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of healthy aging using cutting-edge single-cell and AI-based tools, as well as population cohort data. You will be an integral member of the Awadalla lab, working with some of the world’s largest single-cell
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their target antigens and become activated in serious human diseases, including autoimmune disorders, infectious diseases, and cancers. We study how adaptive T cell immunity is developed and/or becomes impaired
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social mobility and its relationship to economic inequality. The post holder will work with the INET Oxford programme on Economics, Inequality, and Opportunity. About you You have completed a doctorate in
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Molecular Biology Section. EVs are produced across all kingdoms of life where they mediate cell-to-cell communication, however, in plants their biogenesis, secretion and function remain poorly understood. We
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arbuscular mycorrhizal symbiosis, led by Dr. Ronelle Roth in the Plant Molecular Biology Section. EVs are produced across all kingdoms of life where they mediate cell-to-cell communication, however, in plants
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immunology with a focus on myeloid cell biology and antimicrobial activity. You will study how microbial metabolites, particularly short-chain fatty acids, influence macrophage function and antimicrobial
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for carrying out research to develop iPSC-derived lung cell models. Working within a team of biochemists, cell and structural biologists, you will perform experimental work to apply omics technologies, advanced
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to conduct Brillouin Spectroscopy measurements on mantle minerals in the laser-heated diamond-anvil cell (DAC) using a new VIPA spectrometer, with the aim to study lower mantle phase transitions and quantify
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inhibitors and bifunctional molecules Experience in using structural guidance for ligand design Experience in cell viability and lysis assays, fluorescent reporter assays, flow cytometry, CETSA, ELISA, Western
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executing research programmes related to different aspects of thymus biology employing informative experimental models and a broad range of analytical platforms, including single cell transcriptomic analysis