On the kinetics and mechanism of the reaction of cysteine and hydrogen peroxide in aqueous solution

The oxidation of thiol-containing small molecules, peptides, and proteins in the presence of peroxides is of increasing biological and pharmaceutical interest. Although such reactions have been widely studied there does not appear to be a consensus in the literature as to the reaction products forme

## Abstract The reactions of methyl and methylperoxyl radicals derived from dimethyl sulfoxide (DMSO) with hydrogen peroxide, peroxymonocarbonate (HCO~4~^−^), and persulfate were studied. The major reaction observed for the hydroperoxides was the abstraction of the hydrogen atom by the radicals. Th

The photolysis of strong alkaline solutions of H 2 O 2 yields , which in the presence of molecular oxygen forms the ozonide radical ion, . A detailed kinetic study on the reaction mechanisms involved during formation and decay of radical ions in these solutions, in the presence and absence of added

## Abstract A mechanism for the oxidation of cysteine by hydrogen peroxide has been proposed by Luo et al. (__J Pharm Sci__, 2005, 94, 304–316): rapid equilibrium to form cysteinate (CS^−^), followed by irreversible oxidation of CS^−^ by H~2~O~2~ to give cysteine sulfenic acid (CSOH), and nucleophi

The decomposition reactions of N-bromodiethanolamine. N-bromoethylethanolamine, and AT-bromomethylethanolamine in aqueous solution have been studied kineticall) under various experimental conditions. The results support a proposed reaction mechanism in which the rate controlling step is assumed to b

## Abstract **BACKGROUND:** Chloronitrobenzenes (ClNBs) are a family of toxic and bio‐resistant organic compounds. Ozone treatment is specifically suitable for partial or complete oxidation of non‐biodegradable components. However, few studies on the decomposition of ClNBs by ozone are available, a