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will work with various advanced in vitro models (cell lines, primary cells, stem cells) and different culture conditions (2D, 3D, barrier models) to elucidate if environmental chemicals can ultimately
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food security, livestock feed, fuel, fiber, and other services under current and future climate conditions. As a guiding principle, we work synergistically in teams, base our opinions on solid science
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of equipment – which of course includes AI. Meanwhile we are pushing the limits of applied mathematics, for example mapping out disease processes using single cell data, and using mathematics to simulate
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Research Council (NWO) DIFFER plays a key role in fundamental research for the energy transition. We use a multidisciplinary approach applicable on two key areas, solar fuels for the conversion and storage
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technologies, such as cell-based therapies, 3D (bio)printing, and the application of personalized 3D implants.
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of Science at the University of Amsterdam. In the theme the study of the Microbiome is a main area of interest where system biologists, microbial physiology experts and eukaryotic cell biologists cooperate
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sustainable campus can be taken here The Phytopathology chair group is currently composed of five tenured and non-tenured scientific staff, six technicians, two lecturers, one postdoctoral researcher, one
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· Hold a PhD in engineering, medical technology, or related field, with an exceptional scientific track record focusing on in vitro model systems, stem cells, and biomedical systems
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are studied at the level of molecules, cells, cellular networks and organisms, and the interactions between and in all those levels. We integrate research on gene expression, the structure of DNA molecules and
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students and 20 postdoctoral fellows. We closely collaborate with many Dutch universities, research institutes, industry, and government. With our collection of 43 million specimens, one of the world's