通过多孔石墨化碳 (PGC) LC-MS/MS 对糖蛋白衍生的 N-糖肽进行异构体分离。
Isomeric Separation of N-Glycopeptides Derived from Glycoproteins by Porous Graphitic Carbon (PGC) LC-MS/MS.
机构信息
Department of Chemistry and Biochemistry, Texas Tech University, Lubbock, Texas 79409-1061, United States.
出版信息
Anal Chem. 2020 Jul 21;92(14):9556-9565. doi: 10.1021/acs.analchem.0c00668. Epub 2020 Jul 6.
Abstract
Protein glycosylation is involved in many biological processes and physiological functions. Despite the recent advances in LC-MS/MS methodologies, the profiling of site-specific glycosylation is one of the major analytical challenges of glycoprotein analysis. Herein, we report that the separation of glycopeptide isomers on porous graphitic carbon (PGC)-LC was significantly improved by elevating the separation temperature under basic mobile phases. These findings permitted the isomeric separation of glycopeptides resulting from highly specific enzymatic digestions. The selectivity for different glycan types was studied using bovine fetuin, asialofetuin, IgG, ribonuclease B, and alpha-1 acid glycoprotein (AGP) by PGC-LC-MS. Comprehensive structural isomeric separation of glycopeptides was observed by high-resolution MS and confirmed by MS/MS. The specific structures of the glycopeptide isomers were identified and confirmed through exoglycosidase digestions. Glycosylation analysis of human AGP revealed the potential use of PGC-LC-MS for extensive glycoprotein analysis for biomarker discovery. This newly developed separation technique was shown as a reproducible and useful analytical method to study site-specific isomeric glycosylation.
摘要
蛋白质糖基化参与许多生物过程和生理功能。尽管近年来 LC-MS/MS 方法学取得了进展,但对糖基化的位点特异性进行分析仍然是糖蛋白分析的主要挑战之一。本文报道了在碱性流动相下提高分离温度可显著改善多孔石墨碳(PGC)-LC 上糖肽异构体的分离。这些发现使得通过高度特异性的酶解产生的糖肽异构体能够实现分离。通过 PGC-LC-MS 研究了牛胎球蛋白、去唾液酸胎球蛋白、IgG、核糖核酸酶 B 和α-1 酸性糖蛋白(AGP)等不同聚糖类型的选择性。通过高分辨 MS 观察到糖肽异构体的全面结构分离,并通过 MS/MS 进行了确认。通过外切糖苷酶消化鉴定和确认了糖肽异构体的特定结构。对人 AGP 的糖基化分析表明,PGC-LC-MS 有望用于广泛的糖蛋白分析,以发现生物标志物。该新开发的分离技术已被证明是一种可重现且有用的分析方法,可用于研究位点特异性的异构糖基化。
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