Virus and host genes and the outcome of infection. Viruses cause infection of all animals including people and the outcome of infection is highly variable. This project aims to use genetics to explain why some animals are more susceptible to particular virus infections and some strains of virus cause more severe diseases. The project will also explore whether all cells are similarly susceptible to killing by viruses.
The hidden secondary metabolite biosynthetic potential of fungi. This proposal aims to develop synthetic biology tools to allow rapid access to the hidden metabolites encoded in fungal genomes and discover how they interact with plant and animal hosts. Genome sequencing reveals that fungi harbour vast hidden potential for biosynthesis of bioactive small molecules. The lack of tools to efficiently access this hidden potential has hindered the ability to develop this uncharted chemical diversity f ....The hidden secondary metabolite biosynthetic potential of fungi. This proposal aims to develop synthetic biology tools to allow rapid access to the hidden metabolites encoded in fungal genomes and discover how they interact with plant and animal hosts. Genome sequencing reveals that fungi harbour vast hidden potential for biosynthesis of bioactive small molecules. The lack of tools to efficiently access this hidden potential has hindered the ability to develop this uncharted chemical diversity for pharmaceutics and agriculture, and understand their biological roles in pathogens. Expected outcomes include sources of bioactive molecules and better management of fungal diseases in crops and humans.Read moreRead less
Anticipating, Combating and Exploiting the Evolution of Pesticide Resistance in Australian Agricultural Pests and Disease Vectors. Synthetic insecticides have resulted in an explosion in food production through effective insect control. However, insects have begun to evolve resistance against one of the most widely used classes of insecticides (organophosphates) via mutations in carboxylesterases (CBEs). To address this problem, the ability to anticipate further evolution, combat it and exploit ....Anticipating, Combating and Exploiting the Evolution of Pesticide Resistance in Australian Agricultural Pests and Disease Vectors. Synthetic insecticides have resulted in an explosion in food production through effective insect control. However, insects have begun to evolve resistance against one of the most widely used classes of insecticides (organophosphates) via mutations in carboxylesterases (CBEs). To address this problem, the ability to anticipate further evolution, combat it and exploit it for our own benefit is needed. This project aims to anticipate evolution by simulating it in the laboratory, allowing for the best preparation for change. New pesticides will be designed to combat insecticide resistance based upon the molecular structure of an insect CBE. This project aims to exploit these newly evolved enzymes to create biosensors and decontamination agents.Read moreRead less
Psyllids as biosecurity threats to plantation and native eucalypts in Australia and internationally. Psyllids are tiny cicada-like insects that are economic pests of forestry and horticulture because the saliva injected when feeding causes leaf death and some vector plant diseases. Advanced technologies and procedures will be used to determine what makes plants susceptible to psyllids and to improve Australian preparedness ahead of an incursion.