Discovery Early Career Researcher Award - Grant ID: DE160101570
Funder
Australian Research Council
Funding Amount
$352,000.00
Summary
Inducible hyper-expression as a tool for metabolic engineering. This project aims to develop methods to improve plant natural products yields and diversify the products manufactured from a wide array of plant species. Valuable plant metabolites, including chemotherapeutics and opiates, are usually synthesised in minute amounts and can be so complex they can’t be chemically manufactured, limiting their use and affordability. This project aims to develop an inducible system that confers hyper-elev ....Inducible hyper-expression as a tool for metabolic engineering. This project aims to develop methods to improve plant natural products yields and diversify the products manufactured from a wide array of plant species. Valuable plant metabolites, including chemotherapeutics and opiates, are usually synthesised in minute amounts and can be so complex they can’t be chemically manufactured, limiting their use and affordability. This project aims to develop an inducible system that confers hyper-elevated levels of gene expression and independent control of multiple genes involved in metabolite synthesis in the same host. This technology is expected to enable flexible multi-trait bio-factories to be developed.Read moreRead less
Defining the antiviral effects of Wolbachia in Aedes aegypti mosquitoes. Mosquitoes that carry a bacterium called Wolbachia do not transmit human pathogenic viruses. These mosquitoes are being developed as a biocontrol tool to prevent mosquito-borne diseases. This project aims to define the molecular basis for virus inhibition by Wolbachia. Using unique biological tools including mosquitoes carrying different strains of Wolbachia that do or do not inhibit dengue virus, the project will define ho ....Defining the antiviral effects of Wolbachia in Aedes aegypti mosquitoes. Mosquitoes that carry a bacterium called Wolbachia do not transmit human pathogenic viruses. These mosquitoes are being developed as a biocontrol tool to prevent mosquito-borne diseases. This project aims to define the molecular basis for virus inhibition by Wolbachia. Using unique biological tools including mosquitoes carrying different strains of Wolbachia that do or do not inhibit dengue virus, the project will define how Wolbachia modifies its host to create an antiviral state. The findings will provide insight into how viral pathogens can be suppressed in insect hosts. This may guide future viral disease intervention strategies for diverse areas afflicted by insect-borne viral disease, including human health and agriculture.Read moreRead less