Evaluating host-parasite interplay in individual tissues. The immune system of the host and the infecting parasite has coevolved into a sophisticated balance of power. This project will explore this balance using Schistosoma japonicum infection in sheep and determine immune mechanisms unleashed by the host in various tissues as well as the response of the parasite to these attacks.
Elucidating a key developmental switch in Haemonchus contortus using a massively parallel picolitre reactor sequencing-coupled genomic and bioinformatic platform. The national/community benefits of this project include enhanced focus on animal and human health biotechnology through the development of safe anti-parasite compounds/vaccines; improved and sustainable control of key parasites with decreased risk of induction of drug resistance; increased profitability of agricultural animal productio ....Elucidating a key developmental switch in Haemonchus contortus using a massively parallel picolitre reactor sequencing-coupled genomic and bioinformatic platform. The national/community benefits of this project include enhanced focus on animal and human health biotechnology through the development of safe anti-parasite compounds/vaccines; improved and sustainable control of key parasites with decreased risk of induction of drug resistance; increased profitability of agricultural animal production; consolidation of a technology platform for further applications in genomics and post-genomics of pathogens of global significance and construction of a pipeline for the validation of drug targets; capturing the benefits from fundamental research and strengthening links between fundamental and applied research; and increasing the quality and quantity of scientifically skilled people in biotechnology.Read moreRead less
Discovery of early developmental events in the transition to parasitism in the hookworm Ancylostoma caninum using genomic technologies. The national/community benefits are: (1) to develop a long-term, high quality scientific and technological program contributing to national objectives, including the maintenance of a strong capability in basic research, the development of new scientific concepts and the enhancement of international collaborative links; (2) to strengthen the links between basic a ....Discovery of early developmental events in the transition to parasitism in the hookworm Ancylostoma caninum using genomic technologies. The national/community benefits are: (1) to develop a long-term, high quality scientific and technological program contributing to national objectives, including the maintenance of a strong capability in basic research, the development of new scientific concepts and the enhancement of international collaborative links; (2) to strengthen the links between basic and applied research; (3) to develop excellence in research by promoting collaborative research, resulting in a more efficient use of resources in a national and international context; (4) to enhance the skills-base in biology and biotechnology; (5) to substantially increase global visibility through quality research, leading to an increased investment in Australian science.Read moreRead less
Designing new generation adjuvants for allergy and parasite vaccines. Allergy vaccines have the potential to provide a permanent cure against many allergic diseases, currently affecting 20-30 per cent of people in developed countries. This project will study how allergy vaccines work and how we can improve their effectiveness and safety.
Novel Babesia proteins and their roles in the pathogenesis of tick fever. This project aims at gaining a deep understanding of the biology of Babesia parasites and how they cause tick fever in cattle. The project expects to discover novel parasite proteins involved in the development and persistence of tick fever and identify their functional role in infection. The main expected outcome is the discovery of parasite proteins that are critical for infection and pathogenesis of cattle tick fever. T ....Novel Babesia proteins and their roles in the pathogenesis of tick fever. This project aims at gaining a deep understanding of the biology of Babesia parasites and how they cause tick fever in cattle. The project expects to discover novel parasite proteins involved in the development and persistence of tick fever and identify their functional role in infection. The main expected outcome is the discovery of parasite proteins that are critical for infection and pathogenesis of cattle tick fever. The findings will contribute to the development of future novel vaccines to control tick fever, with significant economic benefits for the beef and dairy industries worldwide.Read moreRead less
Structural and functional alteration of red blood cells by Babesia parasites. Cattle Tick Fever caused by Babesia parasites causes significant economic loss to the Australian livestock industry. New approaches to prevent this disease are urgently needed but this requires greater knowledge of how the parasites cause disease in cattle. By identifying novel proteins involved in the disease process we will be able to make better vaccines and drugs and save the Australian livestock industry millions ....Structural and functional alteration of red blood cells by Babesia parasites. Cattle Tick Fever caused by Babesia parasites causes significant economic loss to the Australian livestock industry. New approaches to prevent this disease are urgently needed but this requires greater knowledge of how the parasites cause disease in cattle. By identifying novel proteins involved in the disease process we will be able to make better vaccines and drugs and save the Australian livestock industry millions of dollars each year.Read moreRead less
Targeted drug discovery against blood-feeding parasite nematodes of animals. This project aims to identify more sustainable control strategies of nematode parasites of livestock, which cost more than 400 million yearly to the Australian wool and meat industry. The project expects to identify novel nematicides and generate knowledge of the parasite biology using a combination of high-throughput drug discovery screens with cutting-edge OMICs approaches to target a key molecular pathway of importan ....Targeted drug discovery against blood-feeding parasite nematodes of animals. This project aims to identify more sustainable control strategies of nematode parasites of livestock, which cost more than 400 million yearly to the Australian wool and meat industry. The project expects to identify novel nematicides and generate knowledge of the parasite biology using a combination of high-throughput drug discovery screens with cutting-edge OMICs approaches to target a key molecular pathway of importance to the survival of nematodes, namely their blood-feeding behaviour. Expected outcomes of this project include a likely enhancement of international efforts in controlling these parasites as well as nematicides commercialisation. This should provide significant benefits to agricultural producers in Australia and worldwide.
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Cracking the code of snails to elucidate parasite disease transmission. In Australia, a disease caused by liver flukes causes major economic losses to livestock production. The role of Australian pond snails as intermediate hosts for this parasite is poorly understood. This project aims to explore the phylogeography, biology and genomics of these snails. It expects to create novel molecular resources for important snail species and verify their roles as key vectors of flatworm parasites. The cur ....Cracking the code of snails to elucidate parasite disease transmission. In Australia, a disease caused by liver flukes causes major economic losses to livestock production. The role of Australian pond snails as intermediate hosts for this parasite is poorly understood. This project aims to explore the phylogeography, biology and genomics of these snails. It expects to create novel molecular resources for important snail species and verify their roles as key vectors of flatworm parasites. The curation of genomic and transcriptomic data sets, and elucidation of snail–parasite interactions will underpin the development of environmental diagnostic tests and deliver a new generation of intervention strategies to reduce the burden of liver fluke disease through the control of their snail intermediate hosts.Read moreRead less
Alphaherpesvirus recombination: safety implications for attenuated Herpesvirus vaccines. Under certain conditions some herpesviruses, including mild vaccine strains, can recombine to generate virulent viruses. Following findings that this occurred naturally between Australian poultry vaccines, with devastating results, this project will study natural herpesvirus recombination with the aim of allowing vaccines to be used more safely.
Molecular approaches to limit herpesvirus recombination. This project aims to generate safer attenuated herpesvirus vaccines for use in veterinary medicine by genetically manipulating the herpesvirus genome to reduce virus recombination. Recombination is recognised as a safety concern for a range of attenuated herpesvirus vaccines. This project is expected to generate viruses that have an impaired capacity to recombine with other viruses. These viruses will then be tested as candidate vaccines f ....Molecular approaches to limit herpesvirus recombination. This project aims to generate safer attenuated herpesvirus vaccines for use in veterinary medicine by genetically manipulating the herpesvirus genome to reduce virus recombination. Recombination is recognised as a safety concern for a range of attenuated herpesvirus vaccines. This project is expected to generate viruses that have an impaired capacity to recombine with other viruses. These viruses will then be tested as candidate vaccines for use in veterinary medicine. This offers a new approach to developing safer veterinary vaccines that will benefit our important animal industries.Read moreRead less