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: Elucidating Bacterial Impacts on Colorectal Cancer Phenotypes and Therapies using patient-derived Organoids" as soon as possible. We are deploying advanced organoid co-culture systems and in vivo models in
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/ PhD Student (m/f/x) in Theoretical Biological Physics (Modeling sarcomere self-assembly) (subject to personal qualification employees are remunerated according to salary group E 13 TV-L) starting as
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mechanisms occurring in these materials and their synthesis over all relevant length scales (e.g., cutting-edge ab initio methods, atomistic simulation methods, multi-scale modelling, machine learning) High
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Humanities at the University of Cologne. A special emphasis lies on hermeneutical and "historico-contextual" models. Research topics comprise the genesis and invention of knowledge as well as processes
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assist irrigation management and promote improved representation of irrigation processes in weather and climate models. Satellite data will be used to obtain a more accurate temporal mapping of irrigation
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projects range from the analysis of basic cellular processes to clinical translation, from the application of novel biophysical approaches and the generation of mathematical models to the development of new
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unique mouse models allowing us to investigate the developmental history of macrophages together with novel disease models, including atherosclerosis regression, myocardial infarction, and heart failure
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/2024.01.27.577372). This project is part of CRC1451 (https://www.crc1451.uni-koeln.de/ ) and involves advanced mouse models, rabies tracing, chemogenetics, multi-omics, super-resolution microscopy, miniscope Ca2
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measurements with theoretical modeling, the project aims to develop a robust mechanistic framework to describe these critical processes. The position is with the Environmental Physics Group at the Institute
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Your Job: Maintain, and update quantitative methods for assessing economic impacts of the energy transition at the national and regional levels Develop dynamic and multisectoral economic models