Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989861
Funder
Australian Research Council
Funding Amount
$650,000.00
Summary
Electron Microscopes for Nanometer-Scale Imaging/Microanalysis in the Materials, Biological, Physical, Engineering and Chemical Sciences. Electron microscopes have contributed to many of the most significant discoveries and technological advances of the last 6 decades. High resolution transmission and scanning electron microscopes have become essential research infrastructure in internationally competitive materials science, biology, bio-medical science, physics, chemistry and a broad range of e ....Electron Microscopes for Nanometer-Scale Imaging/Microanalysis in the Materials, Biological, Physical, Engineering and Chemical Sciences. Electron microscopes have contributed to many of the most significant discoveries and technological advances of the last 6 decades. High resolution transmission and scanning electron microscopes have become essential research infrastructure in internationally competitive materials science, biology, bio-medical science, physics, chemistry and a broad range of engineering disciplines. This capability is not currently available in the Newcastle, Hunter, Central and Lower North Coast and New England regions. This proposal is aimed at satisfying the considerable demand for high resolution microscopy in these areas leading to high quality research outcomes across 3 National Research Priorities and a strong contribution to research training.Read moreRead less
New Methods for Directed Molecular Evolution of Novel Protein Functions. Novel ribosome-based techniques can be used to carry out test-tube evolution of proteins with new structures and functions. The methods rely on (a) physical association of individual nucleic acid molecules with the particular protein molecules they encode, (b) selection of proteins with new functions, and (c) recovery of the attached genetic code. This project will address several issues that currently limit use of these fr ....New Methods for Directed Molecular Evolution of Novel Protein Functions. Novel ribosome-based techniques can be used to carry out test-tube evolution of proteins with new structures and functions. The methods rely on (a) physical association of individual nucleic acid molecules with the particular protein molecules they encode, (b) selection of proteins with new functions, and (c) recovery of the attached genetic code. This project will address several issues that currently limit use of these frontier technologies for evolution of new protein products that have a wide range of practical applications.Read moreRead less