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discoveries on the electrosolvation force. The project will use a range of optical methods to examine the interactions in colloidal and molecular systems and relate the experimental findings to theories
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use a range of optical methods to examine the interactions in colloidal and molecular systems and relate the experimental findings to theories on the electrosolvation force under development in
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Institute for Molecular and Computational Medicine (IMCM). You will test GSK assets and targets in established models of podocyte and mesangial cell pathology relevant to glomerular diseases. You will
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to formulate and test hypotheses about how epigenetic factors control the life cycle of parasitic nematode, use transgenic and CRISPR methods to manipulate epigenetic regulators, and test the effects
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molecular biology, immunology, microbiology, nutrition, pharmacology, sport science (including biomechanics and an environmental testing chamber), chemical synthesis and analysis, pharmaceutics, specialist
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using public and proprietary data as well as sensitivity analysis of analytical modelling results against known outcomes. The developed models will then be applied to examine the impacts of various
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the methodology is youth-centred and developmentally appropriate. This project will involve both qualitative and quantitative methods, including cognitive interviewing, feasibility testing, and longitudinal data
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testing, e.g. wear testing, corrosion testing, performance and durability testing. About the role: AMMIC is inviting ambitious and talented individuals with a background in materials science/engineering
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neuroanatomical profiles to other imaging-modalities, including magnetic resonance spectroscopy (MRS), functional MRI, electroencephalography (EEG), and sensory measures, to further examine neurobiological
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, to support the development of murine infection models for antifungal efficacy testing as well as for use in in vitro screens. Secondly, to contribute to the development, optimisation and implementation