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the developmental programs that shape inhibitory circuits in the brain. We use various interdisciplinary techniques such as mouse genetics, high content imaging, single cell RNA sequencing, and spatial
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genetics of disease models, human pluripotent stem cells derived neurons, high content imaging, electrophysiology, single cell RNA sequencing, bioinformatics, and spatial transcriptomics technologies. We
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project that combines cutting-edge approaches including state-of-the-art imaging techniques, pluripotent stem cell models, in vivo mouse models of neurological disorders, drug (brain) delivery and nanobody
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this specificity and test how these regulate structure and function of higher-order thalamocortical inputs in cortical circuits. The applicant will use various technologies, including super-resolution imaging
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incoming project requests and manage timelines and deliverables. Support experimental planning and study design, bridging spatial imaging and sequencing-based approaches. Help define optimal
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Knowledgeable RGB, thermal and hyperspectral camera’s Interest in image-based plant phenotyping Key personal characteristics You are enthusiastic and curious about scientific research You like learning new
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to biological data sets such as omics data, protein structure prediction, or biomedical imaging. Technical experience in programming (Python preferred), and/or machine learning is a plus—not a requirement. We
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, and the experts consult, train, and collaborate with users on experimental design, image acquisition, and image analysis. The focus of the responsibilities of the new Technician is to provide advanced
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researchers with over 100 staff members. The VIB Bioimaging Core in Leuven is looking to expand its capabilities for Electron Microscopy (EM) sample preparation and image acquisition in transmission (TEM) and
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regulation using single-cell and spatial multi-omics data; AI-based modeling of protein structure and protein interaction networks; AI-based modeling of cell morphology and tissue function using imaging and