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across animals: 1. Regulation of the actin cytoskeleton during phagocytosis; 2. Recognition of targets of phagocytosis. To do this we will use different experimental models across the evolution of animals
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to develop improved models for predicting neurotoxicity. Neurotoxic chemicals interfere with the normal development and function of the nervous system, leading to a range of adverse consequences. Traditionally
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researchers, health data experts and health service providers. It seeks to integrate the human (ensuring person-centred preferences about care) with the technological ( “digital twin” computer models of health
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exchange across diverse mycorrhizal networks. Field experiments will link lab-based findings to ecosystem-level processes. Additionally, you will construct and deploy bioenergetic models to interpret plant
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analytical techniques to identify patterns and trends in service operations data Develop predictive models to forecast service demands and resource requirements Create comprehensive dashboards and
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Overview We are seeking to appoint a Research Associate in Power Systems Engineering. You will play a key role in developing advanced modelling and simulation techniques for power systems, with a
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fungi in model plant systems. You will work as part of a multidisciplinary team of scientists from the University of Sheffield, Dr Silvia Pressel at the Natural History Museum, London, and Professor David
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information across regions to make sense of the world and respond in real time? This PhD project will address this question using cutting-edge experimental and computational approaches in two model systems
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providers. Key elements of the project include the development of “digital twin” computer systems to model and inform patterns of medical testing in long term conditions and the use of engineering approaches
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'fit for purpose' after simulated long-term use. This non-linear behavior necessitates the use of advanced ML models that can capture complex degradation kinetics. Additionally, functional tapping torque