Christian Dörig, Cathy Marulli, Thomas Peskett, Norbert Volkmar, Lorenzo Pantolini, Gabriel Studer, Camilla Paleari, Fabian Frommelt, Torsten Schwede, Natalie de Souza, Yves Barral, Paola Picotti
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引用次数: 0
摘要
我们需要系统监测蛋白质复合物动态的方法。我们介绍了串联超滤结合有限蛋白水解耦合质谱(FLiP-MS)的结构蛋白质组学工作流程,该流程通过探测复合结合型蛋白质与单体型蛋白质之间蛋白酶易感性的差异,生成特异于 PPI 变化的肽标记库。标记库包括映射到蛋白质结合界面的标记和报告伴随 PPI 变化的结构变化的标记。将标记库与 LiP-MS 数据相结合,就能从未分离的裂解液中全面分析蛋白质-蛋白质相互作用(PPI)。我们将 FLiP-MS 应用于酿酒酵母,探测了 DNA 复制应激后蛋白质复合物动态的变化,确定了 Spt-Ada-Gcn5 乙酰转移酶活性与多个复合物组装状态之间的联系。FLiP-MS 能够对任何扰动、整个蛋白质组的蛋白质复合物动态进行高通量探测,具有肽级结构分辨率,并能提供结合界面的占用情况,从而提供所研究系统的全局和分子视图。
Global profiling of protein complex dynamics with an experimental library of protein interaction markers
Methods to systematically monitor protein complex dynamics are needed. We introduce serial ultrafiltration combined with limited proteolysis-coupled mass spectrometry (FLiP–MS), a structural proteomics workflow that generates a library of peptide markers specific to changes in PPIs by probing differences in protease susceptibility between complex-bound and monomeric forms of proteins. The library includes markers mapping to protein-binding interfaces and markers reporting on structural changes that accompany PPI changes. Integrating the marker library with LiP–MS data allows for global profiling of protein–protein interactions (PPIs) from unfractionated lysates. We apply FLiP–MS to Saccharomyces cerevisiae and probe changes in protein complex dynamics after DNA replication stress, identifying links between Spt-Ada-Gcn5 acetyltransferase activity and the assembly state of several complexes. FLiP–MS enables protein complex dynamics to be probed on any perturbation, proteome-wide, at high throughput, with peptide-level structural resolution and informing on occupancy of binding interfaces, thus providing both global and molecular views of a system under study.
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