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techniques of cryo-electron microscopy (cryo-EM), small angle X-ray scattering (SAXS), single-molecule force spectroscopy (SMFS), biochemistry, mutational analysis, cell culture, activity assays, et cetera
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project, which aims to explore the potential of paramagnetic complexes as solid-state quantum bits (qubits) for quantum information processing. In order to measure properties at the single-molecule scale
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. Research directions may include: Quantitative mechanical measurements of single molecules, cells, nuclei, and tissues AFM-based force spectroscopy, indentation, and correlative AFM–confocal approaches
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that are properly folded and competent for protein translation. Force spectroscopy (optical and magnetic tweezers), single-molecule fluorescence, and bulk biochemical methods will be used to investigate how
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based on proton quantum tunneling. The aim is to advance energy-efficient memcomputing technologies that integrate information processing and storage within single molecular systems, with potential
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sequencing output. This project brings together chemical biology, molecular biology, and computational science to achieve direct, single-molecule resolution of RNA cap structures. Job-ID: V000015123 Field
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or mapping single molecules within tissues for biomedical applications we want to hear from you. Join our interdisciplinary group as a postdoctoral researcher at Karolinska Institutet and help us transform
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. As part of the study, the candidate will receive training in single-molecule imaging. The applicant will also be expected to interact with graduate students in the laboratory and participate in
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phenotypes are used as readouts in drug screening approaches, to identify molecules that, after in vitro and in vivo validation, could be potentially used in future intelligent clinical trials. The clinical
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includes research encompassing experimental and theoretical approaches at a wide variety of temporal and spatial scales, i.e. from molecules and microorganisms to patterns and processes occurring