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with a PhD in computer science or bioinformatics are encouraged to apply. We create statistical, machine learning, and deep learning approaches for the processing of this data, with a major focus on
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. Multidisciplinary approaches including clinical neuroimaging and basic biomedical bench techniques will be used in human subjects and animal models, respectively. Qualification: The applicant will be working in a
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, 3D ex-vivo cell culturing models, and the implementation of unique genetically modified animal models. The Division provides a highly collaborative environment and the possibility to grow. An NIH
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to study the influence of gut microbiota on malaria. Candidates must have a PhD degree with a strong research background in immunology, gut microbiome, or microbiology. Experience conducting research
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), and the Accelerating Medicines Partnership for AD (AMP-AD), and Model Organism Development & Evaluation for Late-Onset Alzheimer’s Disease (MODEL-AD). Requirements Successful applicants will have strong
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fellow to join the 3D Stem Cell Biology Research Lab (https://www.hashinolab.com ) and study normal and pathological development of the human inner ear using stem cell-derived organoids as a model system
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building models for novel materials, including nickelate superconductors, Kagome materials, 2D magnets, and many others. The candidate will ideally also co-mentor undergraduate and graduate students in
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of the unique genetically modified animal models The Division provides a highly collaborative environment and the possibility to grow. An NIH-funded T32 Training Program is in place. Indianapolis is the capital
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pathophysiology of the inner ear using multiple genetic mouse models and a novel human stem cell-derived 3D inner ear organoid model. We study genetically-mediated hair cell and neuronal degeneration in these model
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, 3D ex-vivo cell culturing models, and the implementation of unique genetically modified animal models. The Division provides a highly collaborative environment and the possibility to grow. An NIH