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. - Perform protein interaction studies to unravel mechanisms by which viruses induce morphological changes in host cells. - Use sequence specific fluorescent labeling to follow virus infection in a time
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period of 4 years at the Eindhoven University of Technology, Department of Mathematics and Computer Science. The student’s working locations will be at Eindhoven University where the PhD candidate will be
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. As traditional microscopy approaches are not suited to follow these minute, dynamic processes, the PhD students will use advanced microscopy and nanomanipulation techniques to record the live
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the inside out. Your role: Develop experimental approaches for imaging-based characterization of soft matter. Apply and advance continuum mechanics and machine learning techniques to infer mechanical
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of translation is crucial for controlling protein levels and guiding development. In the Ruijtenberg lab, we study these mechanisms using a combination of genome-wide sequencing and single-molecule imaging
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replication forks and trigger mutations if left unresolved. While we recently made significant progress in understanding how G-quadruplexes are resolved, the mechanisms that govern the resolution of other non-B
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. Perform protein interaction studies to unravel mechanisms by which viruses induce morphological changes in host cells. Use sequence specific fluorescent labeling to follow virus infection in a time resolved
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. We want to find out how these complex assemblies are built up. As traditional microscopy approaches are not suited to follow these minute, dynamic processes, the PhD students will use advanced
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Join us to create new smart molecules for imaging of complex mechanics. Job description Soft matter such as polymers and hydrogels are incredibly versatile materials. Their use in metamaterials and
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-supervision from Prof. Anna Wieczorek (Eindhoven University of Technology) and Dr. Christina Bidmon (Utrecht University). As a PhD candidate, you will be embedded in the Department of Organization Studies