25 molecular-modeling-or-molecular-dynamic-simulation Postdoctoral positions at Medical College of Wisconsin
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individual, that will study the structure and functional dynamics of the bacterial lipopolysaccharide transport system using DEER and continuous wave EPR spectroscopies, molecular dynamics simulations, and
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this, we apply a combination of cutting-edge genomic analyses and laboratory experiments to interrogate multi-ethnic patient samples, laboratory cell lines and animal models. Ongoing and future projects
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Position Description: Every day, in ways both big and small, the Medical College of Wisconsin (MCW) is impacting lives for the better. MCW … changemaking for a healthier Wisconsin. Our dynamic team
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: Familiarity in the use of medical imaging data and computational modeling approaches such as computational fluid dynamics and/or fluid structure interaction simulations. Why MCW? Outstanding Healthcare Coverage
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that surrounds them using both animal models and cell-based assays. Currently, the lab is focused on pancreatic cancer studies. The lab also investigates the cellular control of proliferation and is focused
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field Minimum Required Experience: Research skills include immunology, molecular and cellular biology techniques Preferred Experience: Immunology, including mouse models, flow cytometry and
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samples, laboratory cell lines and animal models. Ongoing and future projects include (i) genomic and functional characterization of molecular drivers of women’s cancers, (ii) biology and therapy
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: Molecular biology techniques (e.g., nucleic acid extraction, PCR/qPCR, RT-PCR, cloning, sequencing) Mammalian cell culture (primary cells and continuous lines); aseptic technique Virological assays (viral
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the structure and dynamics of noncoding RNAs using biophysical and structural techniques (e.g., NMR, X-ray crystallography, cryo-EM) Conduct biochemical assays to study RNA–protein and RNA–small molecule
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technologies will be used to investigate G protein-coupled receptor (GPCR) signal transduction as it relates to cardiovascular disease, and in particular the molecular basis for ligand-mediated β2-adrenergic