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Field
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of aggregated protein species, including RT-QuIC and mass-spectroscopy; and also, be involved in purification of recombinant aggregation-prone proteins, using liquid chromatography (AKTA). You will design
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invasive species (including the Asian tiger mosquito and Asian Hornet). You should possess a relevant PhD or be “near completion” before starting. You should hold sufficient specialist knowledge in
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antiviral immunity yet only a tiny fraction of bat diversity has been examined to date. This project aims to discover new molecular adaptations linked to innate immunity across a wide sample of bat species
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their impacts on our health and the evolution of species. Furthermore, we leverage them to understand how mutations arise in cancers. For example, in our work published recently in Science, we show that
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freshwater and marine fish species, and ultimately how this affects the behaviour of their predators and conspecifics. You will have access to the infrastructure, tools, and expertise to develop and implement
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”, led by Dr Christina Stanley, University of Chester. This interdisciplinary project aims to develop unique solutions to monitor bat species in the wild, with a focus on the lesser horseshoe bat
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understanding the role of DNA methylation in various unicellular and multicellular eukaryotic species. These species hold key phylogenetic positions aimed at maximizing our taxon sampling, allowing ancestral
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are still not included in models that can realistically be used for planning for thousands of species. Planning includes deciding where to protect, where to restore, and/or where to restrict damaging human
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of nature recovery. We are particularly interested in approaches that go beyond species detection to yield meaningful information on ecological health. The researcher will be working as part of a large
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-series data to answer questions such as: How quickly do species evolve in complex communities? Can we detect adaptation to their biotic and/or abiotic environment? How important is dispersal for adaptation