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, single-cell multiomics, tissue engineering, and animal models. Our current research primarily focuses on four key areas: 1) Developing robust, chemically defined differentiation protocols to generate
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function. Knowledge and/or experience in high dimensional and conventional flow cytometry. Mouse handling and tissue processing. Generation and analysis of bulk and/or single cell transcriptomic data
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fellow to study the cell fate decision mechanisms in hematopoietic stem and multipotent progenitor cells using primary mouse and human bone marrow cells and patient samples. The successful candidate should
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the structural-property relationship in polymers through molecular engineering, structural engineering, and advanced characterization across scales. With these insights, we resolve conflicting design principles
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. Qualifications Required Qualifications: Completed PhD in biomedical engineering, electrical engineering, physics, or a medical imaging related field. Experience with developing advanced pulse sequences
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of neuronal loss to better understand why neurons die or axons are damaged to ultimately establish new strategies for the preservation or restoration of neural tissue. We use multiple approaches, but focus
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(including Crohn’s disease and ulcerative colitis) using molecular and cell biology, multi-omics technologies, murine models, and human tissues. We currently have three major focuses: 1) Innate lymphoid cells
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exclusion criteria apply. For more information, please visit the University of Washington Labor Relations website . Required Qualifications: Completed PhD in biomedical engineering, electrical engineering
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or foreign equivalent in developmental psychology, neuroscience, speech and hearing sciences, engineering, or a related field. Instructions Applicants should submit via Interfolio: A cover letter
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to decipher the molecular regulation of dendritic cell subsets, function, and differentiation using novel approaches, such as CRISPR Cas9, single-cell and tissue analyses. The work will contribute to our