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Field
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how arising escape mutants prevent infection. In vitro evolution experiments will reveal how archaea and viruses co-adapt under sustained selective pressure, illuminating the molecular basis
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This fully funded 3.5-year PhD position aims to create new molecular tools that establish redox-sensitive binding interactions between small molecules and proteins for applications in biotechnology
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individuals in their research and academic careers. A dynamic, diverse and inclusive working environment must be an integral part of our society, giving everyone the opportunity to participate and to benefit
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ecology and associated fisheries. A gap in local knowledge/data and technical capacity to coordinate and deliver usable data tools was identified. This gap inhibits the dynamic understanding of the impact
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-fidelity industrial simulation. Engineering applications include Formula 1, turbomachinery and nuclear fusion. These problems exhibit complex geometries and challenging time-varying physics which require
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rivers are dynamic systems transporting sediment, wood, and nutrients. This disconnect can lead to underperforming flood assets, where sediment accumulation, blockage, or erosion reduces efficiency and
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will build on ongoing work from the group in the design, synthesis and study of functional organic macrocycles and molecular capsules and their use primarily in catalysis, but also molecular recognition
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and night-time low temperatures. There is a need to improve the way the stratified boundary layer is represented (parametrized) in these simulations and also interrogate the models with high-quality
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Data-driven predictions of dynamical systems are used in many applications, ranging from the design of products and materials to weather and climate predictions. Mathematical concepts from geometry
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are reversed are still unclear but partly involve inhibition by MRFAP1, one of three closely related but largely unstudied proteins expressed in human cells. These molecules function as molecular ‘shape-shifters