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Join us to decode how genetic variation reprograms brain cells and disrupts their communication using AI Job description We are looking for a PhD student to work at the intersection of machine
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Join us to decode how genetic variation reprograms brain cells and disrupts their communication using AI Job description We are looking for a PhD student to work at the intersection of machine
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of metabolic dysfunction. What you will do This PhD project aims to study a novel lipid signaling pathway in adipocytes, cells specialized in lipid uptake, storage and metabolism, that play a central role in
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include microwell arrays for 3D cell culture, as well as microfluidic organs-on-chips (OoCs) and microphysiological systems (MPSs) in various forms. The demands on these culture platforms continue to grow
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microenvironments has advanced tremendously. State-of-the-art approaches now include microwell arrays for 3D cell culture, as well as microfluidic organs-on-chips (OoCs) and microphysiological systems (MPSs) in
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) for high-throughput screening and Prof. Tim Welting (Maastricht UMC+) for cell reporters. This role also involves co-supervision, together with your daily supervisor, of Bachelor's and Master's students in
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of this response is the cardiac fibroblast, a supportive stromal cell that plays a crucial role in the scar-forming process. While we have made significant progress in understanding the biology that separates
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recent advances in microscopy and voltage indicators, we can now observe voltage signaling within different compartments of a single cell in live animals, enabling us to examine hypotheses in a truly
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for the solar-driven conversion of CO2 and NO3? into value-added C–N compounds. Discuss one critical scientific challenge that must be addressed for such a device to work efficiently, considering all three
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the environment is a global issue that warrants in-depth investigation of potential health hazards towards infants. Are you passionate to work with stem cell-based intestinal models? Do you want to study the