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Field
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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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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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. 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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key platform molecules, 5-hydroxymethylfurfural (5-HMF) offers exceptional potential for the production of bio-based polymers, fuels, and fine chemicals. However, conventional catalytic oxidation routes
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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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metals and inorganic materials are well-studied, little is known about systems where the host and dopants are small organic molecules (MoSS). There is huge potential of utilising MoSS for changing and
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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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Nanopore, with a strong emphasis on single-molecule chromatin fiber profiling (e.g. Fiber-seq). Applies and/or develops epigenomic and transcriptomic assays such as CUT&RUN and RNA-seq (including specialized
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molecules using site-specific conjugation strategies. - Development of DNA origami scaffolds to spatially organize and orient proteins for structural studies by single-particle Cryo-Electron Microscopy
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will encompass bio-informatician analysis, organ on-a chip development, small molecules testing, precision medicine trials, and development of a single cell platform. About Queen Mary At Queen Mary