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the mechanisms associated with loss of virulence, as well as identifying novel genetic determinants of pathogenicity. The project will provide broad training in molecular genetics, genomics, cell biology, and
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Structural Biology, Immunology, Cell Biology, Neuroscience and Synthetic Biology www2.mrc-lmb.cam.ac.uk/students/international-phd-programme/projects/. PhD students at the LMB are affiliated with
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perform experiments that interrogate the molecular and cellular mechanisms of novel anti-cancer drugs, employing cellular, biochemical and molecular biological approaches. You will publish your research in
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autophagy and the innate immunity response. Using cutting-edge omics (transcriptomics/proteomics), advanced imaging (confocal) and cellular biology approaches (macrophages, autophagy biomarkers), this project
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. They are integral components of oligonucleotides (DNA and RNA) that encode the proteins required to control biological processes. Nucleosides are also omnipresent within enzyme cofactors (NAD+/H), as cellular energy
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at neighbouring institutes throughout the broader Norwich Research Park in areas such as long-read sequencing and single-cell transcriptomics. The Norwich Research Park Biosciences Doctoral Training Programme
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the laboratory of Dr. Phil Carella, located in the Department of Cell and Developmental Biology at the John Innes Centre. It provides an exciting opportunity to explore disease resistance in the emerging model
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-of-the-art technics in cell biology, genetics, molecular biology and proteomic, this project aims at characterizing a novel signalling pathway modulating root nodule symbiosis. The insights gained from
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for platelet production, behave in the body using advanced imaging techniques. Using genetically modified mice that allow real-time tracking of cellular signalling, the project will explore how megakaryocytes
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movement and mechanical loading. The device will combine biomimetic hydrogels containing cartilage cells with a stretchable mechano-actuator to apply controlled compression. By integrating immune cell co