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of liver micrometastases development in cancer, based on a novel MRI approach which combines multi-dimensional diffusion-relaxometry acquisitions, efficient data denoising and biophysical modelling
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approach including biochemical, biophysical and structural biology techniques (NMR, protein crystallography and cryo-EM) to address fundamental questions around ubiquitin regulation and function. The post
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at the plasma membrane. The lab undertakes a multidisciplinary approach spanning biochemistry/biophysics, cell biology and structural biology to address our research questions. In this role you will build on our
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. The Atherton group is based in Randall Centre for Cell & Molecular Biophysics, home to a diverse array of structural and cellular biology research, which is part of the School of Basic & Biomedical Sciences
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/DPhil or be near completion of a PhD/DPhil in a subject relative to Structural Biology, Biochemistry, or Biophysics. You should be driven, have experience in protein production, the analysis
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ultimately contributing to the development of new antiviral approaches. The project takes a cross-disciplinary approach, combining biochemical, biophysical, cell biological, and virological methods, including
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The successful candidate will be expected to conduct and lead their own experiments whilst also supervising the activities of junior group members and PhD students Responsibilities will also include assistance in
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from the Institute of Sensors and Signals (ISS) at Heriot-Watt University and Prof. Mike Davies at the University of Edinburgh, Leonardo staff, PhD students and the other PDRAs at the collaborating
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of liver micrometastases development in cancer, based on a novel MRI approach which combines multi-dimensional diffusion-relaxometry acquisitions, efficient data denoising and biophysical modelling
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determined by the funding available. About you You should hold, or be near completion of, a PhD/DPhil in Molecular Microbiology, Biochemistry, Biophysics or related discipline. You must have substantive