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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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by Professor Tim Tree, at King's College London. Our team focuses on understanding the immune system's role in autoimmune and inflammatory diseases and exploring immunotherapy to treat them
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COVID-19 on these processes. This project is part of the Brain Health in Gen2020 programme, and will aim to characterise the cell behaviour of early human cortical progenitors and the effect of COVID-19
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Travel ” which examines signal processing and machine learning methods for inferring active travel activities from optical fibre signals. About You Applicants must have an Undergraduate Degree in
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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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Contract type Fixed-term Job category Research Hours Full-time Salary min £42,882 Salary max £42,882 Publication date 17-Jun-2025 Closing date 22-Jun-2025 The Signal Processing Engineer will be placed within
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foldamer catalysts, and their application towards a variety of stereoselective processes, including organocatalytic and photocatalytic reactions. Applicants should have extensive experience in both small
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and/or flow cytometry-based readouts of infection Experience with biochemical assays (e.g. Western blotting) Experience handling/processing samples in vivo infection models and/or human samples
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Experience in fluorescence microscopy and/or flow cytometry-based readouts of infection Experience with biochemical assays (e.g. Western blotting) Experience handling/processing samples in vivo infection