Study of the Fruit Inhibitory Mechanism on Citrus Flowering. Nutritional, Hormonal and Genetic Factors

In citrus, low temperature promotes flower induction in autumn-winter by increasing the expression of the CiFT3 promoter gene (citrus homologue of the FLOWERING LOCUS T gene). The presence of large numbers of fruits on the tree at this time inhibits CiFT3 expression and flowering, but the inhibitory signal produced by the fruits is unknown. The most widely accepted hypotheses are that the signal is hormonal or nutritional. In the first case, the inhibitory effect is attributed to hormones produced and exported by the fruit during development. In the second case, the inhibitory effect is attributed to the high demand and consumption of carbohydrates by the developing fruit. The two hypotheses are complementary and not mutually exclusive. In addition, it has been shown that the fruit promotes the epigenetic activation of the flowering repressor CcMADS19 (citrus homolog of the FLOWERING LOCUS C gene), which inhibits the expression of the CiFT3 gene. To determine which signal is produced by the fruit to inhibit flowering, the following hypothesis is proposed in this thesis: The fruit inhibits flowering through the synthesis and export of auxins, which activates the synthesis of gibberellins and, in turn, the expression of CcMADS19. Experiments with exogenous treatments of auxins, gibberellins and their antagonists, fruit thinning, and disruption of phloem transport between fruit and buds indicate that neither gibberellins nor auxins are consistently associated with the activation of CcMADS19 expression in leaves. In buds, gibberellins are associated with the activation of the flowering inhibitor CENTRORADIALIS (CEN), in the presence of fruit by increasing GA4 synthesis, and in the absence of fruit by its exogenous application. The presence of fruit increases the concentration of auxin in the stem and bud at the time of induction and suppresses its synthesis and transport. However, this does not prevent the epigenetic silencing of the CcMADS19 gene in the bud, which is transmitted to the leaves of the new vegetative shoots. These shoots flower in the following cycle, where floral differentiation is associated with an increase in auxin synthesis and transport and a decrease in gibberellin synthesis in the bud.