F. Kreuzaler, K. Hahlbrock
Aug 1, 1975
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Journal
European journal of biochemistry
Abstract
Flavanone synthase was isolated and purified about 300-fold from fermenter-grown, light-induced cell suspension cultures of Petroselinum hortense. The enzyme catalyzed the formation of the flavanone naringenin from p-coumaroyl-CoA and malonyl-CoA. Trapping experiments with an enzyme preparation, which was free of chalcone isomerase activity, revealed that in fact the flavanone and not the isomeric chalcone was the immediate product of the synthase reaction. Thus the enzyme is not a chalcone synthase as previously assumed. No coafactors were required for flavanone synthase activity. The enzyme was strongly inhibited by the two reaction products naringenin and CoASH, by the antibiotic cerulenin, by acetyl-CoA, and by several compounds reacting with sulfhydryl groups. Optimal enzyme activity was found at pH 8.0, at 30 degrees C, and at an ionic strength of 0.1--0.3 M potassium phosphate. EDTA, Mg2+, Ca2+, or Fe2+ at concentrations of about 0.7 muM did not affect the enzyme activity. Apparent molecular weights of approx. 120 000, 50 000, and 70 000, respectively, were determined for flavanone synthase and two metabolically related enzymes, chalcone isomerase and malonyl-CoA: flavonoid glycoside malonyl transferase. The partially purified flavanone synthase efficiently catalyzed the formation of malonyl pantetheine from malonyl-CoA and pantetheine. This malonyl transferase activity, and a general similarity with the condensation steps involved in the mechanisms of fatty acid and 6-methylsalicylic acid synthesis from "acetate units", are the basis for a hypothetical scheme which is proposed for the sequence of reactions catalyzed by the multifunctional flavanone synthase.