In vitro expression and crystallization of proteins from the thermohalophile, Halothermothrix orenii. The project proposal is to develop enabling state-of-the-art protein technologies for biotechnology. We will for the first time develop a rapid and high throughput technique for the expression, purification and crystallisation of proteins from the extreme thermohalophile, Halothermothrix orenii. This important break through in protein technology will assist in determining structure and function ....In vitro expression and crystallization of proteins from the thermohalophile, Halothermothrix orenii. The project proposal is to develop enabling state-of-the-art protein technologies for biotechnology. We will for the first time develop a rapid and high throughput technique for the expression, purification and crystallisation of proteins from the extreme thermohalophile, Halothermothrix orenii. This important break through in protein technology will assist in determining structure and function relationships of thermohalophilic proteins. It is expected that such an understanding together with comparative bioinformatics will assist researchers to develop "designer proteins" with improved functions for different uses in biotechnology. It is also expected that this technology will be amenable for use with other thermohalophilic microbes.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237427
Funder
Australian Research Council
Funding Amount
$269,000.00
Summary
Equipment for Fluorescence-Based Cellular Analysis. The requested equipment is needed by a large grouping of highly productive researchers to carry out work across a very broad range of fields that is otherwise difficult or impossible to perform. The new equipment will facilitate obtaining many exciting and important outcomes, including identification of: (i) mechanisms controlling cell death, (ii) natural biological products that may have commercial applications (eg anti-fouling agents), (iii) ....Equipment for Fluorescence-Based Cellular Analysis. The requested equipment is needed by a large grouping of highly productive researchers to carry out work across a very broad range of fields that is otherwise difficult or impossible to perform. The new equipment will facilitate obtaining many exciting and important outcomes, including identification of: (i) mechanisms controlling cell death, (ii) natural biological products that may have commercial applications (eg anti-fouling agents), (iii) "probiotic" bacteria and vaccines that may be used to protect animals from disease, and (iv) mechanisms by which changes in human lens proteins contribute to the development of cataract.Read moreRead less