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Characterising inheritance patterns of whole genome DNA methylation. This project aims to characterise epigenetic diversity and inheritance patterns in whole genome sequencing data from a unique human population. The project will employ the well-characterised Norfolk Island genetic isolate, cost-effective whole genome bisulphite sequencing technologies and advanced bioinformatics pipelines and statistical models. It will involve cross-discipline collaboration between human geneticists, epigeneti ....Characterising inheritance patterns of whole genome DNA methylation. This project aims to characterise epigenetic diversity and inheritance patterns in whole genome sequencing data from a unique human population. The project will employ the well-characterised Norfolk Island genetic isolate, cost-effective whole genome bisulphite sequencing technologies and advanced bioinformatics pipelines and statistical models. It will involve cross-discipline collaboration between human geneticists, epigeneticists, statistical geneticists and bioinformaticians. This project will advance our understanding of the interaction of genetics and epigenetics and their relationship to diversity and inheritance in humans.Read moreRead less
Identifying novel insecticides and their targets: probing Australian arachnid venoms. Insect pests destroy an estimated 2-3 billion dollars of crops in Australia. Insect pests also are responsible for the transmission of many new and re-emerging human, animal and plant diseases threatening health, wellbeing and prosperity. Current insecticides are severely limited by toxicity and/or insect resistance, and some are undergoing use cancellation overseas. Thus there is an urgent need to develop safe ....Identifying novel insecticides and their targets: probing Australian arachnid venoms. Insect pests destroy an estimated 2-3 billion dollars of crops in Australia. Insect pests also are responsible for the transmission of many new and re-emerging human, animal and plant diseases threatening health, wellbeing and prosperity. Current insecticides are severely limited by toxicity and/or insect resistance, and some are undergoing use cancellation overseas. Thus there is an urgent need to develop safer and more specific insecticides that are effective against disease vectors and agricultural pest insects, as well as to identify new insecticide targets. This research has a multi-million dollar potential benefit to agricultural, health and pest control sectorsRead moreRead less
Revolutionising real-time genomic epidemiology in urban wastewater systems. This project aims to develop a real-time and high-resolution genomic tool to monitor and track pathogens in urban wastewater systems based on the portable third-generation sequencing platform. Pathogens sicken hundreds of millions of people, cost the global economy tens of billions of dollars annually, and are one of the leading causes of death worldwide. The current epidemiology approach, and data, are retrospective and ....Revolutionising real-time genomic epidemiology in urban wastewater systems. This project aims to develop a real-time and high-resolution genomic tool to monitor and track pathogens in urban wastewater systems based on the portable third-generation sequencing platform. Pathogens sicken hundreds of millions of people, cost the global economy tens of billions of dollars annually, and are one of the leading causes of death worldwide. The current epidemiology approach, and data, are retrospective and thus insufficient for timely intervention. Integrated with wastewater analysis for pharmaceuticals targeting pathogens, the sewer-based epidemiology approach of this project will greatly enhance public health by achieving early detection and informed control of infectious diseases.Read moreRead less