A conformationally adaptive macrocycle: conformational complexity and host–guest chemistry of zorb[4]arene

A conformationally adaptive macrocycle: conformational complexity and host–guest chemistry of zorb[4]arene

Large amplitude conformational change is one of the features of biomolecular recognition and is also the basis for allosteric effects and signal transduction in functional biological systems. However, synthetic receptors with controllable conformational changes are rare. In this article, we present...

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Main Authors: Liu-Pan Yang, Song-Bo Lu, Arto Valkonen, Fangfang Pan, Kari Rissanen, Wei Jiang
Format: Article
Language:English
Published: Beilstein-Institut 2018-06-01
Series:Beilstein Journal of Organic Chemistry
Subjects:
conformations
host–guest chemistry
macrocycles
supramolecular chemistry
zorb[4]arene
Online Access:https://doi.org/10.3762/bjoc.14.134
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spelling doaj-26133225f72b407bae107a75452c2d392021-04-02T11:29:52ZengBeilstein-InstitutBeilstein Journal of Organic Chemistry1860-53972018-06-011411570157710.3762/bjoc.14.1341860-5397-14-134A conformationally adaptive macrocycle: conformational complexity and host–guest chemistry of zorb[4]areneLiu-Pan Yang0Song-Bo Lu1Arto Valkonen2Fangfang Pan3Kari Rissanen4Wei Jiang5Academy of Advanced Interdisciplinary Studies, Southern University of Science and Technology, Xueyuan Blvd 1088, Shenzhen, 518055, ChinaDepartment of Chemistry, Southern University of Science and Technology, Xueyuan Blvd 1088, Shenzhen, 518055, ChinaUniversity of Jyvaskyla, Department of Chemistry and Nanoscience Center, P. O. Box 35, FI-40014, Jyvaskyla, FinlandCollege of Chemistry, Central China Normal University, Wuhan, 430079, ChinaUniversity of Jyvaskyla, Department of Chemistry and Nanoscience Center, P. O. Box 35, FI-40014, Jyvaskyla, FinlandDepartment of Chemistry, Southern University of Science and Technology, Xueyuan Blvd 1088, Shenzhen, 518055, ChinaLarge amplitude conformational change is one of the features of biomolecular recognition and is also the basis for allosteric effects and signal transduction in functional biological systems. However, synthetic receptors with controllable conformational changes are rare. In this article, we present a thorough study on the host–guest chemistry of a conformationally adaptive macrocycle, namely per-O-ethoxyzorb[4]arene (ZB4). Similar to per-O-ethoxyoxatub[4]arene, ZB4 is capable of accommodating a wide range of organic cations. However, ZB4 does not show large amplitude conformational responses to the electronic substituents on the guests. Instead of a linear free-energy relationship, ZB4 follows a parabolic free-energy relationship. This is explained by invoking the influence of secondary C–H···O hydrogen bonds on the primary cation···π interactions based on the information obtained from four representative crystal structures. In addition, heat capacity changes (ΔCp) and enthalpy–entropy compensation phenomena both indicate that solvent reorganization is also involved during the binding. This research further deepens our understanding on the binding behavior of ZB4 and lays the basis for the construction of stimuli-responsive materials with ZB4 as a major component.https://doi.org/10.3762/bjoc.14.134conformationshost–guest chemistrymacrocyclessupramolecular chemistryzorb[4]arene
collection DOAJ
language English
format Article
sources DOAJ
author Liu-Pan Yang
Song-Bo Lu
Arto Valkonen
Fangfang Pan
Kari Rissanen
Wei Jiang
spellingShingle Liu-Pan Yang
Song-Bo Lu
Arto Valkonen
Fangfang Pan
Kari Rissanen
Wei Jiang
A conformationally adaptive macrocycle: conformational complexity and host–guest chemistry of zorb[4]arene
Beilstein Journal of Organic Chemistry
conformations
host–guest chemistry
macrocycles
supramolecular chemistry
zorb[4]arene
author_facet Liu-Pan Yang
Song-Bo Lu
Arto Valkonen
Fangfang Pan
Kari Rissanen
Wei Jiang
author_sort Liu-Pan Yang
title A conformationally adaptive macrocycle: conformational complexity and host–guest chemistry of zorb[4]arene
title_short A conformationally adaptive macrocycle: conformational complexity and host–guest chemistry of zorb[4]arene
title_full A conformationally adaptive macrocycle: conformational complexity and host–guest chemistry of zorb[4]arene
title_fullStr A conformationally adaptive macrocycle: conformational complexity and host–guest chemistry of zorb[4]arene
title_full_unstemmed A conformationally adaptive macrocycle: conformational complexity and host–guest chemistry of zorb[4]arene
title_sort conformationally adaptive macrocycle: conformational complexity and host–guest chemistry of zorb[4]arene
publisher Beilstein-Institut
series Beilstein Journal of Organic Chemistry
issn 1860-5397
publishDate 2018-06-01
description Large amplitude conformational change is one of the features of biomolecular recognition and is also the basis for allosteric effects and signal transduction in functional biological systems. However, synthetic receptors with controllable conformational changes are rare. In this article, we present a thorough study on the host–guest chemistry of a conformationally adaptive macrocycle, namely per-O-ethoxyzorb[4]arene (ZB4). Similar to per-O-ethoxyoxatub[4]arene, ZB4 is capable of accommodating a wide range of organic cations. However, ZB4 does not show large amplitude conformational responses to the electronic substituents on the guests. Instead of a linear free-energy relationship, ZB4 follows a parabolic free-energy relationship. This is explained by invoking the influence of secondary C–H···O hydrogen bonds on the primary cation···π interactions based on the information obtained from four representative crystal structures. In addition, heat capacity changes (ΔCp) and enthalpy–entropy compensation phenomena both indicate that solvent reorganization is also involved during the binding. This research further deepens our understanding on the binding behavior of ZB4 and lays the basis for the construction of stimuli-responsive materials with ZB4 as a major component.
topic conformations
host–guest chemistry
macrocycles
supramolecular chemistry
zorb[4]arene
url https://doi.org/10.3762/bjoc.14.134
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