32 molecular-dynamics-simulation Postdoctoral positions at Pennsylvania State University
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-molecular condensation in live cells. We are using mouse embryonic stem cells and mouse erythroid leukemia cells to investigate the dynamics and function of transcriptional condensates in health and disease
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SPECIFICS The Zhu lab at the Department of Entomology, The Pennsylvania State University, has a Postdoctoral Scholar position is available immediately. Join our dynamic and collaborative research team as a
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invites applications for a postdoctoral research position focused on modeling of coupled lattice defect dynamics and charge carrier transport in GaN-based materials and devices. This position is part of
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Ernest C. Pollard Professor of Biotechnology in the Department of Biochemistry & Molecular Biology and Department of Chemistry, and is a member of the Huck Institutes of the Life Sciences where he is the
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of non-canonical DNA. Candidates with an interest in non-B DNA and/or in the analysis of mammalian evolution are particularly encouraged to apply. The successful candidate will join an established dynamic
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. JOB DESCRIPTION AND POSITION REQUIREMENTS: We are searching for a multi-phase combustion computational fluid dynamics (CFD) Post-doctoral Scholar to join our Technology Concepts and Modeling Department
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applicants who have experience in conducting highly controlled laboratory and greenhouse plant experiments, collection of various forms of phenotypic and molecular data, statistical analysis of complex
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the functionality of food molecules. Integrate molecular biology, bioinformatics, and protein engineering tools to improve enzyme performance. Design and optimize enzyme-catalyzed reactions for food structure
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management and ongoing nematology, microbiology, and molecular biology experiments, as assigned. Assist in training research technicians and undergraduate researchers when appropriate. Gain experience in grant
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to improve gastrointestinal and metabolic and liver health, and, additionally, identify the molecular link by which microbial fermentation-derived metabolites aggravate or alleviate chronic inflammatory