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the following areas will be considered: Microscopy development and applications: Design, construction and application of high-speed 3D microscopy methods including our SCAPE / light-sheet approaches, two-photon
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biochemistry. Expertise in e.g. CRISPR-mediated gene editing, protein structure prediction, mass spectrometry-based proteomics, or fluorescence microscopy. Expertise and interest in functional analysis
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and α-synuclein pathology. The research combines advanced 3D stem cell modeling, neuroimmune interaction studies, high-content imaging, molecular and biochemical analyses and the evaluation
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. size-selected cluster sources. Catalytic testing using ultra-sensitive chip-interfaced electrochemistry–mass spectrometry (EC–MS) and ultra-high-vacuum-compatible thermal catalytic setups. 3D atomic
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. About the research project The project addresses skin cancers and chronic inflammatory/fibrotic skin diseases using the cutting-edge spatial proteomics platform. You will integrate 3D and multiplexed
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; Nanopore Sensing and Sequencing, 3D Tissue Construction, and Device Engineering to create next-generation technologies that translate discovery into clinical impact. EIT Oxford fosters a culture of
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be used to prepare lamella samples for high resolution cryo-EM imaging and tomography. From AI assisted image analysis, 3D models for key proteins and biomolecular complexes will be fitted into 3D