通过电子转移解离过程中的离子并行泊车提高完整蛋白质的序列分析。
Improved Sequence Analysis of Intact Proteins by Parallel Ion Parking during Electron Transfer Dissociation.
机构信息
Department of Chemistry, University of Virginia, Charlottesville, Virginia 22904, United States.
Thermo Fisher Scientific, San Jose, California 95134, United States.
出版信息
Anal Chem. 2021 Nov 30;93(47):15728-15735. doi: 10.1021/acs.analchem.1c03652. Epub 2021 Nov 17.
Abstract
Electron transfer dissociation (ETD) is an analytically useful tool for primary structure interrogation of intact proteins, but its utility is limited by higher-order reactions with the products. To inhibit these higher-order reactions, first-generation fragment ions are kinetically excited by applying an experimentally tailored parallel ion parking waveform during ETD (ETD-PIP). In combination with subsequent ion/ion proton transfer reactions, precursor-to-product conversion was maximized as evidenced by the consumption of more than 90% of the 21 kDa Protein G precursor to form ETD product ions. The employment of ETD-PIP increased sequence coverage to 90% from 80% with standard ETD. Additionally, the inhibition of sequential electron transfers was reflected in the high number of complementary ion pairs from ETD-PIP (90%) compared to standard ETD (39%).
摘要
电子转移解离(ETD)是一种用于完整蛋白质一级结构分析的有用分析工具,但由于与产物的高阶反应,其用途受到限制。为了抑制这些高阶反应,在 ETD 期间通过施加实验定制的平行离子停车波形来动力学地激发第一代碎片离子(ETD-PIP)。与随后的离子/离子质子转移反应相结合,前体到产物的转化率最大化,这从超过 90%的 21 kDa 蛋白 G 前体形成 ETD 产物离子中得到证明。与标准 ETD 相比,ETD-PIP 的应用将序列覆盖率从 80%提高到 90%。此外,ETD-PIP 中互补离子对的高数量(90%)反映了顺序电子转移的抑制,而标准 ETD 中则为 39%。
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