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how alterations in stem and progenitor cells during homeostasis lead to disease. The advertised position is dedicated to characterizing and optimizing human esophageal organoid cultures from patient
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methodologies for optimally allocating these services based on the characteristics, availability, and operating conditions of different energy resources The research will primarily focus on improving system
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experimental research focused on downstream processing and refinery technologies for fermentation-based or microbial biomasses. Optimize microbial protein flavor and functionality while ensuring economic
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. The work will center on protein production in mammalian cells, glycosylation pathway engineering, and optimization of IgA production and purification. This project offers an exciting opportunity to develop
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to maintain system stability during major disturbances (e.g., generator outages, transmission line failures, or system separations) Developing methodologies for optimally allocating these services based
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and the Faculty of Medicine in order to optimize the conditions for preclinical and clinical translational research, research strategies and development, as well as education on both undergraduate and
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characterization of algal food protein ingredients, ensuring high yield and quality. The latter will be optimized from several aspects, including e.g., in vitro nutrient digestibility and volatile compound profile
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yield and quality. The latter will be optimized from several aspects, including e.g., in vitro nutrient digestibility and volatile compound profile. The work will be carried out in close collaboration
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and the Faculty of Medicine in order to optimize the conditions for preclinical and clinical translational research, research strategies and development, as well as education on both undergraduate and
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are looking for a curious and driven postdoctoral researcher to join a project focused on improving how we study and optimize medical treatments. The work centers on advancing a vessel-on-a-chip platform—a