Self-Assembled Monolayer of a Redox-Active Calix[4]arene: Voltammetric Recognition of the Ba^2+ Ion in Aqueous Media

Despite the multifaceted biomedical significance of NO, little progress has been achieved so far in the quantitative understanding of the signal transduction mechanisms where NO is involved. To help progress in this area, we propose a simple electrochemical NO sensor here, consisting of a glass sealed platinum microdisk electrode coated with cellulose acetate to reduce both surface fouling by proteins and response to potential interferences. A differential amperometly protocol is optimized to improve selectivity and provide a stationary oxidation state of the platinum surface, which prevents loss in sensitivity during long-term use. We found the oxidation of NO by 02 second order in INO] with a rate constant of (8.0 + 0.4) x 10^6 M^-2 s^-1 in good agreement with literature data obtained by other than electrochemical methods. The release rates of NO detected in cultures of activated macrophages were on the order of 20 pmol/ (10^6cells s) and correlated well with the nitrite content determined by the spectrophotometric Griess assay.