基于螺旋开合反应策略的高选择性和可回收的 NO 响应纳米通道。

A highly selective and recyclable NO-responsive nanochannel based on a spiroring opening-closing reaction strategy.

机构信息

Key Laboratory of Pesticide and Chemical Biology (CCNU), Ministry of Education, International Joint Research Centre for Intelligent Biosensor Technology and Health, Chemical Biology Center, College of Chemistry, Central China Normal University, 430079, Wuhan, P.R. China.

State Key Laboratory of Chemo/Biosensing and Chemometrics, Hunan University, 410082, Changsha, P.R. China.

出版信息

Nat Commun. 2019 Mar 21;10(1):1323. doi: 10.1038/s41467-019-09163-4.

DOI:10.1038/s41467-019-09163-4

PMID:30899007

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6428850/

Abstract

Endogenous nitric oxide (NO) is an important messenger molecule, which can directly activate K transmission and cause relaxation of vascular smooth muscle. Here, inspired by the K channel of smooth muscle cells, we report, a novel NO-regulated artificial nanochannel based on a spiro ring opening-closing reaction strategy. This nanofluidic diode system shows an outstanding NO selective response owing to the specific reaction between o-phenylenediamine (OPD) and NO on the channel surface with high ion rectification ratio (~~6.7) and ion gating ratio (~~4). Moreover, this NO gating system exhibits excellent reversibility and stability as well as high selectivity response. This system not only helps us understand the process of NO directly regulating biological ion channels, but also has potential application value in the field of biosensors.

摘要

内源性一氧化氮（NO）是一种重要的信使分子，可直接激活 K+ 通道并引起血管平滑肌松弛。在这里，受平滑肌细胞 K 通道的启发，我们报告了一种基于螺环开环-闭环反应策略的新型 NO 调节人工纳米通道。由于 o-苯二胺（OPD）和 NO 在通道表面的特定反应，这种纳米流二极管系统表现出出色的 NO 选择性响应，具有高离子整流比（~~6.7）和离子门控比（~~4）。此外，这种 NO 门控系统还表现出优异的可逆性和稳定性以及高选择性响应。该系统不仅有助于我们了解 NO 直接调节生物离子通道的过程，而且在生物传感器领域具有潜在的应用价值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3a2a/6428850/b83a3f9b5e12/41467_2019_9163_Fig1_HTML.jpg

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基于螺旋开合反应策略的高选择性和可回收的 NO 响应纳米通道。

A highly selective and recyclable NO-responsive nanochannel based on a spiroring opening-closing reaction strategy.

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