Nitrosation

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  Subject Areas on Research

  • A Multiplex Enzymatic Machinery for Cellular Protein S-nitrosylation. 
  • A SNO storm in skeletal muscle. 
  • A genetic analysis of nitrosative stress. 
  • Activation of the cardiac calcium release channel (ryanodine receptor) by poly-S-nitrosylation. 
  • Allosteric effects on oxidative and nitrosative reactions of cell-free hemoglobins. 
  • An apoptotic model for nitrosative stress. 
  • Assessments of the chemistry and vasodilatory activity of nitrite with hemoglobin under physiologically relevant conditions. 
  • Capillary zone electrophoretic detection of biological thiols and their S-nitrosated derivatives. 
  • Carbon monoxide, oxidative stress, and mitochondrial permeability pore transition. 
  • Compartmentalized nitrosation and nitration in mitochondria. 
  • Disrupting the vicious cycle created by NOX activation in sickle erythrocytes exposed to hypoxia/reoxygenation prevents adhesion and vasoocclusion. 
  • Dual actions of S-nitrosylated derivative of vasoactive intestinal peptide as a vasoactive intestinal peptide-like mediator and a nitric oxide carrier. 
  • Dynamic denitrosylation via S-nitrosoglutathione reductase regulates cardiovascular function. 
  • Heme-assisted S-nitrosation desensitizes ferric soluble guanylate cyclase to nitric oxide. 
  • Hemoglobin, nitric oxide and molecular mechanisms of hypoxic vasodilation. 
  • Identification of protein nitrosothiols using phosphine-mediated selective reduction. 
  • In vivo transfer of nitric oxide between a plasma protein-bound reservoir and low molecular weight thiols. 
  • Inhibition of NF-kappa B by S-nitrosylation. 
  • Is the flavohemoglobin a nitric oxide dioxygenase? 
  • Methodologies for the characterization, identification and quantification of S-nitrosylated proteins. 
  • Nitrosation and oxidation in the regulation of gene expression. 
  • Nitrosative stress in the ER: a new role for S-nitrosylation in neurodegenerative diseases. 
  • Nitroxyl disulfides, novel intermediates in transnitrosation reactions. 
  • Protection from nitrosative stress: a central role for microbial flavohemoglobin. 
  • Protein S-nitrosylation in health and disease: a current perspective. 
  • Protein denitrosylation: enzymatic mechanisms and cellular functions. 
  • Proteomic characterization of the cellular response to nitrosative stress mediated by s-nitrosoglutathione reductase inhibition. 
  • Regarding "Response to 'The use of diaminofluorescein for nitric oxide detection: Conceptual and methodological distinction between NO and nitrosation'. Free Radic. Biol. Med. 50: 641; 2011". 
  • Regulation of cellular processes by S-nitrosylation. Preface. 
  • Regulation of mitochondrial processes by protein S-nitrosylation. 
  • Response to "The use of diaminofluorescein for nitric oxide detection: conceptual and methodological distinction between NO and nitrosation". 
  • S-Nitrosylation of cardiac ion channels. 
  • S-nitrosohemoglobin deficiency: a mechanism for loss of physiological activity in banked blood. 
  • S-nitrosothiols and the S-nitrosoproteome of the cardiovascular system. 
  • S-nitrosylation in the regulation of gene transcription. 
  • S-nitrosylation: physiological regulation of NF-kappaB. 
  • The SNO-proteome: causation and classifications.