Artificially building the bacterial flagellar motor. This project will allow us to learn how nature’s most sophisticated rotary motor works and how to build these artificially, establishing a new field of research into man-made biological machines. This has potential applications for the emerging field of nanotechnology to make nanometre-scale devices that are powered by efficient biological machines.
Nano-reactors: Protein cages as reusable scaffolds for designer enzymes. This project aims to develop robust protein cages derived from the coats of viruses to contain heat-stable P450 enzymes, for use as specialised protein bio-catalysts in chemical industries. A valuable chemical precursor of renewable bio-plastics will be produced from seed oils by enzymes, reducing the use of fossil fuels. This synthetic biology approach combines biotechnology, nanotechnology and protein engineering to estab ....Nano-reactors: Protein cages as reusable scaffolds for designer enzymes. This project aims to develop robust protein cages derived from the coats of viruses to contain heat-stable P450 enzymes, for use as specialised protein bio-catalysts in chemical industries. A valuable chemical precursor of renewable bio-plastics will be produced from seed oils by enzymes, reducing the use of fossil fuels. This synthetic biology approach combines biotechnology, nanotechnology and protein engineering to establish a plant-based platform biotechnology for using enzymes as catalysts to make high-value molecules. The project aims to show how to engineer clean, sustainable chemistry in designer nano-environments. This should make synthetic processes more sustainable and enhance advanced chemical manufacturing in Australia.Read moreRead less
Design and Fabrication of Molecular Machines: the Nanomachines of the Future. Nanotechnology that incorporates the use of nanomachines and molecular machines is an exciting new area of translational research, with broad potential in biomedical technology and industrial applications. We are developing new molecular machines and optimising their assembly. Recent innovation in the world of nanotechnology concerns the design and manufacture of synthetic and hybrid machines, based on existing biologi ....Design and Fabrication of Molecular Machines: the Nanomachines of the Future. Nanotechnology that incorporates the use of nanomachines and molecular machines is an exciting new area of translational research, with broad potential in biomedical technology and industrial applications. We are developing new molecular machines and optimising their assembly. Recent innovation in the world of nanotechnology concerns the design and manufacture of synthetic and hybrid machines, based on existing biological molecular machines but incorporating synthetic parts. Australia has an opportunity to be at the forefront of these new developments in nanotechnology, with a new generation of Australian scientists being trained across the foundation disciplines of chemistry, physics and molecular biology.Read moreRead less