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research tool will be structural biology together with biochemical, biophysical and cellular assays. We offer unique access to first-class instrumentation for structural biology. At the national centre
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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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fungal biology and drug resistance. The candidate should demonstrate a good understanding of molecular microbiology, and have excellent communication skills. They will be expected to help develop new
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manipulation of Pseudomonas aeruginosa and bacterial biofilms, including molecular biology such as the construction of reporter fusions, mutagenesis and transcriptomic analysis. Extensive experience in the study
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will work in translational immunology to deliver a specific project to understand the biology of lubricin and its role in fibroblast-macrophage crosstalk in lining layer of the synovium under healthy
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impact RNA structure and the molecular mechanisms by which acetylation of RNA impacts cellular functions. Your main research tool will be structural biology together with biochemical, biophysical and
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candidate will work in translational immunology to deliver a specific project to understand the biology of lubricin and its role in fibroblast-macrophage crosstalk in lining layer of the synovium under
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artificial intelligence methodologies. The successful candidate will work at the forefront of computational biology, developing novel approaches for large-scale genomic data analysis and contributing
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spatial biology of the developing, adult and diseased human brain vasculature, iii) to elucidate how developmental programs regulate vascular growth/angiogenesis in the human brain tumour vasculature (patho
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to adapt to transient water stress conditions. This position is especially suited for candidates with an interest in root development and molecular cell biology. All the technologies required for the project