Time-resolved macromolecular crystallography : proceedings of a Royal Society discussion meeting, held on 29 and 30 January 1992

X-ray diffraction studies have made outstanding contributions to structural molecular biology. The advent of high-intensity synchrotron radiation sources, coupled with the revival of the Laue method, has now made possible the rapid collection of X-ray crystallography data. As a result, protein and virus crystallography is now progressing from studies of equilibrium structures to time-resolved studies of structures at reaction stages. The full exploitation of the synchrotron Laue method for the study of dynamic events in crystals requires many developments in physics, chemistry, and biochemistry: the papers presented in this volume aim to report some of the striking results that have already been obtained and to discuss and identify necessary future developments.

• D.W.J. Cruickshank: Time-resolved macromolecular crystallography: introductory remarks and a little history
• Keith Moffat, Ying Chen, Kingman Ng, Duncan McRee & Elizabeth D. Getzoff: Time-resolved crystallography: principles, problems and practice
• Gian Luigi Rossi, Andrea Mozzarelli, Alessio Peracchi & Claudio Rivetti: Time course of chemical and structural events in protein crystals measured by microspectrophotometry
• Hans D. Bartunik, Lesley J. Bartunik & Hans Viehmann: Time-resolved X-ray diffraction studies of enzymes under cryoconditions
• J.R. Helliwell: Synchrotron X-ray crystallography techniques: time-resolved aspects of data collection
• J.E.T. Corrie, Y. Katayama, G.P. Reid, M. Anson & D.R. Trentham: The development and application of photosensitive caged compounds to aid time-resolved structure determination of macromolecules
• E.M.H. Duke, A. Hadfield, S. Walters, S. Wakatsuki, R.K. Bryan & L.N. Johnson: Time-resolved diffraction studies on glycogen phosphorylase b
• Inger Anderson, Ian J. Clifton, Steven L. Edwards, Vilmos Fulop, Andrea T. Hadfield, Janos Hadju, Par Nordlund, Paul Phizackerley, Michael Soltis, Soichi Wakatsuki: On the scope and limitations of the Laue method in kinetic crystallography: studies with macromolecules
• Axel Scheidig, Emil F. Pai, I. Schlichting, John Corrie, Gordon P. Reid, Alfred Wittinghofer & Roger S. Goody: Time-resolved crystallography on H-ras p21
• Dagmar Ringe, Barry L. Stoddard, John Bruhnke, Paula Koenigs & Ned Porter: Can Laue catch Maxwell?: observation of short-lived species by Laue X-ray crystallography
• Paul T. Singer, Robert P. Carty, Lonny E. Berman, Ilme Schlichting, Ann Stock, Arne Smalas, Zhouping Cai, Walter F. Mangel, Keith W. Jones & Robert M. Sweet: Laue diffraction as a tool in dynamic studies: hydrolysis of a transiently stable intermediate in catalysis by trypsin
• A. Liljas, M. Carlsson, K. Hakansson, M. Lindahl, L.A. Svensson & A. Wehnert: Laue and monochromatic crystallography on carbonic anhydrase
• D.M. Blow, P. Brick, C.A. Collyer, J.D. Goldberg & O. Smart: Conventional X-ray diffraction approaches to the study of enzyme mechanism: serine proteinases, aminoacyl-tRNA synthetases and xylose isomerase
• Gregory A. Petsko: Art is long and time is fleeting: the current problems and future prospects for time-resolved enzyme crystallography.