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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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that the highest affinity minibinders will be both detectable by ITC/MST and modify effector phenotypes in plants. If successful, this will be the proof-of-concept that in-silico designed minibinders can interact
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to pick up the correct child from the nursery. To interact with the world, we must recognise what is in our environment. The proposed research aims to define the dimensions - here, characteristics
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spaces, before investigating the implications for urban decision-making and resilience. The PhD researcher will have flexibility in the design and implementation of the project, adjusting the focus based
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Geological Survey, Centre for Ecology and Hydrology, the Natural History Museum and Plymouth Marine Laboratory. The partnership aims to provide a broad training in earth and environmental sciences, designed
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that connect floating wind turbines to the seabed remain one of the challenging issues in the engineering analysis and design of floating wind applications. Over time, these subsea cables become coated with soft
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to use cutting edge techniques, developed in our lab, to design molecules which can control this protein complex. This chemical biology project will be interdisciplinary, involving training in
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discovery, sustainable manufacturing, and biodiversity restoration, transforming an environmental challenge into a valuable green opportunity. The student will design and synthesise hierarchically porous
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. Research Methodology The PhD researcher will investigate the infection biology of Phytophthora gemini and its interaction with Zostera marina through a combination of laboratory assays, microscopy, and
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Geological Survey, Centre for Ecology and Hydrology, the Natural History Museum and Plymouth Marine Laboratory. The partnership aims to provide a broad training in earth and environmental sciences, designed