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甾体差向异构体钠化多聚体的离子淌度-质谱实验与理论研究

Experimental and Theoretical Investigation of Sodiated Multimers of Steroid Epimers with Ion Mobility-Mass Spectrometry.

作者信息

Chouinard Christopher D, Cruzeiro Vinícius Wilian D, Roitberg Adrian E, Yost Richard A

机构信息

Department of Chemistry, University of Florida, Gainesville, FL, 32611, USA.

CAPES Foundation, Ministry of Education of Brazil, Brasília, DF, 70040-020, Brazil.

出版信息

J Am Soc Mass Spectrom. 2017 Feb;28(2):323-331. doi: 10.1007/s13361-016-1525-7. Epub 2016 Dec 2.

DOI:10.1007/s13361-016-1525-7
PMID:27914014
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5478531/
Abstract

Ion mobility-mass spectrometry (IM-MS) has recently seen increased use in the analysis of small molecules, especially in the field of metabolomics, for increased breadth of information and improved separation of isomers. In this study, steroid epimers androsterone and trans-androsterone were analyzed with IM-MS to investigate differences in their relative mobilities. Although sodiated monomers exhibited very similar collision cross-sections (CCS), baseline separation was observed for the sodiated dimer species (R = 1.81), with measured CCS of 242.6 and 256.3 Å, respectively. Theoretical modeling was performed to determine the most energetically stable structures of solution-phase and gas-phase monomer and dimer structures. It was revealed that these epimers differ in their preferred dimer binding mode in solution phase: androsterone adopts a R=O - Na - OH-R' configuration, whereas trans-androsterone adopts a R=O - Na - O=R' configuration. This difference contributes to a significant structural variation, and subsequent CCS calculations based on these structures relaxed in the gas phase were in agreement with experimentally measured values (ΔCCS ~ 5%). Additionally, these calculations accurately predicted the relative difference in mobility between the epimers. This study illustrates the power of combining experimental and theoretical results to better elucidate gas-phase structures. Graphical Abstract ᅟ.

摘要

离子淌度-质谱联用技术(IM-MS)最近在小分子分析中得到了越来越多的应用,尤其是在代谢组学领域,用于增加信息广度和改善异构体分离。在本研究中,使用IM-MS分析了甾体差向异构体雄甾酮和反式雄甾酮,以研究它们相对淌度的差异。尽管钠化单体表现出非常相似的碰撞截面(CCS),但对于钠化二聚体物种观察到了基线分离(R = 1.81),其测量的CCS分别为242.6和256.3 Å。进行了理论建模以确定溶液相和气相单体及二聚体结构中能量最稳定的结构。结果表明,这些差向异构体在溶液相中的首选二聚体结合模式不同:雄甾酮采用R=O - Na - OH-R'构型,而反式雄甾酮采用R=O - Na - O=R'构型。这种差异导致了显著的结构变化,基于这些在气相中弛豫的结构进行的后续CCS计算与实验测量值一致(ΔCCS约为5%)。此外,这些计算准确地预测了差向异构体之间淌度的相对差异。本研究说明了结合实验和理论结果以更好地阐明气相结构的能力。图形摘要ᅟ

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Characterizing ion mobility and collision cross section of fatty acids using electrospray ion mobility mass spectrometry.使用电喷雾离子淌度质谱法表征脂肪酸的离子淌度和碰撞截面。
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