Abstract
Strawberry softening is characterized by an increase in the solubilization and depolymerization of pectins from cell walls. Galactose release from pectin side chains by β-galactosidase enzymes has been proposed as one reason for the increase in soluble pectins. A putative β-galactosidase gene, FaβGal4, has been identified using a custom-made oligonucleotide-based strawberry microarray platform. FaβGal4 was expressed mainly in the receptacle during fruit ripening, and was positively regulated by abscisic acid and negatively regulated by auxins. To ascertain the role of FaβGal4 in strawberry softening, transgenic plants containing an antisense sequence of this gene under the control of the CaMV35S promoter were generated. Phenotypic analyses were carried out in transgenic plants during three consecutive growing seasons, using non-transformed plants as control. Two out of nine independent transgenic lines yielded fruits that were 30% firmer than control at the ripe stage. FaβGal4 mRNA levels were reduced by 70% in ripe fruits from these selected transgenic lines, but they also showed significant silencing of FaβGal1, although the genes did not share significant similarity. These two transgenic lines also showed an increase in pectin covalently bound to the cell wall, extracted using Na2CO3. The amount of galactose in cell walls from transgenic fruits was 30% higher than in control; notably, the galactose increase was larger in the 1 M KOH fraction, which is enriched in hemicellulose. These results suggest that FaβGal4 participates in the solubilization of covalently bound pectins during ripening, reducing strawberry fruit firmness.
Highlights
Softening is one of the most characteristic aspects of the fruit melting texture is highly appreciated by consumers, but it ripening process
These results suggest that FaβGal4 participates in the solubilization of covalently bound pectins during ripening, reducing strawberry fruit firmness
An expression analysis of the other β-galactosidase genes previously described in strawberry, FaβGal1–3, showed that only FaβGal4 was clearly related to the ripening process
Summary
Softening is one of the most characteristic aspects of the fruit melting texture is highly appreciated by consumers, but it ripening process. Cell wall modifications that accompany softening involve the solubilization of pectin polymers, the depolymerization of pectins and matrix glycans, and the loss of neutral sugars from pectin side chains (Brummell, 2006; Goulao and Oliveira, 2008; Mercado et al, 2011) All these processes often occur concurrently during fruit ripening, the extension of these modifications greatly depends on the kind of fruit (Brummell, 2006; Mercado et al, 2011). The removal of these carbohydrates from rhamnogalacturonan I (RG-I) polyuronides by β-galactosidases (β-Gal) and α-arabinofuranosidases has been suggested as one of the possible reasons for the increase of soluble pectins (Koh and Melton, 2002; Brummell, 2006)
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