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to pioneering research at the forefront of structural chromosome biology. You will investigate the molecular mechanisms of SMC complexes using cryo-EM, with the aim of directly visualising their activities. You
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have a deep interest in molecular mechanisms underlying biological processes and – if not experience – ardent interest in structural virology. Experience with several eukaryotic expression systems
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approaches, as well as being able to build on expertise in bacteriology, cell biology, structural biology and biochemistry in the group. You should hold, or be close to completion of, a PhD/DPhil in biological
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the methodology and experimental approaches, as well as being able to build on expertise in bacteriology, cell biology, structural biology and biochemistry in the group. You should hold, or be close to completion
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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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BBSRC grant awarded to Prof Francesco Licausi. The work is to be conducted in the Life and Mind Building, Department of Biology, University of Oxford. The postholder will work on the molecular mechanisms
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are seeking to appoint a Postdoctoral Research Associate with experience of structural biology techniques to join Dr Paul Elliott’s Lab to investigate the mechanisms of ubiquitin signalling within inflammation
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. The postholders will support ongoing research that aims to unravel the molecular architecture of the chloroplast’s beta-barrel protein assembly machinery using structural tools. One of the posts will be focusing
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the interfacial strength, nano-scale 3D structure and residual stresses in advanced power electronic materials (INTERVENE), and is fixed-term of 18 months. Power electronics is a major technology sector for the UK
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advanced spectroscopic and structural techniques, this postdoctoral project will establish clear correlations and mechanisms linking core properties critical to efficient light-harvesting with basic material