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of the mechanical properties of the cellular actin cortex, the biomechanics of cell division, and the coupling between cell shape and mechanics and cellular state / fate during cellular transitions. The successful
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Biomedical Campus. You will join an exciting research programme investigating fundamental mechanisms of ribosome assembly, translational control and how defects in these processes drive cancer development
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of the mechanical properties of the cellular actin cortex, the biomechanics of cell division, and the coupling between cell shape and mechanics and cellular state / fate during cellular transitions. The successful
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collaborative and internationally renowned research environment. The successful candidate will play a key role in advancing cutting-edge research focused on understanding the physiological mechanisms underlying
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genomes. Dr Karam Teixeira's group uses Drosophila as a model to study transposable element biology, epigenetic regulation and inheritance, small RNA-based defence mechanisms, and germline biology in
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environment. The successful candidate will play a role in advancing cutting-edge research focused on understanding the physiological mechanisms underlying metabolic complications associated with obesity
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that function in compound microenvironments of malignant tumour cells. As such, incorporating and simultaneously analysing multimodal data can offer a better understanding of the underlying cancer mechanisms
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diffraction, and differential scanning calorimetry Mechanical performance assessment, including small-scale tensile testing and in situ testing at Diamond Light Source The studentship is fully funded for 3.5
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Trust. The successful candidate will work closely with the PI and a PhD student within a larger cross-disciplinary team to construct a quantitative computational model of carbonate biomineralisation