45 postdoc-image-encryption Postdoctoral positions at University of Oxford in United Kingdom
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group, including postdocs, research assistants, technicians, and PhD and Masters project students if required. The post holder will develop quantum diamond microscopy (QDM) as a new paleomagnetic tool
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on single-agent settings. We are seeking a highly motivated postdoc to conduct research into this fast-moving area. Directions may include investigating quality evaluation methods for multi-agent systems
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products (e.g. transcripts and proteins) and imaging analysis. The roles of relevant parasite genes and pathways are investigated using gene expression perturbation approaches, such as RNA interference and
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, calcium imaging, optogenetics and/or behavioural methods. The project is part of a broader research programme designed to use cross-species research to uncover mechanisms for memory in both health and
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vitro and cell-based approaches. In this endeavour the position is for a Postdoc with expertise in cell signalling pathways, protein biochemistry and in vitro cell biology. You will be responsible
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biological, and live cell fluorescence imaging experiments. Associated structural analysis of the proteins by cryo-electron microscopy will be undertaken via collaboration with other workers. This full-time
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that can validate those models are missing. This projects will address all, or some, of these challenges. We are looking for a postdoc to drive the development of an in-depth understanding of transport in
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provided by the senior postdoctoral colleague Madelon de Jong and PI Jelena Bezbradica Mirkovic. You will utilise our imaging and animal facilities and will be responsible for general laboratory management
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-on experience in at least one of single-cell or spatial omics, imaging, or other high-dimensional biological data types. You interrogate existing literature critically, design rigorous experiments and deliver
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paradigm shift in our fundamental understanding of the charge-lattice interactions that govern such effects. This PDRA role will utilize several state-of-the-art spectroscopic techniques, such as transient