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采用平行梯度的复杂蛋白质消化分析用综合二维液相色谱-高分辨率质谱法

Comprehensive Two-Dimensional Liquid Chromatography-High-Resolution Mass Spectrometry for Complex Protein Digest Analysis Using Parallel Gradients.

机构信息

Analytical Chemistry Group, Van't Hoff Institute for Molecular Sciences, University of Amsterdam, Amsterdam1098 XH,The Netherlands.

Centre for Analytical Sciences Amsterdam (CASA), Amsterdam1098 XH,The Netherlands.

出版信息

Anal Chem. 2024 Jun 4;96(22):9294-9301. doi: 10.1021/acs.analchem.4c02172. Epub 2024 May 17.

DOI:10.1021/acs.analchem.4c02172
PMID:38758734
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11154668/
Abstract

Despite the high gain in peak capacity, online comprehensive two-dimensional liquid chromatography coupled with high-resolution mass spectrometry (LC × LC-HRMS) has not yet been widely applied to the analysis of complex protein digests. One reason is the method's reduced sensitivity which can be linked to the high flow rates of the second separation dimension (D). This results in higher dilution factors and the need for flow splitters to couple to ESI-MS. This study reports proof-of-principle results of the development of an RPLC × RPLC-HRMS method using parallel gradients (D flow rate of 0.7 mL min) and its comparison to shifted gradient methods (D of 1.4 mL min) for the analysis of complex digests using HRMS (QExactive-Plus MS). Shifted and parallel gradients resulted in high surface coverage (SC) and effective peak capacity (SC of 0.6226 and 0.7439 and effective peak capacity of 779 and 757 in 60 min). When applied to a cell line digest sample, parallel gradients allowed higher sensitivity (e.g., average MS intensity increased by a factor of 3), allowing for a higher number of identifications (e.g., about 2600 vs 3900 peptides). In addition, reducing the modulation time to 10 s significantly increased the number of MS/MS events that could be performed. When compared to a 1D-RPLC method, parallel RPLC × RPLC-HRMS methods offered a higher separation performance (FHWH from 0.12 to 0.018 min) with limited sensitivity losses resulting in an increase of analyte identifications (e.g., about 6000 vs 7000 peptides and 1500 vs 1990 proteins).

摘要

尽管在峰容量方面取得了显著提高,但在线二维液相色谱与高分辨率质谱联用(LC×LC-HRMS)技术尚未广泛应用于复杂蛋白质消化物的分析。原因之一是该方法的灵敏度降低,这与第二分离维度(D)的高流速有关。这导致更高的稀释因子,并需要分流器与 ESI-MS 耦合。本研究报告了使用平行梯度(D 流速为 0.7 mL min)开发 RPLC×RPLC-HRMS 方法的原理验证结果,并将其与移位梯度方法(D 为 1.4 mL min)进行了比较,用于使用 HRMS(QExactive-Plus MS)分析复杂消化物。移位和并行梯度导致高表面覆盖率(SC)和有效峰容量(SC 分别为 0.6226 和 0.7439,有效峰容量分别为 779 和 757,在 60 分钟内)。当应用于细胞系消化物样本时,平行梯度允许更高的灵敏度(例如,MS 强度平均增加了 3 倍),从而可以进行更高数量的鉴定(例如,约 2600 个与 3900 个肽)。此外,将调制时间缩短至 10 s 可显著增加可执行的 MS/MS 事件数量。与一维 RPLC 方法相比,平行 RPLC×RPLC-HRMS 方法提供了更高的分离性能(FHWH 从 0.12 到 0.018 min),灵敏度损失有限,从而增加了分析物的鉴定数量(例如,约 6000 个与 7000 个肽和 1500 个与 1990 个蛋白质)。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/731e/11154668/48acd22d57cb/ac4c02172_0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/731e/11154668/0977117517e3/ac4c02172_0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/731e/11154668/9c0e810a0f49/ac4c02172_0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/731e/11154668/48acd22d57cb/ac4c02172_0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/731e/11154668/0977117517e3/ac4c02172_0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/731e/11154668/9c0e810a0f49/ac4c02172_0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/731e/11154668/48acd22d57cb/ac4c02172_0003.jpg

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本文引用的文献

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