Characterization of three cloned and expressed 13‐hydroperoxide lyase isoenzymes from alfalfa with unusual N‐terminal sequences and different enzyme kinetics

Abstract

Three full‐length cDNAs from alfalfa seedlings coding for hydroperoxide lyases were cloned and expressed in Escherichia coli and characterized as cytochrome P450 enzymes. The isoenzymes were specific for 13‐hydroperoxy linoleic and linolenic acids and did not use the 9‐hydroperoxy isomers as substrates. Because alfalfa contains both specificities, this indicates the presence of two different types of hydroperoxide lyases, each specific for one kind of substrate. The enzymes contain 480 amino acids (54 kDa) and contain an unusual, nonplastidic N‐terminal sequence of 22 amino acids, which strongly reduces the enzyme activity. The only known presequence of a hydroperoxide lyase (from Arabidopsis thaliana) was considered to be a transit sequence. The reduced enzyme activity, however, indicates that the hydroperoxide lyases with N‐terminal extensions could be pro‐enzymes. This hypothesis is supported by the fast release of hydroperoxide lyase products by plants upon wounding. One of the isoenzymes showed a strongly decreased V_max and K_m compared to the other two. Because this is probably due to the substitution of Ser377 by Phe; the residue at position 377 seems to be important. This is the first time that sufficient quantities of hydroperoxide lyase have been obtained for characterization studies, by circumventing difficult purification procedures and degradation of the enzyme. The high expression level, easy purification, good stability and high specificity make these cloned hydroperoxide lyases excellent tools to study the reaction mechanism and structure. We postulate an integrated reaction mechanism, based on the known chemistry of cytochrome P450 enzymes. This is the first mechanism that unifies all observed features of hydroperoxide lyases.