G., 1979, Processing oscillation diffraction data for very large unit cells with an automatic convolution technique and profile fitting, J. C., 1982, Structure of the expanded state of tomato bushy stunt virus, Nature, 297: 563. H., 1984, X-ray Laue diffraction from protein crystals, Science, 223: 1423. Papiz, eds., Daresbury Laboratory, DL/SCI/R25, 75–83. A., 1987, Computational aspects of protein crystal data analysis, J. A., 1985, Information Quarterly for Protein Crystallography, Daresbury Laboratory, 15: 1. C., 1983, Divalent cation sites in tomato bushy stunt virus. Hogle, J., Kirchhausen, T., and Harrison, S. R., 1984, Synchrotron x-radiation protein crystallography: instrumentation, methods and applications, Rep. K., and Bricogne, G., 1978, Tomato bushy stunt virus at 2.9A resolution, Nature, 276: 368. N., 1988, Catalysis in enzyme crystals, TIBS, 13: 104. N., and Elder, M., 1987, Millisecond X-ray diffraction and the first electron density map from laue photographs of a protein crystal, Nature, 329: 178. J., Clifton, I., Zurek, S., Gover, S., Johnson, L. I, 1985, Information Quarterly for Protein Crystallography, Daresbury Laboratory, 15: 17. Results and recommendations for the processing of synchrotron radiation data in macromolecular crystallography, J. L., 1986, Oscillation camera data processing. P., 1983, X-ray optics and spectral brightness of the superconducting SRS wiggler, Nucl. Klasse, ( Kgl.) Bayerische Akademie der Wissenschaften, Munchen, 303–322. USA, 85: 112.įriedrich, W., Knipping, P., and Laue, M. A., and Hajdu, J., 1988, X-ray Laue diffraction from crystals of xylose isomerase, Proc. R., and Moffat, K., 1987, Multiplicity distribution of reflections in laue diffraction, Acta Cryst., A43: 656.Įlder, M., 1986, Information Quarterly for Protein Crystallography, Dares-bury Laboratory, 19: 31.įarber, G. Congiu Castellano, eds., Springer Verlag, Berlin, Heidelberg, New York, London, Paris, Tokyo, 2: 52.Ĭruickshank, D. M., 1987, in: “Springer Series in Biophysics, Biophysics and Synchrotron Radiation,” A. R., Habash, J., Hajdu, J., and Harding, M. W., Moffat, K., and Helliwell, 1986, Information Quarterly for Protein Crystallography, Daresbury Laboratory, 18: 23.Ĭampbell, J. W., 1968, The optimum strategy in measuring structure factors, Acta Cryst., B24: 1355.īricogne, C., 1976, Methods and programs for direct-space exploitation of geometric redundancies, Acta Cryst., A32: 832.Ĭampbell, J. J., and Canut de Amoros, M., 1975, “The Laue Method,” Academic Press, New York.Īrndt, U. This process is experimental and the keywords may be updated as the learning algorithm improves.Īmoros, J. These keywords were added by machine and not by the authors. The Laue technique did not become a method of data collection because conventional X-ray sources do not have a satisfactory spectrum and because of the difficulties in unravelling the complicated diffraction patterns. Moreover, with crystals of high symmetry, a full data set may be recorded on a single photograph. The wider the wavelength range the more lattice planes become accessible to the Laue geometry (Amoros et al., 1975 Cruickshank et al., 1987). With a stationary crystal and white X-radiation, a large number of lattice planes diffract simultaneously as the Bragg condition is satisfied for each of these planes by at least one wavelength of the spectrum. Seventy-six years ago, Friedrich, Knipping and von Laue (1912) demonstrated the diffraction of X-rays on a crystal of copper sulphate using white X-radiation.
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