A conserved pathway of cell death in response to invading DNA. This project aims to characterise molecular details of a new pathway of foreign DNA recognition and rapid cell death. Recognition of foreign DNA is a key means by which both bacteria and eukaryotic cells can detect infections, as well as guard their own genome. Eukaryotic cell DNA is sequestered in the nucleus and organelles, and any DNA found in the cytosol is a danger signal. The project proposes that cytosolic DNA-induced cell dea ....A conserved pathway of cell death in response to invading DNA. This project aims to characterise molecular details of a new pathway of foreign DNA recognition and rapid cell death. Recognition of foreign DNA is a key means by which both bacteria and eukaryotic cells can detect infections, as well as guard their own genome. Eukaryotic cell DNA is sequestered in the nucleus and organelles, and any DNA found in the cytosol is a danger signal. The project proposes that cytosolic DNA-induced cell death is a fundamental eukaryotic defensive response, but surprisingly, the known pathway is restricted to macrophages of some mammals. Project outcomes may be applied to protein expression yield in biotechnology or advances in gene therapy.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100512
Funder
Australian Research Council
Funding Amount
$365,058.00
Summary
Bird flu in avian species: understanding the mechanisms of disease. This project aims to understand the genesis and pathogenesis of influenza virus in avian species. The project will investigate the role of bacteria in influenza severity in chickens, the role of avian endothelial cells in the emergence of highly pathogenic avian influenza viruses and the susceptibility of Australia’s native black swans to influenza. This project will generate fundamental knowledge that may help reduce the severi ....Bird flu in avian species: understanding the mechanisms of disease. This project aims to understand the genesis and pathogenesis of influenza virus in avian species. The project will investigate the role of bacteria in influenza severity in chickens, the role of avian endothelial cells in the emergence of highly pathogenic avian influenza viruses and the susceptibility of Australia’s native black swans to influenza. This project will generate fundamental knowledge that may help reduce the severity of influenza in avian populations and provide a new insight into the anti-viral response of an iconic Australian bird species.Read moreRead less