158 engineering-computation "https:" "https:" "https:" "https:" "https:" "https:" "https:" "UCL" research jobs at University of Washington in United States
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pluripotent stem cells for the study and treatment of diabetes. We have a wide diversity of projects involving stem cells differentiation, genetic engineering with CRISPR, disease modeling, transplantation
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of pediatric brain tumors with immunotherapies. Job Description Primary Duties & Responsibilities: Information on being a postdoc at WashU in St. Louis can be found at https://postdoc.wustl.edu/prospective
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, genetic engineering with CRISPR, disease modeling, transplantation into animal models of diabetes, biomedical engineering, bioinformatics, and single-cell sequencing technologies. Job Description Primary
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Primary Duties & Responsibilities: Information on being a postdoc at WashU in St. Louis can be found at https://postdoc.wustl.edu/prospective-postdocs-2/ . Trains under the supervision of a faculty mentor
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on Plasmodium vivax, an understudied malaria parasite species. Job Description Primary Duties & Responsibilities: Information on being a postdoc at WashU in St. Louis can be found at https
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St. Louis can be found at https://postdoc.wustl.edu/prospective-postdocs-2/ . Trains under the supervision of a faculty mentor including (but not limited to): Assists with grant preparation and
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for future career opportunities. Job Description Primary Duties & Responsibilities: More information about the Brossier Lab can be found at https://brossierlab.wustl.edu/ . Under the direction of the PI or lab
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can be found at https://postdoc.wustl.edu/prospective-postdocs-2/ . For more information on the Sibley Lab, please visit https://sites.wustl.edu/sibleylab . Trains under the supervision of a faculty
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found at https://postdoc.wustl.edu/prospective-postdocs-2/ . For information on the Schwartz lab, please visit https://djschwartzlab.wustl.edu/ . Trains under the supervision of a faculty mentor including
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/i/a screening, single-cell multiomics, tissue engineering, and animal models. Our current research primarily focuses on four key areas: 1) Developing robust, chemically defined differentiation