不同质谱仪之间 Ecom50 值的相关性：碰撞池射频电压对计算的存活产率的影响。

Correlation of Ecom50 values between mass spectrometers: effect of collision cell radiofrequency voltage on calculated survival yield.

机构信息

Department of Pharmaceutical Sciences, School of Pharmacy, University of Connecticut, 69 North Eagleville Road, Storrs, CT 06269, USA.

出版信息

Rapid Commun Mass Spectrom. 2012 Oct 15;26(19):2303-10. doi: 10.1002/rcm.6353.

DOI:10.1002/rcm.6353

PMID:22956322

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3439163/

Abstract

RATIONALE

The determination of the center-of-mass energy at which 50% of a precursor ion decomposes (Ecom(50)) during collision-induced dissociation (CID) is dependent on the chemical structure of the ion as well as the physical and electrical characteristics of the collision cell. The current study was designed to identify variables influencing Ecom(50) values measured on four different mass spectrometers.

METHODS

Fifteen test compounds were protonated using + ve electrospray ionization and the resulting ions were fragmented across a range of collision energies by CID. Survival yield versus collision energy curves were then used to calculate Ecom(50) values for each of these M+H ions on four different mass spectrometers. In addition, the relative recovery of the M+H ions of eight compounds ranging in molecular weight from 46 to 854 Da were determined at collision cell radiofrequency (RF) voltages ranging from 0 to 600 V.

RESULTS

Ecom(50) values determined on the four instruments were highly correlated (r(2) values ranged from 0.953 to 0.992). Although these overall correlations were high, we found different maximum ion recoveries depending on collision cell RF voltage. High-mass ions had greater recovery at higher collision cell RF voltages, whereas low-mass ions had greater recovery at lower collision cell RF voltages as well as a broader range of ion recoveries.

CONCLUSIONS

Ecom(50) values measured on four different instruments correlated surprisingly well given the differences in electrical and physical characteristics of the collision cells. However, our results suggest caution when comparing Ecom(50) values or CID spectra between instruments without correcting for the effects of RF voltage on ion transfer efficiency.

摘要

原理

在碰撞诱导解离（CID）过程中，前体离子分解的 50%时的质心能量（Ecom(50)）的确定取决于离子的化学结构以及碰撞池的物理和电气特性。本研究旨在确定影响在四台不同质谱仪上测量的 Ecom(50)值的变量。

方法

使用正电喷雾电离使 15 种测试化合物质子化，并通过 CID 在一系列碰撞能量下使所得离子碎片化。然后，使用生存产率与碰撞能曲线计算这四种M+H离子在四台不同质谱仪上的 Ecom(50)值。此外，还确定了分子量范围从 46 到 854 Da 的八种化合物的M+H离子的相对回收率，碰撞池射频（RF）电压范围从 0 到 600 V。

结果

在四台仪器上确定的 Ecom(50)值高度相关（r(2)值范围从 0.953 到 0.992）。尽管这些总体相关性很高，但我们发现不同的碰撞池 RF 电压会导致最大离子回收率不同。高质量离子在较高的碰撞池 RF 电压下具有更高的回收率，而低质量离子在较低的碰撞池 RF 电压下以及更宽的离子回收率范围内具有更高的回收率。

结论

考虑到碰撞池的电气和物理特性差异，在四台不同仪器上测量的 Ecom(50)值相关性非常好。然而，我们的结果表明，在不校正 RF 电压对离子转移效率的影响的情况下，在仪器之间比较 Ecom(50)值或 CID 谱时应谨慎。

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