Achieving a 35-Plex Tandem Mass Tag Reagent Set through Deuterium Incorporation

IF 3.8 2区生物学 Q1 BIOCHEMICAL RESEARCH METHODS

Journal of Proteome Research Pub Date : 2024-10-09 DOI:10.1021/acs.jproteome.4c0066810.1021/acs.jproteome.4c00668

Nathan R. Zuniga, Dustin C. Frost, Karsten Kuhn, Myungsun Shin, Rebecca L. Whitehouse, Ting-Yu Wei, Yuchen He, Shane L. Dawson, Ian Pike, Ryan D. Bomgarden, Steven P. Gygi* and Joao A. Paulo*,

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Abstract

Mass spectrometry-based sample multiplexing with isobaric tags permits the development of high-throughput and precise quantitative biological assays with proteome-wide coverage and minimal missing values. Here, we nearly doubled the multiplexing capability of the TMTpro reagent set to a 35-plex through the incorporation of one deuterium isotope into the reporter group. Substituting deuterium frequently results in suboptimal peak coelution, which can compromise the accuracy of reporter ion-based quantification. To counteract the deuterium effect on quantitation, we implemented a strategy that necessitated the segregation of nondeuterium and deuterium-containing channels into distinct subplexes during normalization procedures, with reassembly through a common bridge channel. This multiplexing strategy of “design independent sub-plexes but acquire together” (DISAT) was used to compare protein expression differences between human cell lines and in a cysteine-profiling (i.e., chemoproteomics) experiment to identify compounds binding to cysteine-113 of Pin1.

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通过氘结合实现 35 种复合串联质量标签试剂组合

基于质谱的样品复用与同位标记允许开发高通量、精确的定量生物检测方法，其检测范围覆盖整个蛋白质组，并将缺失值降到最低。在这里，我们通过在报告基团中加入一个氘同位素，将 TMTpro 试剂组的复用能力提高了近一倍，达到了 35 复合物。氘的替代经常会导致峰值共洗脱不理想，从而影响基于报告离子的定量分析的准确性。为了抵消氘对定量的影响，我们采用了一种策略，即在归一化过程中必须将非氘通道和含氘通道分离成不同的亚复合物，并通过一个共同的桥通道重新组装。这种 "设计独立的亚复合物，但同时获得"（DISAT）的复用策略被用于比较人类细胞系之间的蛋白质表达差异，以及半胱氨酸谱分析（即化学蛋白质组学）实验，以确定与 Pin1 的半胱氨酸-113 结合的化合物。

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

Journal of Proteome Research 生物-生化研究方法

CiteScore

9.00

自引率

4.50%

发文量

251

审稿时长

3 months

期刊介绍： Journal of Proteome Research publishes content encompassing all aspects of global protein analysis and function, including the dynamic aspects of genomics, spatio-temporal proteomics, metabonomics and metabolomics, clinical and agricultural proteomics, as well as advances in methodology including bioinformatics. The theme and emphasis is on a multidisciplinary approach to the life sciences through the synergy between the different types of "omics".