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Introduction to basic crystallography
International Tables for Crystallography (2012). Vol. F, ch. 2.1, pp. 45-63 [ doi:10.1107/97809553602060000808 ]
... order of per protein molecule, or approximately 15 kT (Haas & Drenth, 1995). This corresponds to about ten hydrogen bonds, four ... the axial system is right-handed. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. Figure 2.1.1.2 | | A set ... z and x a (010) plane. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. It is customary ...
Symmetry in the diffraction pattern
International Tables for Crystallography (2012). Vol. F, Section 2.1.8, pp. 60-61 [ doi:10.1107/97809553602060000808 ]
... no diffracted intensity is observed for those reflections. References Waser, J. (1955). Symmetry relations between structure factors. Acta Cryst. 8 ...
Calculation of electron density
International Tables for Crystallography (2012). Vol. F, Section 2.1.7, p. 60 [ doi:10.1107/97809553602060000808 ]
... have different amplitudes and phase angles. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. References International Tables for ...
Mosaicity and integrated reflection intensity
International Tables for Crystallography (2012). Vol. F, Section 2.1.6, pp. 58-60 [ doi:10.1107/97809553602060000808 ]
Mosaicity and integrated reflection intensity 2.1.6. Mosaicity and integrated reflection intensity Crystals hardly ever have a perfect arrangement of their molecules, and crystals of macromolecules are certainly not perfect. Their crystal lattices show defects, which can sometimes be observed with an atomic force microscope or by interferometry. A schematic but useful ...
Reciprocal space and the Ewald sphere
International Tables for Crystallography (2012). Vol. F, Section 2.1.5, pp. 57-58 [ doi:10.1107/97809553602060000808 ]
... at reciprocal-lattice point (11). Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. The reciprocal-lattice concept ... sphere are in a reflecting position. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. Step 2: Construct a ...
The structure factor
International Tables for Crystallography (2012). Vol. F, Section 2.1.4.6, pp. 56-57 [ doi:10.1107/97809553602060000808 ]
... the curve to a straight line. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. For proteins, the Wilson ... if m atoms are related by this symmetry element, (with j from 1 to m) is the same in their contribution ... IT B (2008), Chapter 2.1 , by U. Shmueli and A. J. C. Wilson. References International Tables for Crystallography (2008). ...
[more results from section 2.1.4 in volume F]
Point groups and crystal systems
International Tables for Crystallography (2012). Vol. F, Section 2.1.3, pp. 47-52 [ doi:10.1107/97809553602060000808 ]
Point groups and crystal systems 2.1.3. Point groups and crystal systems If symmetry can be recognized in the external shape of a body, like a crystal or a virus molecule, corresponding symmetry elements have no translations, because internal translations (if they exist) do not show up in macroscopic properties. Moreover, they ...
Symmetry
International Tables for Crystallography (2012). Vol. F, Section 2.1.2, pp. 46-47 [ doi:10.1107/97809553602060000808 ]
Symmetry 2.1.2. Symmetry A symmetry operation can be defined as an operation which, when applied, results in a structure indistinguishable from the original one. According to this definition, the periodic repetition along a, b and c represents translational symmetry. In addition, rotational symmetry exists, but only rotational angles of 60, 90 ...
Crystals
International Tables for Crystallography (2012). Vol. F, Section 2.1.1, pp. 45-46 [ doi:10.1107/97809553602060000808 ]
... order of per protein molecule, or approximately 15 kT (Haas & Drenth, 1995). This corresponds to about ten hydrogen bonds, four ... the axial system is right-handed. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. Figure 2.1.1.2 | | A set ... z and x a (010) plane. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. It is customary ...
The Patterson function
International Tables for Crystallography (2012). Vol. F, Section 2.1.9, pp. 62-63 [ doi:10.1107/97809553602060000808 ]
... atoms. (b) The corresponding Patterson function. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. The origin peak is ... and the crystal structures of proustite, Ag3AsS3, and pyrargyrite, Ag3SbS3. J. Chem. Phys. 4, 381-390. Patterson, A. L. (1934). ...
International Tables for Crystallography (2012). Vol. F, ch. 2.1, pp. 45-63 [ doi:10.1107/97809553602060000808 ]
... order of per protein molecule, or approximately 15 kT (Haas & Drenth, 1995). This corresponds to about ten hydrogen bonds, four ... the axial system is right-handed. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. Figure 2.1.1.2 | | A set ... z and x a (010) plane. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. It is customary ...
Symmetry in the diffraction pattern
International Tables for Crystallography (2012). Vol. F, Section 2.1.8, pp. 60-61 [ doi:10.1107/97809553602060000808 ]
... no diffracted intensity is observed for those reflections. References Waser, J. (1955). Symmetry relations between structure factors. Acta Cryst. 8 ...
Calculation of electron density
International Tables for Crystallography (2012). Vol. F, Section 2.1.7, p. 60 [ doi:10.1107/97809553602060000808 ]
... have different amplitudes and phase angles. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. References International Tables for ...
Mosaicity and integrated reflection intensity
International Tables for Crystallography (2012). Vol. F, Section 2.1.6, pp. 58-60 [ doi:10.1107/97809553602060000808 ]
Mosaicity and integrated reflection intensity 2.1.6. Mosaicity and integrated reflection intensity Crystals hardly ever have a perfect arrangement of their molecules, and crystals of macromolecules are certainly not perfect. Their crystal lattices show defects, which can sometimes be observed with an atomic force microscope or by interferometry. A schematic but useful ...
Reciprocal space and the Ewald sphere
International Tables for Crystallography (2012). Vol. F, Section 2.1.5, pp. 57-58 [ doi:10.1107/97809553602060000808 ]
... at reciprocal-lattice point (11). Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. The reciprocal-lattice concept ... sphere are in a reflecting position. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. Step 2: Construct a ...
The structure factor
International Tables for Crystallography (2012). Vol. F, Section 2.1.4.6, pp. 56-57 [ doi:10.1107/97809553602060000808 ]
... the curve to a straight line. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. For proteins, the Wilson ... if m atoms are related by this symmetry element, (with j from 1 to m) is the same in their contribution ... IT B (2008), Chapter 2.1 , by U. Shmueli and A. J. C. Wilson. References International Tables for Crystallography (2008). ...
[more results from section 2.1.4 in volume F]
Point groups and crystal systems
International Tables for Crystallography (2012). Vol. F, Section 2.1.3, pp. 47-52 [ doi:10.1107/97809553602060000808 ]
Point groups and crystal systems 2.1.3. Point groups and crystal systems If symmetry can be recognized in the external shape of a body, like a crystal or a virus molecule, corresponding symmetry elements have no translations, because internal translations (if they exist) do not show up in macroscopic properties. Moreover, they ...
Symmetry
International Tables for Crystallography (2012). Vol. F, Section 2.1.2, pp. 46-47 [ doi:10.1107/97809553602060000808 ]
Symmetry 2.1.2. Symmetry A symmetry operation can be defined as an operation which, when applied, results in a structure indistinguishable from the original one. According to this definition, the periodic repetition along a, b and c represents translational symmetry. In addition, rotational symmetry exists, but only rotational angles of 60, 90 ...
Crystals
International Tables for Crystallography (2012). Vol. F, Section 2.1.1, pp. 45-46 [ doi:10.1107/97809553602060000808 ]
... order of per protein molecule, or approximately 15 kT (Haas & Drenth, 1995). This corresponds to about ten hydrogen bonds, four ... the axial system is right-handed. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. Figure 2.1.1.2 | | A set ... z and x a (010) plane. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. It is customary ...
The Patterson function
International Tables for Crystallography (2012). Vol. F, Section 2.1.9, pp. 62-63 [ doi:10.1107/97809553602060000808 ]
... atoms. (b) The corresponding Patterson function. Reproduced with permission from Drenth (1999). Copyright (1999) Springer-Verlag. The origin peak is ... and the crystal structures of proustite, Ag3AsS3, and pyrargyrite, Ag3SbS3. J. Chem. Phys. 4, 381-390. Patterson, A. L. (1934). ...
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