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1,000 employees from over 50 nations, it is the largest institute of the Max Planck Society . The research group Molecular Mechanisms of Membrane Trafficking (Dr. Oleksiy Kovtun) at the City Campus
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its generation and manipulation to its application. The services offered by the institute cover the entire photonic process chain ranging from opto-mechanical and opto-electronical system design to
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the molecular mechanisms of early tumorigenesis and translating these insights into cancer prevention strategies. Our lab has published high-impact work on various cancer types (e.g., Cancer Cell 2018, PMID
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Training Group (RTG) “Activation of anti-Microbial Effectors (ACME)” (coordinator: Dirk Schlüter, Hannover) funded by the German Research Foundation. The central aim of the program is to give highly
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macromolecular dynamics with statistical mechanics, molecular simulation at different resolutions, machine learning, and experimental data. Our group works on the definition and implementation of strategies
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track to W3) or W3 Associate Professor; to begin as soon as possible. Scientific Environment The professorship will be assigned to the Department of Mechanical Engineering at the TUM School of Engineering
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numerical fluid mechanics, scientific computing, or model-order reduction, who is willing to engage in innovative and interdisciplinary research questions. The successful candidate will also have the
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Lüneburg) and supported by Dr.‑Ing. Frederic Bock (Hereon). The objective is to combine computer simulations and machine leaning models to extend their compatibility with problems from mechanical engineering
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extension, in the programme area "Next-Generation Horticultural Systems" (HORTSYS), in the research group "Open Field Horticultural Systems" within the EU-HORIZON project NitroScope - "Scoping European N
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damage are responsible for many of the mutations that cause cancer and treatment resistance. But their dynamics, the molecular machinery involved, and their role in disease are still poorly understood