23 postdoc-molecular-dynamics-simulation Postdoctoral positions at University of Nebraska Medical Center
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research positions. We are seeking exceptionally motivated and talented individuals to join our dynamic team, dedicated to pioneering research at the intersection of HIV infection, drug abuse, mitochondrial
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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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positions. We are seeking exceptionally motivated and talented individuals to join our dynamic team, dedicated to pioneering research at the intersection of HIV infection, drug abuse, mitochondrial
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vitro and in vivo models of congenital heart defects. This individual will complete projects that require expertise in iPSC biology and derivation of terminal cell types, methods of molecular biology
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, University of Nebraska Medical Center (Omaha), seeks a postdoctoral research associate to join Dr. Hingorani’s lab. Our laboratory investigates molecular and cellular mechanisms of pancreatic ductal
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vivo. Our group synergizes the expertise of clinicians, bioengineers, and molecular biologists in a dynamic research environment to produce clinically-viable biomaterials. Experience with stem cells
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in iPSC biology and derivation of terminal cell types, methods of molecular biology, gene transfer, gene editing, biochemistry, cell biology, cell culture, and vertebrate animal models, including
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and working experience in BSL2, BSL3 and ABSL2 and ABSL3 labs preferred. Research interests include animal models as synergetic platform for preclinical development of therapeutics and molecular biology
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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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Integrative Physiology. The Alfaidi Lab has a long-standing interest in vascular cell signaling and the impact of vascular molecular/ genetics mechanisms on phenotypic changes in the context of cardiopulmonary