Synthesis of All-Peptide-Based Rotaxane from a Proline-Containing Cyclic Peptide

Rotaxane cross-linkers enhance the toughness of the resulting rotaxane cross-linked polymers through a stress dispersion effect, which is attributed to the mobility of the interlocked structure. To date, the compositional diversity of rotaxane cross-linkers has been limited, and the poor compatibili...

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Veröffentlicht in:	Biomacromolecules 2024-06, Vol.25 (6), p.3661-3670
Hauptverfasser:	Kurita, Taichi, Higashi, Masahiro, Gimenez-Dejoz, Joan, Fujita, Seiya, Uji, Hirotaka, Sato, Hirofumi, Numata, Keiji
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Sprache:	eng
Schlagworte:	biodegradability crosslinking cyclic peptides molecular dynamics Molecular Dynamics Simulation Peptides, Cyclic - chemical synthesis Peptides, Cyclic - chemistry polypeptides Proline - chemistry rotaxanes Rotaxanes - chemical synthesis Rotaxanes - chemistry synthesis
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container_title	Biomacromolecules
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creator	Kurita, Taichi Higashi, Masahiro Gimenez-Dejoz, Joan Fujita, Seiya Uji, Hirotaka Sato, Hirofumi Numata, Keiji
description	Rotaxane cross-linkers enhance the toughness of the resulting rotaxane cross-linked polymers through a stress dispersion effect, which is attributed to the mobility of the interlocked structure. To date, the compositional diversity of rotaxane cross-linkers has been limited, and the poor compatibility of these cross-linkers with peptides and proteins has made their use in such materials challenging. The synthesis of a rotaxane composed of peptides may result in a biodegradable cross-linker that is compatible with peptides and proteins, allowing the fortification of polypeptides and proteins and ultimately leading to the development of innovative materials that possess excellent mechanical properties and biodegradability. However, the chemical synthesis of all-peptide-based rotaxanes has remained elusive because of the absence of strong binding motifs in peptides, which prevents an axial peptide from penetrating a cyclic peptide. Here, we synthesized all-peptide-based rotaxanes using an active template method for proline-containing cyclic peptides. The results of molecular dynamics simulations suggested that cyclic peptides with an expansive inner cavity and carbonyl oxygens oriented toward the center are favorable for rotaxane synthesis. This rotaxane synthesis method is expected to accelerate the synthesis of peptides and proteins with mechanically interlocked structures, potentially leading to the development of peptide- and protein-based materials with unprecedented functionalities.
doi_str_mv	10.1021/acs.biomac.4c00257
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The results of molecular dynamics simulations suggested that cyclic peptides with an expansive inner cavity and carbonyl oxygens oriented toward the center are favorable for rotaxane synthesis. 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The results of molecular dynamics simulations suggested that cyclic peptides with an expansive inner cavity and carbonyl oxygens oriented toward the center are favorable for rotaxane synthesis. 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subjects	biodegradability crosslinking cyclic peptides molecular dynamics Molecular Dynamics Simulation Peptides, Cyclic - chemical synthesis Peptides, Cyclic - chemistry polypeptides Proline - chemistry rotaxanes Rotaxanes - chemical synthesis Rotaxanes - chemistry synthesis
title	Synthesis of All-Peptide-Based Rotaxane from a Proline-Containing Cyclic Peptide
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