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-molecule biophysical techniques. The project will involve detailed structure, function analysis of DNA and ssDNA interactions, including binding, tethering, and loop extrusion activities of SMC proteins
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management of the Facility’s work, and management of its budget. The Head of Bioinformatics will actively engage in data analysis and the development of cutting-edge analysis methodologies as well as providing
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-cell and spatial analysis , the Earlham Biofoundry , and automated systems. • High-performance computing infrastructure. • Competitive salary and pension scheme. • On-site sports facilities, cycle
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quantitative and mechanistic studies, allowing us to address questions across scales: from the function of cis-regulatory elements, to the morphogenesis of the body plan (Amblard et al., Dev Cell, 2025
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mouse retinal angiogenesis experiments and/or quantitative image analysis are a plus. What you will be doing Specific objectives will include, but not be limited to: Utilise our optimised microfabricated
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, preferably in brain slices * Experience in data analysis in Python or MATLAB* Track record of writing papers as evidenced by publications or submitted manuscripts in referred journals * Evidence of data
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* Excellent knowledge and experience in in vivo calcium imaging or electrophysiology * Experience in data analysis in Python or MATLAB * Track record of writing papers as evidenced by publications or submitted
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strong data analysis experience and a PHD in Neuroscience or a related field, we would love to hear from you. What you will be doing Some of the available projects in this role will focus on: Exploring
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enzymes in cancer cell systems. The project will involve tissue culture, cell line production, protein and RNA analysis and cell function analysis. The project is well supported by postdocs and students
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August 2025 Background To create and contribute to the creation of knowledge by undertaking advanced analysis and validation experiments within the MRC BioFlare research programme: Although outcomes in RA