Developing a paradigm shift in new pharmaceutical and agrochemical design. This project will provide a paradigm shift in the design of new medicines and farming chemicals. The outcome of this research will be the efficient generation of diverse chemicals having real possibilities to improve global health and food security in the future.
Trade policy, firm entry and welfare. This project aims to quantify the effects of global tariff cuts on international trade volumes, firm entry and consumer welfare. Tariffs have fallen significantly globally. The project will incorporate international-trade theory into a parsimonious quantitative model of international trade including almost all countries. The project will also compile a comprehensive international database on tariff barriers. The project expects to refine international trade ....Trade policy, firm entry and welfare. This project aims to quantify the effects of global tariff cuts on international trade volumes, firm entry and consumer welfare. Tariffs have fallen significantly globally. The project will incorporate international-trade theory into a parsimonious quantitative model of international trade including almost all countries. The project will also compile a comprehensive international database on tariff barriers. The project expects to refine international trade theory on the effects of tariff reductions on firm entry into markets; estimate the effects of actual multilateral and preferential tariff reductions; create a tool for evaluating trade and industrial policy; and disseminate international tariff databases.Read moreRead less
Informing economic policies to enhance an efficient and sustainable use of water resources in a context of high uncertainty on future climate. The main purpose of this project is to assess how economic instruments can be used to improve water resources management in a context of uncertainty and climate change.
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
Improved theory and practice in econometric modelling of nonlinear spatial time series. Modern Australia faces many challenges in economic and global climate changes, which require advanced statistical technologies in modeling and forecasting of econometric spatial time series data. This project will provide flexible models and methods that enable practitioners to more accurately measure and manage economic and climatic risks.
Microscale microRNA Detection and Delivery for Effective Point-of-Care Cancer Screening and Therapeutics. MicroRNAs are short RNA molecules that play a critical regulatory role in gene expression. Recently discovered in 1993, microRNA research has since received considerable attention and is regarded as an emerging revolutionary frontier in medicine given its therapeutic ability to ‘turn off’ certain genes that lead to various diseases. Additionally, microRNA expression signatures are a strong b ....Microscale microRNA Detection and Delivery for Effective Point-of-Care Cancer Screening and Therapeutics. MicroRNAs are short RNA molecules that play a critical regulatory role in gene expression. Recently discovered in 1993, microRNA research has since received considerable attention and is regarded as an emerging revolutionary frontier in medicine given its therapeutic ability to ‘turn off’ certain genes that lead to various diseases. Additionally, microRNA expression signatures are a strong biomarker for many diseases such as cancer. This project will advance the chip-scale acoustic microcentrifugation and nebulisation technology we recently pioneered to overcome the significant hurdles currently faced in microRNA detection and delivery with the aim of developing prototype portable microdevices for early stage cancer screening and therapy.Read moreRead less
Developing mathematical models and statistical methods to understand the dynamics of infectious diseases: stochasticity, structure and inference. Infectious diseases remain a major contributor to mortality and illness worldwide. The potential for future severe pandemics also continues to present a substantial threat to our health and well-being. Mathematics and statistics are increasingly becoming part of the arsenal used by governments to combat the invasion and spread of infectious diseases. I ....Developing mathematical models and statistical methods to understand the dynamics of infectious diseases: stochasticity, structure and inference. Infectious diseases remain a major contributor to mortality and illness worldwide. The potential for future severe pandemics also continues to present a substantial threat to our health and well-being. Mathematics and statistics are increasingly becoming part of the arsenal used by governments to combat the invasion and spread of infectious diseases. In such work, three themes have emerged as having the potential to revolutionise the modelling of infectious diseases: stochasticity, structure (both age and spatial), and inference. This project will develop state-of-the-art techniques, at the interface of these themes, of critical importance to understanding the dynamics of infectious diseases.Read moreRead less
The effects of damage and repair of fungal DNA on animal and plant diseases. DNA damage and its repair are implicated in enhancing the ability of fungi to cause disease. These processes enable genomic changes that generate fungal strains better adapted to host colonisation. This project will identify factors that influence mutation, virulence and host adaptation in two model fungi that cause devastating diseases - a human pathogen, Cryptococcus neoformans, and a plant pathogen, Leptosphaeria mac ....The effects of damage and repair of fungal DNA on animal and plant diseases. DNA damage and its repair are implicated in enhancing the ability of fungi to cause disease. These processes enable genomic changes that generate fungal strains better adapted to host colonisation. This project will identify factors that influence mutation, virulence and host adaptation in two model fungi that cause devastating diseases - a human pathogen, Cryptococcus neoformans, and a plant pathogen, Leptosphaeria maculans. Since increases in global temperatures are expected to lead to emerging fungal diseases, understanding effects of damage and repair of fungal DNA on animal and plant diseases is key to designing disease control approaches.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
How emotion shapes perception: delineating structural, temporal, and representational properties of emotion-induced blindness. Emotion helps shape conscious perception, with implications for public safety and mental health. This project will reveal mechanisms underlying emotion’s impact on perception. In doing so, it will advance theoretical understanding of basic processes and of how perceptual mechanisms might operate within and inform treatment of emotional disorders.