Expression of ACC synthase is enhanced earlier than that of ACC oxidase during fruit ripening of mume (Prunus mume)

Mume (Japanese apricot: Prunus mume Sieb. et Zucc.) is a climacteric fruit that produces large amounts of ethylene as it ripens. Ripening is accompanied by marked increases in the activities of two ethylene-biosynthetic enzymes, namely, 1-aminocyclopropane-1-carboxylic acid (ACC) synthase and ACC oxidase. To study the molecular aspects of ripening of mume, we isolated cDNA clones for proteins that we considered likely to be involved in the biosynthesis and perception of ethylene during ripening, namely, ACC synthase, ACC oxidase and the ethylene receptor. Northern blotting analysis revealed the markedly increased expression of ACC synthase prior to that of ACC oxidase and the increase in ethylene production during ripening. Overall, the levels of the mRNAs for the genes corresponded closely to the levels of activity of the ethylene-biosynthetic enzymes. Exposure of mature green mume fruit to ethylene for 12 h induced strong expression of ACC synthase, as well as of ACC oxidase. Wounding of the pericarp of mume fruit induced the expression of ACC synthase but not of ACC oxidase. The rate of ethylene production increased only slightly after wounding. These results suggest that expression of the genes for ACC synthase and ACC oxidase must be activated sequentially for maximum production of ethylene during ripening of mume fruit and that several mechanisms regulate the expression of ethylene-biosynthetic genes during ripening.