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Ryanodine receptor type-1 (RyR1) expression and protein S-nitrosylation pattern in human soleus myofibres following bed rest and exercise countermeasure.卧床休息和运动对策后人比目鱼肌纤维中1型兰尼碱受体(RyR1)的表达及蛋白质S-亚硝基化模式
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Preconditioning results in S-nitrosylation of proteins involved in regulation of mitochondrial energetics and calcium transport.预处理导致参与线粒体能量代谢和钙转运调节的蛋白质发生S-亚硝基化。
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S-nitrosylation of microtubule-associated protein 1B mediates nitric-oxide-induced axon retraction.微管相关蛋白1B的S-亚硝基化介导一氧化氮诱导的轴突回缩。
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Investigation of tyrosine nitration and nitrosylation of angiotensin II and bovine serum albumin with electrospray ionization mass spectrometry.电喷雾质谱法研究血管紧张素 II 和牛血清白蛋白的酪氨酸硝化和亚硝化。
Rapid Commun Mass Spectrom. 2007;21(17):2797-804. doi: 10.1002/rcm.3145.
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Mass spectrometry-based analyses for identifying and characterizing S-nitrosylation of protein tyrosine phosphatases.基于质谱分析来鉴定和表征蛋白质酪氨酸磷酸酶的S-亚硝基化修饰
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Balancing reactivity against selectivity: the evolution of protein S-nitrosylation as an effector of cell signaling by nitric oxide.平衡反应性与选择性:蛋白质S-亚硝基化作为一氧化氮细胞信号传导效应物的演变
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Regulation of beta-adrenergic receptor signaling by S-nitrosylation of G-protein-coupled receptor kinase 2.通过G蛋白偶联受体激酶2的S-亚硝基化对β-肾上腺素能受体信号传导进行调控。
Cell. 2007 May 4;129(3):511-22. doi: 10.1016/j.cell.2007.02.046.
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Assessment and application of the biotin switch technique for examining protein S-nitrosylation under conditions of pharmacologically induced oxidative stress.在药理学诱导的氧化应激条件下,用于检测蛋白质S-亚硝基化的生物素开关技术的评估与应用。
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9
Buried S-nitrosocysteine revealed in crystal structures of human thioredoxin.在人硫氧还蛋白晶体结构中发现的埋藏的S-亚硝基半胱氨酸。
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10
Thioredoxin and ventricular remodeling.硫氧还蛋白与心室重构。
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一种通过四极杆飞行时间质谱直接鉴定蛋白质S-亚硝基化位点的策略。

A strategy for direct identification of protein S-nitrosylation sites by quadrupole time-of-flight mass spectrometry.

作者信息

Wang Yan, Liu Tong, Wu Changgong, Li Hong

机构信息

Center for Advanced Proteomics Research and Department of Biochemistry and Molecular Biology, University of Medicine and Dentistry of New Jersey, New Jersey Medical School Cancer Center, Newark, New Jersey, USA.

出版信息

J Am Soc Mass Spectrom. 2008 Sep;19(9):1353-60. doi: 10.1016/j.jasms.2008.06.001. Epub 2008 Jun 20.

DOI:10.1016/j.jasms.2008.06.001
PMID:18635375
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2577058/
Abstract

S-nitrosylation of proteins serves an important role in regulating diverse cellular processes including signal transduction, DNA repair, and neurotransmission. Identification of S-nitrosylation sites is crucial for understanding the significance of this post-translational modification (PTM) in modulating the function of a protein. However, it is challenging to identify S-nitrosylation sites directly by mass spectrometric (MS) methods due to the labile nature of the S-NO bond. Here we describe a strategy for direct identification of protein S-nitrosylation sites in an electrospray ionization (ESI) quadrupole time-of-flight (QTOF) mass spectrometer without prior chemical derivatization of S-nitrosylated peptides. Both sample buffer composition and MS hardware parameters were carefully adjusted to ensure that S-nitrosylated peptide ions could be analyzed by the QTOF MS with optimal signal/noise ratios. It was crucial that the proteins were preserved in a sample solution containing 1 mM EDTA and 0.1 mM neocuproine at neutral pH. Proteins dissolved in this solution are amenable to in-solution tryptic digestion, which is important for the analysis of biological samples. S-nitrosylated peptides were effectively analyzed by LC/MS/MS on QTOF MS, with an optimized cone voltage of 20 V and collision energy of 4 V. We have successfully applied this method to thioredoxin, a key antioxidant protein, and identified within it an S-nitrosylation site at Cys73.

摘要

蛋白质的S-亚硝基化在调节多种细胞过程中发挥着重要作用,这些过程包括信号转导、DNA修复和神经传递。鉴定S-亚硝基化位点对于理解这种翻译后修饰(PTM)在调节蛋白质功能中的重要性至关重要。然而,由于S-NO键的不稳定性质,通过质谱(MS)方法直接鉴定S-亚硝基化位点具有挑战性。在这里,我们描述了一种在电喷雾电离(ESI)四极杆飞行时间(QTOF)质谱仪中直接鉴定蛋白质S-亚硝基化位点的策略,无需对S-亚硝基化肽进行预先化学衍生。仔细调整了样品缓冲液组成和MS硬件参数,以确保S-亚硝基化肽离子能够以最佳信噪比通过QTOF MS进行分析。至关重要的是,蛋白质要保存在中性pH值下含有1 mM EDTA和0.1 mM新铜试剂的样品溶液中。溶解在该溶液中的蛋白质适合进行溶液内胰蛋白酶消化,这对于生物样品的分析很重要。通过在QTOF MS上进行LC/MS/MS有效分析了S-亚硝基化肽,优化的锥孔电压为20 V,碰撞能量为4 V。我们已成功将此方法应用于硫氧还蛋白(一种关键的抗氧化蛋白),并在其中鉴定出Cys73处的一个S-亚硝基化位点。