26 modelling-complexity-geocomputation Postdoctoral positions at University of Florida
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investigators. The work will focus primarily on developing novel therapies for patients with intractable neurological and psychiatric conditions using a combination of device development, computational modeling
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experiments using molecular, cellular, and physiological techniques. Drive forward complex and impactful projects, leading to high-quality publications. Develop fellowship and grant applications to support
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the absence of antiretroviral therapy (ART). Using nonhuman primates as a preclinical model of HIV/AIDS, we have shown that a single dose of adeno-associated virus (AAV) vectors at birth can result in stable
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of synaptic function and dysfunction in neurological disorders—including Alzheimer’s disease, autism spectrum disorder, and Parkinson’s disease—using both mouse models and human brain tissues. We are seeking a
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, vegetation, and water table position on energy transmission. Co-develop and apply process-based numerical models of dune morphological change informed by collected datasets. Coordinate field campaigns
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to discover new therapies. The successful candidate will assume a leadership position within the lab as a Postdoctoral Associate. Set the tone for both scientific and scholarly excellence. Drive forward complex
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additional AD risk genes and to develop disease models. Work on the projects studying molecular mechanisms that recently identified Alzheimer’s disease risk repeat expansion variants contribute to disease
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postdoctoral associate positions, starting immediately. Dr. Liu has extensive experience in big data analytics, systems biology, probabilistic graphical models, causal inference and machine learning. Dr. Liu's
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influence placental physiology, fetal development and long-term health outcomes. The successful candidate will join a dedicated research team conducting translational studies using animal models, human tissue
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projects for this position include: (1) development of physiologically based pharmacokinetic (PBPK) and quantitative structure-activity relationship (QSAR) models of drugs, environmental chemicals, and