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design, conduct, and interpret experiments. Culture and differentiate human iPSCs and generate organoid models. Keep lab notes and record. Perform molecular biology and cell biology experiments, including
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You hold a university Master’s degree in Neuroscience, Biomedical Sciences, Immunology or a related life science, and you are strongly motivated to develop human, animal-free models for pain. You
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animal models with advanced human-based systems for research in osteoarthritis and rheumatoid arthritis. You will focus on creating innovative in vitro NAMs that mimic or capture mechanisms of arthritis
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lineage cells and CNS health in aging and repair, using advanced in vivo and in vitro models combined with cutting-edge molecular, imaging, and transcriptomic approaches. About the Role The doctoral
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the function of oligodendrocyte lineage cells and CNS health in aging and repair, using advanced in vivo and in vitro models combined with cutting-edge molecular, imaging, and transcriptomic approaches. About
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for modelling protein structures and protein-ligand (metabolite) interactions. Using multi-scale molecular models, we aim to predict the structural features of gibberellin (GA) transporters, a key phytohormone
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. Being independent and able to interface with multiple work groups is critical. We use biochemical, proteomic, cell biology, molecular biology, genomic, epigenomic, and mouse model approaches and
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biosynthetic gene clusters and other molecular features relevant to natural product drug discovery Validating machine-learning and deep-learning models to predict the chemical structures and bioactivity
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motivated researcher to lead a project aimed at dissecting the molecular determinants of previously undefined forms of CTL-induced cancer cell death and evaluating the physiological relevance of these novel
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recognition at the atomic level namely using nuclear magnetic resonance and molecular modelling; b. Experience in the chemoenzymatically synthesis and purification of glycopeptides derived from mucins will also