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Determination of the density of solids
Richards, F. M. and Lindley, P. F.  International Tables for Crystallography (2006). Vol. C, ch. 3.2, pp. 156-159 [ doi:10.1107/97809553602060000586 ]
... solids and is firmly based on an earlier version by F. M. Richards. A knowledge of the density can be of considerable ...

Protein geometry: volumes, areas and distances
Gerstein, M. and Richards, F. M.  International Tables for Crystallography (2012). Vol. F, ch. 22.1, pp. 703-712 [ doi:10.1107/97809553602060000885 ]
... others. In 1974, a solution was found to this problem (Richards, 1974), and since then Voronoi polyhedra have been applied to ... proposed to make the partition more physically reasonable: method B (Richards, 1974) and the radical-plane method (Gellatly & Finney, 1982). ... molecular simulation (Finney et al., 1980; Gerstein et al., 1995; Richards, 1974). 22.1.3.2. Definitions of surface in terms of ...

The tight packing of the protein core
Gerstein, M. and Richards, F. M.  International Tables for Crystallography (2012). Vol. F, Section 22.1.5.2, pp. 710-711 [ doi:10.1107/97809553602060000885 ]
... more than two decades ago (Chothia & Janin, 1975; Finney, 1975; Richards, 1974). The initial calculations revealed some important facts about ... very quickly as these atoms approach the close-packed limit (Richards & Lim, 1994). The exceptionally tight packing in the protein ... Jones, 1994; Kocher et al., 1996; Rashin et al., 1986; Richards, 1979; Williams et al., 1994). If these defects ...
     [more results from section 22.1.5 in volume F]

The probe radius
Gerstein, M. and Richards, F. M.  International Tables for Crystallography (2012). Vol. F, Section 22.1.4.2, p. 709 [ doi:10.1107/97809553602060000885 ]
... what a water molecule as a probe might `see' (Lee & Richards, 1971). However, there is no uniform agreement on what ... is chosen to be about 1.4 . References Lee, B. & Richards, F. M. (1971). The interpretation of protein structures: estimation ...
     [more results from section 22.1.4 in volume F]

Further points
Gerstein, M. and Richards, F. M.  International Tables for Crystallography (2012). Vol. F, Section 22.1.3.3.4, p. 708 [ doi:10.1107/97809553602060000885 ]
... et al., 1988; Pattabiraman et al., 1995). References Gerstein, M. & Lynden-Bell, R. M. (1993c). What is the natural boundary for a protein ... J. Mol. Biol. 230, 641-650. Kuhn, L. A., Siani, M. A., Pique, M. E., Fisher, C. L., Getzoff, E. ...
     [more results from section 22.1.3 in volume F]

Delaunay triangulation
Gerstein, M. and Richards, F. M.  International Tables for Crystallography (2012). Vol. F, Section 22.1.2.4, pp. 705-706 [ doi:10.1107/97809553602060000885 ]
... 1994; Peters et al., 1996). References Edelsbrunner, H., Facello, M. & Liang, J. (1996). On the Definition and Construction of ... Macromolecules, pp. 272-287. Singapore: World Scientific. Edelsbrunner, H., Facello, M., Ping, F. & Jie, L. (1995). Measuring proteins and voids in ...
     [more results from section 22.1.2 in volume F]

Introduction
Gerstein, M. and Richards, F. M.  International Tables for Crystallography (2012). Vol. F, Section 22.1.1, p. 703 [ doi:10.1107/97809553602060000885 ]
... geometry/ . References International Tables for Crystallography (2012). Vol. F, ch. 22.1, p. 703 International Union of Crystallography 2012 | home ...

Volumenometry
Richards, F. M.  International Tables for Crystallography (2006). Vol. C, Section 3.2.2.6, p. 158 [ doi:10.1107/97809553602060000586 ]
Volumenometry 3.2.2.6. Volumenometry This is the only technique not requiring immersion of the sample in a liquid medium. The technique is therefore used in instances where the specimen would be attacked by the customary immersion media, or where one wishes to work over a temperature range where liquid media would be ...
     [more results from section 3.2.2 in volume C]

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