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mouse mutants and techniques such as single-cell RNA sequencing and live confocal whole-mount imaging. We offer an international, inspiring, and supportive research environment and excellent research
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/researchgroups/nuclear-organization-by-actin) . We are seeking a motivated researcher to join our team in the field of cell and molecular biology. By combining advanced imaging techniques with functional genomics
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working together to understand the molecular mechanisms which regulate immune cell trafficking and function in vivo. We are especially interested in the role of integrins in immune system regulation and in
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that induce plastic cell states that are pivotal for neuronal regeneration (PMID: 34428400). The group is now exploring the underlying cellular signaling mechanisms and cell states in the CNS using genetics
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causing fluid leakage and metastasis. We are especially interested in the regulation of endothelial cell-cell junctions, and signaling by endothelial growth factor and cell adhesion receptors. For more
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specifically developing and applying new technologies (e.g. mixed reality, movement- and biosensing, remote cognitive testing, mobile EEG) for studying neurodevelopmental disorders (e.g. ADHD, autism, learning
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. (2025). Multimodal digital phenotyping study in patients with major depressive episodes and healthy controls (mobile monitoring of mood): Observational longitudinal study. JMIR Mental Health, 12, e63622
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Kim (DANDRITE) This project explores how mutations in chromatin-modifying genes disrupt early neurodevelopment by systematically profiling in vitro neurons using multimodal single-cell and spatial
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. We develop machine learning methods tailored for high-dimensional, multimodal biological data, with applications ranging from single-cell genomics to real-world clinical datasets. We are active