叠氮端化RAFT聚合物的生物应用

Q3 Biochemistry, Genetics and Molecular Biology
Ziwen Jiang, Huan He, Hongxu Liu, S. Thayumanavan
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引用次数: 3

摘要

可逆加成-破碎链转移(RAFT)聚合是合成聚合物的一种常用聚合方法。RAFT聚合的产物,即RAFT聚合物,已广泛应用于几个生物学相关领域,包括药物输送、生物医学成像和组织工程。在本文中,我们总结了一种在RAFT聚合物链端显示叠氮化物基团的合成方法,从而在聚合物末端呈现反应位点。该平台实现了叠氮端化聚合物和含炔分子之间的点击反应,为RAFT聚合物的化学和生物偶联反应提供了广泛适用的支架。我们还强调了这些叠氮端RAFT聚合物在荧光基团标记和促进细胞器靶向能力方面的应用。©2020 Wiley期刊公司基本方案1:链转移剂和自由基引发剂叠氮化物衍生物的合成基本方案2:在RAFT聚合物的α-端安装叠氮化物基团盐替代方案:在RAFT聚合物的ω-端安装叠氮化物基本方案3:叠氮化物端RAFT聚合物和炔衍生物之间的点击反应
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Azide-Terminated RAFT Polymers for Biological Applications

Reversible addition-fragmentation chain-transfer (RAFT) polymerization is a commonly used polymerization methodology to generate synthetic polymers. The products of RAFT polymerization, i.e., RAFT polymers, have been widely employed in several biologically relevant areas, including drug delivery, biomedical imaging, and tissue engineering. In this article, we summarize a synthetic methodology to display an azide group at the chain end of a RAFT polymer, thus presenting a reactive site on the polymer terminus. This platform enables a click reaction between azide-terminated polymers and alkyne-containing molecules, providing a broadly applicable scaffold for chemical and bioconjugation reactions on RAFT polymers. We also highlight applications of these azide-terminated RAFT polymers in fluorophore labeling and for promoting organelle targeting capability. © 2020 Wiley Periodicals LLC.

Basic Protocol 1: Synthesis of the azide derivatives of chain transfer agent and radical initiator

Basic Protocol 2: Installation of an azide group on the α-end of RAFT polymers

Alternate Protocol: Installation of an azide group on the ω-end of RAFT polymers

Basic Protocol 3: Click reaction between azide-terminated RAFT polymers and alkyne derivatives

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来源期刊
Current protocols in chemical biology
Current protocols in chemical biology Biochemistry, Genetics and Molecular Biology-Biophysics
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