The molecular pathogenesis of Equine rhinitis A virus, a major respiratory pathogen of horses. The equine industry in Australia is worth $15 billion a year. Equine respiratory disease costs Victoria, alone, $5-10 million per year. Equine rhinitis A virus is a major cause of acute febrile respiratory disease in horses. This project aims to develop an infectious clone to study the pathogenesis of the disease, and subunit antigens for use as vaccines. These reagents will increase our understand ....The molecular pathogenesis of Equine rhinitis A virus, a major respiratory pathogen of horses. The equine industry in Australia is worth $15 billion a year. Equine respiratory disease costs Victoria, alone, $5-10 million per year. Equine rhinitis A virus is a major cause of acute febrile respiratory disease in horses. This project aims to develop an infectious clone to study the pathogenesis of the disease, and subunit antigens for use as vaccines. These reagents will increase our understanding of the pathogenesis of ERAV and will lead to experimental vaccines which will be tested in horses.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989341
Funder
Australian Research Council
Funding Amount
$690,000.00
Summary
Advanced NanoBiomaterials Imaging Facility. The convergence of nanotechnology with biotechnology offers unprecedented opportunities to prepare nanomaterials with defined structure and function on the nanometre scale. However, the small length scales involved in nanomaterials present challenges in their characterisation, and in turn, their interaction with biological systems. The Advanced NanoBiomaterials Imaging Facility will provide state-of-the-art equipment for examining the properties of nan ....Advanced NanoBiomaterials Imaging Facility. The convergence of nanotechnology with biotechnology offers unprecedented opportunities to prepare nanomaterials with defined structure and function on the nanometre scale. However, the small length scales involved in nanomaterials present challenges in their characterisation, and in turn, their interaction with biological systems. The Advanced NanoBiomaterials Imaging Facility will provide state-of-the-art equipment for examining the properties of nanomaterials and their interaction with biosystems. The equipment will facilitate the development of new materials that are expected to underpin advances in drug delivery, diagnostics and implant devices, further strengthening Australia's strong reputation in these areas.Read moreRead less
Innovation Management Strategies and Practices to Accelerate the Commercialisation Process in the Biotechnology Industry. The innovation cycle is a complex and misunderstood area of management, particularly in the Biotechnology Industry where the innovation cycle can take up to 15 years. The management literature provides anecdotal information, however, lacks theoretical models which provide guidance to Managers on how to shorten the innovation process. Therefore, the aim of this PhD research, ....Innovation Management Strategies and Practices to Accelerate the Commercialisation Process in the Biotechnology Industry. The innovation cycle is a complex and misunderstood area of management, particularly in the Biotechnology Industry where the innovation cycle can take up to 15 years. The management literature provides anecdotal information, however, lacks theoretical models which provide guidance to Managers on how to shorten the innovation process. Therefore, the aim of this PhD research, which is "a world first", is to develop and test an innovation cycle model through quantitative and qualitative research. Expected outcomes include developing a valid and reliable model for measuring and predicting relationships between innovation practice and innovation performance and developing case studies for teaching purposes.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775758
Funder
Australian Research Council
Funding Amount
$587,000.00
Summary
A Mass Spectrometry and Proteomics Facility. This facility will support a large group of nationally and internationally recognised scientists working on a range of projects in the National Interest: the role of apoptosis in normal and diseased cells, mitochondrial biogenesis and genetic diseases resulting from defects in mitochondrial function, malarial vaccine and drug development, plant biotehnology, design and synthesis of drugs, DNA-anticancer drug interactions and biomarker discovery. By su ....A Mass Spectrometry and Proteomics Facility. This facility will support a large group of nationally and internationally recognised scientists working on a range of projects in the National Interest: the role of apoptosis in normal and diseased cells, mitochondrial biogenesis and genetic diseases resulting from defects in mitochondrial function, malarial vaccine and drug development, plant biotehnology, design and synthesis of drugs, DNA-anticancer drug interactions and biomarker discovery. By supporting this wide range of well funded researh, the mass spectrometry facility will support the emerging Biotechnology sector and National Research Priorities.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561042
Funder
Australian Research Council
Funding Amount
$852,705.00
Summary
Establishing a high-throughput Protein Production Unit. We seek to establish a world class high-throughput (H-T) protein production unit, the first of its kind in Australia. Throughout the unit robotic technology will be used to build and test protein expression systems as well as drive large scale protein production. The product of the unit will be high quality, pure protein, effective expression systems and world class research. The unit will act as a centre for research into H-T protein ex ....Establishing a high-throughput Protein Production Unit. We seek to establish a world class high-throughput (H-T) protein production unit, the first of its kind in Australia. Throughout the unit robotic technology will be used to build and test protein expression systems as well as drive large scale protein production. The product of the unit will be high quality, pure protein, effective expression systems and world class research. The unit will act as a centre for research into H-T protein expression technology, will underpin the finest biological research, provide the basis for large "structural genomic" type approaches to biological problems and provide a wealth of projects for the Australian synchrotron.Read moreRead less
Plant Cells for Improved Oral Delivery of Vaccines. The pharmaceutical industry is ever assessing methods of improved delivery of their valuable vaccines, pharmaceuticals and nutraceuticals. The oral route increases ease of delivery, is less expensive, and has increased patient compliance. It may also allow vaccination of free-ranging animal populations that may otherwise go untreated. Optimizing oral delivery of plant-made, valuable proteins will therefore have broad ramifications to animal and ....Plant Cells for Improved Oral Delivery of Vaccines. The pharmaceutical industry is ever assessing methods of improved delivery of their valuable vaccines, pharmaceuticals and nutraceuticals. The oral route increases ease of delivery, is less expensive, and has increased patient compliance. It may also allow vaccination of free-ranging animal populations that may otherwise go untreated. Optimizing oral delivery of plant-made, valuable proteins will therefore have broad ramifications to animal and human health industries, enhancing use of existing valuable compounds and creating opportunities for new compounds and user groups including wild and domesticated animals.Read moreRead less