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Abstract
Self-assembling peptide derivatives containing unnatural amino acids are promising for the modulation of the structure and function of supramolecular architectures consisting of natural peptide-based derivatives through co-assembly. In this study, we investigate the self-assembly of three new cyclic dipeptides that contain synthetic α-methyl-L-phenylalanine as the unnatural amino acid in an aqueous medium. We reveal that one of three newly synthesized cyclic dipeptides can form supramolecular hydrogel and resolve the self-assembled architecture and the folded conformation at atomic scale, where one methyl group introduced at the α-carbon of L-phenylalanine significantly influenced the properties of the hydrogel. Furthermore, we demonstrated that co-assembly with its natural counterpart enables modulation of the viscoelastic properties of supramolecular hydrogels. Thus, our study may facilitate the exploration of unnatural peptide-based self-assembling molecular libraries for the construction of supramolecular soft materials.
Supplementary materials
Title
Supporting Information
Description
Synthesis and characterization of CDPs (c-FL, c-mFG, c-mFL, and c-mFF); Gelation test of CDPs (c-FL, c-mFG, c-mFL, and c-mFF); ThT assay of CDPs (c-FL, c-mFG, c-mFL, and c-mFF); Turbidity of c-mFL∙c-FL gels; Rheological property of c-mFL∙c-FL gels; Molding of c-mFL gel; FTIR spectra of c-mFL∙c-FL xerogels; X-ray single crystal analysis of c-mFL
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Title
X-ray crystal structure of c-mFL
Description
A cif file for the X-ray crystal structure of c-mFL
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