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approach combining cryo-electron microscopy, NMR spectroscopy, and advanced molecular modeling, the research will unravel the molecular architecture and conformational dynamics of pili and their interactions
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microscopy, protein immunoblotting, maintenance of cell cultures, and DNA isolation and analysis. Attend all orientation and training sessions designated by the University and Department, attend departmental
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access to our in-house electron microscopy suite (Titan Krios 5, Titan Krios G2, Arctis Cryo-Plasma FIB/SEM) for cryo-EM and cryo-ET studies, a triple-quad LC/MS-MS for compound ID and targeted
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an important role in the development of many new techniques, most notably protein crystallography, cryo-electron microscopy, DNA sequencing and monoclonal antibodies. The LMB has a clear goal of understanding
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the advanced imaging techniques available, including confocal microscopy for tracking fluorescent MPs and developmental analyses, as well as Scanning Electron Microscopy (SEM) available at the MNHN site. He/she
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a project linked to the “Helmholtz School for Data Science in Life, Earth and Energy (HDS-LEE)”. Your Job: Develop 3D+t image reconstruction methods in a cell microscopy setting using image sequences
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behavioural testing general histological techniques and immunocytochemistry confocal microscopy transmission electron microscopy image analysis using dedicated software (eg Neurolucida for confocal, Neurolucida
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and GAs Department's Website: https://www.cellbiophysics.com/research Summary of Job Duties: This Postdoctoral Fellow in Biomedical Engineering will contribute to one component of the R35-funded
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by the electron beam deposition technique available in a modern facility established in Fresnel Institute (Espace Photonique). An optimal crystallization of the thin film layers is necessary in order
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virtual screening approaches • validate inhibitors via biological assays, through hands-on cell biology experiments, genetics, and advanced light microscopy approaches to measure compound toxicity and