可点击再生生物材料：用于水凝胶合成、表面固定化和 3D 图案化的简单水基方案。

Regenerative biomaterials that "click": simple, aqueous-based protocols for hydrogel synthesis, surface immobilization, and 3D patterning.

机构信息

The Donnelly Centre for Cellular and Biomolecular Research, University of Toronto, Toronto, Ontario, Canada.

出版信息

Bioconjug Chem. 2011 Nov 16;22(11):2199-209. doi: 10.1021/bc200281k. Epub 2011 Oct 26.

DOI:10.1021/bc200281k

PMID:21995458

Abstract

The click chemistry era has generated a library of versatile "spring-loaded" reactions that offer high yields, regio- and stereospecificity, and outstanding functional group tolerance. These powerful transformations are particularly advantageous for the design of sophisticated biomaterials that require high levels of precision and control, namely, materials that promote tissue regeneration such as hydrogels, 2D functionalized substrates, and 3D biomimetic scaffolds. In this review, the synthesis and application of regenerative biomaterials via click chemistry are summarized. Particular emphasis is placed on the copper(I)-catalyzed alkyne-azide cycloaddition, Diels-Alder cycloadditions, and thiol-click coupling.

摘要

点击化学时代产生了一系列通用的“弹弓式”反应，这些反应具有高产率、区域和立体选择性以及出色的官能团耐受性。这些强大的转化对于设计需要高精度和高控制的复杂生物材料特别有利，例如促进组织再生的材料，如水凝胶、二维功能化基底和三维仿生支架。在这篇综述中，总结了通过点击化学合成和应用再生生物材料。特别强调了铜（I）催化的炔烃-叠氮化物环加成、Diels-Alder 环加成和硫醇点击偶联。

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可点击再生生物材料：用于水凝胶合成、表面固定化和 3D 图案化的简单水基方案。

Regenerative biomaterials that "click": simple, aqueous-based protocols for hydrogel synthesis, surface immobilization, and 3D patterning.

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