On the mechanism of protein supercharging in electrospray ionisation mass spectrometry: Effects on charging of additives with short- and long-chain alkyl constituents with carbonate and sulphite terminal groups

IF 2.5 Q1 Chemistry
Eric D.B. Foley , Muhammad A. Zenaidee , Rico F. Tabor , Junming Ho , Jonathon E. Beves , William A. Donald
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引用次数: 10

Abstract

Small organic molecules are used as solution additives in electrospray ionisation mass spectrometry (ESI-MS) to increase the charge states of protein ions and improve the performance of intact protein analysis by tandem mass spectrometry. The properties of the additives that are responsible for their charge-enhancing effects (e.g. dipole moment, gas-phase basicity, Brønsted basicity, and surface tension) have been debated in the literature. We report a series of solution additives for ESI-MS based on cyclic alkyl carbonates and sulphites that have alkyl chains that are from two to ten methylene units long. The extent of charging of [Val [5]]-angiotensin II, cytochrome c, carbonic anhydrase II, and bovine serum albumin in ESI-MS using the additives was measured. For both the alkyl carbonate and sulphite additives with up to four methylene units, ion charging increased as the side chain lengths of the additives increased. At a critical alkyl chain length of four methylene units, protein ion charge states decreased as the chain length increased. The dipole moments, gas-phase basicity values, and Brønsted basicities (i.e. the pKa of the conjugate acids) of the additives were obtained using electronic structure calculations, and the surface tensions were measured by pendant drop tensiometry. Because the dipole moments, gas-phase basicities, and pKa values of the additives did not depend significantly on the alkyl chain lengths of the additives and the extent of charging depended strongly on the chain lengths, these data indicate that these three additive properties do not correlate with protein charging under these conditions. For the additives with alkyl chains at or above the critical length, the surface tension of the additives decreased as the length of the side chain decreased, which correlated well with the decrease in protein charging. These data are consistent with protein charging being limited by droplet surface tension below a threshold surface tension for these additives. For additives with relatively high surface tensions, protein ion charging increased as the amphiphilicity of the additives increased (and surface tension decreased) which is consistent with protein charging being limited by the emission of charge carriers from highly charged ESI generated droplets.

Abstract Image

电喷雾电离质谱法中蛋白质增压机理研究:含碳酸盐和亚硫酸盐末端基团的短链和长链烷基组分添加剂对增压的影响
小有机分子作为溶液添加剂用于电喷雾电离质谱(ESI-MS),以增加蛋白质离子的电荷状态,提高串联质谱分析完整蛋白质的性能。引起电荷增强效应的添加剂的性质(如偶极矩、气相碱度、Brønsted碱度和表面张力)在文献中一直存在争议。我们报道了一系列基于环烷基碳酸酯和亚硫酸盐的ESI-MS溶液添加剂,它们的烷基链从2到10个亚甲基单位长。在ESI-MS中测定了[Val[5]]-血管紧张素II、细胞色素c、碳酸酐酶II和牛血清白蛋白的充电程度。对于含有4个亚甲基单位的碳酸烷基酯和亚硫酸盐添加剂,离子电荷随添加剂侧链长度的增加而增加。在4个亚甲基单位的临界烷基链长处,蛋白质离子的电荷态随着链长的增加而减小。通过电子结构计算得到了添加剂的偶极矩、气相碱度值和Brønsted碱度(即共轭酸的pKa),并通过垂滴张力法测量了表面张力。由于添加剂的偶极矩、气相碱度和pKa值与添加剂的烷基链长度没有显著的关系,而充电的程度则强烈地依赖于链长度,这些数据表明,在这些条件下,这三种添加剂的性质与蛋白质的充电无关。当烷基链长度大于或等于临界长度时,添加剂的表面张力随侧链长度的减小而减小,这与蛋白质电荷的减少有很好的相关性。这些数据与蛋白质充电受到液滴表面张力的限制是一致的,液滴表面张力低于这些添加剂的阈值表面张力。对于表面张力相对较高的添加剂,蛋白质离子的电荷随添加剂的两亲性增加而增加(表面张力降低),这与高电荷ESI生成的液滴发射载流子限制蛋白质的电荷一致。
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
Analytica Chimica Acta: X
Analytica Chimica Acta: X Chemistry-Analytical Chemistry
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审稿时长
16 weeks
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