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in molecular biology and/or biochemistry. Skills Essential: C1 Demonstrable specialist technical skills aligned to the specified discipline or research project. Details of the discipline/project are as
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research techniques and conceptual learning knowledge. These will include but not be limited to the following: Technique learning 3D organoid technology Advanced imaging Biochemistry Bioinformatics Cell and
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biology and biochemistry. We take advantage of a broad range of model organisms (bacteria, yeast, plants, Drosophila, mouse and cultured human cells). Our focus is on mechanistic and molecular ‘blue skies
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. Research topics are allied to ongoing research within the School, the majority of which are basic science projects. A variety of multi-disciplinary research approaches are applied, including biochemistry
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training will include in-depth engagement in molecular biology, protein biochemistry and molecular genetic/protein design, single-cell imaging and fluorescence microscopy, and single-cell recording
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Our portfolio covers many aspects of parasitology research from molecules to cells and whole organisms to populations. Research activities are based around skills in molecular biology, biochemistry
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diseases. Techniques: Molecular and cellular genetics. Advanced microscopy methods such as super-resolution and single molecule imaging. RNA biochemistry. RNA Bioinformatics. Fluorescence In Situ
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PhD opportunities at SUERC Our 3 main research themes are Isotope Geosciences, Isotope Biochemistry & Radiometrics and Environmental Chemistry & Radiocarbon. PhD: 3-4 years full-time; 6-8 years part
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physiology. Skills training will include in-depth engagement in molecular biology, protein biochemistry and molecular genetic/protein design, single-cell imaging and fluorescence microscopy, and single-cell
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] The management of chronic diseases, including diabetes, accounts for 50% of clinical biochemistry testing. The number of clinical biochemistry tests requested is estimated to have increased by 10% annually