Biomedical Engineering Reference
In-Depth Information
[22] H. Nicholson, W. J. Becktel and B. W. Matthews, Enhanced protein thermostability
from designed mutations that interact with a-helix dipoles,
Nature
, 336, 651-656
(1988).
[23] H. Nicholson, D. E. Anderson, S. Dao-Pin and B. W. Matthews, Analysis of the
interaction between charged side-chains and the a-helix dipole using designed
thermostable mutants of phage T4-lysozyme,
Biochemistry
, 30, 9816-9828
(1991).
[24] J. S. Richardson and D. C. Richardson, Amino acid preferences for specific locations
at the ends of a-helices,
Science
, 240, 1648-1652 (1988).
[25] L. G. Presta and G. D. Rose, Helix signals in proteins,
Science
, 240, 1632-1641
(1988).
[26] D. F. Stickle, L. G. Presta, K. A. Dill and G. D. Rose, Hydrogen-bonding in globular
proteins
J. Mol. Biol
., 226, 143 (1992).
[27] E. T. Harper and G. D. Rose, Helix stop signals in proteins and peptides - The
capping box,
Biochemistry
, 32, 7605-7609 (1993).
[28] R. Aurora, R. Srinivasan and G. D. Rose, Rules for a-helix termination by glycine,
Science
, 264, 1126-1130 (1994).
[29] P. Lyu, H. X. Zhou, N. Jelveh, D. E. Wemmer and N. R. Kallenbach, Position-
dependent stabilizing effects in a-helices - N-terminal capping in synthetic model
peptides,
J. Am. Chem. Soc
., 114, 6560-6562 (1992).
[30] R. Aurora and G. D. Rose, Helix capping,
Protein Science
, 7, 21-38 (1998).
[31] E. N. Baker and R. E. Hubbard, Hydrogen-bonding in globular proteins,
Prog.
Biophys. Mol. Biol
., 44, 97-179 (1984).
[32] V. Munoz, F. J. Blanco and L. Serrano, The hydrophobic stable motif and a role for
loop-residues in a-helix stability and protein-folding,
Nat. Struct. Biol
., 2, 380-385
(1995).
[33] J. Prieto and L. Serrono, C-capping and helix stability: The Pro C-capping motif,
J. Mol. Biol
., 274, 276-88 (1997).
[34] K. Gunasekaran, H. A. Nagarajaram, C. Ramakrishnan and P. Balaram,
Stereochemical punctuation marks in protein structurs: Glycine and proline con-
taining helix stop signals
J. Mol. Biol
., 275, 917-932 (1998).
[35] L. K. Henchey, A. L. Jochim and P. S. Arora, Contemporary strategies for the
stabilization of peptides in the a-helical conformation,
Curr. Opin. Chem. Biol
.,
12, 692-697 (2008).
[36] R. S. Hodges, A. K. Saund, P. C. S. Chong, S. A. St.Pierre and R. E. Reid, Synthetic
model for 2-stranded a-helical coiled-coils - Design, synthesis, and characterization
of an 86-residue analogue of tropomyosin,
J. Biol. Chem
., 256, 1214-1224 (1981).
[37] N. E. Zhou, C. M. Kay and R. S. Hodges, Synthetic model proteins: - Positional
effects of interchain hydrophobic interactions on stability of 2-stranded a-helical
coiled-coils,
J. Biol. Chem
., 267, 2664-2670 (1992).
[38] J. P. Schneider, A. Lombardi and W. F. DeGrado, Analysis and design of three-
stranded coiled coils and three-helix bundles,
Folding & Design
, 3, R29-R40
(1998).
[39] F. H. C. Crick, The packing of a-helices: Simple coiled-coils,
Acta Cryst
., 6,
689-697 (1953).
[40] C. Chothia, M. Levitt and D. Richardson,
J. Mol. Biol
. 145, 215-250 (1981).
[41] S. R. Presnell and F. E. Cohen, Topological distribution of four-a-helix bundles,
PNAS
, 86, 6592-6596 (1989).
Search WWH ::
Custom Search