Discovery and directed evolution of small molecule biosensors. This project aims to address the need for novel small molecule biosensing capability in diverse fields including food and wine production, environmental monitoring, biocatalysis, and diagnostics using a synthetic biology approach. The significance of this work is the development of new biosensors by a strong interdisciplinary team contributing bioinformatics to identify new biosensors, innovative protein engineering approaches, and c ....Discovery and directed evolution of small molecule biosensors. This project aims to address the need for novel small molecule biosensing capability in diverse fields including food and wine production, environmental monitoring, biocatalysis, and diagnostics using a synthetic biology approach. The significance of this work is the development of new biosensors by a strong interdisciplinary team contributing bioinformatics to identify new biosensors, innovative protein engineering approaches, and cutting-edge directed evolution methodologies. Intended outcomes include enhanced institutional capacity for interdisciplinary collaboration; discovery of fundamentally important bacterial sensors; and development of synthetic regulatory circuits enabling outgrowth of non-biological biocatalysis industries.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100133
Funder
Australian Research Council
Funding Amount
$657,987.00
Summary
An Open Access Native Mass Spectrometry Facility. This project aims to create a world-class Native Mass Spectrometry Facility to allow measurement of proteins, protein complexes and other biomolecules, in a way such that key structural information is maintained. This instrumentation will be the first of its type in Australia allowing measurement of very high mass ions with high precision and accuracy. A better understanding of protein structure will enable new discoveries in chemistry, biotechn ....An Open Access Native Mass Spectrometry Facility. This project aims to create a world-class Native Mass Spectrometry Facility to allow measurement of proteins, protein complexes and other biomolecules, in a way such that key structural information is maintained. This instrumentation will be the first of its type in Australia allowing measurement of very high mass ions with high precision and accuracy. A better understanding of protein structure will enable new discoveries in chemistry, biotechnology and medicinal research. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100885
Funder
Australian Research Council
Funding Amount
$435,000.00
Summary
Molecular characterisation of pore-forming proteins as pest control agents. This project aims to utilise protein engineering, structural biology, and biochemistry to characterise the function of key members of the aerolysin/epsilon toxin/Toxin_10 pore-forming protein superfamily. Pore formation is a ubiquitous mechanism deployed by all kingdoms as defences against invading organisms. The expected outcomes of this project include the development of novel techniques aimed, broadly, at studying por ....Molecular characterisation of pore-forming proteins as pest control agents. This project aims to utilise protein engineering, structural biology, and biochemistry to characterise the function of key members of the aerolysin/epsilon toxin/Toxin_10 pore-forming protein superfamily. Pore formation is a ubiquitous mechanism deployed by all kingdoms as defences against invading organisms. The expected outcomes of this project include the development of novel techniques aimed, broadly, at studying pore-forming proteins during the assembly pathway. This project should be of benefit to the wider research community by improving our understanding of pore-forming proteins as potential pest control agents. Read moreRead less