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Assistant Dean for Scientific AffairsProfessor of Molecular Physiology and BiophysicsProfessor of
Primary Office: 5-610 BSBIowa City, IA 52242
Email: email@example.comWeb: Lee LaboratoryWeb: Video: "Great Science: Electric Currents in Nerve Cells"
BS, Biology, University of MichiganPhD, Neuroscience, University of Virginia
Fellowship, Pharmacology, University of Washington
Department of Molecular Physiology and Biophysics PhDInterdisciplinary Graduate Program in NeuroscienceInterdisciplinary Graduate Program in Translational BiomedicineMedical Scientist Training Program
Our research centers on voltage-gated (Cav) Ca2+ channels and their roles in the nervous and cardiovascular systems. We view Cav channels as macromolecular complexes, the components of which regulate their properties and involvement in cellular transduction cascades. One focus is on Cav1 L-type channels at sensory "ribbon" synapses in the retina and inner ear, where Cav protein interactions transform presynaptic Ca2+ signals required for high-throughput neurotransmitter release.
A second focus is on protein interactions regulate Cav1 channels involved in spontaneous firing (pacemaking) in the heart and brain. Our approach is multidisciplinary: we use patch-clamp electrophysiology for studies of Cav channel modulation and exocytosis; molecular biology, protein chemistry, and immuncytochemistry for analysis of Cav protein interactions; and gene silencing methods (siRNA, targeted gene disruption) and in vivo electrophysiology to evaluate the physiological consequences of Cav protein interactions in the context of hearing, vision, and cardiac rhythmicity. Our long-term goal is to develop pharmacological strategies to target cell-type and tissue-specific Cav regulatory mechanisms, which may prove more selective than current Cav agonists and antagonists in the treatment of neurological and cardiovascular disease.
Date Last Modified: 10/09/2015 -
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