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approaches including targeted genetic murine models, primary cell culture and analysis, multi-omics and bioinformatics. The biological focus will be on vascular biology, immune cell function and metabolism
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the evaluation of the local food environment context in Liverpool, how it affects communities in social housing experiencing food insecurity, and the epidemiological modelling of the impact of a series of
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analysis strategies including phospho/proteomics and metabolmics, selected cell culture and animal model systems as well as clinical samples will be investigated. Your future tasks: Active participation in
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by robots. Navigation: Crafting mapping and navigation solutions that take into account the semantics of complex, real-world environments. AI for Physical Systems: Utilizing AI to boost
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The GEOCLOUD project team will use the cloud policy dataset together with infrastructure and usage data developed in other work packages to model how policies influence cloud geography and computational
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- and babesiosis-causing parasites. This MRC-funded 3-year research project will reveal the function of the RIPR protein complex in the malaria parasites Plasmodium knowlesi and Plasmodium vivax
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microscopy, as well as in developing approaches to track cell migration in the spleen in real time. Extensive experience with immunization and infection models is also essential. Experience in independently
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-Performance Computing (HPC) systems are essential infrastructure for solving complex scientific and engineering challenges. However, the rapid growth of HPC alongside AI is creating an urgent sustainability
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analytical modelling, health inequalities research, and evidence synthesis. By leveraging these diverse approaches, we strive to produce evidence-based research that strengthen public health and inform policy
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Earth and bring about positive change. The postholder will be mentored by Inês Martins , who holds a University Research Fellowship from the Royal Society entitled ‘Understanding the Complex Dynamics