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expansion microscopy (ExM) into our existing workflow. The goal is to visualise serotonergic wiring at subcellular resolution across developmental stages, enabling analysis of how circuit assembly is altered
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experienced in transcriptome bioinformatics and molecular genetics, including RNA extraction, PCR, DNA cloning, genomic sequence analysis, in situ hybridisation etc. Expertise in hypothalamic neurobiology
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in 6 months. Knowledge or experience of the following would be advantageous: high dimensional flow cytometry; generation and analysis of single cell transcriptome data; computational and bioinformatics
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the Department of Inflammation and Ageing at the University of Birmingham. The successful candidate will work to deliver high level computational analysis of immune cell subsets in patients with cutaneous lupus
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requisite experience is in core methods of cell biology and biochemistry including: protein analysis, biochemical assays of protein modification, protein purification, mass spectrometry, and molecular biology
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with expertise in the acquisition and analysis of human MEG +/- OPM-MEG data to study brain function and cognition in children and young people as part of a Wellcome-funded project. The post-holder will
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to data analysis and biological interpretation. Role Summary Develop, implement, and apply advanced reproducible computational tools and workflows to process, analyse, and interpret large-scale LC–MS-based
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for the entire project from polymer synthesis, crystallisation-driven self-assembly, characterising data collection interpretation. Training will be provided in all of the component techniques but demonstrable
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and other research groups to access advanced techniques, including proteomics, RNA sequencing analysis, advanced microscopy, and genetic mouse models. The candidate will have access
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wide range of transgenic mice. Ideally, candidates should have knowledge of and expertise in optical calcium-imaging and related analysis. The appointee must also be able to contribute significantly