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Referensnummer IFM-2026-00053 Work assignments This PhD position focuses on methodological and computational development in cryo-electron microscopy (cryo-EM), with emphasis on image reconstruction
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candidate will use a combination of microscopy, proteomics, genetic constructs, and in vitro reconstitution to study if these change in biomass density results in phase transitions in the cytoplasm and if
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education to enable regions to expand quickly and sustainably. In fact, the future is made here. Description of work You will be working in the laboratory of Marta Bally (https://ballylab.com
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culture to maintain and expand cell lines for experiments. * Cell isolation, fluorescence microscopy, gel electrophoresis, DNA, RNA isolation, western blot. Prepares and determines suitability of solutions
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science using scanning probe microscopy across atomic-to-mesoscale regimes in collaboration with Professor Hiroshi Imada (scheduled to start his post at IMS on May 1, 2026). Participation in managements
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for operationalizing the room-temperature magnetoresistance effect of spintronic devices at a nanoscopic level by relying on single molecules or molecular-based 2D single layers. Scanning Tunneling Microscopy (STM
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methods (e.g., cryo-electron microscopy, X-ray crystallography, or single-molecule techniques) and will be internationally recognized for their own research activities. Cooperation within the University
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, biochemistry, or a related field Hands-on experience in cryo-electron microscopy for the determination of protein structures Experience in amyloid structure determination, electron tomography, and
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d’élucider ce mécanisme, nous proposons de développer un suivi d’organoïdes rénaux humains sous flux par microscopie multiphoton et ce, de façon longitudinale et dynamique. Ces organoïdes seront ensuite
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fibrosis, in vitro and in vivo testing therapeutic candidates, scRNAseq, spatial transcriptomics, confocal and electron microscopy imaging, flow cytometry, and standard biochemical/molecular approaches. Our