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Industrial Transformation Training Centres - Grant ID: IC160100027
Funder
Australian Research Council
Funding Amount
$4,340,802.00
Summary
ARC Training Centre for Biopharmaceutical Innovation. ARC Training Centre for Biopharmaceutical Innovation. This centre aims to transform Australia’s growing biopharmaceutical industry, an advanced manufacturing capability, by training specialist biotechnologists and bioengineers. It expects the research and development outputs will create new biopharmaceuticals and antibody-based reagents, enhanced production methods, improved manufacturing capabilities and a cohort of specialist scientists. Ne ....ARC Training Centre for Biopharmaceutical Innovation. ARC Training Centre for Biopharmaceutical Innovation. This centre aims to transform Australia’s growing biopharmaceutical industry, an advanced manufacturing capability, by training specialist biotechnologists and bioengineers. It expects the research and development outputs will create new biopharmaceuticals and antibody-based reagents, enhanced production methods, improved manufacturing capabilities and a cohort of specialist scientists. New biopharmaceuticals are expected to benefit the Australian economy and provide new therapeutic options for better health outcomes. Industry-driven research projects will also provide industry-ready graduates who can drive future growth in the sector.Read moreRead less
Tools for manipulating neuronal activity for behavioural studies. This project aims to develop optogenetic tools neuroscientists can use to better understand brain circuitry and the functional effects of specific neurons on behaviour. Linking the activity of individual neurons in the brain to specific behaviours is a major challenge in neuroscience. Optogenetics achieve this by using light to control the activity of neurons. This has advanced understanding of behaviour and neurocircuitry. This p ....Tools for manipulating neuronal activity for behavioural studies. This project aims to develop optogenetic tools neuroscientists can use to better understand brain circuitry and the functional effects of specific neurons on behaviour. Linking the activity of individual neurons in the brain to specific behaviours is a major challenge in neuroscience. Optogenetics achieve this by using light to control the activity of neurons. This has advanced understanding of behaviour and neurocircuitry. This project is expected to increase understanding of brain function at the cellular and system levels, and advance Australia’s multidisciplinary research capacity in neuroscience, cognitive sciences and nanobiotechnology to ultimately treat neurological disorders.Read moreRead less
Single-session Introduction of Mutations in Parallel Lines (SIMPL). This project aims to develop a novel method for markedly accelerating production of genetically modified mice, which are a key 'tool' for studying biological processes and diseases. The work plans to take CRISPR, the latest gene-editing technique, to the next level by developing a novel CRISPR-based method to generate different mouse strains with distinct variations of the same gene sequences, at a fraction of the present cost a ....Single-session Introduction of Mutations in Parallel Lines (SIMPL). This project aims to develop a novel method for markedly accelerating production of genetically modified mice, which are a key 'tool' for studying biological processes and diseases. The work plans to take CRISPR, the latest gene-editing technique, to the next level by developing a novel CRISPR-based method to generate different mouse strains with distinct variations of the same gene sequences, at a fraction of the present cost and time. This project should overcome a major barrier to studying gene function with unprecedented detail, thereby opening new avenues for future research into biological processes. Thus, the outcomes from this project should impact on the entire field of biomedical research, and advance Australia's biotech industry.Read moreRead less