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information delivery, and supporting feedback processes in real-world care settings. The postdoc and PI will jointly envision projects tailored to the fellow’s skillset and long-term career goals. Postdocs will
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investigators inside and outside of the CU system regarding collaborations. Perform experiments independently as well as experiments with other students, postdocs to contribute to publications and overall
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trainees. Our research focuses on aging, anti-tumor immunity, and vesicle trafficking using established models, with strong translational relevance. We welcome candidates with a background in cell biology or
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to implement advanced computational pipelines, including machine learning, deep learning, Bayesian inference, and probabilistic mixed membership modeling for innovative research. · Contribute
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of Colorado. Fellows will conduct mechanistic and translational research in preclinical models of Chimeric Antigen Receptor (CAR) T cells. Key responsibility is to lead a research project studying CAR T cell
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planned to last 2 years, with the option to extend. In the Burger lab, we are interested in early vertebrate development of the axial and lateral plate mesoderm using zebrafish and mice as models, as
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arthritis in an animal model. Additionally, the work will induce how bacteria-produced metabolites trigger pathogenic autoantibodies. S/He will be a valued contributor to a multi-disciplinary team with
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relevant biomedical science discipline Preferred Qualifications: Prior vision science research experience Prior experience with rodent model systems Experience with genetic techniques Knowledge, Skills, and
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experiments to better understand how neutrophil derived mediators influence inflammation within the mucosa, including, but not limited to, models of inflammatory bowel disease. Utilizing specialized knowledge
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. This individual will conduct interdisciplinary and highly collaborative research in in vitro 3D modeling to understand how the early placenta develops. The researcher will work primarily in tissue culture to model