Effects of gibberellic acid on sucrose accumulation and sucrose biosynthesizing enzymes activity during banana ripening

Abstract

During banana ripening there is a massive conversion into sugars, mainly sucrose, which can account for more than 10% of the fresh weight of the fruit. An ethylene burst is the trigger of the banana ripening process but there is evidence that other compounds can act as modulators of some biochemical pathways. As previously demonstrated, gibberellic acid (GA3) can impair the onset of starch degradation and affect some degradative enzymes, but effects on the sucrose biosynthetic apparatus have not yet been elucidated. Here, the activity and amount of sucrose synthase (SuSy; E.C. 2.4.1.13) and sucrose–phosphate synthase (SPS; E.C. 2.4.1.14), respiration rates, ethylene production, and carbohydrate levels, were evaluated in GA3-infiltrated and non-infiltrated banana slices. The exogenous supply of gibberellin did not alter the respiration or the ethylene profile but delayed sucrose accumulation by at least 2 days. While SuSy activity was similar in control and treated slices, SPS increase and sucrose accumulation was related in treated slices. Western blotting with specific antiserum showed no apparent effects of GA3 on the amount of SuSy protein, but impaired the increase in SPS protein during ripening. The overall results indicate that although GA3 did not block carbohydrate mobilisation in a irreversibly way, it clearly affected the triggering of starch breakdown and sucrose synthesis. Also, the delayed sucrose accumulation in GA3-infiltrated slices could be explained by the disturbance of SPS activity. In conclusion, gibberellins can play an important role during banana ripening and our results also reinforce the idea of multiple regulatory components in the ripening pathway, as evidenced by the GA3 effects.