40 advance-soil-structure-modeling Postdoctoral positions at University of Washington
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multidisciplinary approach, spanning basic biology and translational medicine using mouse models and patient samples, tackles complex questions with profound implications for human health. Projects are available
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mechanisms underlying brain aging and age-related neurodegenerative diseases—including Alzheimer’s disease—using advanced spatial biology platforms and translational approaches. Job Description Primary Duties
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for this position. Work Experience: No specific work experience is required for this position. Skills: Animal Models, Bioinformatic Analysis, Cell Cultures, Communication, Critical Thinking, Library Construction
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(PET), functional MRI (fMRI), and electroencephalography (EEG), using advanced quantitative modeling techniques and artificial intelligence methodologies in brain diseases. The candidate will work
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to advance precision medicine, we have made important contributions to a number of large-scale cancer genome studies, including TCGA, ICGC, CPTAC, PDXNet, and HTAN. We have also created various cancer and
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, the candidate will have the opportunity to engage in research using advanced immunologic techniques, including mouse and xenograft models, transgene delivery and/or gene editing, immunologic assays, and single
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, tumor immunology organotypic in-vitro models, genetically engineered animal models and human tissues from clinical trials. All these approaches are brought to bear on impactful questions in tumor
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Position Summary The Turner Lab at WashU in St. Louis focuses on advancing the emerging field of Precision Genomics, which we define as “determining all possible relevant genomic variation within
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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
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experience in molecular and cellular neurobiology to study neuronal regeneration and preservation in retinal mouse models of injury and disease. This project will examine how cellular metabolism impacts