Sucrose metabolism and fruit growth in parthenocarpic vs seeded blueberry (Vaccinium ashei) fruits

Although fruit set and development are induced by applications of gibberellins, final fruit weight of gibberellin-induced parthenocarpic fruit is often less than that of pollinated fruit. We examined changes in the activities of sucrose-metabolizing enzymes and sugar accumulation in developing fruits of cultivated blueberry (Vaccinium ashei Reade) and their correlation with fruit growth upon pollination or exogenous applications of gibberellic acid (GA(3)). The objective was to determine if differences in fruit growth could be attributed to differences in enzyme activities and subsequent sugar accumulation in fruits. The fruit development period of GA(3)-treated fruits was 15 days longer than that of pollinated fruits. At maturity, GA(3)-treated fruit accumulated an average of 180 mg dry weight while pollinated fruit accumulated 390 mg dry weight. Dry weight accumulation in nonpollinated fruits was negligible and these fruits abscised by 45 days after bloom (DAB). The total carbon (C) cost (dry weight C + respiratory C) for fruit development wits 109 and 244 mg C fruit(-1) for GA(3)-treated and pollinated fruits, respectively. Hexose concentration increased to 100 mg (g fresh weight)(-1) at ripening in both GA(3)-treated and pollinated fruits. Nonpollinated fruits reached a maximum hexose concentration at 45 DAB. Sucrose phosphate synthase (EC 2.4.1.14) and sucrose synthase (EC 2.4.1.13) activities reached a maximum of <5.0 mu mol (g fresh weight)(-1) h(-1) in both GA(3)-treated and pollinated fruits. Soluble acid invertase (EC 3.2.1.26) activity increased to about 60 mu mol (g fresh weight)(-1) h(-1) in both GA(3)-treated and pollinated fruits at ripening, while in nonpollinated fruits, a maximum soluble acid invertase activity of 0.12 mu mol (g fresh weight)(-1) h(-1) was measured at 24 DAB. Insoluble acid invertase activity declined during the early stages of fruit growth and remained relatively low throughout fruit development. Neutral invertase activity was low throughout development, increasing to 5 mu mol (g fresh weight)(-1) h(-1) at ripening in GA(3)-treated and pollinated fruits. Our studies demonstrate that blueberry fruit development does not appear to be limited by sucrose metabolizing enzyme activity and/or the ability to accumulate sugars in either GA(3)-treated or pollinated fruits.