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. Our team focuses on understanding the immune system's role in autoimmune and inflammatory diseases and exploring immunotherapy to treat them. This exciting project involves characterising samples from a
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focused on integrating synthetic biology, AI, and multi-omics technologies to decode and design gene expression regulation for human cell engineering. About the role We are looking for an ambitious and
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states of asymptomatic colonisation and invasive disease. We are seeking a driven Research Associate with a strong infection biology skillset to lead a high impact project with two key aims: (1) defining
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human trophectoderm development. The aim of this project is to test the functional requirement for signalling pathways in trophectoderm development. We have recently identified a number of candidate
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campus. The research focuses on elucidating mechanisms underlying human trophectoderm development. The aim of this project is to test the functional requirement for signalling pathways in trophectoderm
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is part of the Precision Musculoskeletal Care theme at the NIHR Biomedical Research Centre. The PDRA will help drive our activity in developing, validating, and testing a suit of new musculoskeletal
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and independently, e.g., demonstrated through track record of developing own scientific ideas Enthusiasm and motivation to purse complex scientific projects Excellent organisational and time-management
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biomedical data scientist / computational biologist to join our highly collaborative team at QMUL. PhD (or close to completion) or research qualification/experience equivalent to PhD level in the relevant
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support projects using GWAS, Mendelian Randomisation, and polygenic risk score analysis to uncover genetic mechanisms underlying complex traits. There are opportunities to integrate omics data across
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both institutions and industry partners. About the Project You will join FabricFlow – an innovative AI-powered ecosystem that revolutionises how fabrics are tracked and managed in the fashion industry