Evolutionary history and impact of adeno-associated viruses in Australia. Recently accrued evidence identifies Australia as an ideal closed-model system in which to elucidate the evolutionary history of a group of non-pathogenic viruses, known as adeno-associated viruses (AAVs). This project aims to trace back the evolutionary history of AAVs for tens of millions of years via molecular fossil imprints left behind by ancient viral invasions of Australian marsupial genomes. Concurrently, the poten ....Evolutionary history and impact of adeno-associated viruses in Australia. Recently accrued evidence identifies Australia as an ideal closed-model system in which to elucidate the evolutionary history of a group of non-pathogenic viruses, known as adeno-associated viruses (AAVs). This project aims to trace back the evolutionary history of AAVs for tens of millions of years via molecular fossil imprints left behind by ancient viral invasions of Australian marsupial genomes. Concurrently, the potential impact that these viral invasions had on the evolutionary development of their ancestral hosts will be investigated. This could facilitate previously unattainable insights into both AAV and marsupial evolution, with broader implications relevant to the advancement of the fields of virology and mammalian evolution.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100484
Funder
Australian Research Council
Funding Amount
$365,058.00
Summary
Tipping the balance from tolerance to immunity for the devil facial tumour. This project aims to develop a single-shot vaccine for the Tasmanian devil facial tumour disease. The disease is an enigma because the transmissible tumours are simultaneously cancer, infections, and genetically mismatched tissue grafts. This project will focus on immune molecules that are revolutionising human oncology, and will develop techniques to understand and systematically test the function of these key molecules ....Tipping the balance from tolerance to immunity for the devil facial tumour. This project aims to develop a single-shot vaccine for the Tasmanian devil facial tumour disease. The disease is an enigma because the transmissible tumours are simultaneously cancer, infections, and genetically mismatched tissue grafts. This project will focus on immune molecules that are revolutionising human oncology, and will develop techniques to understand and systematically test the function of these key molecules in Tasmanian devils. Understanding the role of these immune molecules will accelerate development of a vaccine to help save the devil and has the potential to shed light on general principles relating to how the immune system balances tolerance and immunity.Read moreRead less
Immunisation to protect against transmissible cancers in Tasmanian devils. This project aims to identify the immune escape mechanisms that the transmissible cancers, Devil Facial Tumour Disease (DFTD) use to avoid being killed by the immune system. Since the discovery of the second transmissible cancer (DFT2) mystery surrounds whether the devils immune system can respond to this cancer, hence this project will investigate the immune response to DFT2. The final aims are to develop a vaccine with ....Immunisation to protect against transmissible cancers in Tasmanian devils. This project aims to identify the immune escape mechanisms that the transmissible cancers, Devil Facial Tumour Disease (DFTD) use to avoid being killed by the immune system. Since the discovery of the second transmissible cancer (DFT2) mystery surrounds whether the devils immune system can respond to this cancer, hence this project will investigate the immune response to DFT2. The final aims are to develop a vaccine with the potential to protect healthy devils and cure devils with DFTD.Read moreRead less
Host-tumour interplay in Tasmanian devils with devil facial tumour disease: can immune cells be harnessed for therapy? Tasmanian devils only exist naturally in Tasmania and Devil Facial Tumour Disease, an infectious cancer, could cause the extinction of the Tasmanian devil. This project will determine if Devil Facial Tumour Disease reduces the effectiveness of the devil's immune system and test if activated immune cells can protect against this disease.
Special Research Initiatives - Grant ID: SR0354798
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Interdisciplinary Network for Aquatic Animal Health. The value of Australian fisheries and aquaculture is increasing significantly and, whilst this has resulted in an increase in R&D spending in the area, stifled collaboration amongst isolated scientists sometimes results in slow research progress. This network will enhance research on aquatic animal health. Our main aim is to provide a stimulating environment, encourage collaboration and ensure fast flow of interdisciplinary information between ....Interdisciplinary Network for Aquatic Animal Health. The value of Australian fisheries and aquaculture is increasing significantly and, whilst this has resulted in an increase in R&D spending in the area, stifled collaboration amongst isolated scientists sometimes results in slow research progress. This network will enhance research on aquatic animal health. Our main aim is to provide a stimulating environment, encourage collaboration and ensure fast flow of interdisciplinary information between researchers. We will adapt methods and technologies from medical research and other disciplines to increase our understanding of aquatic animal health and at the same time ensure that our results are applied in other disciplines.Read moreRead less
An immunological and immunogenetic approach to understand and to protect Tasmanian devils against Devil Facial Tumour Disease. The Tasmanian devil is the world's largest living carnivorous marsupial. From an environmental perspective, devils play a fundamental role through scavenging. Dead and dying animals were removed nightly from Tasmania's landscape and therefore decaying carcases did not require removal. Loss of this top order scavenger will alter the balance of biodiversity and non-native ....An immunological and immunogenetic approach to understand and to protect Tasmanian devils against Devil Facial Tumour Disease. The Tasmanian devil is the world's largest living carnivorous marsupial. From an environmental perspective, devils play a fundamental role through scavenging. Dead and dying animals were removed nightly from Tasmania's landscape and therefore decaying carcases did not require removal. Loss of this top order scavenger will alter the balance of biodiversity and non-native animals (such as foxes, feral cats, crows, and even European wasps) will then compete for this scavenger role. As these animals are non-selective they will also prey on living animals and many of Tasmania's native animals (such as Eastern barred bandicoot, potoroos, quolls etc.) will be seriously threatened and our biodiverse landscape could be irreversibly altered.Read moreRead less
Mitigating ecosystem impacts by improving the way we breed and manage devils. The Tasmanian ecosystem faces irreversible change due to the decline of the apex predator. An insurance population of Tasmanian devils has been established to prevent extinction of the species. Using the latest sequencing technologies the project aims to determine whether the Tasmanian ecosystem can be restored with Tasmanian devils that are more resilient to a changing environment by improving the way that devils are ....Mitigating ecosystem impacts by improving the way we breed and manage devils. The Tasmanian ecosystem faces irreversible change due to the decline of the apex predator. An insurance population of Tasmanian devils has been established to prevent extinction of the species. Using the latest sequencing technologies the project aims to determine whether the Tasmanian ecosystem can be restored with Tasmanian devils that are more resilient to a changing environment by improving the way that devils are bred and managed in captivity.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170101116
Funder
Australian Research Council
Funding Amount
$370,159.00
Summary
Adaptations in Tasmanian devil facial tumour disease. This project aims to understand how defence mechanisms against infectious diseases arise and evolve in nature. Infectious diseases exert strong evolutionary pressures on populations, forcing the development of adaptive strategies to fight the costs of infection. The project aims to determine individual differences in response to infection and how these affect population-scale transmission and evolutionary dynamics under natural and managed sc ....Adaptations in Tasmanian devil facial tumour disease. This project aims to understand how defence mechanisms against infectious diseases arise and evolve in nature. Infectious diseases exert strong evolutionary pressures on populations, forcing the development of adaptive strategies to fight the costs of infection. The project aims to determine individual differences in response to infection and how these affect population-scale transmission and evolutionary dynamics under natural and managed scenarios. This is expected to reveal populations’ adaptive capability and resilience against diseases and the effects of management interventions in controlling disease outbreaks and preventing population declines or extinctions.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561251
Funder
Australian Research Council
Funding Amount
$150,887.00
Summary
Facility for Analyses of Evolutionary Immunology. Our understanding of how selection in natural populations shape (favour and disfavour) immunity, and how this process contribute to organismal (including human) fitness, is rudimentary. In order to study such processes our collective experience strongly suggests and increasing need for geographic amalgamation of necessary and complementary molecular and biomedical techniques. We therefore request funding to establish a collaborative research labo ....Facility for Analyses of Evolutionary Immunology. Our understanding of how selection in natural populations shape (favour and disfavour) immunity, and how this process contribute to organismal (including human) fitness, is rudimentary. In order to study such processes our collective experience strongly suggests and increasing need for geographic amalgamation of necessary and complementary molecular and biomedical techniques. We therefore request funding to establish a collaborative research laboratory in a novel research field - Evolutionary Immuno-Ecology- in which all vital aspects, from a mechanistic to an evolutionary level, can be studied at one research centre.Read moreRead less
Development of an immune enhancing vaccine to protect Tasmanian devils against a contagious cancer. The iconic Tasmanian devil is threatened with extinction from a uniformly fatal transmissible facial cancer. Our team has shown in proof of concept that the cancer cells can be recognised by the devil immune system. This project will develop and test a vaccine against the tumour, which will ultimately protect devils in the wild.