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evolutionarily recent genes may buffer or exacerbate these effects. About the Labs The Bonin Lab investigates cortical circuit function in sensory systems using in vivo imaging and computational modeling
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methods of neural-microglia interactions, complementing already established multi-omics approaches: non-destructive fluorescence lifetime imaging microscopy (FLIM), mass spectrometry imaging and Raman
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protein, cause a broad range of neurogenetic disorders. You will use iPSC-derived neurons to study cytoskeletal abnormalities through cutting-edge microscopy and image analysis, functional assays, and
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live-cell imaging, we can now explore hormone regulation at unprecedented single-cell resolution. Using these tools, we have observed dynamic fluctuations in brassinosteroid signalling throughout
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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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degree in biomedical sciences or related life science discipline We are looking for candidates with hands-on experience or a strong interest in spectral imaging techniques, confocal microscopy, and
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for candidates with hands-on experience or a strong interest in spectral imaging techniques, confocal microscopy, and bioinformatic analyses Experience in mouse work is highly desirable Interest in
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their evolution during catalytic operation and activation. You will apply advanced electron diffraction techniques (3DED, 4D-STEM tomography), atomic resolution STEM imaging (HAADF, ABF), EDX and EELS
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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