基于质谱的稳定性蛋白质组学分析功能蛋白质形态

Frontiers in analytical science Pub Date : 2023-01-01 Epub Date: 2023-06-21 DOI:10.3389/frans.2023.1186623
Ji Kang, Meena Seshadri, Kellye A Cupp-Sutton, Si Wu
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摘要

功能蛋白质组学旨在从分子水平阐明蛋白质和蛋白形式的生物学功能、机制和途径,以检查复杂的细胞系统和疾病状态。已经开发了一系列稳定性蛋白质组学方法,通过测量蛋白质对化学或热变性或蛋白水解的抗性来检测蛋白质功能。这些方法可用于测量复杂生物样品中数千种蛋白质的热稳定性,如细胞裂解物、完整细胞、组织和其他生物流体,以测量蛋白质组的稳定性。稳定性蛋白质组学方法已广泛应用于观察配体结合后的稳定性变化,用于药物靶标鉴定。最近,这些方法已被应用于表征蛋白质结构变化的影响,例如由翻译后修饰(PTM)和突变引起的结构变化,这些变化可以影响蛋白质结构或相互作用并使蛋白质功能多样化。在这里,我们讨论了一套稳定性蛋白质组学方法的当前应用,包括热蛋白质组分析(TPP)、氧化率蛋白质组学稳定性(SPROX)和有限蛋白水解(LiP)方法,以观察PTM诱导的蛋白质稳定性结构变化。我们还讨论了未来的前景,强调自上而下的质谱法和稳定性蛋白质组学方法的结合,以表征完整的蛋白形式稳定性,并理解可变蛋白质修饰的功能。
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Toward the analysis of functional proteoforms using mass spectrometry-based stability proteomics.

Functional proteomics aims to elucidate biological functions, mechanisms, and pathways of proteins and proteoforms at the molecular level to examine complex cellular systems and disease states. A series of stability proteomics methods have been developed to examine protein functionality by measuring the resistance of a protein to chemical or thermal denaturation or proteolysis. These methods can be applied to measure the thermal stability of thousands of proteins in complex biological samples such as cell lysate, intact cells, tissues, and other biological fluids to measure proteome stability. Stability proteomics methods have been popularly applied to observe stability shifts upon ligand binding for drug target identification. More recently, these methods have been applied to characterize the effect of structural changes in proteins such as those caused by post-translational modifications (PTMs) and mutations, which can affect protein structures or interactions and diversify protein functions. Here, we discussed the current application of a suite of stability proteomics methods, including thermal proteome profiling (TPP), stability of proteomics from rates of oxidation (SPROX), and limited proteolysis (LiP) methods, to observe PTM-induced structural changes on protein stability. We also discuss future perspectives highlighting the integration of top-down mass spectrometry and stability proteomics methods to characterize intact proteoform stability and understand the function of variable protein modifications.

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