71 molecular-dynamics-simulation Postdoctoral research jobs at University of Washington
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Spaces Sciences at the University of Washington seeks a Postdoctoral Scholar to work on numerical simulations and data analysis to inform the search for life on exoplanets. The position will be supervised
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to lead impactful research at the interface of aging biology, neurodegeneration, and spatial omics. The successful candidate will contribute to high-profile projects investigating the cellular and molecular
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opportunity to join a multidisciplinary and collaborative NIH-funded research project investigating molecular mechanisms regulating neonatal lung development. Job Description Primary Duties & Responsibilities
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scholar will be expected to be involved in research efforts in at least one of the following: transportation data analytics, highway safety, transportation equity and sustainability, traffic simulation
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the neural dynamics of fear circuits in response to potential danger and actual attacks by animate entities. The position offers opportunities for close collaboration within a vibrant neuroscience community at
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Position Description The Department of Earth and Spaces Sciences at the University of Washington seeks a Postdoctoral Scholar to work on numerical simulations and data analysis to inform the search for life
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to decipher the molecular regulation of dendritic cell subsets, function, and differentiation using novel approaches, such as CRISPR Cas9, single-cell and tissue analyses. The work will contribute to our
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. Computational and bioinformatic skills. Experience in microscopy. Generation and analysis of mouse models. Handling of human samples. Molecular biology skills including CRISPR, cloning and qPCR. In vitro cell
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), identifying specific genomic variants and their relationship to clinical manifestations, and understanding the molecular mechanisms behind these rare disorders. • Methods Development: Developing novel
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biochemistry, genomics, molecular genetics, cell biology, and model organism systems to uncover the mechanisms by which histone mutations disrupt human development and lead to disease. Our ultimate goal is to