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and teaching. Based within NDPH, The China Kadoorie Biobank (CKB) Study is a uniquely rich and powerful global resource for investigating the environmental and genetic determinants of common chronic
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, genetic, and DNA methylation analyses to patient-derived samples and disease models. Working closely with a dynamic and multidisciplinary team of clinicians and scientists, they will help generate and
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myeloproliferative neoplasms (MPNs). You will take a lead role in conducting wet lab experimentation, applying state-of-the-art single-cell multiomic approaches, including transcriptomic, genetic, and DNA methylation
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biology, biochemistry, and cell biology techniques (e.g. molecular cloning, protein and RNA extraction, PCR, gel electrophoresis, western blotting, mammalian cell culture, genetic manipulation of cells
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), based at the Centre for Human Genetics, University of Oxford. The post aims to assist with the preparation and molecular characterisation of tumours using multi-omic analysis focusing principally
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have collated and curated the world’s largest publicly available dataset of M. tuberculosis samples with both genetic and drug susceptibility testing data. This data has many potential uses within
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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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on genetics, OMICs and other assays is essential. We are looking for a candidate who would be able to deliver high quality research outputs, as demonstrated by a strong publication record in high profile
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in preventing immune-mediated pathology in autoimmunity remains poorly understood. Using genetic and antibody-based targeting, we aim to dissect how these pathways modulate T-cell signalling
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reverse genetics for generating recombinant influenza viruses, proximity labelling, and cross-linking mass spectrometry. The positions would suit enthusiastic and highly organised postdoctoral scientists