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independent research drive. Experience in working with mouse models (FELASA B or C required) Experience with advanced imaging/omics and CRISPR/Cas9 technology is a plus. Team-oriented, innovative, and motivated
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), spatial transcriptomics and high-throughput imaging, thus a keen interest in learning single cell/spatial data analysis is critical. WHAT WE ARE LOOKING FOR You hold a PhD in Biology, (Bio)medical Sciences
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with mouse models (FELASA B or C required) Experience with advanced imaging/omics and CRISPR/Cas9 technology is a plus. Team-oriented, innovative, and motivated to push boundaries in translational
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imaging of mouse and human urothelium, X-ray videocystometry in awake mice, and optogenetic modulation of urothelial cells. The candidate will design and conduct experiments exploring mechanosensitive ion
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investigating sensory signaling in the bladder wall and its role in lower urinary tract disorders (LUTd). The project involves advanced techniques such as ex vivo calcium imaging of mouse and human urothelium, X
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brain xenotransplantation, mouse transgenesis, in vivo mouse brain imaging, and ex vivo human brain recordings. See more in selected references from the lab: Libé-Philippot et at al. Cell (2023) 186(26
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brain xenotransplantation, mouse transgenesis, in vivo mouse brain imaging, and ex vivo human brain recordings. See more in selected references from the lab: Libé-Philippot et at al. Cell (2023) 186(26
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of state-of-the-art technologies, such as multimodal single cell approaches (CITE-seq, scATAC-seq), spatial transcriptomics and high-throughput imaging, thus a keen interest in learning single cell/spatial
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installations). - Applying mobile brain-body imaging (MoBI) and hyperscanning methods (EEG, physiology, motion tracking) to study neural and behavioral synchrony. - Collaborating with an interdisciplinary team