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of scientific publications in relevant fields. Experience with models of myopathies or inflammation. Familiarity with stem cell-derived muscle models or 3D culture systems (including physiological
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ranked in Q1 according to Web of Science. Specific qualifications include: PhD in cell biology, molecular biology, or a related field Experience with stem cell culture and differentiation, preferably with
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system (CNS). We aim to uncover the principles of gene expression regulation during development and repurpose them for regeneration. We use a multidisciplinary approach that involves stem cell biology
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models using induced pluripotent stem cell (iPSC)-derived kidney organoids. A key aspect of this work will involve integrating bioprinting and organ-on-chip technologies to create mature and
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of cellular senescence, including senescence in stem cells, and identifying novel approaches to reduce the senescent cell burden. The candidate will join an exciting research environment in
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organoid-based research. For more information go to: https://www.bauschlab.org Your Qualification: High motivation, curiosity, and commitment to scientific excellence PhD in stem cell biology, developmental
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metabolism and drug transport. Examples of this include cell-based models such as induced-pluripotent stem cells, primary human hepatocytes, and clinical studies. The pharmacoepidemiological research group
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to identify candidate disease-causing variants. You will develop model systems, e.g. genome-editing of immune or induced pluripotent stem cells (iPSC) with specific patient-derived genetic variants. We aim
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the liver microenvironment. Experiments will utilize animal models, cell culture including induced pluripotent stem cells, and human patient samples. Required Qualifications: Applicants should hold a PhD
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transplantation. Blood, 2024. 143(11): p. 953-966. Yoshizato T. et al., Stable contribution of lineage-restricted stem cells to steady-state human haematopoiesis. Nature Genetics, 2025. Doi: https://doi.org/10.1038