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how this paves the way for novel material function. For gaining fundamental insights into the underlying physicochemical mechanisms, we use and develop time-resolved spectroscopic techniques from the X
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nanobelts. Your profile: We are looking for experimentally skilled candidates, ideally experienced in multiple-step organic synthesis Prior work on fused aromatic compounds is certainly advantageous
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experimental therapy of myocardial insufficiency. The aim of the project is to develop additional cell-permeable S100A1ct peptidomimetics with extended therapeutic capabilities and investigate
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the ability to work both independently and collaboratively. Experience in animal experimentation is a plus. Enthusiasm for onco-immunology and microbiome research and the drive to contribute to scientific
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muscle and, due to its pharmacokinetic and pharmacodynamic properties, can be used and further developed as a candidate for the experimental therapy of myocardial insufficiency. The aim of the project is
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sterilization protocols, qualifying them as important persistence factors and potential drug target. Elucidating their regulatory and working mechanisms will provide important information for potential future
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responses. Our research aims to advance our understanding of T cell signaling mechanisms through two key approaches. Firstly, we will investigate the functional significance of selected DHHC substrate
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joint successes Freshly refurbished working rooms with modern computers and laboratories for experimental field work in environmental physics A life in a beautiful historic city with diverse offers
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Tissue Engineering at the Institute of Pharmacology at Heidelberg University is looking for a PhD student to investigate the effects and underlying mechanisms of PFAS substances in human cardiac organoid
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therapeutic conditions. Such changes could be relevant for developing resistance mechanisms or could serve as potential new points-of-interference for therapy. Your profile Master’s degree in Biology