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biology, ideally having studied lubrication biology in the joint Experience in molecular biology, computational immunology, bioinformatics and multi-dimensional imaging including light-sheet and 3D tissue
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context Enhancing your contribution to the organisation through an understanding of the bigger picture and showing commitment to organisational values. Developing self and others Showing commitment to own
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for chemistry, biochemistry, molecular and cell biology (three main tissue culture rooms for cell lines, primary cells and stem cells), microbiology, and image analysis (including light, confocal, atomic and
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software modules to integrate the models into a working system prototype. iii. Perform data annotation. iv. Conduct experiments, analyse results, and iterate models for improved accuracy and efficiency. v
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pipelines. Your primary focus (80% of your time) will be on leading spatial transcriptomics and imaging genomics projects, integrating bulk and single-cell RNA-seq datasets, and applying advanced statistical
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vivo imaging assays for understanding efficacy of novel antifungal drugs, determination of resistance liabilities of novel antifungal drugs, via both in vitro and in vivo analyses. The role will also
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) and image processing. Previous postdoctoral experience. Informal enquiries to Phoebe Allan, email: p.allan@bham.ac.uk We believe there is no such thing as a 'typical' member of University of Birmingham
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these influence immune function and disease. The project combines biochemistry, molecular and cellular biology, and in vivo models to deliver a comprehensive picture of immuno-metabolic function during inflammation
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scientific boundaries and overcome hurdles. They will have experience in stem cell culture, imaging, molecular biology, genetic engineering and/or bioinformatics analysis. This will enable new approaches
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and in combination with existing antifungal drugs. Areas of interest are: development of in vivo imaging assays for understanding efficacy of novel antifungal drugs, determination of resistance