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space. Further information about ongoing islet biology research in the Department of Diabetes at King’s College London may be found here: https://www.kcl.ac.uk/research/islet-biology . About the role
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immunology and molecular biology to understand molecular mechanisms of immunity and immune suppression in cancer and inflammation. This research aims to uncover novel molecular and cellular mechanisms
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more about working at the John Innes Centre. About the Dodd Group: This project is based in the Department of Cell and Developmental Biology and the Department of Computational and Systems Biology at
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Associate with a strong background in structural biology, cell biology, or biophysics. The project will combine novel methods for studying membraneless organelles with structural strategies for characterising
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interactions. Experience in working with animal infection models. Demonstrated background in infection biology. Understanding of gene expression regulatory mechanisms.
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experience: Essential criteria PhD in cardiovascular Biochemistry/Physiology Strong background in biochemistry and molecular biology Tissue/cell culture experience Experience in studying redox biology
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approaches to well-curated time-series data, collected over decades, to obtain new biological insights. This project is based in the Department of Cell and Developmental Biology, working closely with Dr Pirita
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to an enthusiastic researcher looking to use their skills in cancer biology, bone biology, cancer cell dormancy, translational research and/or relevant fields who want to have an impact on patients with incurable
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between cell biology and molecular neuroscience. We employ integrated experimental approaches, combining cutting-edge microscopy, biochemistry, omics, and iPSC-derived cell models to understand organelle
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. With regards to day-to-day activities, you will combine systems biology and hypothesis-driven approaches to help PDRAs pursue these lines of research, using multidisciplinary methods from genetics