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期刊论文
IdentiWcation of S-nitrosylated proteins in endotoxin-timulated RAW264.7 murine macrophages☆
Nitric Oxide 12(2005)121-126,-0001,():
Nitric oxide (NO) is an omnipresent regulator of cell function in a variety of physiologic and pathophysiologic states. In part, NO exerts its actions by S-nitrosylation of target thiols, primarily in cysteine residues. Delineating the functional correlates of S-nitrosylation can begin with identiWcation of the entire population of S-nitrososylated proteins. Recently, the biotin switch technique was developed to allow a proteomic approach to identiWcation of the"universe"of S-nitrsoylated proteins. In this study using endotoxinstimulated RAW264.7 murine macrophages, we have utilized the biotin-switch technique and protein sequencing to identify S-nitrosylated proteins in this setting. In contrast to other studies utilizing exogenous sources of NO, our approach utilizes endogenous NO synthesis as the basis for S-nitrosylation. Our results indicate multiple unique proteins not previously identiWed as S-nitrosylation targets: enolase, pyruvate kinase, elongation factor-1 and -2, plastin-2, FRAG-6, CEM-16, and SMC-6. While the ubiquitous nature of NO argues for some degrees of commonality, S-nitrosylation of unique proteins speciWc to endotoxin stimulated macrophages suggests regulatory mechanisms for which NO is necessary, but not suYcient.
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