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fluorescence microscopy will be employed for direct visualisation of microbe-microbe interactions using labelled reporter strains. Finally, proximity labelling techniques such as TurboID will be used to identify
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community metrics. Using innovative labelling and state-of-the-art techniques, the student will investigate species-specific uptake across representative algae, linking particle properties to cellular
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. You will gain experience in laboratory skills, hands-on design and manufacture of components, advanced data analysis and programming skills. You will work as part of a cohesive friendly team and as a
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, medicine, maths or environmental science. Thrive in a professional environment as part of a wider team. Have an inquisitive mind for research and proactive approach to problem solving. Can produce high
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of the outstanding components in both air and land transport as well as wind farm. However, the reduction of turbulence-generated noise is far from optimal and the design heavily depends on expensive rig testing
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k Si3N4 and then the additive manufacturing of the components with the aim of achieving complex geometries with the enhanced ceramic. Funding notes: This PhD programme will be hosted in the School
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- level approach with both theoretical & experimental thrusts of activities, publish research papers & advance research as part of a team of researchers working in the area. References: https
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advance research as part of a team of researchers working in the area.
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a disproportionately high disease burden. The project is built on a powerful two-part methodology: Culturally-Adapted Data Acquisition: You will fine-tune a multilingual LLM to interact with patients
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component of the AMOC in the most recent past climate, the Pliocene, which had similar global temperatures to those predicted for the near future. Recently published work, based on new core material from