Deciphering the Conformations of Glutathione Oxidized Peptide: A Comparative NMR Study in Solution and Solid-State Environments

IF 1.9 3区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY
Dillip K. Senapati, Jayasubba Reddy Yarava, K. V. Ramanathan, S. Raghothama
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引用次数: 0

Abstract

Glutathione (GSH) and its oxidized dimer (GSSG) play an important role in living systems as an antioxidant, balancing the presence of reactive oxygen species (ROS). The central thiol (-S-S-) bond in GSSG can undergo free rotation, providing multiple conformations with respect to the S-S bridge. The six titratable sites of GSSG, which are influenced by pH variations, affect these conformations in solution, whereas in solids, additionally crystal packing effects come into play. In view of differing reports about the structure of GSSG in literature, we have here conducted an extensive reexamination of its conformations using NMR, and contrasting results have been obtained for solution and solid state. In solution, the existence of more than one antiparallel orientation of the monomer unit with different hydrogen bonding schemes has been indicated by NOE and amide temperature coefficient results. On the other hand, in the solid-state, a 1H-1H double-quantum (DQ) to 13C single-quantum (SQ) correlation study has confirmed a parallel orientation, consistent with the reported X-ray crystal structure. Experimentally assigned solid-state NMR resonances have been validated using GIPAW calculations incorporated in the Quantum ESPRESSO package.

解密谷胱甘肽氧化肽的构象:溶液和固态环境下的核磁共振对比研究。
谷胱甘肽(GSH)及其氧化二聚体(GSSG)作为一种抗氧化剂,在生命系统中发挥着平衡活性氧(ROS)的重要作用。GSSG 中的中心硫醇(-S-S-)键可以自由旋转,提供了与 S-S 桥有关的多种构象。GSSG 的六个滴定位点会受 pH 值变化的影响,从而影响其在溶液中的构象,而在固体中,晶体的堆积效应也会发挥作用。鉴于文献中对 GSSG 结构的不同报道,我们在此利用核磁共振技术对其构象进行了广泛的重新研究,并在溶液和固体状态下得到了截然不同的结果。NOE 和酰胺温度系数结果表明,在溶液中,单体单元存在不止一种反平行取向,且氢键方案各不相同。另一方面,在固态中,1H-1H 双量子(DQ)到 13C 单量子(SQ)相关性研究证实了平行取向,与所报告的 X 射线晶体结构一致。利用量子 ESPRESSO 软件包中的 GIPAW 计算验证了实验分配的固态核磁共振共振。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.70
自引率
10.00%
发文量
99
审稿时长
1 months
期刊介绍: MRC is devoted to the rapid publication of papers which are concerned with the development of magnetic resonance techniques, or in which the application of such techniques plays a pivotal part. Contributions from scientists working in all areas of NMR, ESR and NQR are invited, and papers describing applications in all branches of chemistry, structural biology and materials chemistry are published. The journal is of particular interest not only to scientists working in academic research, but also those working in commercial organisations who need to keep up-to-date with the latest practical applications of magnetic resonance techniques.
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