Optimization of bottom-up proteomic sample preparation by design of experiments for absolute quantification of 257 proteins in human plasma using UPLC-MRM-MS.

IF 3.8 3区生物学 Q1 BIOCHEMICAL RESEARCH METHODS

Expert Review of Proteomics Pub Date : 2025-05-01 Epub Date: 2025-05-22 DOI:10.1080/14789450.2025.2504994

Kari Arnarson, Kristrun Y Holm, Valdis Gunnarsdottir Thormar, Finnur F Eiríksson, Yassene Mohammed, Christoph H Borchers, Sigridur K Bodvarsdottir, Margret Thorsteinsdottir

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引用次数: 0

Abstract

Introduction: Targeted protein absolute quantification using mass spectrometry holds promise for identifying biomarkers for diagnosis, prognosis, and personalized medicine. However, complex and time-consuming workflows, particularly during sample preparation, present significant bottlenecks. Addressing these challenges is critical for the applicability of absolute quantification of proteins in clinical research settings.

Areas covered: We explore optimization strategies for protein digestion in bottom-up proteomics sample preparation. Design of experiments (DoE), a statistical approach for systematically evaluating multiple experimental factors, was used for simultaneous optimization of digestion time, temperature, enzyme-to-protein substrate ratio, and denaturing agent. Furthermore, the lower limit of quantification (LLOQ) for our platform was improved by using the Waters Xevo TQ-XS UPLC-MRM-MS. The integration of automated sample preparation into the workflow enabled reproducible absolute quantification of 257 proteins in human plasma.

Expert opinion: We successfully reduced protein digestion time from 18 hours (overnight) to 4 hours while maintaining relative digestion efficiency. We improved the sensitivity of the assay via the optimized workflow and were able to quantify proteins that previously fell below the LLOQ. These advancements, combined with automation, provide a practical, efficient, and reproducible workflow suitable for clinical research.

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UPLC-MRM-MS绝对定量257种人血浆蛋白的实验设计优化自下而上蛋白质组学样品制备

使用质谱法进行靶向蛋白绝对定量，有望识别诊断、预后和个性化医疗的生物标志物。然而，复杂和耗时的工作流程，特别是在样品制备过程中，存在显著的瓶颈。解决这些挑战对于蛋白质绝对定量在临床研究中的适用性至关重要。涉及领域：我们探索自下而上蛋白质组学样品制备中蛋白质消化的优化策略。实验设计（Design of experiments, DoE）是一种对多个实验因素进行系统评价的统计方法，用于同时优化消化时间、温度、酶蛋白底物比和变性剂。此外，使用Waters Xevo TQ-XS UPLC-MRM-MS提高了我们平台的定量下限（LLOQ）。将自动样品制备集成到工作流程中，可以对人血浆中的257种蛋白质进行可重复的绝对定量分析。专家意见：我们成功地将蛋白质消化时间从18小时（隔夜）减少到4小时，同时保持相对的消化效率。我们通过优化的工作流程提高了检测的灵敏度，并且能够量化以前低于LLOQ的蛋白质。这些进步与自动化相结合，为临床研究提供了实用、高效和可重复的工作流程。

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

Expert Review of Proteomics 生物-生化研究方法

CiteScore

7.60

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Expert Review of Proteomics (ISSN 1478-9450) seeks to collect together technologies, methods and discoveries from the field of proteomics to advance scientific understanding of the many varied roles protein expression plays in human health and disease. The journal coverage includes, but is not limited to, overviews of specific technological advances in the development of protein arrays, interaction maps, data archives and biological assays, performance of new technologies and prospects for future drug discovery. The journal adopts the unique Expert Review article format, offering a complete overview of current thinking in a key technology area, research or clinical practice, augmented by the following sections: Expert Opinion - a personal view on the most effective or promising strategies and a clear perspective of future prospects within a realistic timescale Article highlights - an executive summary cutting to the author''s most critical points.