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work with colleagues from Virginia Tech and other collaborating universities to run, analyze, and model human evacuation experiments. Data will include motion capture and psychophysiology data to explore
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microenvironment to drive malignant progression. Our research lies at the intersection of glial biology and brain cancer, with a particular emphasis on malignant glioma, the most aggressive form of primary brain
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movement disorders with a broad range of symptoms and phenotypes. The work is relevant to understanding the pathophysiology of movement disorders including dystonia, ataxia, and tremor. Required
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pathogenesis. The candidates will utilize both in vitro and in vivo model systems to investigate how hepatitis E virus invades the central and peripheral nervous systems to cause neurological injuries leading
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Categories:Research / Scientific Job Description Dr. Shenglin Mei lab at the Fralin Biomedical Research Institute (FBRI) Cancer Research Center- DC is seeking highly motivated Computational Biology postdoctoral