吸收模式傅里叶变换离子淌度质谱联用技术与半窗口变迹窗口相结合可提高分辨率并缩短采集时间。

Absorption Mode Fourier Transform Ion Mobility Mass Spectrometry Multiplexing Combined with Half-Window Apodization Windows Improves Resolution and Shortens Acquisition Times.

机构信息

The University of Texas at Austin, Austin, Texas 78712, United States.

Washington State University, Pullman, Washington 99163, United States.

出版信息

Anal Chem. 2021 Jul 13;93(27):9513-9520. doi: 10.1021/acs.analchem.1c01427. Epub 2021 Jun 29.

DOI:10.1021/acs.analchem.1c01427

PMID:34185992

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9278813/

Abstract

Fourier transform multiplexing enables the coupling of drift tube ion mobility to a wide array of mass spectrometers with improved ion utilization and duty cycles compared to dual-gate signal averaging methods. Traditionally, the data generated by this method is presented in the magnitude mode, but significant improvements in resolution and the signal-to-noise ratio (SNR) are expected if the data can be phase corrected and presented in the absorption mode. A method to simply and reliably determine and correct phase shifts in Fourier transform ion mobility mass spectrometry data using information readily available to any user is presented and evaluated for both small molecule and intact protein analyses with no modification to instrument hardware or experimental procedures. Additionally, the effects of apodization and zero padding are evaluated for both processing methods, and a strategy to use these techniques to reduce acquisition times is presented and evaluated. Resolution is improved by an average factor of 1.6, the SNR is improved by an average factor of 1.2, and acquisition times are reduced by up to 80% through the application of absorption mode processing combined with apodization and zero padding.

摘要

傅里叶变换多路复用使漂移管离子淌度与各种质谱仪耦合成为可能，与传统的双门信号平均方法相比，提高了离子利用率和工作周期。传统上，这种方法产生的数据以幅度模式呈现，但如果可以对数据进行相位校正并以吸收模式呈现，预计会在分辨率和信噪比 (SNR) 方面得到显著提高。本文提出了一种简单可靠的方法，用于确定和校正傅里叶变换离子淌度质谱数据中的相位偏移，该方法使用任何用户都容易获得的信息，并且无需对仪器硬件或实验程序进行任何修改，就可以对小分子和完整蛋白质分析进行评估。此外，还评估了两种处理方法的频域加权和零填充的效果，并提出了一种使用这些技术来减少采集时间的策略，并对其进行了评估。通过应用吸收模式处理以及频域加权和零填充，分辨率提高了平均 1.6 倍，SNR 提高了平均 1.2 倍，采集时间最多减少了 80%。

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