Horticulturae (Oct 2023)
Dissecting the Role of Cell Wall Changes in Chilling Injury-Induced Gel Formation, Rubberiness, and Mealiness in Apricots
Abstract
In apricots and other stonefruit, chilling injury (CI) symptoms like mealiness, rubberiness, and gel formation are associated with cell wall properties. Apricots were stored at 0 °C for 5 weeks and ripened at 20 °C to induce CI and compared with fruit ripened at 20 °C from harvest at similar firmness. In those apricots without CI, degradation of middle-lamella pectin during softening weakened cell-cell adhesion and intercellular junctions. Pectin was still present in middle lamella regions but pectin that filled the intercellular spaces at harvest had disappeared. Fruit with combinations of CI symptoms showed different pectin solubilities, molecular weight distribution, and differences in pectin staining compared with fruit that were severely chilling-injured, exhibiting all symptoms. The perception of mealiness correlated with the presence of pectin in the cell lumen, and rubberiness with the presence of pectin in tricellular corners. We concluded that in chilling-injured apricots, the normal softening process is not being resumed after fruit have been taken out of cold storage. Cell wall degradation is disrupted, affecting the normal weakening of cell walls during softening. Hence, cell walls were less likely to break open during chewing, and when cells did break, any juice released might be bound by pectin present in the cell walls and cell lumen, leaving a sensation of rubberiness and mealiness.
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