Controlled Crystallisation of Bioactives. The new technologies developed in this project for bioactive recovery and particle design will allow the development of new value added products for Australia's growing biotechnology industry, especially in pharmaceuticals, neutraceuticals and functional foods. Two PhD students will receive excellent research training to then move into research and development in these industries.
Particle Design for Recovery and Delivery of Bioactives. This project will develop new strategies for economically viable recovery of bioactives from complex solutions, slurries and sludges of biomaterials eg. waste streams from milk and soy bean processing, and fermentation broths. These bioactives, often proteins, have growing applications as high value drugs, nutriceuticals and food additives but are difficult to separate and to maintain in an active form. Crystallisation will be used as a ....Particle Design for Recovery and Delivery of Bioactives. This project will develop new strategies for economically viable recovery of bioactives from complex solutions, slurries and sludges of biomaterials eg. waste streams from milk and soy bean processing, and fermentation broths. These bioactives, often proteins, have growing applications as high value drugs, nutriceuticals and food additives but are difficult to separate and to maintain in an active form. Crystallisation will be used as a primary separation technique. Molecular studies of protein interactions will be used to predict good crystallisation conditions and linked to process crystallisation studies. Both standard and novel particle design strategies will be used to control crystal size and morphology, as well as package the boactive in a deliverable form without loss of activity.Read moreRead less
Particle design and recovery of bioactives by crystallisation and precipitation. This project will develop new strategies for economically viable recovery of bioactives from complex solutions of biomaterials eg. separation of biopharmaceuticals from genetically engineered cell culture, food ingredient processing, functional food and nutraceutical extraction from natural sources. Crystallisation and precipitation will be used as primary separation techniques. We propose a new paradigm in which ....Particle design and recovery of bioactives by crystallisation and precipitation. This project will develop new strategies for economically viable recovery of bioactives from complex solutions of biomaterials eg. separation of biopharmaceuticals from genetically engineered cell culture, food ingredient processing, functional food and nutraceutical extraction from natural sources. Crystallisation and precipitation will be used as primary separation techniques. We propose a new paradigm in which molecular studies of protein interactions will be used to predict good crystallisation conditions and linked to process crystalliation studies. Studies will use a model system of egg white protein mixtures and a real system of industrial importance - the purification of valuable protein products from soy beans (valued at $500 million per year world wide). Soy beans studies will include pilot scale tests at Dupont's industrial reseach laboratories.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453524
Funder
Australian Research Council
Funding Amount
$321,456.00
Summary
The Centre for Advanced Light Microscopy: Equipment for in-vivo multiphoton microscopy and high-throughput confocal microscopy. The Centre for Advanced Light Microscopy was established with ARC RIEF funding and is currently experiencing overwhelming demand as the sole confocal provider for 260 researchers at multiple institutions in south-east Queensland. The present joint application of the Universities of Queensland and Southern Queensland seeks to build on the resounding success of the origi ....The Centre for Advanced Light Microscopy: Equipment for in-vivo multiphoton microscopy and high-throughput confocal microscopy. The Centre for Advanced Light Microscopy was established with ARC RIEF funding and is currently experiencing overwhelming demand as the sole confocal provider for 260 researchers at multiple institutions in south-east Queensland. The present joint application of the Universities of Queensland and Southern Queensland seeks to build on the resounding success of the original initiative by introducing state-of-the-art confocal and multiphoton applications. This powerful platform technology will allow structural and functional information to be obtained from sensitive live samples with unprecedented spatial and temporal resolution, augmenting and accelerating vital research in the biosciences.
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