二肽
自愈水凝胶
自愈
材料科学
剪切减薄
肽
氢键
生物相容性
疏水效应
堆积
自组装
复合材料
分子动力学
分子
流变学
纳米技术
化学工程
高分子化学
有机化学
化学
计算化学
医学
替代医学
病理
工程类
生物化学
冶金
作者
Peng Ren,Jingtao Li,Jingtao Li,Luyang Zhao,Anhe Wang,Meiyue Wang,Jieling Li,Jieling Li,Honglei Jian,Xiaoou Li,Xuehai Yan,Shuo Bai
标识
DOI:10.1021/acsami.0c03038
摘要
Dipeptide self-assembled hydrogels have potential biomedical applications because of their great biocompatibility, bioactivity, and tunable physicochemical properties, which can be modulated in the molecular level by design of amino acid sequences. Herein, a series of dipeptides (Fmoc-FL, -YL, -LL, and -YA) are designed to form shear-thinning hydrogels with self-healing and tunable mechanical properties by adjusting the synergetic effect of hydrophobic interactions (π-π stacking and hydrophobic effect) and hydrogen bonds of peptides through substitution of amino acid residues. The enhancement of hydrophobic interactions is a primary factor to promote mechanical rigidity of hydrogels, and strong hydrogen-bonding interactions between molecules contribute to the instantaneous self-healing property, which is supported by experimental studies (FTIR, CD, SEM, AFM, and rheology) and molecular dynamics simulations. The injectable dipeptide hydrogels were certified as an ideal endoscopic submucosal dissection filler to make operation convenient and secure in mice and living mini-pig's experiments with a longer duration time, higher stiffness, and lower inflammatory response than commercial clinical fillers.
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