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The approach of the joint probability distribution functions: the SIR-MIR, SAD-MAD and SIRAS-MIRAS, cases

  • C. Giacovazzo , M. Ladisa and D. Siliqi
Published/Copyright: September 25, 2009
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Zeitschrift für Kristallographie - Crystalline Materials
From the journal Zeitschrift für Kristallographie - Crystalline Materials Volume 217 Issue 12

Abstract

The method of the joint probability distribution functions has been recently applied to SIR-MIR, SAD-MAD and SIRAS-MIRAS cases. The capacity of the method to treat various forms of errors (i.e., errors in measurements, possible lack of isomorphism, errors in a substructure model when a model is a priori available, etc.) is the most innovative aspect of the approach. The description of the technique and the analysis of the conclusive formulas are dispersed in a number of papers; this contribution offers a unified point of view for all the cases and a perspective for future applications.

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Published Online: 2009-9-25
Published in Print: 2002-12-1

© 2002 Oldenbourg Wissenschaftsverlag GmbH

Articles in the same Issue

  1. Preface: Macromolecular Crystallography
  2. More power for direct methods: SIR2002
  3. ACORN — theory and practice
  4. Macromolecular phasing with SHELXE
  5. Physical measurement of triplet invariants: present state of the experiment, data evaluation and future perspectives
  6. Qantitative determination of phase for macromolecular crystals using multiple diffraction methods and dynamical theory
  7. Ab initio phasing starting from low resolution
  8. Towards automated protein structure determination: BnP, the SnB-PHASES interface
  9. Direct way to anomalous scatterers
  10. The approach of the joint probability distribution functions: the SIR-MIR, SAD-MAD and SIRAS-MIRAS, cases
  11. Direct-method phasing of anomalous diffraction from proteins
  12. Molecular replacement and high-throughput structure determination
https://doi.org/10.1524/zkri.217.12.703.20660

Articles in the same Issue

  1. Preface: Macromolecular Crystallography
  2. More power for direct methods: SIR2002
  3. ACORN — theory and practice
  4. Macromolecular phasing with SHELXE
  5. Physical measurement of triplet invariants: present state of the experiment, data evaluation and future perspectives
  6. Qantitative determination of phase for macromolecular crystals using multiple diffraction methods and dynamical theory
  7. Ab initio phasing starting from low resolution
  8. Towards automated protein structure determination: BnP, the SnB-PHASES interface
  9. Direct way to anomalous scatterers
  10. The approach of the joint probability distribution functions: the SIR-MIR, SAD-MAD and SIRAS-MIRAS, cases
  11. Direct-method phasing of anomalous diffraction from proteins
  12. Molecular replacement and high-throughput structure determination
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