Open AccessTriglycine (GGG) Adopts a Polyproline II (pPII) Conformation in Its Hydrated Crystal Form: Revealing the Role of Water in Peptide Crystallization
Author(s) -
Mingxia Guo,
Ian Rosbottom,
Lina Zhou,
Chin W. Yong,
Ling Zhou,
Qiuxiang Yin,
Ilian T. Todorov,
Ethan Errington,
Jerry Y. Y. Heng
Publication year - 2021
Publication title -
the journal of physical chemistry letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.563
H-Index - 203
ISSN - 1948-7185
DOI - 10.1021/acs.jpclett.1c01622
Subject(s) - polyproline helix , crystallization , crystallography , chemistry , helix (gastropod) , peptide , aqueous solution , beta sheet , crystal structure , organic chemistry , biochemistry , ecology , snail , biology
Polyproline II (pPII) is a left-handed 3 1 -helix conformation, which has been observed to be the most abundant secondary structure in unfolded peptides and proteins compared to α-helix and β-sheet. Although pPII has been reported as the most stable conformation for several unfolded short chain peptides in aqueous solution, it is rarely observed in their solid state. Here, we show for the first time a glycine homopeptide (gly-gly-gly) adopting the pPII conformation in its crystalline dihydrate structure. The single crystal X-ray structure with molecular dynamic simulation suggests that a network of water and the charged carboxylate group is critical in stabilizing the pPII conformation in solid state, offering an insight into the structures of unfolded regions of proteins and the role of water in peptide crystallization.
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