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15N 固态 NMR 作为黄素氢键的探针。

15N solid-state NMR as a probe of flavin H-bonding.

机构信息

Department of Chemistry, University of Kentucky, Lexington, Kentucky 40506-0055, United States.

出版信息

J Phys Chem B. 2011 Jun 23;115(24):7788-98. doi: 10.1021/jp202138d. Epub 2011 May 27.

DOI:10.1021/jp202138d
PMID:21619002
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3156030/
Abstract

Flavins mediate a wide variety of chemical reactions in biology. To learn how one cofactor can be made to execute different reactions in different enzymes, we are developing solid-state NMR (SSNMR) to probe the flavin electronic structure, via the (15)N chemical shift tensor principal values (δ(ii)). We find that SSNMR has superior responsiveness to H-bonds, compared to solution NMR. H-bonding to a model of the flavodoxin active site produced an increase of 10 ppm in the δ(11) of N5, although none of the H-bonds directly engage N5, and solution NMR detected only a 4 ppm increase in the isotropic chemical shift (δ(iso)). Moreover SSNMR responded differently to different H-bonding environments, as H-bonding with water caused δ(11) to decrease by 6 ppm, whereas δ(iso) increased by less than 1 ppm. Our density functional theoretical (DFT) calculations reproduce the observations, validating the use of computed electronic structures to understand how H-bonds modulate the flavin's reactivity.

摘要

黄素在生物学中介导着各种各样的化学反应。为了了解一种辅助因子如何在不同的酶中执行不同的反应,我们正在开发固态核磁共振(SSNMR)技术,通过(15)N 化学位移张量主值(δ(ii))来探测黄素的电子结构。我们发现,与溶液核磁共振相比,固态核磁共振对氢键具有更高的响应性。与黄素氧化还原酶活性部位的模型形成氢键会使 N5 的 δ(11)增加 10 ppm,尽管没有一个氢键直接与 N5 结合,而且溶液核磁共振只检测到各向同性化学位移(δ(iso))增加 4 ppm。此外,固态核磁共振对不同的氢键环境有不同的响应,因为与水形成氢键会使 δ(11)降低 6 ppm,而 δ(iso)的增加不到 1 ppm。我们的密度泛函理论(DFT)计算结果再现了这些观察结果,验证了使用计算电子结构来理解氢键如何调节黄素的反应性。

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