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for 1 year with a possible extension. Reporting to the Principal Investigator, you will help ensure a healthy and vibrant research environment within the VGG. This will involve conducting research in deep
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, including murine in vivo models, as well as in vitro studies using primary in-vivo and patient samples. You will apply flow cytometry to monitor immune responses and utilize next-generation sequencing
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possible extension. Reporting to the Principal Investigator, you will help ensure a healthy and vibrant research environment within the Visual Geometry Group (Central Oxford). This will involve conducting
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management of sport injuries, with emphasis on safety rather than performance. You will be part of an interdisciplinary team of pioneering researchers, with the primary aim to develop cutting-edge robotics and
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approaches including targeted genetic murine models, primary cell culture and analysis, multi-omics and bioinformatics. The biological focus will be on vascular biology, immune cell function and metabolism
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• Demonstrable expertise in in vivo mouse models of immune function (e.g. infection, tumour, autoimmunity, or tolerance) • Strong experience with primary T cell isolation, stimulation, and functional
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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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and to master several laboratory techniques, and to commit to high standards, including record keeping and laboratory management. Basic bioinformatics skills or a willingness to learn them, and an
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. The position is available for a fixed term of 36 months from time of appointment. This project is associated with a new EPSRC/UKRI-funded project entitled “Mastering charge-lattice interactions in novel
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cancer biology, molecular biology, medicine, or neuroscience. Your expertise will include molecular biology techniques, advanced microscopy, quantitative image analysis, and primary tissue culture, all