The high intake of polyphenols is thought to contribute to the beneficial cardiovascular effects of plant-centered diets. A putative mechanism underlying the cardioprotective activity is thought to be a plant phenol-induced increase of nitric oxide formation by the constitutive endothelial nitric oxide synthase. Twenty-eight phenols of different classes commonly occurring in plant foods were examined for their capability of enhancing the endothelial nitric oxide release of isolated porcine coronary arteries by direct real-time measurement of the luminal surface nitric oxide concentration with an amperometric microsensor. Additionally, the relaxing activity of the phenols was measured on porcine coronary rings. Quercetin, myricetin, leucocyanidol, and oligomeric proanthocyanidins induced the highest increases in nitric oxide release (delta[NO] > 8.5 nM ); caffeic acid, fisetin, hyperosid, and isoquercitrin were moderately active (5 nM < delta[NO] < 8.5 nM ); the other phenolic compounds caused only marginal increases of the nitric oxide levels (delta[NO] < 5 nM). The nitric oxide-stimulating activity of the phenols was uniformly positively correlated with their vasorelaxing activity. However, endothelium-dependent vasorelaxations were limited to phenols inducing nitric oxide elevations > 5 nM (= Km value of the soluble guanylate cyclase). Analysis of structure-activity relations revealed that a high nitric oxide activity was confined to a flavan-moiety with free hydroxyl-residues at C3, C3', C4', C5, and C7 and a hydroxyl-, oxo-, or phenolic substituent at C4, whereas the caffeic acid scaffolding emerged as the minimally essential motif for the nitric oxide-dependent vasorelaxation.