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Muscular Dystrophy. • Design, execute, and document molecular, cellular, biochemical, and immunological experiments. • Conduct whole-body plethysmography, neurophysiology, and post-mortem molecular analyses
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infection influences B cell differentiation in situ as part of a recently awarded U54 grant focused on EBV infection in tonsillar tissue explant. For more information about the Luftig lab visit https
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sparse-regression based techniques to derive interpretable and computationally efficient differential equation models from computationally intensive multi-cellular agent based models (ABMs) of Epstein–Barr
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studies on the molecular and biomechanical mechanisms of cell sheet morphogenesis during dorsal closure in the model system, Drosophila melanogaster (reviewed in Kiehart et al. 2017 Ann. Rev. Cell Dev. Biol
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-time paid postdoctoral position is available at the Division of Hematologic Malignancies and Cellular Therapy, Department of Medicine, Duke University. The candidate should have a doctoral degree such as
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The research will be studying skeletal muscle biology and function in regulating other tissues, using cellular, molecular, and model animal (transgenic mice) approaches. Specifically, the postdoctoral research
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The research will be studying skeletal muscle biology and function in regulating other tissues, using cellular, molecular, and model animal (transgenic mice) approaches. Specifically, the postdoctoral research
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Responsibilities will include developing next-generation genome engineering technologies for gene and cell therapy applications as well as functional genomics. In particular, you will focus on delivery methods
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-throughput genomic screening approaches, primary cell culture systems, and animal models of influenza disease. For more information visit https://mgm.duke.edu/faculty-and-research/primary-faculty/nicholas