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Neural Development at The George Washington University School of Medicine is uncovering the secret life of the fetal and infant brain. We use advanced electrophysiological methods in animal models of human
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health workforce research. Candidates should be early career, post-doctoral scientists with experience in health equity and research, community based participatory research preferred. The associate will
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interdisciplinary, relying on tools from molecular biology, biochemistry, structural biology, AI-based structure prediction, transgenic models, immunology, and neuroscience, but also including industrial
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critical challenges that arise at the intersection of digital technology, media and democracy, in turn informing sound policy solutions. IDDP is committed to supporting rigorous, evidence-based research
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. Experience and training in longitudinal data analyses, particularly multi-level modeling and structural equation modeling. Proficiency in statistical analysis software (e.g., SPSS, R, MPlus, SAS). 2
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. This position is supported by a newly NIH funded grant to study DNA repair by using cell and molecular approaches and animal models. The postdoc will design, organize and conduct specialized and advanced
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tumor and patient-derived xenograft models. And the Lee lab uses various cellular and molecular biology techniques. This position will primarily conduct cancer research focused on metabolic alteration in
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tumor and patient-derived xenograft models. And the Lee lab uses various cellular and molecular biology techniques. This position will primarily conduct cancer research focused on metabolic alteration in
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injury and peripheral nerve injury models of chronic pain. They will be responsible for leading independent studies analyzing sex specific mechanisms of chronic pain and investigating therapeutic targets
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rodents. Experience in stereotactic brain injections is preferred. · Manipulation and instrumentation using genetic mouse models. · Real-time PCR · Genotyping · Immunofluorescence · Glucose and insulin