使用液相色谱、离子阱飞行时间质谱和离子淌度谱技术进行组蛋白修饰筛选。

Histone Modification Screening using Liquid Chromatography, Trapped Ion Mobility Spectrometry, and Time-Of-Flight Mass Spectrometry.

机构信息

Department of Chemistry and Biochemistry, Florida International University.

Bruker Daltonics Inc.

出版信息

J Vis Exp. 2024 Jan 12(203). doi: 10.3791/65589.

DOI:10.3791/65589

PMID:38284546

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11078025/

Abstract

Histone proteins are highly abundant and conserved among eukaryotes and play a large role in gene regulation as a result of structures known as posttranslational modifications (PTMs). Identifying the position and nature of each PTM or pattern of PTMs in reference to external or genetic factors allows this information to be statistically correlated with biological responses such as DNA transcription, replication, or repair. In the present work, a high-throughput analytical protocol for the detection of histone PTMs from biological samples is described. The use of complementary liquid chromatography, trapped ion mobility spectrometry, and time-of-flight mass spectrometry (LC-TIMS-ToF MS/MS) enables the separation and PTM assignment of the most biologically relevant modifications in a single analysis. The described approach takes advantage of recent developments in dependent data acquisition (DDA) using parallel accumulation in the mobility trap, followed by sequential fragmentation and collision-induced dissociation. Histone PTMs are confidently assigned based on their retention time, mobility, and fragmentation pattern.

摘要

组蛋白在真核生物中高度丰富且保守，由于存在称为翻译后修饰（PTM）的结构，因此在基因调控中起着重要作用。确定每个 PTM 的位置和性质，或者相对于外部或遗传因素的 PTM 模式，允许将这些信息与 DNA 转录、复制或修复等生物学反应进行统计相关。在本工作中，描述了一种从生物样品中检测组蛋白 PTM 的高通量分析方案。互补的液相色谱、被困离子淌度谱和飞行时间质谱（LC-TIMS-ToF MS/MS）的使用能够在单次分析中分离和分配最具生物学相关性的修饰。所描述的方法利用了在迁移陷阱中平行积累的独立数据采集（DDA）的最新进展，随后进行顺序碎片化和碰撞诱导解离。基于保留时间、迁移率和碎片化模式，可以自信地分配组蛋白 PTM。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eb75/11078025/334e763835f8/nihms-1983559-f0001.jpg

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