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of Medicine, and study normal and pathological development of the human inner ear using stem cell-derived organoids as a model system (Koehler et al., Nature Biotechnology 2017; Nie et al., Nature
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neurodegeneration and neuroinflammation. This work leverages cutting-edge molecular, cellular, and animal model approaches with direct translational relevance to FTD through work with patient samples. Primary Duties
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economically thanks to a strong corporate base anchored by the life sciences. Indiana is home to one of the largest concentrations of health sciences companies in the nation. Indianapolis has a sophisticated
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third year based on performance and funding. The IU Nuclear Theory Group consists of four faculty members, several postdoctoral researchers, and graduate students. Current research areas include: hadronic
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modeling, hydrological models, and/or climate models. While this topic is the primary focus of the position, the fellow will be encouraged to pursue novel research topics. The successful candidate will join
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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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. 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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co-develop an exciting research project that will improve our understanding of behavioral evolution, using fruit flies as a model system. The successful applicant will join a vibrant and cooperative
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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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to: Western blotting, PCR, qPCR, ELISA, immunoprecipitation, cell culture, and in vivo animal models. Design, execute, and analyze biochemical assays to investigate signaling pathways and gene expression