Version 2 2017-07-14, 20:43Version 2 2017-07-14, 20:43
Version 1 2017-07-06, 16:51Version 1 2017-07-06, 16:51
journal contribution
posted on 2017-06-26, 00:00authored byAlexander
J. Kasznel, Yitao Zhang, Yang Hai, David M. Chenoweth
Previously,
we have demonstrated that replacement of the strictly
conserved glycine in collagen with aza-glycine provides a general
solution for stabilizing triple helical collagen peptides (Chenoweth,
D. M.; et al. J. Am. Chem. Soc.2016, 138, 9751; 2015, 137, 12422). The additional hydrogen
bond and conformational constraints provided by aza-glycine increases
the thermal stability and rate of folding in collagen peptides composed
of Pro-Hyp-Gly triplet repeats, allowing for truncation to the smallest
self-assembling peptide systems observed to date. Here we show that
aza-glycine substitution enhances the stability of an arginine-containing
collagen peptide and provide a structural basis for this stabilization
with an atomic resolution crystal structure. These results demonstrate
that a single nitrogen atom substitution for a glycine alpha-carbon
increases the peptide’s triple helix melting temperature by
8.6 °C. Furthermore, we provide the first structural basis for
stabilization of triple helical collagen peptides containing aza-glycine
and we demonstrate that minimal alteration to the peptide backbone
conformation occurs with aza-glycine incorporation.