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& Sciences (SCMMS) provides an outstanding multi-disciplinary environment for the pursuit of cutting-edge cardiovascular and metabolic research. We study the fundamental molecular, cellular, and physiological
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physiological responses to stressors and designing smart wearable sensors to track individual bat movements. Public engagement and maintaining positive working relationships with various stakeholders will also be
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science researcher with an interest in applied crop systems, plant physiological and molecular methods and analysis. The position holder will take a leading role in a collaborative academic and industry
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nitrogen fixation (BNF) to improve yield and yield stability in faba beans within the UK. You will have the opportunity to delve into various aspects of plant/crop physiology, nitrogen metabolism in legumes
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will have the opportunity to delve into various aspects of plant/crop physiology, nitrogen metabolism in legumes, and BNF. Moreover, if you have experience working with isotopes in agriculture
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on the societal impacts of extreme heat events, including those severe enough to overwhelm human physiology. Using the case study of Jacobabad, Pakistan (one of the hottest cities on earth), the appointed candidate
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the relatively near future. The focus for this specific position will be on the societal impacts of extreme heat events, including those severe enough to overwhelm human physiology. Using the case study of
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of about 24 h, that provide a biological measure of time. In plants, circadian regulation has key roles in the control of metabolism, physiology and development that are crucial for ecology and
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pathways and stress responses. The project will involve the use of i) iPSC-derived cardiomyocytes and "engineered heart tissues (EHT)" and ii) experimental in vivo models of cardiac disease. We therefore
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Prof. Ajay Shah on the role of changes in cardiac metabolism to pathological cardiac remodelling, with specific focus on glucose anabolic pathways and stress responses. The project will involve the use