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involving exercise and implementation of stable isotope tracers. The study will involve collection of biological samples and subsequent analysis using mass spectrometry and molecular biology techniques
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relevant discipline and/or second degree with a related Masters in biology, biochemistry or biophysics area. The successful candidate will have a background in molecular biology and biochemistry. A keen
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Immunology Group with support from multiple academic and clinical researchers and friendly PhD students. Methodology: You will develop wide ranging skills in immunology, molecular biology, Advanced Flow
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, Queens Medical Centre). The work will include supporting research projects using standard molecular biology cloning techniques, cell culture assays alongside participating in and working to develop routine
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intake of sugar and alcohol, neuroimaging, collection of biological samples and subsequent analysis using molecular biology techniques. You will be able to plan and conduct your own work independently
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. For this state of the art molecular tools and in vivo imaging and a simple, powerful, and ethical in vivo model (Drosophila melanogaster larvae), combined with mammalian neuronal models in culture will be
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cell culture, biomaterial design/fabrication, molecular biology, and multiphoton fluorescence and second harmonic generation microscopy. Specifically, we will implement advanced microscopy to examine
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/or veterinary medical context. You will have a demonstrable track record in one of the following specified areas: molecular medicine, structural biology/biochemistry, health informatics, advanced and
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biotechnology with a focus on six key themes and is equipped with world-leading cell culture, molecular biology, robotics and tissue engineering suites. The GI and Liver Theme of the Biomedical Research Centre
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on thematically linked PhD projects, spanning all areas of imaging science, from synthetic chemistry, chemical engineering, physics, biology, 3D-printing and quantum technologies. Supervisory Team: Derek Irvine