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Isoenzymes of the Flavonoid and Phenylpropanoid Pathways Show Organ-Specific Regulation during Apple Fruit Development.

Paolo BaldiElisa AsquiniGiovanni Nicolussi GoloFrancesca PopulinMirko Moser
Published in: International journal of molecular sciences (2023)
Elucidating the molecular mechanisms controlling fruit development is a primary target for the improvement of new apple ( Malus × domestica Borkh.) cultivars. The first two weeks of development following pollination are crucial to determine fruit characteristics. During this period, a lot of changes take place in apple fruit, going from rapid cell division to the production of important metabolites. In this work, attention was focused on the phenylpropanoid and flavonoid pathways responsible for the production of numerous compounds contributing to fruit quality, such as flavonols, catechins, dihydrochalcones and anthocyanins. A total of 17 isoenzymes were identified, belonging to seven classes of the phenylpropanoid and flavonoid pathways that, despite showing more than 80% sequence identity, showed differential expression regulation during the first two weeks of apple fruit development. This feature seems to be quite common for most of the enzymes of both pathways. Differential regulation of isoenzymes was shown to be present in both 'Golden Delicious' and a wild relative ( Malus mandshurica ), even though differences were also present. Each isoenzyme showed a specific pattern of expression in the flower and fruit organs, suggesting that genes coding for enzymes with the same function may control different aspects of plant biology. Finally, promoter analysis was performed in order to highlight differences in the number and type of regulatory motifs. Overall, our results indicate that the control of the expression of genes involved in the phenylpropanoid and flavonoid pathways may be very complex as not only enzymes belonging to the same class, but even putative isoenzymes, can have different roles for the plant. Such genes may represent an important regulatory mechanism, as they would allow the plant to fine-tune the processing of metabolic intermediates towards different branches of the pathway, for example, in an organ-specific way.
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