Molecular Recognition System Controlled by Thermosensitive Complexation Using Cyclodextrin-Conjugated Poly(ε-lysine)s

A. Takahashi, H. Choi, T. Ooya, N. Yui
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Abstract

Molecular recognition in chemistry and biology is a kind of host-guest phenomena, which concerns inclusion complexes formed through noncovalently controlled interactions between the host and guest. Possessing well-defined hydrophobic cavities of cyclodextrins (CDs), which can bind various organic, inorganic, and biological molecules to form stable inclusion complexes or supramolecular species, have been employed as excellent hosts in supramolecular chemistry and chiral selectors in separation science and technology. Hence, a great deal of efforts has been devoted to the design and syntheses of novel CD derivatives that display enhanced molecular binding abilities and selectivities for specific substrates.
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环糊精共轭聚(ε-赖氨酸)热敏络合控制的分子识别系统
分子识别在化学和生物学中是一种主客体现象,涉及到宿主和客体之间通过非共价控制的相互作用形成的包合物。环糊精(cyclodextrins, CDs)具有明确的疏水空腔,可以结合各种有机、无机和生物分子形成稳定的包合物或超分子物质,在超分子化学和分离科学技术中被用作优良的宿主和手性选择剂。因此,大量的努力已经投入到设计和合成新的CD衍生物,这些衍生物显示出增强的分子结合能力和对特定底物的选择性。
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