A New Platform for Developing a Compound Against Herpes Simplex Virus. This project aims to further explore the research team’s recent fundamental discovery of a protein found naturally in an Australian abalone that inhibits viral entry by blocking three key viral glycoproteins. We would aim to utilise this knowledge towards development of a new class of therapeutics against Herpes simplex viruses (HSV) and their consequent infections. The new therapeutics could overcome the low bioavailability ....A New Platform for Developing a Compound Against Herpes Simplex Virus. This project aims to further explore the research team’s recent fundamental discovery of a protein found naturally in an Australian abalone that inhibits viral entry by blocking three key viral glycoproteins. We would aim to utilise this knowledge towards development of a new class of therapeutics against Herpes simplex viruses (HSV) and their consequent infections. The new therapeutics could overcome the low bioavailability of current drugs and thus significantly shorten the recurrence period. Such new drugs may have broad applicability.Read moreRead less
Non-discriminatory, universal and sensitive detection technologies for fluid based separation techniques in the pharmaceutical industry. The proposed research is focused on the specific needs of Australian and global pharmaceutical industries, and addresses a problem which is becoming increasingly significant with new classes of pharmaceuticals. Successful achievement of the goals of the project will result in major savings of cost and time during drug development and will lead to the productio ....Non-discriminatory, universal and sensitive detection technologies for fluid based separation techniques in the pharmaceutical industry. The proposed research is focused on the specific needs of Australian and global pharmaceutical industries, and addresses a problem which is becoming increasingly significant with new classes of pharmaceuticals. Successful achievement of the goals of the project will result in major savings of cost and time during drug development and will lead to the production of safer drugs. The project will expand collaboration between Australia researchers and the world's largest pharmaceutical company. Specialised training will be provided to both postdoctoral and postgraduate researchers, positioning them to make strong contributions to Australia's growing pharmaceutical industry.Read moreRead less
Pre-blast screening of improvised explosive devices - a National counter-terrorism initiative. The proposed research is focused on the specific needs of Australian counter-terrorism interests, including those of border protection, the customs service, transport authorities, forensic laboratories, etc. The support of this proposal will ensure that Australia, and its States and Territories are protected against terrorist threats. The support provided by the collaborating organisations from the var ....Pre-blast screening of improvised explosive devices - a National counter-terrorism initiative. The proposed research is focused on the specific needs of Australian counter-terrorism interests, including those of border protection, the customs service, transport authorities, forensic laboratories, etc. The support of this proposal will ensure that Australia, and its States and Territories are protected against terrorist threats. The support provided by the collaborating organisations from the various Federal and State police and forensic agencies, and the customs service, etc, highlights the importance of this project to the nation. Finally, a PhD student and a research assistant will be involved with the project and will gain specialised skills positioning them to make strong contributions to Australia's counter-terrorism measures.Read moreRead less
A high speed, high fidelity 3D printer for fabricating microfluidic devices. This project aims to develop a novel 3D printer offering the highest resolution available and fastest printing speed for the single-step manufacturing of complex microfluidic devices. New resins developed to exploit the inert liquid interface layer printing approach will provide unprecedented capability to create micron sized channels interconnected in 3D space and fabricate Lab-on-a-Chip systems that cannot be generate ....A high speed, high fidelity 3D printer for fabricating microfluidic devices. This project aims to develop a novel 3D printer offering the highest resolution available and fastest printing speed for the single-step manufacturing of complex microfluidic devices. New resins developed to exploit the inert liquid interface layer printing approach will provide unprecedented capability to create micron sized channels interconnected in 3D space and fabricate Lab-on-a-Chip systems that cannot be generated by any current fabrication approach. This novel high speed, high fidelity 3D printer and the new resins to be developed are expected to lead to more effective manufacturing approaches for portable chemical devices and to promote complex chemical analysis into the knowledge immediacy culture of today.Read moreRead less
The neural effects of torture. Torture affects millions of people and causes much long-term psychological harm. This project aims to identify the effects that torture has on the brain by studying torture survivors in the context of a range of brain imaging technologies that will lead to development of a model of the neural effects of torture to guide better treatments.
Creating a national time and frequency network for Australia. This project will develop the means to distribute accurate time and frequency across the Australian continent via an optical fibre network. This network will meet the needs of future telecommunications, science and astronomy projects including the Australian bid for the Square Kilometre Array radio-astronomy project.
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.