化学反应网络的单分子视角分析：以光驱动超分子泵为例。

Individual-Molecule Perspective Analysis of Chemical Reaction Networks: The Case of a Light-Driven Supramolecular Pump.

作者信息

Sabatino Andrea, Penocchio Emanuele, Ragazzon Giulio, Credi Alberto, Frezzato Diego

机构信息

Dipartimento di Scienze Chimiche, Università degli Studi di Padova, Via Marzolo 1, 35131, Padova, Italy.

Complex Systems and Statistical Mechanics, Physics and Materials Science Unit, University of Luxembourg, 162 A, avenue de la Faïencerie, 1511, Luxembourg, Luxembourg.

出版信息

Angew Chem Int Ed Engl. 2019 Oct 1;58(40):14341-14348. doi: 10.1002/anie.201908026. Epub 2019 Aug 23.

DOI:10.1002/anie.201908026

PMID:31379048

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6899705/

Abstract

The first study in which stochastic simulations of a two-component molecular machine are performed in the mass-action regime is presented. This system is an autonomous molecular pump consisting of a photoactive axle that creates a directed flow of rings through it by exploiting light energy away from equilibrium. The investigation demonstrates that the pump can operate in two regimes, both experimentally accessible, in which light-driven steps can be rate-determining or not. The number of photons exploited by an individual molecular pump, as well as the precision of cycling and the overall efficiency, critically rely on the operating regime of the machine. This approach provides useful information not only to guide the chemical design of a self-assembling molecular device with desired features, but also to elucidate the effect of the environment on its performance, thus facilitating its experimental investigation.

摘要

本文展示了首个在质量作用体系中对双组分分子机器进行随机模拟的研究。该系统是一个自主分子泵，由一个光活性轴组成，该轴通过利用远离平衡态的光能，使环在其中产生定向流动。研究表明，该泵可在两种实验上均可实现的状态下运行，其中光驱动步骤可能是速率决定步骤，也可能不是。单个分子泵利用的光子数量，以及循环精度和整体效率，关键取决于机器的运行状态。这种方法不仅为指导具有所需特性的自组装分子装置的化学设计提供了有用信息，还阐明了环境对其性能的影响，从而便于对其进行实验研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/64da/6899705/00c80e35ce9c/ANIE-58-14341-g006.jpg

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化学反应网络的单分子视角分析：以光驱动超分子泵为例。

Individual-Molecule Perspective Analysis of Chemical Reaction Networks: The Case of a Light-Driven Supramolecular Pump.

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