Article SCOPUS
Proceedings of the National Academy of Sciences of the United States of America  (2012)

Dynamic denitrosylation via S-nitrosoglutathione reductase regulates cardiovascular function

Beigi F.; Gonzalez D.R.; Minhas K.M.; Sun Q.-A.; Foster M.W.; Khan S.A.; Treuer A.V.; Dulce R.A.; Harrison R.W.; Saraiva R.M.; Premer C.; Schulman I.H.; Stamler J.S.; Hare J.M.

Keywords: stimulation, muscle, localization, enzyme, transport, mouse, glutathione, heart, animals, blood, protein, cell, isoproterenol, ryanodine, channel, calcium, beta, release, synthase, mice, reductase, experiment, contraction, cardiovascular, receptor, oxide, vasodilation, hemodynamics, interaction, tissue, contractility, output, female, adrenergic, drug, neuronal, article, myocardium, endothelial, nitrosation, function, activity, vessel, nitrosylation, controlled, animal, cardiac, physiological, study, s, priority, cyclic, nonhuman, journal, Receptors,, gmp, nitric, Inbred, diastole, Mice,, C57BL, unclassified, Adrenergic,, Myocardial, isoprenaline, tone, phenomena, Mus, inotropism, Myocytes,, nitrosoglutathione, denitrosylation