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and stem cell biology. The study investigates how APOE4 expression in endothelial cells affects oligodendrocyte progenitor cells (OPCs), using iPSC-derived 3D co-culture models. This work aims to
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polymer chemistry or tissue engineering. Strong skill set for data analysis and interpretation, coupled with excellent written and verbal communication abilities. Ability to work effectively in a
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. Training in state-of-the-art technologies and data analysis as well as research management, oral and written communication. Participation to international conferences to facilitate successful integration
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this project, using extensive primary cell culture, molecular analysis, scRNAseq, non-invasive imaging analysis, along with mechanistic studies using 2D/3D culture models, we will dissect the distinct cellular
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regeneration. Our approach is to use cutting-edge tools such as single cell genomics, epigenomics, high-resolution microscopy, novel transgenic mouse models, 3D organoid in vitro models, and customized
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Simulation and Physics of Drosophila Larva Body Dynamics Introduction The “STRETCHED” project aims to develop a robust, physics-based 3D simulation platform to replicate the motor control dynamics
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biology techniques, including high-dimensional flow cytometry, immunofluorescence gene expression analysis, cell culture (2D and 3D) and microbiology. Excellent communication and organizational skills, with
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to the characterization of metal nanostructures stabilised on defective graphene films Development of an automated 3D structure analysis software applicable for a broad range of scientific end users Skills that the student
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Uppsala University, Department of Information Technology Are you interested in developing new image analysis and machine learning methods for precision medicine and clinical decision support? Would
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industrial partners, both national and international Perform data analysis, write scientific articles and present your research at conferences and meetings Contribute to teaching and student project