水溶液中铁（II）结合的氮氧自由基的酸度和氢交换动力学。

Acidity and hydrogen exchange dynamics of iron(II)-bound nitroxyl in aqueous solution.

机构信息

Department of Chemistry, Queen's University, Kingston, Ontario, K7L 3N6 (Canada).

出版信息

Angew Chem Int Ed Engl. 2014 Oct 20;53(43):11547-51. doi: 10.1002/anie.201407018. Epub 2014 Sep 9.

DOI:10.1002/anie.201407018

PMID:25205463

Abstract

Nitroxyl-iron(II) (HNO-Fe(II)) complexes are often unstable in aqueous solution, thus making them very difficult to study. Consequently, many fundamental chemical properties of Fe(II)-bound HNO have remained unknown. Using a comprehensive multinuclear ((1)H, (15)N, (17)O) NMR approach, the acidity of the Fe(II)-bound HNO in Fe(CN)5(HNO) was investigated and its pK(a) value was determined to be greater than 11. Additionally, HNO undergoes rapid hydrogen exchange with water in aqueous solution and this exchange process is catalyzed by both acid and base. The hydrogen exchange dynamics for the Fe(II)-bound HNO have been characterized and the obtained benchmark values, when combined with the literature data on proteins, reveal that the rate of hydrogen exchange for the Fe(II)-bound HNO in the interior of globin proteins is reduced by a factor of 10(6).

摘要

硝酰基铁(II)（HNO-Fe(II)）配合物在水溶液中通常不稳定，因此很难进行研究。因此，Fe(II)结合的 HNO 的许多基本化学性质仍然未知。使用综合多核（1H、15N、17O）NMR 方法，研究了[Fe(CN)5(HNO)]3-中 Fe(II)结合的 HNO 的酸度，并确定其 pK(a)值大于 11。此外，HNO 在水溶液中与水快速发生氢交换，该交换过程同时受酸和碱的催化。已经对 Fe(II)结合的 HNO 的氢交换动力学进行了表征，并且获得的基准值与蛋白质文献数据相结合，表明球蛋白蛋白内部 Fe(II)结合的 HNO 的氢交换速率降低了 106 倍。

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水溶液中铁（II）结合的氮氧自由基的酸度和氢交换动力学。

Acidity and hydrogen exchange dynamics of iron(II)-bound nitroxyl in aqueous solution.

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