58  MACROMOLECULAR CRYS TALLOGRAPHY

        Ducruix, A. and Giegé, R. (1999). Crystallization of Nucleic  Mueller, U., Nyarsik, L., Horn, M., Rauth, H., Przewies-
          Acids and Proteins, A Practical Approach, 2nd edn. Oxford  lik, T., Saenger, W., Lehrach, H. and Eickhoff, H. (2001).
          University Press, Oxford.                   Development of a technology for automation and mini-
        García-Ruíz, J. M., Gonzalez-Ramirez, L. A., Gavira, J. A.  aturization of protein crystallization. J. Biotechnol. 85,
          and Otálora, F. (2002). Granada Crystallisation Box:  7–14.
          a new device for protein crystallisation by counter-  Ng, J. D., Gavira, J.A. and García-Ruíz, J. M. (2003). Protein
          diffusion techniques. Acta Crystallogr. D 58, 1638–1642.  crystallization by capillary counterdiffusion for applied
        Hansen, C. L., Skordalakes, E., Berger, J. M. and Quake  crystallographic structure determination. J. Struct. Biol.
          S. R. (2002). A robust and scalable microfluidic meter-  142, 218–231.
          ing method that allows protein crystal growth by free  Rhim, W.-K. and Chung, S. K. (1990). Isolation of crys-
          interface diffusion. Proc. Natl. Acad. Sci. USA, 99,  tallizing droplets by electrostatic levitation. Methods 1,
          16531–16536.                                118–127.
        Isupov, M. N., Brindley, A. A., Hollingsworth, E. J.,  Robert, M.-C., Vidal, O., Garcia-Ruiz, J.-M. and Otálora, F.
          Murshudov, G. N., Vagin, A. A. and Littlechild, J. A.  (1999). Crystallization in gels. In: Crystallization of Nucleic
          (2004). Crystallization and preliminary X-ray diffraction  Acids and Proteins, Ducruix, A. and Giegé, R., eds. Oxford
          studies of a fungal hydrolase from Ophiostoma novo-  University Press, Oxford, pp.149–175.
          ulmi. Acta Crystallogr. D 60, 1879–1882.   Santarsiero, B. D., Yegian, D. T., Lee, C. C., Spraggon, G.,
        Krengel, U., Dey, R., Sasso, S., Okvist, M., Ramakrishnan,  Gu, J., Scheibe, D., et al. (2002). An approach to rapid
          C. and Kast, P. (2006). Preliminary X-ray crystallo-  protein crystallization using nanodroplets. J. Appl. Cryst.
          graphic analysis of the secreted chorismate mutase  35, 278–281.
          from Mycobacterium tuberculosis: a tricky crystal-  Saridakis, E. and Chayen, N. E. (2000). Improving protein
          lization problem solved.  Acta Crystallogr.  F 62,  crystal quality by decoupling nucleation and growth in
          441–445.                                    vapor diffusion. Protein Sci. 9, 755–757.
        Lenhoff, A. M., Pjura, P. E., Dilmore, J. G. and  Saridakis, E. and Chayen, N. E. (2003). Systematic improve-
          Godlewski, T. S. Jr. (1997). Ultracentrifugal crystal-  ment of protein crystals by determining the super-
          lization of proteins: transport-kinetic modelling, and  solubility curves of phase diagrams. Biophys J. 84,
          experimental behavior of catalase. J. Cryst. Growth 180,  1218–1222.
          113–126.                                   Saridakis, E., Shaw Stewart, P. D., Lloyd, L. F. and Blow,
        Lorber, B., Jenner, G. and Giege, R. (1996). Effect of high  D. M. (1994). Phase-Diagram and Dilution Experiments
          hydrostatic pressure on nucleation and growth of protein  in the Crystallization of Carboxypeptidase-G(2). Acta
          crystals. J. Cryst. Growth 158, 103–117.    Crystallogr. D 50, 293–297.
        Luft, J. R., Collins, R. J., Fehrman, N. A., Lauricella, A. M.,  Service, R. (2002). Structural genomics. Big biology without
          Veatch, C. K. and DeTitta, G. T. (2003). A deliberate  the big commotion. Science 298, 948–950.
          approach to screening for initial crystallization condi-  Soriano, T. M. and Fontecilla-Camps, J. C. (1993). Astec –
          tions of biological macromolecules. J. Struct. Biol. 232,  anautomated-systemforsitting-dropproteincrystalliza-
          170–179.                                    tion. J. Appl. Cryst. 26, 558–562.
        Mandelman, D., Gonzalo, P., Lavergne, J.-P., Corbier, C.,  Stura, E. A. (1999). Seeding. In: Crystallization of Nucleic
          Reboud, J.-P. and Haser, R. (2002). Crystallization and  Acids and Proteins, Ducruix, A. and Giegé, R., eds. Oxford
          preliminary X-ray study of an N-terminal fragment of  University Press, Oxford, pp.177–208.
          rat liver ribosomal P2 protein. Acta Crystallogr. D 58,  Walter, T. S., Brown, D. J., Pickford, M., Owens, R. J.,
          668–671.                                    Stuart, D. I. and Harlos, K. (2003). A procedure for set-
        McPherson, A. (1999). Crystallization of Biological Macro-  ting up high-throughput nanolitre crystallization exper-
          molecules. Cold Spring Harbor Laboratory Press, Cold  iments. I. Protocol design and validation. J. Appl. Cryst.
          Spring Harbor.                              36, 308–314.
        Moreno, A., Saridakis, E. and Chayen, N. E. (2002). Com-  Weber, P. C. (1990). A protein crystallization strategy using
          bination of oils and gels for enhancing the growth of  automated grid searches on successively finer grids.
          protein crystals. J Appl. Cryst. 35, 140–142.  Methods 1, 31–37.