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. This project offers unique multidisciplinary training in antibody engineering (design, production, purification and conjugation), molecular cancer biology, precision immuno-oncology, molecular imaging (immunoPET
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cancer. Work in the lab utilizes both genetically engineered mouse models and in vitro systems. A combination of state-of-the-art surgical, genetic, cellular, biochemical, imaging, and metabolic flux
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Institute at City of Hope. You will work on projects investigating the new pathways and targets in diabetes/obesity and other metabolic diseases. We use genetically engineered mouse models and molecular
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biochemistry, molecular biology, and cell biology methods with state-of-the-art technologies such as comprehensive mouse phenotyping, 3D tissue clearing & imaging, in vivo transplantation and 3D imaging
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, cell imaging and data analysis · Experience in statistical methodologies · Excellent written and verbal communication skills · Publications in peer-reviewed journals
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utilizes genetic mouse models, molecular biology, imaging and epigenetic techniques to study the cellular identity, function, remodeling, and survival of beta-cells in physiological and pathological
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engineered mouse models and molecular pharmacology tools to identify novel signaling pathways in metabolism to develop new targets for drug discovery. Our research interests include: 1) Liver-gut and
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or protein structural data analysis is highly preferred. Background with pharmacology, cell therapy or antibody engineering is also desired. · Previous experience in working with animal models
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sciences/computer science/engineering without biology backgrounds but who want to pivot to a future career in biomedical sciences are strongly encouraged to apply. The candidate must have at least 2 years of
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, cancer metabolism, bioinformatics, pathology, proteomics, transcriptomics, epigenomics, molecular imaging, and translational science. Have the opportunity to pursue T32 grant funding for their postdoctoral