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衍生化后通过电量质谱法对肽和蛋白质进行绝对定量

Absolute Quantitation of Peptides and Proteins by Coulometric Mass Spectrometry After Derivatization.

作者信息

Fnu Praneeth Ivan Joel, Tanim-Al-Hassan Md, Yaroshuk Timothy, Ai Yongling, Chen Hao

机构信息

Department of Chemistry & Environmental Science, New Jersey Institute of Technology, Newark, NJ, 07102, USA.

出版信息

Int J Mass Spectrom. 2024 Jan;495. doi: 10.1016/j.ijms.2023.117153. Epub 2023 Oct 17.

DOI:10.1016/j.ijms.2023.117153
PMID:38009161
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10673616/
Abstract

Peptide/protein quantitation using mass spectrometry (MS) is advantageous due to its high sensitivity. Traditional absolute peptide quantitation methods rely on making calibration curves using peptide standards or isotope-labelled peptide standards, which are expensive and take time to synthesize. A method which can eliminate the need for using standards would be beneficial. Recently, we developed coulometric mass spectrometry (CMS) which can be used to quantify peptides that are oxidizable (e.g., those containing tyrosine or tryptophan), without using peptide standard. The method is based on electrochemical oxidation of peptides followed by MS to measure the oxidation yield. However, it cannot be directly used to quantify peptides without oxidizable residues. To extend this method for quantifying peptides/proteins in general, in this study, we adopted a derivatization strategy, in which a target peptide is first tagged with an electroactive reagent such as monocarboxymethylene blue NHS ester (MCMB-NHS ester), followed with quantitation by CMS. To illustrate the power of this method, we have analyzed peptides MG and RPPGFSPFR. The quantification error was less than 5%. Using RPPGFSPFR as an example, the quantitation sensitivity of the technique was found to be 0.25 pmol. Furthermore, we also used the strategy to quantify proteins cytochrome C and β-casein with an error of 2-26%.

摘要

使用质谱(MS)进行肽/蛋白质定量具有高灵敏度的优势。传统的绝对肽定量方法依赖于使用肽标准品或同位素标记的肽标准品制作校准曲线,这些标准品价格昂贵且合成耗时。一种能够消除使用标准品需求的方法将是有益的。最近,我们开发了库仑质谱法(CMS),可用于定量可氧化的肽(例如,那些含有酪氨酸或色氨酸的肽),而无需使用肽标准品。该方法基于肽的电化学氧化,随后通过质谱测量氧化产率。然而,它不能直接用于定量没有可氧化残基的肽。为了将该方法推广到一般的肽/蛋白质定量,在本研究中,我们采用了一种衍生化策略,其中首先用一种电活性试剂如单羧甲基蓝NHS酯(MCMB-NHS酯)标记目标肽,然后通过CMS进行定量。为了说明该方法的效能,我们分析了肽MG和RPPGFSPFR。定量误差小于5%。以RPPGFSPFR为例,发现该技术的定量灵敏度为0.25皮摩尔。此外,我们还使用该策略对细胞色素C和β-酪蛋白进行定量,误差为2 - 26%。

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