Molecular recognition and biological application of modified β-cyclodextrins

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英文篇名：Molecular recognition and biological application of modified β-cyclodextrins 作者：Ying-Ming ; Zhang ; Qiao-Yan ; Xu ; Yu ; Liu 英文作者：Ying-Ming Zhang;Qiao-Yan Xu;Yu Liu;College of Chemistry,State Key Laboratory of Elemento-Organic Chemistry,Nankai University;Collaborative Innovation Center of Chemical Science and Engineering (Tianjin); 英文关键词：Host-guest chemistry;;molecular recognition;;cyclodextrin;;biological function 中文刊名：JBXG 英文刊名：中国科学:化学(英文版) 机构：College of Chemistry,State Key Laboratory of Elemento-Organic Chemistry,Nankai University;Collaborative Innovation Center of Chemical Science and Engineering (Tianjin); 出版日期：2019-02-25 14:57 出版单位：Science China(Chemistry) 年：2019 期：v.62 基金：supported by the National Natural Science Foundation of China(21432004,21472100,21772099,91527301) 语种：英文; 页：JBXG201905004 页数：12 CN：05 ISSN：11-5839/O6 分类号：35-46

摘要

The molecular recognition based on cyclodextrins(CDs) has become a focus of interest in modern supramolecular chemistry.CDs are known to encapsulate various ions and organic/inorganic molecules in their hydrophobic cavities and form stable inclusion complexes through cooperative noncovalent interactions. During the past few decades, a large variety of modified CDs have been elaborately designed and synthesized, which significantly promotes our molecular-level understanding of the structure–function relationship in many supramolecular systems. Through the accurate analysis on the molecular binding behaviors, one can create a library of CD-based nanoassemblies with controlled physicochemical properties. In this review, we will focus on the stability constant-directed molecular recognition and the biological activities of β-CDs toward some representative bioactive substrates, including metal ions, steroids, porphyrins, amino acids and oligopeptides, as well as drug molecules, with the final goal of promoting their practical applications in the biomedical field.
        The molecular recognition based on cyclodextrins(CDs) has become a focus of interest in modern supramolecular chemistry.CDs are known to encapsulate various ions and organic/inorganic molecules in their hydrophobic cavities and form stable inclusion complexes through cooperative noncovalent interactions. During the past few decades, a large variety of modified CDs have been elaborately designed and synthesized, which significantly promotes our molecular-level understanding of the structure–function relationship in many supramolecular systems. Through the accurate analysis on the molecular binding behaviors, one can create a library of CD-based nanoassemblies with controlled physicochemical properties. In this review, we will focus on the stability constant-directed molecular recognition and the biological activities of β-CDs toward some representative bioactive substrates, including metal ions, steroids, porphyrins, amino acids and oligopeptides, as well as drug molecules, with the final goal of promoting their practical applications in the biomedical field.

引文

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