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to respiratory viruses and T cell exhaustion during chronic infections and cancer. Ongoing studies leverage a wide array of model systems and techniques including novel mouse models of infection and cancer
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efforts dedicated to elucidating the molecular mechanisms by which platelets, immune cells, and the extracellular matrix cooperate to promote metastasis. Ongoing studies leverage a wide array of model
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surface properties on their energy balance and gas exchange. Experiments will be accompanied by mathematical modelling of the physical processes involved. How will you contribute? In accordance with any
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You will identify glycans in representative activated sludges and model biofilms You will assign biological functions to glycans in activated sludges and model biofilms You will oversee descriptions
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the mechanisms regulating mitochondrial fission in megakaryocytes, and will use mouse models to determine how mitochondrial fission affects platelet production and function. The other project involves developing
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electrolyte and water reabsorption. The postdoc will be expected to explore the potential of modulating bile acid signaling in cell and mouse models and perform metabolomic and transcriptomic analyses
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biology, computational biology, in vivo models of disease, and pre-clinical study development. You will have the opportunity to develop and lead projects using several cutting-edge model systems including
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explores novel myeloid cell-based immunotherapy against intraperitoneal metastasis of ovarian cancer using mouse models and patient samples as well as state-of-the-art technologies such as spatial multi
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researcher to study the complexity and heterogeneity of both mouse and human microglia in neurodevelopment and neurodegeneration. By using state of the art spectral flow cytometry you will develop advanced
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diseases, including genetics, epidemiology, immunology and epigenetics, with excellent clinical cohorts and experimental models. The Applied Immunology & Immunotherapy group is physically located