The Role of RNA interference in the induction of immune responses. Our work will allow us to understand a new means by which to alert the immune system to the presence of cancer cells using a new technology called RNA interference. This will hopefully lead to new investment in biotechnology products based on RNA interference, improved treatments for cancers and better health for Australians
Molecularly engineered cell-instructive hydrogels for enhanced tissue regeneration. The outcomes of this project will be relevant to range of wounds, including burns, bed-sores, and diabetic and venous ulcers. Clearly, innovation in wound healing is urgently required as the treatment of wounds represents a significant challenge at all levels of our society, in terms of cost (physical, emotional and financial) to patients, the economy and to the wider community. Despite this obvious and overwhelm ....Molecularly engineered cell-instructive hydrogels for enhanced tissue regeneration. The outcomes of this project will be relevant to range of wounds, including burns, bed-sores, and diabetic and venous ulcers. Clearly, innovation in wound healing is urgently required as the treatment of wounds represents a significant challenge at all levels of our society, in terms of cost (physical, emotional and financial) to patients, the economy and to the wider community. Despite this obvious and overwhelming need, research in wound healing is relatively under-developed and has yet to adopt modern biotechnology and biomaterials approaches. This project is therefore directed at generating cost-effective frontier wound dressing technologies that accelerate wound repair.Read moreRead less
Structure and function of novel macrophage proteins using high throughput crystallography. We will combine the cutting edge technologies of microarray analysis and high throughput crystallography in an innovative approach to study the structure and function of important and uncharacterised macrophage proteins. Our strategy for targeting novel macrophage proteins will maximise the success rate of structure determination, while at the same time focusing our efforts on proteins that are important i ....Structure and function of novel macrophage proteins using high throughput crystallography. We will combine the cutting edge technologies of microarray analysis and high throughput crystallography in an innovative approach to study the structure and function of important and uncharacterised macrophage proteins. Our strategy for targeting novel macrophage proteins will maximise the success rate of structure determination, while at the same time focusing our efforts on proteins that are important in macrophage biology. Structures of the novel proteins will underpin functional analysis at a molecular level and could represent a basis for inhibitor design should the proteins ultimately be shown to be therapeutic targets.Read moreRead less