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? Horizon 2020 Is the Job related to staff position within a Research Infrastructure? No Offer Description The Nanobio team develops innovative fluorescence microscopy techniques designed to push the limits
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tools for interfacing with the brain, including genetically encoded voltage indicators (GEVIs), optogenetic silencers, and fluorescent proteins. We welcome candidates with diverse expertise, which may
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, and analysis of multicolor images. - Advanced optical microscopy (nanoscopy) - Image acquisition and analysis - Microfluidics - Fluorescent labeling protocol - Multimodal characterization
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candidate will join an exciting research program exploring a newly emerging paradigm in immunology: mitochondrial transfer and synthetic organelle therapy. Using newly developed genetically engineered mouse
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decide the fate of their RNAs - whether to translate, store, or degrade them. Using biochemical reconstitution, fluorescent labeling, and single-molecule imaging, you will explore how molecular machines
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their expert imaging scientists. The technical capabilities include widefield and confocal microscopy as well as advanced imaging such as live cell imaging, total internal reflection fluorescence (TIRF
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for binding critical minerals and materials. The postdoc will be part of a collaborative team of researchers in the Molecular Foundry from the Biological Nanostructures, Data Science and Infrastructure, Imaging
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(Profs. Louis Mansky, Joachim Mueller and Wei Zhang) using cryoelectron microscopy/tomography (cryo-EM/ET) and quantitative fluorescence imaging technologies (e.g., TIRF, PALM, FCS) to ongoing studies
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of state of the art imaging technologies for the investigation of biomedical questions. RESPONSIBILITIES: You will generate fusion construct of plexins receptors with fluorescent proteins or tags
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force microscopy (AFM), advanced fluorescence and confocal microscopy, and quantitative biophysics. The project aims to elucidate how mechanical properties and forces emerge from molecular and structural