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inter‐organ communication in heart injury (e.g. heart failure) and neurological disorder (e.g. traumatic brain injury) using our unique genetic mouse models. Candidates with research experience in
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islet imaging assays, in vivo assays of metabolism (e.g. glucose tolerance tests), and developing novel machine learning models (in Python and R). Experience with mammalian cell and tissue culture
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summary, we focus on cutting edge technologies (functional genomics & lipidomics) and innovative in vitro and in vivo models to better understand the biology of macrophages during health, disease, and
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–pathogen interaction models, immunological assays (including cytokine analysis, flow cytometry, ELISA, Western blotting, and immune signaling analysis), and/or omics-based methodologies (such as
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immunohistochemistry techniques. Develop hypotheses and experimental plans for in vitro and in vivo models. Trouble shoot and customize experimental tools, generate clear and timely records of experimental work. Review
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following disciplines: bacterial genetics, molecular cloning, gene editing approaches, host–pathogen interaction models, immunological assays (including cytokine analysis, flow cytometry, ELISA, Western
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with rodent models of self-administration and whole cell electrophysiology is required. Skills / Knowledge / Abilities There is a rich translational environment of substance use research at UK, and the
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prior research experience in one or more of the following areas: metabolism, single-cell transcriptome, 3D tissue or animal models, biomaterials, immunology, and stem cell biology. • Demonstrated
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animal models is desirable. To apply, please submit a cover letter and Curriculum Vitae to your application. Skills / Knowledge / Abilities Ph.D. or M.D. Metabolic disease research is preferred
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prior research experience in one or more of the following areas: metabolism, single-cell transcriptome, 3D tissue or animal models, biomaterials, immunology, and stem cell biology. • Demonstrated