A novel regulator of growth signalling in Drosophila. This project aims to increase understanding of how growth is regulated by growth factor hormones. In animals, growth is controlled by signalling pathways that are activated by secreted peptide hormones. A new regulator of growth in the fruitfly Drosophila, the membrane attack complex/perforin-like (MACPF) protein Torso-like, has been identified. The project aims to unravel how Torso-like functions to regulate growth, thus throwing light on th ....A novel regulator of growth signalling in Drosophila. This project aims to increase understanding of how growth is regulated by growth factor hormones. In animals, growth is controlled by signalling pathways that are activated by secreted peptide hormones. A new regulator of growth in the fruitfly Drosophila, the membrane attack complex/perforin-like (MACPF) protein Torso-like, has been identified. The project aims to unravel how Torso-like functions to regulate growth, thus throwing light on the role this protein family may play in all animals. The findings are expected to provide key insights into the modification of growth factor activity, which is often dysregulated in human cancers and growth disorders, and may enable the design of new strategies for interfering with insect development for pest control.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
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
Psyllids as biosecurity threats to plantation and native eucalypts in Australia and internationally. Psyllids are tiny cicada-like insects that are economic pests of forestry and horticulture because the saliva injected when feeding causes leaf death and some vector plant diseases. Advanced technologies and procedures will be used to determine what makes plants susceptible to psyllids and to improve Australian preparedness ahead of an incursion.