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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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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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of transposon-derived variation and its role in functional genetic variation and genome evolution in animals. A PhD in a biological science or computational science is essential for this role. Those who have
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of the fundamental mechanisms underlying chromosome segregation, employing advanced mathematical models and computer simulations. The research will concentrate on two key areas: first, the exploration of the cell
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its transformation into medical practice. NIHR BioResource is a unique and powerful resource for studying disease mechanisms and for investigating the links between genes, the environment, health, and
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impactful and rapid change. The successful candidate will line manage, support, and develop Research Associates and PhD Students, as well as support computational research projects across the PBCI and
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widely exist in the development of normal and malignant tissues. Using chick embryos as the model system, we are investigating the mechanical cues regulating tissue organisation and developing innovative
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PhD Studentship: Development of Next-Generation High-Performance Titanium Alloy for Aerospace Applications Funder: EPSRC and Rolls-Royce plc Duration: 3.5 years Supervisors: Professor Nick Jones and
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to work in battery materials research in the research group led by Prof. Dame Clare Grey at the University of Cambridge. This is part of a programme funded by the Faraday Institution (FI) to promote
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. Join our cutting-edge research program, spearheaded by Prof. Tamar Makin, as we delve into the fascinating realms of motor control, neural representation of the human body, and robotic body augmentation