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: 34810257; PNAS (2023), PMID: 38048463; Nature Communications (2024), PMID: 38773107). Planned projects use a combination of advanced approaches, including molecular genetics, live cell imaging
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more. The postdoc fellow will be working on a wave-function picture of open quantum dynamics, including the effect of measurement. The applicant should be a creative and motivated researcher with
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have the opportunity to develop your projects based on your existing experience and your own career goals. The project entails: -in vivo imaging of enteric neuronal activity, and immune responses
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. The successful applicant will integrate multi-modal live imaging and omics data using AI-based pipelines to identify and refine early disease phenotypes, laying the groundwork for therapeutic intervention
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Western blotting Experience with imaging techniques is considered an advantage Strong communication and organizational skills Proficiency in written and spoken English is required We offer Multilingual and
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the emerging field of Geophotonics — a novel paradigm that explores the interaction of light with natural crystalline materials to decode the dynamics of Earth's surface. The positions offer a unique opportunity
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/3D imaging, mouse behavior, stem cell, and biomaterial approaches. For more information on research projects in the lab, please refer to our recent publications (Cell Stem Cell., 2023, PMID: 37863055
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applications for a postdoctoral position to study the impact of nutritional state on brain function and brain energy use. For our investigations, we use cutting-edge techniques—including multiphoton imaging
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operate. Our approach We combine biochemical reconstitution, live-cell imaging, multi-scale structural biology, and omics technologies to uncover how the nuclear envelope functions as an intelligent
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-culture system to study disease. By integrating single-cell multiomics, spatial transcriptomics, long-read sequencing, and high-throughput functional imaging, we aim to identify disease-relevant phenotypes