Biosynthesis of ethylene: the effect of phosphate*

Abstract

Biosynthesis of ethylene in tomato and avocado fruit slices, carrot root, pea seedling and tomato shoot segments, Penicillium expansum and Escherichia coli was found to be inhibited by inorganic phosphate. Compared with microbial systems, relatively high concentrations of phosphate in the incubating medium were necessary to bring about a significant inhibition of ethylene production in higher plants. The degree of inhibition in higher plants correlated with the increased internal cellular concentration of phosphate and not with that of the incubating medium. Phosphate concentrations inhibitory for ethylene biosynthesis did not affect the respiration of tomato fruit slices. The phosphate effect was reversible, confined to only the biological systems and was not due to a change in the ionic strength. The differential inhibitory effects of aminoethoxyvinylglycine on ethylene biosynthesis in tomato fruit slices of various stages of ripening, were markedly influenced by high phosphate concentrations. The data indicate a biological significance to the phosphate control of ethylene biosynthesis.