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component of the disease, involving both innate immunity (e.g. macrophages, mast cells) as well as adaptive immunity (T- and B cells). Using state-of-the-art technology such as single-cell RNA sequencing and
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manner, and at low cost to effectively and sustainably advance green energy transition. Implementing multi-objective optimization enables the generation of Pareto optimal solutions to address multiple
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centralized Waste Water Management (WWM) system. This system relies heavily on energy and chemicals, struggles with urbanization and agriculture intensification, lacks climate change adaptation, and is often
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development pipelines for four of the most common types of cancer therapies: Small Molecules, Biologics, Cell and Gene Therapies, and Therapeutic Vaccines. On top of that we utilize the power of three
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Prosperity. At the end of their first year, students choose from one of six Majors to complete their degree – there are three BSc Majors (Global Public Health / Earth, Energy and Sustainability / Governance
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responsibilities The successful candidate will be a researcher with a background in cell biology and/or immunology who focuses on studying the immune system in response to stressors, such as challenging
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physics-based drug discovery platform, integrating state of the art Artificial Intelligence (AI) and Free Energy Perturbation (FEP) methods. Using these methods, you will screen for novel inhibitors
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, programming, and optimization for non-functional system properties (performance, power/energy consumptions, reliability, safety, security, robustness, cost, etc.) extremely challenging. This is because
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high-quality support for molecular and genomic research, cell culture, and microscopic imaging and animal facilities (fish and bird facilities). Current research focusses on animal biology at different