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Funding Amount: £19,237 for the 2024/25 academic year PhD Studentship in Biological Mass Spectrometry Project title: Developing the next generation of MALDI mass spectrometry. Department/School
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at the University of Nottingham in collaboration with Erebagen Ltd to screen engineered bacterial natural product libraries for anti-cancer activity using native mass spectrometry. This exciting project is supervised
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product libraries for anti-cancer activity using native mass spectrometry. This exciting project is supervised by Prof Neil Oldham and Dr Luisa Ciano, from the School of Chemistry, and Dr Doug Roberts and
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. Study 2: Develop a data-driven approach to the identification of metabolites and lipids in direct infusion mass spectrometry experiments, with the goal of developing this as an open-source Python library
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PhD Studentship: How Does Spatial Organisation Impact Host-microbiome Interactions in Human Airways?
bacterial metabolites (via mass spectrometry). The student will also co-culture multiple microbial populations to study how size impacts interactions of microbes with each other and host cells . Objective 3
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comparing dual-cure and fully radcure systems to standard thermally cured coil coating. X-ray photoelectron spectroscopy (XPS), time-of-flight secondary ion mass spectrometry (ToF-SIMS) and Auger electron
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mass spectrometry, protein science, high-affinity binding, and diagnostics, particularly in the utilization of lateral flow devices. They will be part of a dynamic, multi-disciplinary team of scientists
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various gut microbes may influence tumour cell behaviour, secreted microbial metabolites will be profiled using mass spectrometry-based metabolomics approaches. This data could allow the development
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kinase) by mass spectrometry. The most promising ligands will be optimised through further rounds of plate-based chemistry. To characterise optimised covalent ligands. We will harness a range of structural
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or identification of proteins by mass spectrometry. In this project you will synthesise and apply chemical tools to understand the mode of action of small molecules involved in host-microbe communications. The human