Twentieth Congress and General Assembly of the IUCr
Florence, Italy
23 August - 31 August 2005
MS 57: Large protein assemblies - forming and analysing complexes. Sergey V. Strelkov.
Microsymposia
MS 57: Large protein assemblies - forming and analysing complexes. Co-Chairs Kunio Miki, David Stuart.
Microsymposia
MS 57: Large protein assemblies - forming and analysing complexes. Diana R. Tomchick.
Microsymposia
MS 58: Crystallography and understanding of cultural heritage. Rossella Arletti.
Microsymposia
MS 58: Crystallography and understanding of cultural heritage. Giacomo Chiari.
Microsymposia
MS 58: Crystallography and understanding of cultural heritage. Co-Chair Henk Schenk.
Microsymposia
MS 58: Crystallography and understanding of cultural heritage. Veronika Simova.
Microsymposia
MS 58: Crystallography and understanding of cultural heritage. Eric Dooryhée.
Microsymposia
MS 58: Crystallography and understanding of cultural heritage. Rossella Arletti, Eric Dooryhée, Co-Chair Salvatore Siano, Carlo Mealli, Giacomo Chiari, Co-Chair Henk Schenk, Veronika Simova.
Microsymposia
MS 59: Applications of synchrotron and neutron facilities in structural chemistry. Alberto Albinati.
Microsymposia
MS 59: Applications of synchrotron and neutron facilities in structural chemistry. Audience.
Microsymposia
MS 59: Applications of synchrotron and neutron facilities in structural chemistry. Robert Bau.
Microsymposia
MS 59: Applications of synchrotron and neutron facilities in structural chemistry. Matthew P. Blakely.
Microsymposia
MS 59: Applications of synchrotron and neutron facilities in structural chemistry. Russell E. Morris.
Microsymposia
MS 59: Applications of synchrotron and neutron facilities in structural chemistry. Wolfgand Scherer.
Microsymposia
MS 60: Microstructural properties from powder diffraction data. Nicholas Armstrong.
Microsymposia
MS 60: Microstructural properties from powder diffraction data. Radomír Kuzel.
Microsymposia
MS 60: Microstructural properties from powder diffraction data. Matteo Leoni.
Microsymposia
MS 60: Microstructural properties from powder diffraction data. Nicolae Popa.
Microsymposia
MS 60: Microstructural properties from powder diffraction data. Tamás Ungár.
Microsymposia
MS 61: Structures, phase transitions and properties at high pressure. Przemyslaw Dera.
Microsymposia
MS 61: Structures, phase transitions and properties at high pressure. Leonid S. Dubrovinsky.
Microsymposia
MS 61: Structures, phase transitions and properties at high pressure. Lars Fahl Lundegaard.
Microsymposia
MS 61: Structures, phase transitions and properties at high pressure. Tetsu Watanuki.
Microsymposia
MS 62: Advances in computational methods for protein crystallography. Ralf W. Grosse-Kunstleve.
Microsymposia
MS 62: Advances in computational methods for protein crystallography. Randy J. Read.
Microsymposia
MS 62: Advances in computational methods for protein crystallography. Marc Schiltz.
Microsymposia
MS 62: Advances in computational methods for protein crystallography. Pavol Skubák.
Microsymposia
MS 62: Advances in computational methods for protein crystallography. Hongliang Xu.
Microsymposia
MS 63: Chemical insights from electron density studies and wavefunctions. Richard F. W. Bader.
Microsymposia
MS 63: Chemical insights from electron density studies and wavefunctions. Alexander Korlyukov.
Microsymposia
MS 63: Chemical insights from electron density studies and wavefunctions. Peter Luger.
Microsymposia
MS 63: Chemical insights from electron density studies and wavefunctions. Anders &Olash;stergaard Madsen.
Microsymposia
MS 64: Difficult phasing and difficult structures in structural biology. Rocco Caliandro.
Microsymposia
MS 64: Difficult phasing and difficult structures in structural biology. Co-Chairs Alexandre Urzhumtsev, Bi-Cheng Wang.
Microsymposia
MS 64: Difficult phasing and difficult structures in structural biology. Stefano Trapani.
Microsymposia
Microsymposia
MS 64: Difficult phasing and difficult structures in structural biology. Todd Yeates.
Microsymposia
MS 65: Protein interactions with other biological macromolecules. Yong-Seok Heo.
Microsymposia
MS 65: Protein interactions with other biological macromolecules. Christopher P. Hill.
Microsymposia
MS 65: Protein interactions with other biological macromolecules. E. Yvonne Jones.
Microsymposia
MS 65: Protein interactions with other biological macromolecules. Dale B. Wigley.
Microsymposia
MS 65: Protein interactions with other biological macromolecules. Co-Chair Brian W. Matthews.
Microsymposia
MS 65: Protein interactions with other biological macromolecules. Hanna S. Yuan.
Microsymposia
MS 66: Topology of crystal structures: nets, knots and surfaces. Stuart R. Batten.
Microsymposia
MS 66: Topology of crystal structures: nets, knots and surfaces. Vladislav A. Blatov.
Microsymposia
MS 66: Topology of crystal structures: nets, knots and surfaces. Elke Koch.
Microsymposia
MS 66: Topology of crystal structures: nets, knots and surfaces. Michael O'Keeffe.
Microsymposia
MS 66: Topology of crystal structures: nets, knots and surfaces. ?, Vladislav Blatov, ?, Elke Koch, Michael O'Keeffe, Stuart Batten, Co-Chair Davide M. Proserpio.
Microsymposia
MS 67: Non-ambient powder diffraction and kinetic studies. Gilberto Artioli.
Microsymposia
MS 67: Non-ambient powder diffraction and kinetic studies. Co-Chairs Ivana Radosavljevic Evans, Roland Boese.
Microsymposia
MS 67: Non-ambient powder diffraction and kinetic studies. Karena W. Chapman.
Microsymposia
MS 67: Non-ambient powder diffraction and kinetic studies. Peter J. Chupas.
Microsymposia
MS 67: Non-ambient powder diffraction and kinetic studies. René Guinebretière.
Microsymposia
MS 67: Non-ambient powder diffraction and kinetic studies. Raj Surayanarayanan.
Microsymposia
MS 68: Liquids and amorphous systems at high pressure. Chris J. Benmore.
Microsymposia
MS 68: Liquids and amorphous systems at high pressure. Valentina F. Degtyareva.
Microsymposia
MS 68: Liquids and amorphous systems at high pressure. Sara Falconi.
Microsymposia
MS 68: Liquids and amorphous systems at high pressure. Roman Martonak.
Microsymposia
MS 69: Electron crystallography on organic crystals and biomolecules. Peter J. Holm.