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Fluorescent Labelling of Protein Hormones Interacting with Class B G Protein-Coupled Receptors: Insights into Ligand-Receptor Dynamics and Signalling School of Medicine and Population Health PhD
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. Our lab (https://renshaw.sites.sheffield.ac.uk/home) seeks to determine the molecular mechanisms behind the regulation of neutrophil function and to identify drug targets to develop their translational
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to an abundance of point defects, which change the mechanisms by which plastic deformation occurs, and empirical data are limited. In this project, you will use classical molecular dynamics simulations to study the
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, the hub serves as a dynamic platform for scientific innovation. The successful candidate will become an integral member of a highly skilled team of researchers within the hub, contributing
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plastic deformation occurs, and empirical data are limited. In this project, you will use classical molecular dynamics simulations to study the mechanisms by which dislocation defects (responsible
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diseases including cancer, rheumatoid arthritis and musculoskeletal diseases. Chronic or persistent inflammation in tissues results in pain, tissue damage and loss of function. The cellular and molecular
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classical molecular dynamic simulations. Next you will characterise the populations of defects produced by these events, developing statistical descriptors of the damage using both traditional approaches and