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well as the exciting opportunities this role presents, we also offer some great benefits which can be seen in the link below: Visit https://www.ucl.ac.uk/work-at-ucl/reward-and-benefits to find out more. Our commitment
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translational environment of the UCL Institute of Neurology, the ARUK UDDI is uniquely placed to find novel targets, rapidly validate identified novel targets and mechanisms, establish screens and progress
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https://www.ucl.ac.uk/work-at-ucl/reward-and-benefits to find out more. Customer advert reference: B02-10209
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a full job description please visit UCL’s online recruitment portal (https://www.ucl.ac.uk/work-at-ucl/search-ucl-jobs ) and search using vacancy reference B02-10144. To apply, please upload a current
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of Staufen1:RNA complexes in vitro; as well as on gathering detailed information of such assemblies combining light and electron microscopy approaches. Techniques Gene cloning, Protein over-expression
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histological techniques and immunocytochemistry confocal microscopy transmission electron microscopy image analysis using dedicated software (eg Neurolucida for confocal, Neurolucida Explorer, Meta Morph and
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flow cytometry, microscopy and single-cell omics. References Maffia P, Mauro C, Case A, Kemper C. Canonical and non-canonical roles of complement in atherosclerosis. Nat Rev Cardiol. 2024 Apr 10. doi
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microscopy. References MSC-EVs and regenerative medicine: https://pubmed.ncbi.nlm.nih.gov/39547584/ & https://pubmed.ncbi.nlm.nih.gov/35742923/ MSC-EVs in wound healing : https://pubmed.ncbi.nlm.nih.gov
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of histomorphological cancer phenotypes using self-supervised learning on unlabeled, unannotated pathology slides. arXiv. 2023 Albert-László Barabási. Network Science. Cambridge University Press. 2016. http
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seeks to define the life and cell cycles of N. perurans and Perkinsela in detail using light, fluorescence and electron microscopy. In particular, whether the replication of N. perurans and Perkinsela