Structure quality and target parameters
Engh, R. A. and
Huber, R.,
International Tables for Crystallography
(2012).
Vol. F,
ch. 18.3,
pp. 474-484
[ doi:10.1107/97809553602060000857 ]
7291–7299. Google Scholar
Dauter, Z., Lamzin, V. S. & Wilson, K. S. (1997). The benefits of atomic resolution. Curr. Opin. Struct. Biol. 7, 681–688. Google Scholar
Engh, R. A. &
Huber,
R. (1991). Accurate bond ...
Confidence in restraints versus information from diffraction
Engh, R. A. and
Huber, R.,
International Tables for Crystallography
(2012).
Vol. F,
Section 18.3.3.1,
pp. 483-483
[ doi:10.1107/97809553602060000857 ]
[
more
results from section 18.3.3 in volume F]
Non-bonded interactions
Engh, R. A. and
Huber, R.,
International Tables for Crystallography
(2012).
Vol. F,
Section 18.3.2.6,
pp. 482-482
[ doi:10.1107/97809553602060000857 ]
[
more
results from section 18.3.2 in volume F]
Utility of restraints: protein/special geometries
Engh, R. A. and
Huber, R.,
International Tables for Crystallography
(2012).
Vol. F,
Section 18.3.1.1,
pp. 474-474
[ doi:10.1107/97809553602060000857 ]
Opin. Struct. Biol. 7, 681–688. Google Scholar
Engh, R. A. &
Huber,
R. (1991). Accurate bond and angle parameters for X-ray protein structure refinement. Acta Cryst. A 47, 392–400. Google Scholar
Kleywegt, G. J ...
[
more
results from section 18.3.1 in volume F]
Future perspectives
Engh, R. A. and
Huber, R.,
International Tables for Crystallography
(2012).
Vol. F,
Section 18.3.4,
pp. 483-483
[ doi:10.1107/97809553602060000857 ]
adequate computational resources and the deposition of structure factors or, even better, diffraction images.
References
Engh, R. A. &
Huber,
R. (1991). Accurate bond and angle parameters for X-ray protein structure ...
Locating heavy-atom sites
Stubbs, M. T. and
Huber, R.,
International Tables for Crystallography
(2012).
Vol. F,
ch. 12.2,
pp. 327-332
[ doi:10.1107/97809553602060000838 ]
12, 794–802. Google Scholar
Budisa, N., Karnbrock, W., Steinbacher, S., Humm, A., Prade, L., Neuefeind, T., Moroder, L. &
Huber,
R. (1997). Bioincorporation of telluromethionine into proteins: a promising new approach ...
Space-group problems
Stubbs, M. T. and
Huber, R.,
International Tables for Crystallography
(2012).
Vol. F,
Section 12.2.5.2,
pp. 331-331
[ doi:10.1107/97809553602060000838 ]
H., Messerschmidt, A.,
Huber,
R., van de Kamp, M. & Canters, G. W. (1991). X-ray crystal structure of the two site-specific mutants His35Gln and His235Leu of azurin from Pseudomonas aeruginosa . J. Mol. Biol. 218, 427–447. Google ...
[
more
results from section 12.2.5 in volume F]
The Patterson function
Stubbs, M. T. and
Huber, R.,
International Tables for Crystallography
(2012).
Vol. F,
Section 12.2.2,
pp. 328-329
[ doi:10.1107/97809553602060000838 ]
The origin of the phase problem
Stubbs, M. T. and
Huber, R.,
International Tables for Crystallography
(2012).
Vol. F,
Section 12.2.1,
pp. 327-328
[ doi:10.1107/97809553602060000838 ]
N., Karnbrock, W., Steinbacher, S., Humm, A., Prade, L., Neuefeind, T., Moroder, L. &
Huber,
R. (1997). Bioincorporation of telluromethionine into proteins: a promising new approach for X-ray structure analysis of proteins . J ...
Reality
Stubbs, M. T. and
Huber, R.,
International Tables for Crystallography
(2012).
Vol. F,
Section 12.2.4,
pp. 329-330
[ doi:10.1107/97809553602060000838 ]
[
more
results from section 12.2.4 in volume F]
