4.8 Article

Peptidomimetic Wet-Adhesive PEGtides with Synergistic andMultimodal Hydrogen Bonding

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JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
卷 144, 期 14, 页码 6261-6269

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AMER CHEMICAL SOC
DOI: 10.1021/jacs.1c11737

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资金

  1. Samsung Research Funding & Incubation Center of Samsung Electronics [SRFC-MA1602-07]
  2. National Research Foundation of Korea [NRF-2021R1A2C3004978]

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This study presents a peptidomimetic approach using poly(ethylene glycol) (PEG) as a platform to evaluate the compositional relationship between key amino acid residues and the role of the polyether backbone in interfacial adhesive interactions. The results reveal highly synergistic surface interactions among PEGtides and the critical role of catechol-amine synergy and diverse hydrogen bonding. Molecular dynamics simulations verify these findings. This study provides insights into the design of simplified peptidomimetic polymers within a polyether backbone.
The remarkable underwater adhesion of mussel footproteinshaslongbeenaninspirationinthedesignofpeptidomimetic materials. Although the synergistic wet adhesionof catechol and lysine has been recently highlighted, the criticalrole of the polymeric backbone has remained largely underex-plored. Here, we present a peptidomimetic approach usingpoly(ethylene glycol) (PEG) as a platform to evaluate thesynergistic compositional relation between the key amino acidresidues (i.e., DOPA and lysine), as well as the role of the polyetherbackbone in interfacial adhesive interactions. A series of PEG-basedpeptides (PEGtides) were synthesized using functional epoxidemonomers corresponding to catechol and lysineviaanionic ring-opening polymerization. Using a surface force apparatus, highly synergistic surface interactions among these PEGtides with respectto the relative compositional ratio were revealed. Furthermore, the critical role of the catechol-amine synergy and diverse hydrogenbonding within the PEGtides in the superior adhesive interactions was verified by molecular dynamics simulations. Our study shedslight on the design of peptidomimetic polymers with reduced complexity within the framework of a polyether backbone.

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