具有皮摩尔亲和力的仿生熵主导分子铰链

Biomimetic Entropy-Dominant Molecular Hinges with Picomolar Affinity.

作者信息

Huang Zehuan, Groombridge Alexander S, Wu Guanglu, Olesińska Magdalena, Chen Xiaoyi, McCune Jade A, Scherman Oren A

机构信息

Melville Laboratory for Polymer Synthesis, Yusuf Hamied Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, United Kingdom.

出版信息

J Am Chem Soc. 2024 Sep 4;146(35):24244-24249. doi: 10.1021/jacs.4c05274. Epub 2024 Aug 21.

DOI:10.1021/jacs.4c05274

PMID:39167697

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11378272/

Abstract

Molecular hinges are ubiquitous in both natural and artificial supramolecular systems. A major challenge to date, however, has been simultaneously achieving high thermodynamic and kinetic stability. Here, we employ host-enhanced intramolecular charge-transfer interactions to mediate entropy-favored complexation between a flexible AB-type guest and a macrocyclic host, forming a new type of molecular hinge with an ultrahigh picomolar binding affinity ( > 10 M). This entropy-promoted hinge modulates photoisomerization, exhibiting a substantial preference for the -isomer, which is further demonstrated to mirror the natural retinal-opsin cycle, promoting the sensitization of visible light. This work unveils an efficient approach to exploit entropy-dominant architectures for the design of hierarchical molecular systems.

摘要

分子铰链在天然和人工超分子体系中普遍存在。然而，迄今为止的一个主要挑战是同时实现高热力学稳定性和动力学稳定性。在此，我们利用主体增强的分子内电荷转移相互作用来介导柔性AB型客体与大环主体之间熵有利的络合作用，形成一种具有超高皮摩尔结合亲和力（>10 M）的新型分子铰链。这种熵促进的铰链调节光异构化，对 -异构体表现出显著偏好，进一步证明其反映了天然视网膜-视蛋白循环，促进了可见光的敏化。这项工作揭示了一种利用熵主导结构设计分级分子体系的有效方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eb41/11378272/4211786385dd/ja4c05274_0001.jpg

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具有皮摩尔亲和力的仿生熵主导分子铰链

Biomimetic Entropy-Dominant Molecular Hinges with Picomolar Affinity.

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