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literature, to clinicians, policy makers and the wider public. The Institute offers world-class education and training across a wide range of teaching and life learning programmes which address the needs
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Zero and Sustainability. The team has developed state of the art, multidisciplinary design and systems engineering methodologies for advanced and novel aerospace systems covering a wide range of
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important yet enigmatic traits of flowering plants. Project goals include: 1) Characterising volatile metabolite production in floral tissue using state-of-the-art metabolomics instruments (LC-MS/GC-MS) in
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of Prof Anthony Green. The design of enzymes with new modes of catalysis is a major objective in modern biocatalysis. In this project will use state-of-the-art enzyme design, engineering and
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-treatment failure (due to non-compliance or ART failure; ~50%). The other major risk factor is immunosuppressive therapy (e.g. following solid-organ transplantation or long-term anti-inflammatory therapy
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intense search is performed to find a correct solution of what is measured. By combining state-of-the-art laser ultrasonic imaging techniques with advanced artificial intelligence, the aim of this project
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measured ultrasound wave speeds. However due to this being an ill-defined problem, a computationally intense search is performed to find a correct solution of what is measured. By combining state-of-the-art
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-of-the-art facilities as well as development of a mass spectrometry-based assay for detection of binding to the target protein, the human elongation factor eEF1A. This will be followed by structural
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Prof Greg Challis from Erebagen. It will provide training in biosynthetic engineering using state-of-the-art facilities as well as development of a mass spectrometry-based assay for detection of binding
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literature regarding the fracture mechanics of polymers/nanocomposites for application in cable systems. This work will generate new data on the use of 2D materials in cable structure leading to potential