HNO 是由 NO 与硫醇反应生成的。

HNO Is Produced by the Reaction of NO with Thiols.

机构信息

Departamento de Química Inorgánica, Analítica y Química Física, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires , INQUIMAE-CONICET, Ciudad Universitaria, Buenos Aires C1428EHA, Argentina.

Departamento de Química, Universidade Federal de Minas Gerais , Belo Horizonte 31270-901, Brazil.

出版信息

J Am Chem Soc. 2017 Oct 18;139(41):14483-14487. doi: 10.1021/jacs.7b06968. Epub 2017 Oct 4.

DOI:10.1021/jacs.7b06968

PMID:28926245

Abstract

Azanone (nitroxyl, HNO) is a highly reactive compound whose biological role is still a matter of debate. One possible route for its formation is NO reduction by biological reductants. These reactions have been historically discarded due to the negative redox potential for the NO,H+/HNO couple. However, the NO to HNO conversion mediated by vitamins C, E, and aromatic alcohols has been recently shown to be feasible from a chemical standpoint. Based on these precedents, we decided to study the reaction of NO with thiols as potential sources of HNO. Using two complementary approaches, trapping by a Mn porphyrin and an HNO electrochemical sensor, we found that under anaerobic conditions aliphatic and aromatic thiols (as well as selenols) are able to convert NO to HNO, albeit at different rates. Further mechanistic analysis using ab initio methods shows that the reaction between NO and the thiol produces a free radical adduct RSNOH, which reacts with a second NO molecule to produce HNO and a nitrosothiol. The nitrosothiol intermediate reacts further with RSH to produce a second molecule of HNO and RSSR, as previously reported.

摘要

氮氧自由基（亚硝酰，HNO）是一种高度反应性的化合物，其生物学作用仍存在争议。其形成的一种可能途径是生物还原剂还原 NO。由于 NO，H+/HNO 偶对的还原电势为负，这些反应在历史上被摒弃。然而，最近已经证明，维生素 C、E 和芳香醇介导的 NO 向 HNO 的转化在化学上是可行的。基于这些先例，我们决定研究 NO 与巯基的反应，将其作为 HNO 的潜在来源。使用两种互补的方法，即锰卟啉的捕获和 HNO 电化学传感器，我们发现，在厌氧条件下，脂肪族和芳香族巯基（以及硒醇）能够将 NO 转化为 HNO，但反应速率不同。使用从头算方法进行的进一步机理分析表明，NO 与巯基之间的反应产生了自由基加合物 RSNOH，该自由基加合物与第二个 NO 分子反应生成 HNO 和亚硝酰硫醇。正如之前报道的那样，亚硝酰硫醇中间体进一步与 RSH 反应生成第二个 HNO 分子和 RSSR。

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HNO 是由 NO 与硫醇反应生成的。

HNO Is Produced by the Reaction of NO with Thiols.

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