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biochemical reconstitution, electron cryomicroscopy (cryo-EM), advanced bacterial genetics, and phage biology to explore how cells and viruses control the three-dimensional structure of DNA. We investigate how
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at the Department of Biochemistry. You will be working on a project that will study the functional importance and prevalence of filamentation among transcription factors at the structural level. The project has a
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relevant skills acquired and will also be determined by the funding available. About you Applicants will hold a PhD/DPhil or be near completion of a PhD/DPhil in a subject relative to Structural Biology
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in Mass Spectrometry and Structural Glycobiology to work under the supervision of Prof. Weston Struwe for a period of 24 months. The project, funded by the UKRI, centres on developing advanced methods
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biochemistry and structural analysis. You will contribute to protein production, purification and analysis of constructs to test the devices developed in the group. Your expertise in structural and
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of computational biology, molecular biophysics, and cutting-edge analytical technologies. You’ll contribute to the development and application of computational methods to understand protein folding, structure, and
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outcomes-based finance such as impact bonds, carbon–biodiversity credits, blended finance structures, and the design of decision-support tools for conservation investment. You will collaborate with
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. This project will require a strong molecular biology background, knowledge in AI-based protein structural prediction, in vitro expression systems and cryo-EM, experience in analyzing large datasets, and solid
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reverse genetics for functional analysis of EV candidates. This project will require a strong molecular biology background, knowledge in AI-based protein structural prediction, in vitro expression systems
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generate key structural and biophysical data to support the design of small molecule inhibitors with particular focus on protein production and crystallisation, solving protein-ligand structures, fragment