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be studied by cryo-electron tomography and single-molecule fluorescence microscopy. The "Mechanism of chromatin patterning" team is an international and interdisciplinary team belonging to the MCD unit
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microscopy, confocal microscopy, protein biochemistry and mass spectrometry. The postdoc will oversee master students, collaborate with a bioinformatics engineer and with cell biology engineer. The postdoc
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environments and to understand the catalytic properties of the resulting materials using transmission electron microscopy. The researcher will be responsible for these microscopy studies and will work directly
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stimulating scientific environment and state-of-the-art technical platforms (amphibian animal facility, confocal microscopy, access to SEM, CT scan). Where to apply Website https://emploi.cnrs.fr/Candidat/Offre
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defended their PhD and have not yet undertaken a postdoctoral position are eligible. The candidate will carry out scanning tunneling microscopy (STM) experiments in a cryogenic and ultra-high-vacuum
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will rely on advanced rheophysical, microscopy, and microfluidic techniques, as well as on the use of natural polymers derived from biomass (pectin, cellulose, hemicellulose), whose properties will be
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conduct directional freezing experiments coupled with confocal microscopy to study the freezing stability of soft objects. They will develop methods for the preparation and physicochemical characterization
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proximity labeling is expected. Experience in confocal imaging and/or super-resolution microscopy would be a plus. The proposed research will be supervised by Dr Marie Prevost (https://research.pasteur.fr/en
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localization microscopy, in particular to enable dynamic observation of living cells. In particular, it has recently patented various concepts for localizing molecules under structured illumination inducing
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the experimental development of an approach to the 3D characterization of organic crystals. The approach is based on thermo-microscopy, combined with multidirectional observation, allowing for in situ, 3D