Secondary structures
Baker, E. N.,
International Tables for Crystallography
(2012).
Vol. F,
Section 22.3.5.3,
pp. 723-724
[ doi:10.1107/97809553602060000887 ]
the C=O groups to tilt outwards by about 14° from the helix axis (
Baker & Hubbard, 1984). This results in somewhat less linear hydrogen bonding than in the original Pauling model (Pauling et al., 1951), with a degree of distortion towards 3 ...
[
more
results from section 22.3.5 in volume F]
Introduction
Baker, E. N.,
International Tables for Crystallography
(2012).
Vol. F,
Section 22.3.1,
pp. 721-721
[ doi:10.1107/97809553602060000887 ]
is foreshadowed in Linus Pauling's influential book (Pauling, 1960), and Jeffrey & Saenger (1991) provide a very comprehensive review. Other important reviews have covered hydrogen-bonding patterns in globular proteins (
Baker & Hubbard, 1984 ; Stickle ...
Nucleic acids
Baker, E. N.,
International Tables for Crystallography
(2012).
Vol. F,
Section 22.3.3.2,
pp. 722-722
[ doi:10.1107/97809553602060000887 ]
[
more
results from section 22.3.3 in volume F]
DNA
Baker, E. N.,
International Tables for Crystallography
(2012).
Vol. F,
Section 22.3.6.1,
pp. 726-726
[ doi:10.1107/97809553602060000887 ]
[
more
results from section 22.3.6 in volume F]
Amino–aromatic hydrogen bonding
Baker, E. N.,
International Tables for Crystallography
(2012).
Vol. F,
Section 22.3.7.3,
pp. 728-728
[ doi:10.1107/97809553602060000887 ]
–aromatic hydrogen bond; the N···ring distance should be less than ∼3.8 Å, and N—H··· C angle greater than 120°, where C is the ring centre (Mitchell et al., 1994).
References
Baker, E. N. & Hubbard, R. E ...
[
more
results from section 22.3.7 in volume F]
Nature of the hydrogen bond
Baker, E. N.,
International Tables for Crystallography
(2012).
Vol. F,
Section 22.3.2,
pp. 721-721
[ doi:10.1107/97809553602060000887 ]
