化学
糖蛋白组学
糖肽
色谱法
工作流程
电子转移离解
无标记量化
定量蛋白质组学
质谱法
串联质谱法
蛋白质组学
数据库
计算机科学
生物化学
基因
抗生素
作者
Miloslav Šanda,Qiang Yang,Guanghui Zong,He Chen,Zhihao Zheng,Harmeet Dhani,Khalid Khan,Alexander Kroemer,Lai-Xi Wang,Radoslav Goldman
标识
DOI:10.1021/acs.jproteome.2c00475
摘要
Targeted quantification of proteins is a standard methodology with broad utility, but targeted quantification of glycoproteins has not reached its full potential. The lack of optimized workflows and isotopically labeled standards limits the acceptance of glycoproteomics quantification. In this work, we introduce an efficient and streamlined chemoenzymatic synthesis of a library of isotopically labeled glycopeptides of IgG1 which we use for quantification in an energy optimized LC-MS/MS-PRM workflow. Incorporation of the stable isotope labeled N-acetylglucosamine enables an efficient monitoring of all major fragment ions of the glycopeptides generated under the soft higher-energy C-trap dissociation (HCD) conditions, which reduces the coefficients of variability (CVs) of the quantification to 0.7–2.8%. Our results document, for the first time, that the workflow using a combination of stable isotope labeled standards with intrascan normalization enables quantification of the glycopeptides by an electron transfer dissociation (ETD) workflow, as well as the HCD workflow, with the highest sensitivity compared to traditional workflows. This was exemplified by a rapid quantification (13 min) of IgG1 Fc glycoforms from COVID-19 patients.
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