基于糖苷键的质谱可裂解交联剂可实现蛋白质复合物分析的体内交联。

A Glycosidic-Bond-Based Mass-Spectrometry-Cleavable Cross-linker Enables In Vivo Cross-linking for Protein Complex Analysis.

机构信息

CAS Key Labratory of Separation Science for Analytical Chemistry, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, 457 Zhongshan Road, Dalian, 116023, China.

School of Chemistry and Material Science, University of Science and Technology of China, 96 Jinzhai Road, Hefei, 230026, China.

出版信息

Angew Chem Int Ed Engl. 2023 Jun 12;62(24):e202212860. doi: 10.1002/anie.202212860. Epub 2023 May 4.

DOI:10.1002/anie.202212860

PMID:36998115

Abstract

Chemical cross-linking mass spectrometry (CXMS) has emerged as a powerful technology to analyze protein complexes. However, the progress of in vivo CXMS studies has been limited by cross-linking biocompatibility and data analysis. Herein, a glycosidic bond-based MS-cleavable cross-linker of trehalose disuccinimidyl ester (TDS) was designed and synthesized, which was fragmented in MS under CID/HCD to simplify the cross-linked peptides into conventional single peptides via selective cleavage between glycosidic and peptide bonds under individual MS collision energy. Consequently, the cross-linking identification accuracy and throughput were significantly enhanced, and the popular MS mode of stepped HCD was allowed. In addition, TDS showed proper cell-penetrating properties while being highly water-soluble, making it non-DMSO dependent during solubilization. Collectively, TDS provides a promising toolkit for CXMS characterization of living systems with high biocompatibility and accuracy.

摘要

化学交联质谱（CXMS）已成为分析蛋白质复合物的强大技术。然而，体内 CXMS 研究的进展受到交联生物相容性和数据分析的限制。本文设计并合成了一种基于糖苷键的 MS 可裂解交联剂海藻糖二琥珀酰亚胺酯（TDS），它在 CID/HCD 下在 MS 中被打断，通过在单独的 MS 碰撞能下选择性地在糖苷键和肽键之间断裂，将交联肽简化为常规的单个肽。因此，交联鉴定的准确性和通量得到了显著提高，并允许使用流行的分步 HCD MS 模式。此外，TDS 具有适当的细胞穿透性质，同时具有高水溶性，使其在溶解过程中不依赖 DMSO。总之，TDS 为具有高生物相容性和准确性的活体系统的 CXMS 表征提供了一个很有前途的工具包。

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基于糖苷键的质谱可裂解交联剂可实现蛋白质复合物分析的体内交联。

A Glycosidic-Bond-Based Mass-Spectrometry-Cleavable Cross-linker Enables In Vivo Cross-linking for Protein Complex Analysis.

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