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Lipid bilayer environments control exchange kinetics of deep cavitand hosts and enhance disfavored guest conformations

机译：脂质双层环境控制深空洞主体的交换动力学并增强不良的客体构象

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The effects on the molecular recognition properties of water-soluble deep cavitand hosts upon embedding them in phosphocholine lipid bilayer environments have been studied by 2D NMR experiments. By employing suitable guests containing ¹⁹F or ¹³C nuclei that can be encapsulated inside the host, 2D EXSY NMR experiments can be used to analyze and compare the in/out guest exchange rates in aqueous solution, isotropically tumbling micelles, or magnetically ordered bicelles. These analyses show that embedding the deep cavitands in lipid bilayers slows the guest exchange rate, due to the lipids acting as a “compression sleeve” around the host, restricting guest egress. This effect also enhances guest conformations in the host that are not observed in free solution, such as axial cyclohexane conformers and ketone hydrates.

机译：通过2D NMR实验研究了将水溶性深空洞分子宿主嵌入磷胆碱脂质双层环境中对分子识别特性的影响。通过使用包含^{19 F或^{13 C核的合适客体，该客体可以封装在宿主内部，可以使用2D EXSY NMR实验来分析和比较进/出客体交换水溶液，各向同性的微团或磁性有序的双胞胎。这些分析表明，将深腔体嵌入脂质双层中会减慢客人的交换速度，这是因为脂质在宿主周围充当“压缩套”，限制了客人的外出。该作用还增强了宿主中游离溶液中未观察到的客体构象，例如轴向环己烷构象异构体和酮水合物。}}

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期刊名称 Chemical Science
作者
Lizeth Perez; Bethany G. Caulkins; Magi Mettry; Leonard J. Mueller; Richard J. Hooley;
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年(卷),期 2018(9),7
年度 2018
页码 1836–1845
总页数 10
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
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专利

1. Lipid bilayer environments control exchange kinetics of deep cavitand hosts and enhance disfavored guest conformations [J] . Lizeth Perez, Bethany G. Caulkins, Magi Mettry, Chemical science . 2018,第7期

机译：脂质双层环境控制深空洞主体的交换动力学并增强不良的客体构象
2. Pure Isolation and Stabilization of Energetically Highly Disfavored Geometric Isomers by Controlling the Stereoselectivity of Supramolecular Interactions in Tailored Host-Guest Systems [J] . Ioanna Balomenou, George Pistolis The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2010,第2期

机译：通过控制量身定制的来宾-客体系统中的超分子相互作用的立体选择性，对能量高度不利的几何异构体进行纯分离和稳定化
3. Guest Controlled Nonmonotonic Deep Cavity Cavitand Assembly State Switching [J] . Du Tang, Barnett J. Wesley, Gibb Bruce C., The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2017,第47期

机译：客人控制的非单调深腔Cavitand和组装状态切换
4. Design of temperature control system of a heat exchanger at heating manifold based on host-guest architecture of double S7-200PLC [C] . Zhuang Ma, Xiushuang Cao, Zheng Wu, 2011 International Conference on Electronics and Optoelectronics . 2011

机译：基于双S7-200PLC主客体结构的加热歧管换热器温度控制系统设计
5. Dynamic and reactivity of guests within a water-soluble hosts and synthesis of cationic water-soluble cavitands. [D] . Kulasekharan, Revathy. 2012

机译：水溶性主体中客体的动态和反应性以及阳离子水溶性空泡石的合成。
6. Selective protein recognition in supported lipid bilayer arrays by tailored dual-mode deep cavitand hosts [O] . Lizeth Perez, Magi Mettry, Samuel S. Hinman, -1

机译：量身定制的双模式深空泡基质宿主在支持的脂质双层阵列中的选择性蛋白质识别
7. Selective protein recognition in supported lipid bilayer arrays by tailored, dual-mode deep cavitand hosts [O] . Lizeth Perez, Magi Mettry, Samuel S. Hinman, 2017

机译：通过定制的双模深型空腔主持人在支持的脂质双层阵列中选择性蛋白质识别

Lipid bilayer environments control exchange kinetics of deep cavitand hosts and enhance disfavored guest conformations

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