Biochalcogen Chemistry
The Biological Chemistry of Sulfur, Selenium, and Tellurium
Edited by Craig A. Bayse and Julia L. Brumaghim
American Chemical Society
Author Information
Craig A. Bayse received his B.S. in chemistry from Roanoke College in 1994 and his Ph.D. at Texas A&M University in 1998, working with Michael B. Hall on theoretical studies of the structure and bonding of transition metal hydride complexes. As a graduate student, he attended the European Summer School in Quantum Chemistry in Sweden and the Sostrup Summer School on Quantum Chemistry and Molecular Properties in Denmark. He took a brief hiatus from computational chemistry during a Kodak-funded postdoctoral appointment at Cornell University with Barry K. Carpenter, synthesizing novel azoalkanes. More recently, he added molecular dynamics simulations of proteins to his repertoire through a sabbatical appointment at the University of Florida with Kennie M. Merz. His research uses an amalgam of these computational and experimental approaches to explore the bonding and reactivity of inorganic systems. His contributions include mechanistic studies of bioactive selenium and sulfur compounds; theoretical studies of the active sites of molybdenum and tungsten enzymes; determination of the electronic structure of luminescent coinage metal materials; and bonding models of ?-stacking interactions. He is currently Professor of Chemistry and Biochemistry at Old Dominion University.
Julia L. Brumaghim received her Ph.D. degree from the University of Illinois at Urbana-Champaign and completed postdoctoral research at the University of California at Berkeley in both Bioinorganic Chemistry and Cellular and Molecular Biology. She is currently an Associate Professor in the Department of Chemistry at Clemson University in Clemson, SC. Recent work primarily focuses on metalmediated oxidative DNA damage and the mechanisms by which sulfur, selenium, and polyphenolic antioxidant compounds prevent this damage. In addition, she is investigating the ability of nanomaterials to generate reactive oxygen species and promote oxidative damage. She has published over 40 papers, has presented her research at over 80 scientific conferences and universities, and has been a recipient of the ACS PROGRESS/Dreyfus Lectureship Award from the American Chemical Society and Camille and Henry Dreyfus Foundation, a CAREER award from the National Science Foundation, and the 2008 Award for the Best Paper from A Young Investigator, Journal of Inorganic Biochemistry and Elsevier Publishers.
Contributors:
Thomas G. Back
T. Spencer Bailey
Craig A. Bayse
Eric Block
Julia L. Brumaghim
Julianne Caton-Williams
Takeshi Fuchigami
Katsuyoshi Fujimoto
Craig A. Grapperhaus
Matthew D. Hammers
Mamoru Haratake
Zhen Huang
Michio Iwoaka
Manindar Kaur
Hongoh Masafumi
Mark S. Mashuta
César A. Masitas
Leticia A. Montoya
Morio Nakayama
Michael D. Pluth
Abdur Rob
Sharon Rozovsky
Bradley S. Stadelman
Sakura Yoshida
Hanyi Zhuang
