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equivalent in biological or related science and have a strong background in immune cell biology and animal models of inflammatory and/or atherosclerotic heart diseases. Successful candidate should have the
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interaction and drones, with strong potential to impact our core research themes of ‘Green Energy’, ‘Future Transport’ and ‘Bioengineering & Biomaterials’. Staff also support our delivery of engineering and
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work safely, whilst passing on your own key skills and expertise. Focus on energy efficiency and sustainability, using the Schools BMS and AM&T systems to identify energy saving opportunities in a drive
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pathological bone formation and resorption in AS, and how relevant cytokines modulate bone cell function. This will be achieved using validated in vitro models of human disease. The successful applicant will
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part of a dynamic research community at SBBS (https://www.qmul.ac.uk/sbbs/ ). The school employs circa 120 academics working in evolutionary biology, genomics, cell biology, ecology, and experimental