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, electrophysiology, rodent microsurgery and animal models of glaucoma and other ocular diseases. The postdoctoral fellow will be joining a young lab with exciting opportunities to make discoveries that intersect
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to investigate the molecular and cellular mechanisms of intercellular communication in the healthy brain and in tumor microenvironment (TME). The major focus of our lab is to advance technologies including single
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of Ophthalmology at the Byers Eye Institute. Why do cells in the eye and neurons in the central nervous system (CNS) fail to survive and regenerate after injury? Using primarily the retina and optic nerve as a model
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should have a strong background in cancer biology, molecular biology, biochemistry, immunotherapy/immunology, bioinformatics, and experience working with mammalian cells and mouse models of cancer
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advanced bioengineering study and work. The Fellow will support this goal by working with faculty, lecturers, graduate teaching assistants, and undergraduate students to define fundamental quantitative skill
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projects focused on emergency medicine health services. • Utilize advanced quantitative methods to analyze large healthcare datasets, including Medicare and Medicaid claims data. • Publish findings in high
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in the eye. Relevant techniques include basic molecular biology, cell culture, calcium imaging, electrophysiology, rodent microsurgery and animal models of glaucoma and other ocular diseases
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at understanding and combating breast cancer while minimizing normal tissue toxicity. Key Responsibilities: Primarily conduct advanced bioinformatics analyses to support research in breast cancer biology. Serve as a