天然离子淌度-质谱中气相蛋白质和蛋白质复合离子压缩的计算洞察
Computational Insights into Compaction of Gas-Phase Protein and Protein Complex Ions in Native Ion Mobility-Mass Spectrometry.
作者信息
Rolland Amber D, Prell James S
机构信息
Department of Chemistry and Biochemistry, 1253 University of Oregon, Eugene, OR, USA, 97403-1253.
Materials Science Institute, 1252 University of Oregon, Eugene, OR, USA 97403-1252.
出版信息
Trends Analyt Chem. 2019 Jul;116:282-291. doi: 10.1016/j.trac.2019.04.023. Epub 2019 Apr 30.
Abstract
Native ion mobility-mass spectrometry (IM-MS) is a rapidly growing field for studying the composition and structure of biomolecules and biomolecular complexes using gas-phase methods. Typically, ions are formed in native IM-MS using gentle nanoelectrospray ionization conditions, which in many cases can preserve condensed-phase stoichiometry. Although much evidence shows that large-scale condensed-phase structure, such as quaternary structure and topology, can also be preserved, it is less clear to what extent smaller-scale structure is preserved in native IM-MS. This review surveys computational and experimental efforts aimed at characterizing compaction and structural rearrangements of protein and protein complex ions upon transfer to the gas phase. A brief summary of gas-phase compaction results from molecular dynamics simulations using multiple common force fields and a wide variety of protein ions is presented and compared to literature IM-MS data.
摘要
原生离子淌度-质谱联用技术(IM-MS)是一个快速发展的领域,它使用气相方法来研究生物分子和生物分子复合物的组成与结构。通常,在原生IM-MS中,离子是在温和的纳米电喷雾电离条件下形成的,在许多情况下,这种条件可以保持凝聚相化学计量。尽管有很多证据表明,大规模的凝聚相结构,如四级结构和拓扑结构,也可以被保留,但在原生IM-MS中较小尺度的结构在多大程度上得以保留尚不清楚。本综述调查了旨在表征蛋白质和蛋白质复合物离子转移到气相时的压缩和结构重排的计算和实验工作。本文给出了使用多种常见力场和各种蛋白质离子的分子动力学模拟得到的气相压缩结果的简要总结,并与文献中的IM-MS数据进行了比较。
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