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Clay Armstrong

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Name  Clay Armstrong

Role  Physiologist
Clay Armstrong httpswwwmedupenneduphysiolimagesfacultyh
People also search for  Bertil Hille, Roderick MacKinnon, Chris Miller
Awards  Albert Lasker Award for Basic Medical Research

Clay Margarave Armstrong (born 1934) is an American physiologist and a former student of Dr. Andrew Fielding Huxley. He is currently emeritus professor of Physiology at the University of Pennsylvania. He has also held professorial appointments at Duke University and the University of Rochester.

Armstrong was awarded the Louisa Gross Horwitz Prize from Columbia University in 1996, and the Albert Lasker Award for Basic Medical Research (shared with Bertil Hille and Roderick MacKinnon) in 1999, for his seminal contributions to our understanding of the functions of ion channel proteins in nerve cells. Armstrong was elected to the National Academy of Sciences in 1987, and was elected as a Fellow of the American Academy of Arts and Sciences in 1999. He won the 2001 Gairdner Foundation International Award.

Armstrong is married to noted scientist Clara Franzini-Armstrong.

Ideas and influence

Much of the current understanding of ion channel structure and function can be attributed to the work of Clay Armstrong. Armstrong provided the first general description of the K+ ion channel pore, including the fundamental ideas of a selectivity filter that can allow the rapid flow of K+ while excluding the flow of Na+ across the cell membrane; a wide inner vestibule; and a molecular gating element at the cytoplasmic side of the channel that controls the flow of ions through the pore. In addition, Armstrong's studies (with Francisco Bezanilla) that described the first measurement of charge movement associated with the activation of Na+-selective ion channels laid the groundwork for the current understanding of the molecular basis of electrical signaling in nerve and muscle cells.

A consistent feature of Armstrong's contributions is the quantitative nature of his work, combined with clear and concise descriptions of the underlying mechanism.


Clay Armstrong Wikipedia