Apparent activation energies of protein–protein complex dissociation in the gas–phase determined by electrospray mass spectrometry

Yelena Yefremova; F. Teresa I. Melder; Bright D. Danquah; Kwabena F.M. Opuni; Cornelia Koy; Alexandra Ehrens; David Frommholz; Harald Illges; Knut Koelbel; Frank Sobott; Michael O. Glocker

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Apparent activation energies of protein–protein complex dissociation in the gas–phase determined by electrospray mass spectrometry

机译：通过电喷雾质谱法测定的气相中蛋白质 - 蛋白质复合解离的表观活化能量

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AbstractWe have developed a method to determine apparent activation energies of dissociation for ionized protein–protein complexes in the gas phase using electrospray ionization mass spectrometry following the Rice-Ramsperger-Kassel-Marcus quasi-equilibrium theory. Protein–protein complexes were formed in solution, transferred into the gas phase, and separated from excess free protein by ion mobility filtering. Afterwards, complex disassembly was initiated by collision-induced dissociation with step-wise increasing energies. Relative intensities of ion signals were used to calculate apparent activation energies of dissociation in the gas phase by applying linear free energy relations. The method was developed using streptavidin tetramers. Experimentally determined apparent gas-phase activation energies for dissociation (

E_{A m 0 g}^{#}

$$ {E}_{A m0g}^{#} $$) of complexes consisting of Fc parts from immunoglobulins (IgG-Fc) and three closely related protein G' variants (IgG-Fc?protein G'e, IgG-Fc?protein G'f, and IgG-Fc?protein G'g) show the same order of stabilities as can be inferred from their in-solution binding constants. Differences in stabilities between the protein–protein complexes correspond to single amino acid residue exchanges in the IgG-binding regions of the protein G' variants.

Graphical abstractElectrospray mass spectrometry and collision-induced dissociation delivers apparent activation energies and supramolecular bond force constants of protein-protein complexes in the gas phase.]]>

机译：<！[CDATA [<标题>抽象 ara ID =“PAR1”>我们开发了一种使用电喷雾电离质谱法确定气相中的离子蛋白质 - 蛋白复合物的明显激活能量的方法稻米撞击器 - 马库斯准均衡理论。在溶液中形成蛋白质 - 蛋白质复合物，转移到气相中，并通过离子迁移率过滤与过量的游离蛋白质分离。然后，通过碰撞诱导的解离与逐步的增加的能量进行复杂的拆卸。离子信号的相对强度用于通过施加线性自由能量关系计算气相中解离的表观激活能量。该方法采用链霉抗素蛋白四聚体开发。实验确定用于解离的表观气相激活能量（

e < / mi>am0g＃$$ {e} _ {a  m0g} ^ {＃} $$ 由免疫球蛋白（IgG-Fc）和三种密切相关的蛋白G'变体组成的复合物（IgG-Fc？蛋白G'e，IgG-Fc？蛋白G'F和IgG- Fc？蛋白G'g）显示相同的稳定顺序，可以从其溶液结合常数推断出来。蛋白质 - 蛋白质复合物之间的稳定性的差异对应于蛋白质G'变体的IgG结合区域中的单氨基酸残基交换。 ara id =“par2”optormedium =“在线”> <图类别= “标准”float =“no”id =“fima”> <标题语言=“en”> 图形摘要 <标题Content> 电喷雾质谱和碰撞诱导的解离提供了表观激活能量和碰撞诱导的解离气相中蛋白质 - 蛋白质复合物的超分子键常数。]]>

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来源
《Analytical and bioanalytical chemistry》 |2017年第28期|共10页
作者
Yelena Yefremova; F. Teresa I. Melder; Bright D. Danquah; Kwabena F.M. Opuni; Cornelia Koy; Alexandra Ehrens; David Frommholz; Harald Illges; Knut Koelbel; Frank Sobott; Michael O. Glocker;
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作者单位

Proteome Center Rostock University Rostock Medical Center;

Proteome Center Rostock University Rostock Medical Center;

Proteome Center Rostock University Rostock Medical Center;

Proteome Center Rostock University Rostock Medical Center;

Proteome Center Rostock University Rostock Medical Center;

University of Applied Sciences Bonn-Rhein-Sieg;

University of Applied Sciences Bonn-Rhein-Sieg;

University of Applied Sciences Bonn-Rhein-Sieg;

Department of Chemistry University of Antwerp;

Department of Chemistry University of Antwerp;

Proteome Center Rostock University Rostock Medical Center;

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正文语种 eng
中图分类分析化学;
关键词
Protein–protein interaction; Native mass spectrometry; Ion mobility; Collision induced dissociation; Quasi equilibrium conditions;

机译：蛋白质 - 蛋白质相互作用;天然质谱;离子迁移率;碰撞诱导解离;准平衡条件;

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专利

1. Apparent activation energies of protein–protein complex dissociation in the gas–phase determined by electrospray mass spectrometry [J] . Yelena Yefremova, F. Teresa I. Melder, Bright D. Danquah, Analytical and bioanalytical chemistry . 2017,第28期

机译：通过电喷雾质谱法测定的气相中蛋白质 - 蛋白质复合解离的表观活化能量
2. Determination of the activation energy for unimolecular dissociation of a non-covalent gas-phase peptide: Substrate complex by infrared multiphoton dissociation Fourier transform ion cyclotron resonance mass spectrometry [J] . Schafer M., Schmuck C., Heil M., Journal of the American Society for Mass Spectrometry . 2003,第11期

机译：非共价气相肽单分子解离的活化能的测定：红外多光子解离傅里叶变换离子回旋共振质谱
3. Free energies of protein-protein association determined by electrospray ionization mass spectrometry correlate accurately with values obtained by solution methods. [J] . Krishnaswamy SR, Williams ER, Kirsch JF Protein Science: A Publication of the Protein Society . 2006,第6期

机译：通过电喷雾电离质谱法测定的蛋白质-蛋白质缔合自由能与溶液法获得的值精确相关。
4. Gas-Phase Stability of Protein-Ligand Complexes: Unfolding and Dissociation Pathways Studied by Electrospray Ionisation-Ion Mobility-Mass Spectrometry [C] . Jonathan T. S. Hopper, Neil J. Oldham American Society for Mass Spectrometry Conference on Mass Spectrometry and Allied Topics . 2009

机译：蛋白质 - 配体复合物的气相稳定性：通过电喷雾电离离子迁移率 - 质谱法研究展开和解离途径
5. Applications of ion mobility spectrometry, collision-induced dissociation and electron activated dissociation tandem mass spectrometry to structural analysis of proteins, glycoproteins and glycans. [D] . Pu, Yi. 2016

机译：离子迁移谱，碰撞诱导解离和电子活化解离串联质谱在蛋白质，糖蛋白和聚糖结构分析中的应用。
6. Free energies of protein–protein association determined by electrospray ionization mass spectrometry correlate accurately with values obtained by solution methods [O] . Sanjay R. Krishnaswamy, Evan R. Williams, Jack F. Kirsch 2006

机译：通过电喷雾电离质谱法测定的蛋白质-蛋白质缔合自由能与溶液法获得的值精确相关
7. Apparent activation energies of protein–protein complex dissociation in the gas–phase determined by electrospray mass spectrometry [O] . Yefremova, Y, Melder, FTI, Danquah, BD, 2017

机译：通过电喷雾质谱法测定的气相中蛋白质 - 蛋白质复合物解离的表观活化能

Apparent activation energies of protein–protein complex dissociation in the gas–phase determined by electrospray mass spectrometry

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