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 Results for DC.creator="N." AND DC.creator="Echols" in section 18.11.3 of volume F
Noncrystallographic symmetry (NCS)
Adams, P.D., Afonine, P.V., Bunkóczi, G., Chen, V.B., Davis, I.W., Echols, N., Headd, J.J., Hung, L.-W., Kapral, G.J., Grosse-Kunstleve, R.W., McCoy, A.J., Moriarty, N.W., Oeffner, R., Read, R.J., Richardson, D.C., Richardson, J.S., Terwilliger, T.C. and Zwart, P.H.  International Tables for Crystallography (2012). Vol. F, Section 18.11.3.3, pp. 540-541 [ doi:10.1107/97809553602060000865 ]
Noncrystallographic symmetry (NCS) 18.11.3.3. Noncrystallographic symmetry (NCS) Noncrystallographic symmetry is an important feature of many macromolecular crystals that can be used to greatly improve electron-density maps. PHENIX has tools for the identification of NCS and for using NCS and multiple crystal forms of a macromolecule in phase improvement. Phenix.find_ncs ...

Phasing
Adams, P.D., Afonine, P.V., Bunkóczi, G., Chen, V.B., Davis, I.W., Echols, N., Headd, J.J., Hung, L.-W., Kapral, G.J., Grosse-Kunstleve, R.W., McCoy, A.J., Moriarty, N.W., Oeffner, R., Read, R.J., Richardson, D.C., Richardson, J.S., Terwilliger, T.C. and Zwart, P.H.  International Tables for Crystallography (2012). Vol. F, Section 18.11.3.2, p. 540 [ doi:10.1107/97809553602060000865 ]
Phasing 18.11.3.2. Phasing Phaser, available in PHENIX as phenix.phaser, applies the principle of maximum likelihood to solving crystal structures by molecular replacement, by SAD or by a combination of both. The likelihood targets take proper account of the effects of different sources of error (and, in the case of SAD phasing ...

Substructure determination
Adams, P.D., Afonine, P.V., Bunkóczi, G., Chen, V.B., Davis, I.W., Echols, N., Headd, J.J., Hung, L.-W., Kapral, G.J., Grosse-Kunstleve, R.W., McCoy, A.J., Moriarty, N.W., Oeffner, R., Read, R.J., Richardson, D.C., Richardson, J.S., Terwilliger, T.C. and Zwart, P.H.  International Tables for Crystallography (2012). Vol. F, Section 18.11.3.1, p. 540 [ doi:10.1107/97809553602060000865 ]
Substructure determination 18.11.3.1. Substructure determination The substructure-determination procedure implemented as phenix.hyss (Hybrid Substructure Search; Grosse-Kunstleve & Adams, 2003) combines the multi-trial dual-space recycling approaches pioneered by Shake-and-Bake (Miller et al., 1994) and later SHELXD (Sheldrick, 2008) with the use of the fast translation function (Navaza & Vernoslova ...

Substructure determination, phasing and molecular replacement
Adams, P.D., Afonine, P.V., Bunkóczi, G., Chen, V.B., Davis, I.W., Echols, N., Headd, J.J., Hung, L.-W., Kapral, G.J., Grosse-Kunstleve, R.W., McCoy, A.J., Moriarty, N.W., Oeffner, R., Read, R.J., Richardson, D.C., Richardson, J.S., Terwilliger, T.C. and Zwart, P.H.  International Tables for Crystallography (2012). Vol. F, Section 18.11.3, pp. 540-541 [ doi:10.1107/97809553602060000865 ]
Substructure determination, phasing and molecular replacement 18.11.3. Substructure determination, phasing and molecular replacement After ensuring that the diffraction data are sound and understood, the next critical necessity for solving a structure is the determination of phases using one of several strategies (Adams, Afonine et al., 2009). 18.11.3.1. Substructure determination | | The ...

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