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proteome in heart-specific cell lines and primary tissue. It will utilize disease model systems to characterize unique cell surface signatures for cardiomyocytes, coronary endothelial cells, and fibroblasts
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. The research is primarily translational in nature, involving both preclinical models and human sample analysis from clinical trials, and is carried out in close collaboration with the pharmaceutical industry
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contribute to cutting-edge research spanning fundamental T cell biology, cancer immunotherapy, and immune-based cancer prevention strategies. The postholder will investigate how cancer cells manipulate local
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of Chemistry, University of Oxford, for a period of up to 2 years. The project involves the synthesis of synthetic supramolecular transport systems for ions and other polar molecules, that are based on stimuli
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multidisciplinary research and teaching facility due to open in the summer of 2025. The post holder’s overall responsibility is to conduct innovative discovery and applied research on emotional, imagery-based
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challenges, from reducing our carbon emissions to developing vaccines during a pandemic. The Department of Psychiatry is based on the Warneford Hospital site in Oxford – a friendly, welcoming place of work
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of spray droplets by the action of wind over ocean waves (i.e. spume). In this role, you will develop numerical, experimental, and (ideally) theoretical models within the topic of surfactant-laden droplet
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This is a re-advertisement of vacancy 180153. Previous applicants need not apply. A postdoctoral position is available in Prof. Ivan Ahel’s group based in the Sir William Dunn School of Pathology
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modern privacy-enhancing technologies (e.g. based upon synthetic data or using formal differential privacy guarantees) impact research integrity and reproducibility. This is an exciting line of research
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to conventional lab-based XPS instruments, to make it a widely accessible research tool for academia and industry. You will have responsibility for adapting ultrahigh vacuum equipment to accommodate the reaction