11 computational-model Postdoctoral positions at University of Nebraska Medical Center
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. This individual will conduct bench and translational cardiovascular research that will utilize in vitro and in vivo models of congenital heart defects. This individual will complete projects that require expertise
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brain cancer) with its most aggressive form. This lab is seeking a highly motivated postdoctoral candidate with expertise in the molecular cell biology and animal model studies. The candidate should be
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include animal models as synergetic platform for preclinical development of therapeutics and molecular biology aspects of the diseases. A self-starter with strong interest in understanding virological
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adenocarcinoma (PDA) pathogenesis. The murine models of distinct genetic subtypes of pancreas cancer that we have developed form the basis of our integrated, systematic, and multidisciplinary research program. Our
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record in (1) statistical modeling, (2) tobacco regulatory science, or (3) neurocognition and brain development. The successful candidate will contribute to project planning and lead efforts related
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, statistics, computer science, biomechanics, and public policy. We focus on developing evidence-based models of how disease impacts human behavior (driving, sleep, mobility) and of how physiology predicts
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candidate will lead a research program to understand how chromatin remodeling complexes control cardiomyocyte maturation and cellular interactions during neonatal heart development. This position offers
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of the Shi Lab is to leverage these developmental insights to innovate regenerative approaches for treating heart diseases in adults. The successful candidate will lead a research program to understand how
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investigates molecular and cellular mechanisms of pancreatic ductal adenocarcinoma (PDA) pathogenesis. The murine models of distinct genetic subtypes of pancreas cancer that we have developed form the basis
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adenocarcinoma (PDA) pathogenesis. The murine models of distinct genetic subtypes of pancreas cancer that we have developed form the basis of our integrated, systematic, and multidisciplinary research program. Our