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Field
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/or their active counterparts. • To perform direct numerical simulations of the continuum partial differential equations of fluid dynamics, solid mechanics, soft matter or active matter
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will involve processing medical image data sets, taking experimental measurements of movement patterns in living birds and conducting dynamic physics simulations of locomotion in both living birds and
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postdoctoral researchers in synthetic organic chemistry in the Department of Chemistry at the University of Cambridge. The successful candidate will join the dynamic and collaborative research group of Professor
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biological questions about how cytoskeletal proteins are used by disease-relevant organisms. We have access to excellent facilities such as the Central Oxford Structural and Molecular Imaging centre (COSMIC
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have the necessary experience and skills to contribute to the research project by applying Drosophila genetics, genome editing, molecular biology, microscopy and bioinformatics to identify and test
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cytoskeletal proteins are used by disease-relevant organisms. We have access to excellent facilities such as the Central Oxford Structural and Molecular Imaging centre (COSMIC), as well as the Micron imaging
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to Good Clinical and Laboratory Practice standards, HTA guidelines and MHRA regulations. You will use a large variety of techniques from classical and molecular microbiology and handling and analysis
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on the molecular mechanistic details of mutagenesis in the human genome, based in the research team of Professor Martin Taylor at the Institute of Genetics and Cancer. This will be primarily through computational
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molecular biology. Relevant post-doctoral experience is desirable. High quality peer-reviewed publications and a keen interest in translational regulation are essential. If you have an excellent background in
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is at Grade UE07: £40,497 to £48,149 per annum pro-rata if part-time. Your skills and attributes for success: PhD or equivalent in a relevant scientific discipline (e.g. Molecular biology, Genetics