulated molecular assembly. The Aim is to establish an integrated mathematical model of red cell metabolism, membrane transport, shape, and mechanical properties, principally by using NMR spectroscopy. The Significance will be discovery of new aspects of cellular structure and function, and new NMR theory for molecular bioscience. Outcomes will include new NMR measurements of kinetics of metabolic reactio ....NMR Spectroscopy of Complex Cellular Processes. The Theme is the cell viewed as a complex regulated molecular assembly. The Aim is to establish an integrated mathematical model of red cell metabolism, membrane transport, shape, and mechanical properties, principally by using NMR spectroscopy. The Significance will be discovery of new aspects of cellular structure and function, and new NMR theory for molecular bioscience. Outcomes will include new NMR measurements of kinetics of metabolic reactions, rates of membrane transport, solute diffusion, and functions of key membrane- and cytoskeletal proteins. Practical applications will include strategies for modelling complex biochemical systems, and circumventing metabolic defects arising from inheritance, the environment, and therapies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561041
Funder
Australian Research Council
Funding Amount
$347,358.00
Summary
A New Generation Biosensor and Fluorescence Facility for Proteomics. The complete DNA sequence (the genome) is now known for many organisms and advances are being made to identify the complement of messenger RNA (the transcriptome) and the resultant collection of proteins (the proteome). The genome is largely fixed while the transcriptome and proteome differ between cell types in an organism and constantly vary to adapt the cell to changing conditions. The mediators of these variations are prote ....A New Generation Biosensor and Fluorescence Facility for Proteomics. The complete DNA sequence (the genome) is now known for many organisms and advances are being made to identify the complement of messenger RNA (the transcriptome) and the resultant collection of proteins (the proteome). The genome is largely fixed while the transcriptome and proteome differ between cell types in an organism and constantly vary to adapt the cell to changing conditions. The mediators of these variations are proteins, interacting with each other and with signal molecules. The next frontier in molecular biology is to identify and quantify these protein interactions. Our two institutions have a very large cohort of biologists whose research on proteins would be greatly facilitated by the Biacore 3000 and the ISS K2.Read moreRead less
Nanoprobe and Microprobe Spectroscopic Techniques in Drug Design, Probing Mechanisms of Diseases, and Bioinorganic Chemistry. Nanoprobe and microprobe spectroscopic techniques offer unparalleled opportunities to probe the structures and distributions of drugs, carcinogens, and biomolecules in cultured cells and tissues. Such techniques represent new frontiers in understanding in vivo metabolic processes at the molecular level, as well as providing unprecedented information on the metabolism and ....Nanoprobe and Microprobe Spectroscopic Techniques in Drug Design, Probing Mechanisms of Diseases, and Bioinorganic Chemistry. Nanoprobe and microprobe spectroscopic techniques offer unparalleled opportunities to probe the structures and distributions of drugs, carcinogens, and biomolecules in cultured cells and tissues. Such techniques represent new frontiers in understanding in vivo metabolic processes at the molecular level, as well as providing unprecedented information on the metabolism and distributions of pharmaceuticals and toxins involved in the treatment and cause of diseases, such as cancer. This project is aimed at pushing the boundaries of nanoprobe and microprobe (X-ray absorption, SRIXE, PIXE, Raman and two-photon fluorescence) techniques for such applications.Read moreRead less
Radiolabelled MMP binding agents for the identification, quantification, and targeting of MMPs in central nervous system (CNS) disorders and tumours. Cancer and diseases of the central nervous system (CNS) represent two of the major health challenges facing Australia because of the aging population. In order to address these challenges we need to develop methods for identifying tumours and CNS diseases using non-invasive technologies and at an early stage so that treatments can be applied when t ....Radiolabelled MMP binding agents for the identification, quantification, and targeting of MMPs in central nervous system (CNS) disorders and tumours. Cancer and diseases of the central nervous system (CNS) represent two of the major health challenges facing Australia because of the aging population. In order to address these challenges we need to develop methods for identifying tumours and CNS diseases using non-invasive technologies and at an early stage so that treatments can be applied when they are most likely to work. In this project, we are developing new radiolabelled compounds that will enable the imaging of tumours, tumour metastases and CNS diseases states.Read moreRead less
From dust to planets: New initiatives to refine models of the inner Solar System's earliest history. This project will help continue the proud tradition of Australia as an international leader in mass spectrometric analyses and cosmochemistry. The questions surrounding the origin and significance of terrestrial planets are closely related to our very presence: "Are we alone"?
Research into meteorites is one of the few areas of science that truly captures the imagination of the general public. T ....From dust to planets: New initiatives to refine models of the inner Solar System's earliest history. This project will help continue the proud tradition of Australia as an international leader in mass spectrometric analyses and cosmochemistry. The questions surrounding the origin and significance of terrestrial planets are closely related to our very presence: "Are we alone"?
Research into meteorites is one of the few areas of science that truly captures the imagination of the general public. This project, through its integration with the WA Museum, gives the public a possibility to share in this experience.Read moreRead less
New Imaging Agents for Neuronal Nicotinic Receptors. Recent advances in medical imaging technology such as Positron Emission Tomography (PET) and Single Photon Emission Computed Tomography (SPECT) have radically improved the diagnosis and treatment of a wide range of diseases. The aim of this project is to discover novel radio-ligands that selectively bind to neuronal nicotinic acetylcholine receptors. These ligands will have great potential for the imaging, diagnosis and study of neurodegenerat ....New Imaging Agents for Neuronal Nicotinic Receptors. Recent advances in medical imaging technology such as Positron Emission Tomography (PET) and Single Photon Emission Computed Tomography (SPECT) have radically improved the diagnosis and treatment of a wide range of diseases. The aim of this project is to discover novel radio-ligands that selectively bind to neuronal nicotinic acetylcholine receptors. These ligands will have great potential for the imaging, diagnosis and study of neurodegenerative diseases such as Alzheimer's disease. Read moreRead less
New clean and green aqueous metathesis. The technique of olefin metathesis has already yielded new pharmaceuticals and materials for use in consumer products and ballistic protection. This project will help move metathesis into the realms of natures aqueous environment, a key advance if metathesis is to reveal its full potential in biological, polymeric, and pharmaceutical applications. We specifically aim to target treatments for cataract (and other conditions associated with an aging populatio ....New clean and green aqueous metathesis. The technique of olefin metathesis has already yielded new pharmaceuticals and materials for use in consumer products and ballistic protection. This project will help move metathesis into the realms of natures aqueous environment, a key advance if metathesis is to reveal its full potential in biological, polymeric, and pharmaceutical applications. We specifically aim to target treatments for cataract (and other conditions associated with an aging population) and also important new biopolymers for use in health technologies of the future.Read moreRead less
Synthetic derivatives of capsaicin and gingerols as analgesics acting at the vanilloid receptor. This project aims to prepare alpha-hydroxyketones and gingerol derivatives acting at vanilloid (VR1) receptor with potential analgesic activity. These compounds will be tested for their ability to activate the VR1 receptor, desensitize the receptor and release neuropeptides associated with pain pathways. The development of these novel compounds will contribute towards understanding the mechanisms of ....Synthetic derivatives of capsaicin and gingerols as analgesics acting at the vanilloid receptor. This project aims to prepare alpha-hydroxyketones and gingerol derivatives acting at vanilloid (VR1) receptor with potential analgesic activity. These compounds will be tested for their ability to activate the VR1 receptor, desensitize the receptor and release neuropeptides associated with pain pathways. The development of these novel compounds will contribute towards understanding the mechanisms of VR1 receptor activation and provide information on how the VR1 receptor is regulated. We will determine and compare neurotoxicity of these compounds to capsaicin which is known to possess neurotoxic activity. The outcome of this project may result in effective agents for better pain management.
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Development and structural characterisation of carbide-derived carbon membranes and their application in separation. This research addresses a key challenge in gas separation crucial to our energy future and environmental sustainability, while harnessing the potential of carbide derived carbons. The project has a multitude of benefits for Australia, not only because it contributes to on-going research on carbon dioxide sequestration and utilization of alternate fuels, but because it will see a n ....Development and structural characterisation of carbide-derived carbon membranes and their application in separation. This research addresses a key challenge in gas separation crucial to our energy future and environmental sustainability, while harnessing the potential of carbide derived carbons. The project has a multitude of benefits for Australia, not only because it contributes to on-going research on carbon dioxide sequestration and utilization of alternate fuels, but because it will see a new generation of Australian researchers trained in multidisciplinary cutting-edge research while addressing several areas of national priority, including reducing emissions, breakthrough sciences, development of frontier technologies and advanced materials, and thereby creating new opportunities for industry.Read moreRead less