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these proteins and understand their biology in health and disease. This requires a thorough understanding of the molecular tools and analyses available to study protein pharmacology in the context of cell biology
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powerful, modern analytical techniques including chemical proteomics and metabolomics. They will have access to advanced synthesis facilities, as well as biological models, such as macrophages and organoids
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will be trained in a variety of powerful, modern analytical techniques including chemical proteomics and metabolomics. They will have access to advanced synthesis facilities, as well as biological models
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powerful, modern analytical techniques including chemical proteomics and metabolomics. They will have access to advanced synthesis facilities, as well as biological models, such as macrophages and organoids
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understanding of the molecular tools and analyses available to study protein pharmacology in the context of cell biology. Moreover, connecting and expanding these methods and concepts to other protein families is
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criteria: a MSc degree in (molecular) biology, or a related discipline (obtained, or expected in the near future); demonstrable experience with basic molecular biology techniques; affinity for (or ideally
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, transcriptomics, and proteomics and work on advanced biological systems for modelling infection including macrophages, organoids, zebrafish, primary and clinical samples. Embedding within the Institutes of Biology
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industries. George Jackson, Professor of Chemical Physics at Imperial College London, is a world leader in the development and use of molecular methods to simulate the thermodynamic properties of complex
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modelling of materials and machine learning. Experience in atomistic modelling (molecular dynamics, density functional theory) and machine learning is important, as well as a strong interest in pursuing