New anti-parasitic drugs for a global veterinary market. This project aims to establish an advanced, industry-linked pipeline for the development of new drugs against resilient infectious agents (parasites) that cause serious diseases in billions of animals worldwide. The research expects to discover new ways of killing parasites that survive in their host animal, despite being under severe attack by the host immune system. The resultant shift in fundamental understanding will lead to innovative ....New anti-parasitic drugs for a global veterinary market. This project aims to establish an advanced, industry-linked pipeline for the development of new drugs against resilient infectious agents (parasites) that cause serious diseases in billions of animals worldwide. The research expects to discover new ways of killing parasites that survive in their host animal, despite being under severe attack by the host immune system. The resultant shift in fundamental understanding will lead to innovative technologies or products to ameliorate the burden of parasites in livestock animals. Expected socioeconomic benefits include commercial products for end-users and lifting Australia’s scientific knowledge base, reputation in biotechnology, livestock production and investment in translational research.Read moreRead less
Bio-recovery of rare earth elements from Australian soils and mine tailings. This project aims to discover how microbes dissolve weathering-resistant phosphate minerals that contain valuable rare earth elements used widely in modern technology. This discovery would create new knowledge in the interdisciplinary fields of biogeochemistry and biohydrometallurgy, using an innovative combination of techniques in metagenomics, microbiology and mineralogy. Expected research outcomes include new, more ....Bio-recovery of rare earth elements from Australian soils and mine tailings. This project aims to discover how microbes dissolve weathering-resistant phosphate minerals that contain valuable rare earth elements used widely in modern technology. This discovery would create new knowledge in the interdisciplinary fields of biogeochemistry and biohydrometallurgy, using an innovative combination of techniques in metagenomics, microbiology and mineralogy. Expected research outcomes include new, more economic and environmentally sustainable biotechnologies for recovering rare earth elements and increasing phosphorus availability in Australian mineral deposits and soils. These outcomes should benefit the mining and agricultural sectors, by decreasing Australia's dependency on overseas REE supply and the use of fertilizers.Read moreRead less