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preclinical models. Applying advanced molecular and cellular techniques, such as bulk and single-cell RNA sequencing, spatial transcriptomics, immunohistochemistry, immunoprecipitation, RNA-pull down, ChIP-seq
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in vivo genetic mouse models, advanced live and intravital imaging, engineered microchip models, primary cell co-culture systems and novel microscopy and analysis methods. The research will provide
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fellows, PhD students, researchers, technical- and administrative staff. The Department has today c. 200 employees, hosts one Centre of Excellence (PHAB) and seven European Research Council (ERC) grants
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and Alice Wallenberg (KAW) Foundation. The DDLS program funds 50 high-profile young group leaders (“Fellows”), over 210 postdoctoral positions and has established a research school for 260 PhDs
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contribute to projects using cutting-edge molecular, cellular, and spatial profiling approaches to dissect vascular and immune signaling across injury models. Key technologies and methodologies include
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. The candidate will have access to advanced platforms for single-cell and spatial omics, 3D tissue modeling, bioreactors, and in vivo models. The successful fellow will also contribute to collaborative efforts
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in situ measurement techniques. Strong quantitative skills, including ecological modelling, spatial analysis, and interpretation of biological datasets. Demonstrated leadership of abalone field
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into different atmospheric layers. Numerical model to describe the temporal and spatial dispersion behaviour of ablated gases in the atmosphere. Derivation of parameters necessary for the calculation of regional
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to usher in the era of personalized disease modeling? The Digital Twin Innovation Hub is currently seeking skilled and experienced individuals to fulfill a variety of full-time temporary staff roles
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genetics, bioinformatics, molecular biology, and animal models to understand the factors that contribute to the onset and progression of osteoarthritis. The Jurynec Lab has identified over 100 candidate gene