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Field
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heterologous expression systems. Environment Our lab is focussed on applying structural biology methods to understand the function of molecular machines important for bacterial interaction with their hosts
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candidate will be trained in an array of biochemical and molecular biology techniques (e.g. cloning, recombinant protein expression, membrane protein purification, liposome reconstitution assays, protein
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molecular level. You’ll achieve this using a new, unique facility at the John Innes Centre to study physiology, development and gene expression in simulated future climates. By joining us for a PhD, you’ll
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experience of cell culture and common molecular biology techniques such as DNA/RNA isolation, ELISA, PCR, QPCR, Western blotting etc would be desirable although training will be given. No prior experience
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provide training in a wide-range of state-of-the-art biophysical, molecular biology and microbiological techniques, from characterizing different types of DNA/RNA structures, gene expression studies
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human induced pluripotent stem cells. The successful candidate will be trained in relevant methods and procedures, including cell culture, cardiac electrophysiology, molecular biology/protein isolation
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, chemical biology, and molecular biology. The candidate will work at the forefront of chemical and synthetic biology and will develop advanced skills in chemical synthesis, various molecular biology and
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transition of weaning, but the molecular mechanisms are not well understood. This project, using data and microbial isolates from a large cohort study of infants, will aim to unravel the mechanisms used by
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at Research Assistant level (Grade 5) and amended to Research Associate (Grade 7) upon the award of PhD. Foundations in molecular biology and confocal microscopy are also required, alongside a willingness and
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you will develop a diagnostic toolbox to differentiate between BDV, BVD and CSFV using various molecular techniques including whole genome sequencing, reverse genetics and using epidemiological methods