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引用次数: 0
摘要
酪氨酸磷酸化是一种重要的翻译后修饰,涉及细胞生物学的各个方面,通常在癌症中发挥作用。不仅需要确定特定的磷酸化位点,还需要量化其在特定病理生理条件下的磷酸化水平。由于质谱法(MS)具有高灵敏度和准确性,因此已被广泛用于鉴定一系列生物系统中的内源性和合成磷酸酪氨酸蛋白/肽。然而,含磷酪氨酸的蛋白质含量极低,而且容易降解,这对质谱的应用提出了严峻的挑战。本综述重点介绍了 MS 分析前酪氨酸磷酸化定量分析程序和富集方法的进展,并回顾了蛋白质中酪氨酸残基的磷酸化、硫酸化和硝酸化之间的差异。深入了解各种生物系统中的酪氨酸磷酸化,将有助于深入理解信号转导如何调节细胞生理以及开发酪氨酸磷酸化相关药物作为癌症疗法。
Mass spectrometry analysis of phosphotyrosine-containing proteins
Tyrosine phosphorylation is a crucial posttranslational modification that is involved in various aspects of cell biology and often has functions in cancers. It is necessary not only to identify the specific phosphorylation sites but also to quantify their phosphorylation levels under specific pathophysiological conditions. Because of its high sensitivity and accuracy, mass spectrometry (MS) has been widely used to identify endogenous and synthetic phosphotyrosine proteins/peptides across a range of biological systems. However, phosphotyrosine-containing proteins occur in extremely low abundance and they degrade easily, severely challenging the application of MS. This review highlights the advances in both quantitative analysis procedures and enrichment approaches to tyrosine phosphorylation before MS analysis and reviews the differences among phosphorylation, sulfation, and nitration of tyrosine residues in proteins. In-depth insights into tyrosine phosphorylation in a wide variety of biological systems will offer a deep understanding of how signal transduction regulates cellular physiology and the development of tyrosine phosphorylation-related drugs as cancer therapeutics.
期刊介绍:
The aim of the journal Mass Spectrometry Reviews is to publish well-written reviews in selected topics in the various sub-fields of mass spectrometry as a means to summarize the research that has been performed in that area, to focus attention of other researchers, to critically review the published material, and to stimulate further research in that area.
The scope of the published reviews include, but are not limited to topics, such as theoretical treatments, instrumental design, ionization methods, analyzers, detectors, application to the qualitative and quantitative analysis of various compounds or elements, basic ion chemistry and structure studies, ion energetic studies, and studies on biomolecules, polymers, etc.