The dynamic field of flavin and flavoprotein biochemistry has seen rapid advancement in recent years. This comprehensive two volume set provides an overview of all aspects of contemporary research in this important class of enzymes. Topics treated include flavoproteins involved in energy generation, signal transduction and electron transfer (including respiration); oxygen activation by flavoproteins; the biology and biochemistry of complex flavoproteins; flavin and flavoprotein photochemistry/photophysics as well as biotechnological applications of flavoproteins. Recent developments in this field include new structures (including those of large membrane-integral electron transfer complexes containing FMN or FAD), elucidation of the role of flavoproteins in cell signalling pathways (including both phototaxis and the circadian cycle) and important new insights into the reaction mechanisms of flavin-containing enzymes. This volume focusing on complex flavoproteins and physical methods is an essential reference for all researchers in biochemistry, chemistry, photochemistry and photophysics working on flavoenzymes.

Contributions by: Csaba Bajzath, David Ballou, Elisa Bombarda, Gary Cecchini, Verónica I. Dumit, Bryan T. Eger, Holly R. Ellis, Barrie Entsch, Carlos Gomez-Moreno, Hiroshi Ishikita, Jung-Ja Kim, Goutham Kodali, Anabel Gracia Lostao, Stefania Montersino, Takeshi Nishino, Ken Okamoto, Emil F. Pai, Bernd Paulus, John M. Robbins, Reeder M. Robinson, Erik Schleicher, Anna L. Shen, Pablo Sobrado, Robert J. Stanley, Jon Stewart, Matthias Ullmann, Willem van Berkel, Adam Z. Walton, Stefan Weber, Chuanwu Xia, Jingyuan Xiong, Dongping Zhong