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novel neuroprotective strategies. You will utilise in vivo rodent models of neurodegeneration in combination with sleep/circadian clock modulators to develop an in-depth understanding of consequences
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. This will involve analyzing sequence data from bacterial isolates collected during a clinical trial combined and from large scale lab evolution experiments. The postholder will work as part of a large team
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related area, prior to taking up the appointment. The research requires experience in statistical mechanics, and combined simulation/experimental studies of disordered systems. You will be expected
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at barrier surfaces. The work will combine advanced flow cytometry, immunohistochemistry, functional antimicrobial assays, confocal imaging and molecular techniques, alongside state-of-the-art imaging
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of temperature on plant-pathogen interactions. We are applying an integrated approach that combines understanding of pathogen biology and plant immunity to inform the development of climate-resilient crops. You
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’ (PHOENIX), led by Associate Professor Thomas Aubry (University of Oxford). Using a combination of laboratory experiments, field work and numerical modelling, PHOENIX aims to improve our understanding
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the polymers will be investigated to discover earth-abundant and synergic metal combinations and to elucidate the minimum energy inputs to enable effective polymer production. The research will involve catalyst
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. To address these questions, we combine a series of interdisciplinary approaches ranging from experimental embryology and fluorescent microscopy to mathematical modelling. The lab is highly interdisciplinary
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at rates approaching 200Hz. The combination of high rate and high fidelity remote entanglement has allowed us to make world-first demonstrations in the areas of quantum cryptography, quantum metrology, and
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Claudia Monaco’s research group at the Kennedy Institute of Rheumatology. In this role, you will apply single cell biology and cell signalling techniques combined with in vivo and in vitro models