Abstract
Cell-free extracts of an organism capable of degrading the synthetic ether carboxymethyloxysuccinic acid were used to study the mechanism of degradation of this compound. The initial degradation products were acidic and could be separated by high-voltage electrophoresis. Extended incubation of [ 14C]carboxymethyloxysuccinate with the cell-free extracts gave rise to radioactive carbon dioxide and to glycolic, malic, fumaric, and pyruvic acids which were identified by electrophoresis. Identification of the malic and glycolic acids was confirmed by the addition of non-radioactive carrier malic and glycolic acids and recrystallization to constant specific radioactivity. The identification of pyruvate was substantiated by thin-layer chromatography of the 2,4-dinitrophenylhydrazine derivative. The presence of fumaric acid was substantiated by its ultraviolet absorbance. Shorter incubations give rise to only malic, glycolic, and fumaric acids. When the time course of the reaction was followed carefully over the first 15 min of the reaction, it was found that initially nearly equimolar quantities of glycolic and fumaric acids were produced. The early production of fumaric acid was also demonstrated by following the increase in 245-nm absorbance of the degradation mixture. The fumaric acid was subsequently hydrated to malic acid, and the quantity of fumaric acid present decreased slightly until it reached a steady-state level. The presence of fumarase in the extract was demonstrated. It was concluded that the initial attack on the carboxymethyloxysuccinic acid was a cleavage of the ether linkage by an elimination mechanism catalyzed by a carbon-oxygen lyase giving rise to glycolic and fumaric acids.
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