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blot, CRISPR, etc.) Knowledge of in vitro cell models and in vivo animal models (viral/fungal) Knowledge of general pathophysiology and molecular biology Proficiency in data analysis Strong problem
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of in vitro cell models and in vivo animal models (viral/fungal) Knowledge of general pathophysiology and molecular biology Proficiency in data analysis Strong problem-solving and experimental design
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and focuses on molecular immunology and inflammatory mechanisms. Cutting-edge research models (eg. primary cell/organoid cultures, mouse models and human clinical samples) and technologies (e.g. scRNA
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models, histology, cell culture, differential expression analyses, and molecular biology assays, our lab studies the molecular mechanisms that regulate metabolic processes and iron homeostasis both in
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and focuses on molecular immunology and inflammatory mechanisms. Cutting-edge research models (eg. primary cell/organoid cultures, mouse models and human clinical samples) and technologies (e.g. scRNA
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, demonstrated by a strong publication record: 1) bioinformatics and related areas; 2) cell and molecular biology and related areas; or 3) animal model physiology and related areas. Candidates must have a PhD, or
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both rodent models and the human disease. They have recently discovered alterations in the expression and localization of key drug transporters in NASH resulting in altered disposition of drugs and
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record: 1) bioinformatics and related areas; 2) cell and molecular biology and related areas; or 3) animal model physiology and related areas. Candidates must have a PhD, or MD/PhD degree, and be self
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animal model experiments including assessing animal behavior, performing surgeries, tissue harvest, pathology and molecular analysis. Participate and observe in cell experiments including cell culture, PCR
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supported by multiple NIH R01 grants and focuses on molecular immunology and inflammatory mechanisms. Cutting-edge research models (eg. primary cell/organoid cultures, mouse models and human clinical samples