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Vitro Models. The project aims to use organ-on-a-chip technology combined with bioengineering approaches to develop, validate and use a suite of vascularised human tendon-chip models. These high quality
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of capsule regulation on host-pathogen interactions at the molecular level The successful candidate will combine cutting-edge microbiological, biochemical, molecular genetics, and comparative genomics-based
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Claudia Monaco’s research group at the Kennedy Institute of Rheumatology. In this role, you will apply single cell biology and cell signalling techniques combined with in vivo and in vitro models
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. This effort will be combined with ongoing work in the group on the characterisation and optimisation of the hBN material and defect formation, which we perform in collaboration with a wide group of material
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the regulation of capsule expression during transition between host compartments. The successful candidate will combine cutting-edge in vitro and in vivo infection models, and both microscopy and flow cytometry
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government agencies (e.g. Defra, Food Standards Agency), industry bodies and F&V producers. You will develop mathematical models, based on systems of nonlinear differential equations combined with asymptotic
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experimental studies and developing study plans. Familiarity with RNA scope or spatial transcriptomics technologies. Knowledge in the design of imaging probe validation experiments using a combination of in vivo
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. We are also open to considering requests for hybrid working (on a non-contractual basis) that combines a mix of remote and regular on-campus working. Your skills and attributes for success: PhD
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are applying an integrated approach that combines understanding of pathogen biology and plant immunity to inform the development of climate-resilient crops, using the interaction of bacterial pathogens with
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the study of problems in quantum many-body physics through the lens of quantum information and quantum computing? Do you enjoy analyzing complex quantum mechanical systems through a combination of