Harry B. Gray
Assistant: Pat Anderson
Professor Gray's interdisciplinary research program addresses a wide range of fundamental problems in inorganic chemistry, biochemistry, and biophysics. Electron-transfer (ET) chemistry is a unifying theme for much of this research.
Great progress has been made in understanding how covalent bridges mediate long-range ET reactions. Questions remain, however, regarding the contributions of solvents to long-range interactions between electron donors and acceptors. Gray's research has shown that electron tunneling in aqueous glasses is much less efficient than tunneling across saturated covalent bridges. Investigations of ET reactions between excited metal complexes and electron acceptors in rigid protic and aprotic media are probing the factors that control distant couplings through solvents.
Over the past twenty years the Gray group has been measuring the kinetics of long-range ET reactions in metalloproteins labeled with inorganic redox reagents. Current research is aimed at understanding how intermediate protein radicals accelerate long-range ET. New techniques have been developed for measuring ET rates in crystals of Ru-, Os-, and Re-modified azurins, as well as crystals of Fe(III)-cytochrome c doped with Zn(II)-cytochrome c. This method of integrating photosensitizers into protein crystals has provided a powerful new tool for studying biochemical reaction dynamics.
Electron exchange with metal cofactors deeply buried in the interiors of redox enzymes is often quite slow. Researchers in the Gray group have succeeded in accelerating the delivery of electrons and holes to the buried active site of cytochrome P450 by tethering a photochemical redox sensitizer to P450 substrate analogs. This approach is now being exploited in studies of several other redox enzymes (e.g., nitric oxide synthase, catechol oxidase, amine oxidase).
Gray has published over 900 research papers and 18 books. He has received the Ira Remsen Award (1979); the Edgar Fahs Smith Award (1984); the Bailar Medal (1984); the Centenary Medal (1985); the National Medal of Science from President Ronald Reagan (1986); the Pauling Medal (1986); the California Scientist of the Year Award (1988); the Gold Medal of the American Institute of Chemists (1990); the Waterford Award of the Scripps Research Institute (1991); the Linderstrøm-Lang Prize from Denmark (1992); the Gibbs Medal (1992); the Basolo Medal (1994); the Chandler Medal (1999); the Harvey Prize from the Technion (2000); the Nichols Medal (2003); the Wheland Medal (2003); the Dwyer Medal from Australia (2003); the National Academy of Sciences Award in Chemical Sciences (2003); the Benjamin Franklin Medal in Chemistry (2004); the Wolf Prize in Chemistry (2004); the City of Florence (Italy) Prize in Molecular Sciences (2006); the Welch Award in Chemistry (2009); the International Coordination Chemistry Award from Japan (2010); the Othmer Gold Medal (2013); the T. W. Richards Medal (2014); six national awards from the American Chemical Society, including the Priestley Medal (1991); and 20 honorary doctorates. He is a member of the National Academy of Sciences; the American Academy of Arts and Sciences; the American Philosophical Society; a foreign member of the Royal Danish Academy of Sciences and Letters; the Royal Swedish Academy of Sciences; the Royal Society of Great Britain; and the Accademia Nazionale dei Lincei. He served on the Council of the National Academy of Sciences (1986-1989) and on the Governing Board of the National Research Council (1986-1989). He was President of the Society of Biological Inorganic Chemistry (2002-2004), Chairman of the Board of Trustees of the Gordon Research Conferences (2000), and Chairman of the Board of Directors of the Arnold and Mabel Beckman Foundation (2013-2015). He is Principal Investigator of the NSF CCI Solar Fuels Program and a Director of University Science Books.