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analysis. The role will undertake both collaborative and self-directed research in the general areas supported by the grant, including labour supply modelling, optimal tax modelling within an overlapping
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equipment to general specifications Undertake advanced elements of research in microbial strain engineering and precision fermentation. Apply specialist technical skills and knowledge in molecular cloning
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traceability and species identification, including optimisation of laboratory and field-deployable protocols. Generate, manage and analyse genetic/genomic datasets using appropriate bioinformatics, statistical
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Work at the cutting edge of next‑generation biomanufacturing within a globally recognised synthetic biology research environment. Grow your career in an interdisciplinary, well‑resourced ecosystem
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discovery, generating mechanistic data that directly informs the development of next‑generation medicines for neurological disorders Base Salary, Academic Level A $113,400 - $121,054 + 17% superannuation
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discovery, generating mechanistic data that directly informs the development of next‑generation medicines for neurological disorders Base Salary, Academic Level A $113,400 - $121,054 + 17% superannuation
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of ageing. This is a molecular and cellular research project that is expected to generate new insights into brain metabolism, how glial cells and neurons communicate, and how these processes break down in
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of large-scale infrastructure and organisational complexity. This research stream goes beyond solving isolated engineering problems. It seeks to establish a new generation of AI-powered frameworks
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goes beyond solving isolated engineering problems. It seeks to establish a new generation of AI-powered frameworks capable of transforming how large organisations design, govern, and execute complex
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and aerosol characterisation, including: -Laser diffraction -Next Generation Impactor (NGI) -Liquid chromatography-based analyses Analyse and interpret experimental data to inform iterative formulation