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New Methods for Structural Biology in Solution. This project aims to expand the range of applications of nuclear magnetic resonance (NMR) spectroscopy in pharmaceutical research, where NMR spectroscopy is already used routinely for the identification of chemical compounds that bind to protein targets. The techniques developed aim at providing rapid and broadly applicable tools for 3D structure determinations of chemical compounds bound to their protein target, identification of protein-protein i ....New Methods for Structural Biology in Solution. This project aims to expand the range of applications of nuclear magnetic resonance (NMR) spectroscopy in pharmaceutical research, where NMR spectroscopy is already used routinely for the identification of chemical compounds that bind to protein targets. The techniques developed aim at providing rapid and broadly applicable tools for 3D structure determinations of chemical compounds bound to their protein target, identification of protein-protein interaction sites and characterization of protein motions. The limits of NMR spectroscopy will be pushed to analyse systems of significantly increased molecular weights. The project includes applications to drug targets such as the dengue virus NS2B/NS3 protease.Read moreRead less
New Methods for Structural Biology in Solution. New technologies will be developed that are sufficiently rapid and inexpensive to compete with and replace the mutagenesis experiments that biologists usually perform to identify and characterize the functionally important parts of a protein. Nuclear magnetic resonance (NMR) spectroscopy techniques in combination with various selective labelling schemes will be developed with the goal of identification and structural characterization of protein-lig ....New Methods for Structural Biology in Solution. New technologies will be developed that are sufficiently rapid and inexpensive to compete with and replace the mutagenesis experiments that biologists usually perform to identify and characterize the functionally important parts of a protein. Nuclear magnetic resonance (NMR) spectroscopy techniques in combination with various selective labelling schemes will be developed with the goal of identification and structural characterization of protein-ligand interactions at increased rates and enhanced accuracy. In addition, the three-dimensional structures of proteins and protein domains of biologically important functions and unknown fold will be determined by NMR. The project aims at techniques of direct impact in pharmaceutical industry.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882289
Funder
Australian Research Council
Funding Amount
$520,000.00
Summary
New generation mass spectrometers for characterisation of molecular shape and size. The ion mobility mass spectrometer (IMMS at UOW) will be the first of its kind in Australia, and together with the ion trap mass spectrometer (ITMS at ANU) will continue the tradition of this partnership in providing researchers with cutting-edge instrumentation for nationally and internationally important projects including: (i) fundamental understanding of the ways in which biomolecules recognize one another, ( ....New generation mass spectrometers for characterisation of molecular shape and size. The ion mobility mass spectrometer (IMMS at UOW) will be the first of its kind in Australia, and together with the ion trap mass spectrometer (ITMS at ANU) will continue the tradition of this partnership in providing researchers with cutting-edge instrumentation for nationally and internationally important projects including: (i) fundamental understanding of the ways in which biomolecules recognize one another, (ii) investigating the structure(s) of lipids (fats) in cardiovascular disease and cataract, (iii) developing anticancer drugs, and (iv) development of new materials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882382
Funder
Australian Research Council
Funding Amount
$245,000.00
Summary
Biophysical Characterisation Facility. The protein analysis facility will have substantial benefits for basic science and biotechnology. It will create capacity for South Australian researchers to study proteins at the biophysical level. The facility will support research projects within the designated national research priority areas of 'Frontier technologies for building and transforming Australian industries' and 'Promoting and maintaining good health
Design and Construction of Novel Thermal Interferometers. This project aims to invent thermal interferometers, which take advantage of the interference effect of thermal waves to display standing temperature interference fringes on a surface of prism. Two coherent thermal waves are input from two other surfaces of the prism in a similar way as an optical interferometer does. By inventing such a device, the project will demonstrate a new instrumentation mechanism which may lead to its applicati ....Design and Construction of Novel Thermal Interferometers. This project aims to invent thermal interferometers, which take advantage of the interference effect of thermal waves to display standing temperature interference fringes on a surface of prism. Two coherent thermal waves are input from two other surfaces of the prism in a similar way as an optical interferometer does. By inventing such a device, the project will demonstrate a new instrumentation mechanism which may lead to its application in medical technology. Furthermore, the principle of temperature localisation due to thermal interference may provide new insights to account for the cause of conformational changes of proteins that result in diseases.Read moreRead less