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research on microbial mechanisms, microbiome dynamics in various ecosystems, and translational applications in clinical and biotech fields. DCs will benefit from expertise across molecular biology
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and Physical chemistry (ED182) of the Université de Strasbourg. He or she will work in the BIODYN team (“Biophysics and Dynamics of Organic Nanostructures”: a research team led by J. Léonard and S
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park, in a dynamic ecosystem that brings together academics and companies of all sizes. The Signal team of the i3S Laboratory (https://i3s.univ-cotedazur.fr/signal ), aims to develop advanced, innovative
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function concepts** to incorporate the dynamic properties of the optimization algorithm, providing a more accurate reflection of the real-world impact of samples on the final model. - **Adapt methods
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will equip 15 PhD researchers with cutting-edge expertise in combustion science, chemical kinetics, fluid dynamics, and digital modeling, preparing them to revolutionize industrial energy systems and
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utilization. DESIRE will equip 15 PhD researchers with cutting-edge expertise in combustion science, chemical kinetics, fluid dynamics, and digital modeling, preparing them to revolutionize industrial energy
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-of-the-art in silico protein structure prediction methods and in vitro screening approaches will be used to systematically elucidate the amyloidogenic potential of the gut metaproteome. Specifically, gene
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the development of climate models to meet societal expectations for climate action, particularly in the area of adaptation to future climate change. The program is structured into 10 targeted projects and one
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also recruited via JET2SB. The doctoral student will therefore be part of a particularly dynamic research effort. As part of the JET2SB project, funds have been allocated for: - the acquisition
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vitro studies and in the context of neurological diseases. We focus on understanding how axons maintain their structure and function, and how these processes break down in disease. You will have the