Ling Fu, Keke Liu, Renan B. Ferreira, Kate S. Carroll, Jing Yang
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引用次数: 41
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Abstract
Oxidation of a protein cysteinyl thiol (Cys-SH) to S-sulfenic acid (Cys-SOH) by a reactive oxygen species (e.g., hydrogen peroxide), which is termed protein S-sulfenylation, is a reversible post-translational modification that plays a crucial role in redox regulation of protein function in various biological processes. Due to its intrinsically labile nature, protein S-sulfenylation cannot be directly detected or analyzed. Chemoselective probing has been the method of choice for analyzing S-sulfenylated proteins either in vitro or in situ , as it allows stabilization and direct detection of this transient oxidative intermediate. However, it remains challenging to globally pinpoint the specific S-sulfenylated cysteine sites on complex proteomes and to quantify their dynamic changes upon oxidative stress. This unit describes how a benzothiazine-based chemoselective probe called BTD and mass spectrometry based chemoproteomics can be used to globally and site-specifically identify and quantify protein S-sulfenylation. © 2018 by John Wiley & Sons, Inc.
基于苯并噻嗪探针的半胱氨酸s -磺化蛋白组分析
蛋白质半胱氨酸巯基(Cys-SH)被活性氧(如过氧化氢)氧化为s-亚磺酸(Cys-SOH),这被称为蛋白质s-亚砜化,是一种可逆的翻译后修饰,在各种生物过程中对蛋白质功能的氧化还原调节起着至关重要的作用。由于其固有的不稳定性,蛋白质s -亚砜化不能直接检测或分析。化学选择探针一直是体外或原位分析s -磺酰基化蛋白的首选方法,因为它允许稳定和直接检测这种瞬态氧化中间体。然而,在全球范围内精确定位复杂蛋白质组上特定的s -磺化半胱氨酸位点并量化它们在氧化应激下的动态变化仍然具有挑战性。本单元描述了基于苯并噻嗪的化学选择性探针(称为BTD)和基于质谱的化学蛋白质组学如何用于全局和定点特异性地鉴定和量化蛋白质s -磺化。©2018 by John Wiley &儿子,Inc。
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