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coagulation factor proteins to investigate the mechanisms of coagulation and drug action. The experiments will include enzymatic, clotting, antigen and thrombin generation assays. Mouse models may be used
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and BSL-4 laboratories utilizing a wide range of techniques such as in vitro and in vivo infection models, flow cytometry, ELISA, western blots, and multiplex immunoassays. Our projects rely
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uses cryo-electron microscopy to understand how viral proteins are recognized by antibodies at an atomic level, and how that recognition can be exploited to design effective vaccines. You will learn
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to these landscapes and helping in modelling efforts and collection of new forest management and supply chain data. Learning Objectives: Gain first-hand experience conducting cutting-edge research within a federal
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pathogens such as Japanese encephalitis and Rift Valley fever. Learning Objectives: The fellow will learn epidemiological techniques related to modeling parasitic and vector-borne diseases. Opportunities
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to: Learning about aircraft systems engineering and systems analysis to support integrated design and performance assessment. Participating in aircraft design trade studies with a focus on propulsion–airframe
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development, institution review board protocol(s), and data collection Learning about new domain(s) relevant to the Cognition and Modeling Branch at Wright-Patterson AFB Reporting research updates in individual
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the plant family as a whole; and to identify correspondences among agronomically important genes across many crop and model species in this large plant family. After identifying corresponding genes, genomic
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the underlying impacts of stressors on bee health and analytical skills for understanding colony level dynamics and predicting mass colony loss events. Learning Objectives: The fellow will learn and apply