Reverse chemical proteomics: harnessing yeast display for drug discovery. This project aims to develop a technique that can rapidly identify the cellular protein targets of biologically active natural products. This project expects to provide fundamental biological and chemical insights into Australia's unique biodiversity that will facilitate the development of new therapeutic agents and agrochemicals based on leads provided by Nature. Expected outcomes of this project include an optimised and ....Reverse chemical proteomics: harnessing yeast display for drug discovery. This project aims to develop a technique that can rapidly identify the cellular protein targets of biologically active natural products. This project expects to provide fundamental biological and chemical insights into Australia's unique biodiversity that will facilitate the development of new therapeutic agents and agrochemicals based on leads provided by Nature. Expected outcomes of this project include an optimised and validated platform technology for accelerating drug discovery and development. This should substantially reduce the costs associated with fighting human and animal diseases, leading to improved health, productivity and quality of life.Read moreRead less
Optimisation of a novel hybrid vaccine for liver fluke disease in cattle. Optimisation of a novel hybrid vaccine for liver fluke disease in cattle. This project aims to optimise the formulation of novel fluke vaccine antigens by constructing combination hybrid recombinant antigens and using a protein adjuvant to improve immunogenicity, and test new antigens expressed in young flukes as vaccines and evaluate their ability to synergise with hybrid vaccines. Fasciola (fluke) infections cause seriou ....Optimisation of a novel hybrid vaccine for liver fluke disease in cattle. Optimisation of a novel hybrid vaccine for liver fluke disease in cattle. This project aims to optimise the formulation of novel fluke vaccine antigens by constructing combination hybrid recombinant antigens and using a protein adjuvant to improve immunogenicity, and test new antigens expressed in young flukes as vaccines and evaluate their ability to synergise with hybrid vaccines. Fasciola (fluke) infections cause serious economic losses to livestock production and fluke drug resistance threatens control, so new therapies such as a vaccine are needed. These vaccines should be evaluated in cattle trials. The major outcome plan is validation of hybrid antigens for commercial vaccine development for fluke control in cattle, leading to more sustainable beef and milk production in Australia.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200101832
Funder
Australian Research Council
Funding Amount
$425,941.00
Summary
Mechanisms of immune protection for infectious laryngotracheitis virus. This project aims to investigate the mechanisms of immune protection against infectious laryngotracheitis virus. This will be achieved by investigating the role of local and systemic immunity and the immune cells associated with long-term protection against disease. The mechanisms of protection against this virus remain unknown which impairs the development of efficacious vaccines. Expected outcomes of this project are a mor ....Mechanisms of immune protection for infectious laryngotracheitis virus. This project aims to investigate the mechanisms of immune protection against infectious laryngotracheitis virus. This will be achieved by investigating the role of local and systemic immunity and the immune cells associated with long-term protection against disease. The mechanisms of protection against this virus remain unknown which impairs the development of efficacious vaccines. Expected outcomes of this project are a more rational approach to vaccination resulting in the generation of more effective and safer vaccination strategies that should benefit our important poultry industry. Additionally, the new methodologies and knowledge on mucosal immune markers could be utilised for the study of other pathogens.Read moreRead less
Assessing animal exposure to urticating caterpillar hairs and developing management strategies to reduce the consequence of foetal abortion in mares. Equine Amnionitis and Foetal Loss (EAFL) accounts for about a third of mares aborting in thoroughbred horse studs in southern Queensland, New South Wales and Victoria. Previous studies have shown that processionary caterpillars and their irritating setae (hairs) can cause EAFL. This project aims to determine the likelihood that other caterpillar sp ....Assessing animal exposure to urticating caterpillar hairs and developing management strategies to reduce the consequence of foetal abortion in mares. Equine Amnionitis and Foetal Loss (EAFL) accounts for about a third of mares aborting in thoroughbred horse studs in southern Queensland, New South Wales and Victoria. Previous studies have shown that processionary caterpillars and their irritating setae (hairs) can cause EAFL. This project aims to determine the likelihood that other caterpillar species are involved based on hair morphology and a surrogate model system. A full risk assessment of the exposure of mares to these hairs in situ will be undertaken, based on the ecology and biology of the species. Outcomes include a management strategy for EAFL-causing insects and a reduction of EAFL within the industry.Read moreRead less
Development of a novel vaccine targeting parasite tegument proteins for liver fluke disease in livestock. Liver fluke parasites cause serious economic losses for livestock producers in South-East Australia, but drug resistance threatens parasite control and economic productivity in rural communities. This project will use novel technologies to identify lead vaccine candidates for improved fluke control to sustain agricultural productivity.
New antiparasitics to protect Australian livestock. There is an urgent need for new antiparasitics to treat multi-drug resistant livestock infections. This project aims to explore the bacteria and fungi present in the microbiomes of heavily infected sheep faeces and pastures, challenging them with environmental cues, including those from associated parasites, to stimulate production of defensive chemicals hidden deep within their genomes. Enabled by an integrated pipeline of high throughput anal ....New antiparasitics to protect Australian livestock. There is an urgent need for new antiparasitics to treat multi-drug resistant livestock infections. This project aims to explore the bacteria and fungi present in the microbiomes of heavily infected sheep faeces and pastures, challenging them with environmental cues, including those from associated parasites, to stimulate production of defensive chemicals hidden deep within their genomes. Enabled by an integrated pipeline of high throughput analytical cultivation, molecular networking, and chemical and biological analyses, expected outcomes include an enhanced ability to explore and exploit valuable chemistry hidden within microbial genomes, leading to the discovery of new classes of natural antiparasitic to safeguard livestock.
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