30 renewable-energy "European Molecular Biology Laboratory (EMBL) " positions at University of London in United Kingdom
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effects T cell ageing. This position would particularly suit a researcher with an interest in the application of complex bioinformatic analysis and machine learning to create a model of metabolic T cell
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involving the Chan Zuckerberg Initiative-funded Human Pediatric Skin Atlas which will involve recruitment of patients, patient and public engagement through the Centre of the Cell and use of cutting-edge
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the renewal process as well as arranging cover, managing claims and providing expert advice to colleagues. The post sits within our Finance team. We offer a highly competitive rewards and benefits
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-energy conversion in molecular quantum devices for potential applications in solid-state waste-heat recovery and cooling. You will develop and test a theoretical framework describing the thermodynamics
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partnerships in the UK, international educational partnerships, commercial contracts, consultancy, and ad-hoc agreements and contracts as required. The Contracts Manager will also work on the review and renewal
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) in order to realise the objectives and development of the research programme. The post holder will investigate critical survival and proliferative pathways in B-cell malignancies. The project aims
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aims to understand the biological mechanisms that underpin disease initiation, progression and the different clinical behaviours of specific B- and T-cell non-Hodgkin’s lymphomas by investigating intra
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others to manage the renewal process as well as arranging cover, managing claims and providing expert advice to colleagues. The post sits within our Finance team. We offer a highly competitive rewards and
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composites. They will also have prior experience in experimental statistical design, in vitro cytotoxicity and functional osteogenic cell testing. Prior knowledge of the fields of bone tissue augmentation and
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spatial tissue patterning methodologies to control cellular and matrix microenvironments, stem cell differentiation cues and cell populations within next generation organ-chips. The PDRAs will develop