SUCROSE METABOLISM AND IAA AND ETHYLENE PRODUCTION IN MUSKMELON OVARIES

Changes induced by the pollination of ovaries may be mediated by phytohormones and involve sugar-metabolizing enzymes. In order to further explore these relationships, soluble sugars, sucrose-phosphate synthase (EC 2.4.1.14), sucrose synthase (EC 2.4.1.13), acid and neutral invertases (EC 3.2.1.26), indole-3-acetic acid (IAA), and ethylene were investigated in muskmelon (Cucumis melo L.) ovaries sampled before, during, and after anthesis. The fresh weight of ovaries increased 100% within 48 h after pollination, but did not change significantly in the absence of pollination. While sugar content per ovary increased after pollination, sugar content per mg protein was unaffected. Sucrose was not detected in nonpollinated ovaries 48 h after anthesis. Free IAA content was highest in ovaries sampled 48 h before anthesis. Pollination had no immediate effect on IAA content per mg protein in postanthesis ovaries. Although detected in all ovaries sampled, ethylene production increased significantly only in nonpollinated ovaries. Activity of sucrose-phosphate synthase was the same at all stages. The specific activities of sucrose synthase and the invertases were highest in nonpollinated ovaries. The increase in rate of sugar import into ovaries following pollination was not accompanied by an increase in the specific activity of any enzyme assayed, but was coincident with an increase in the total activity per ovary of sucrose synthase and acid invertase. There appears to be no direct relationship between sucrose-metabolizing enzymes, IAA or ethylene in developing pollinated ovaries, but the increase in sucrose cleavage activity in nonpollinated ovaries may be related to the increase in ethylene production.