Involvement of chlorophyllase in chlorophyll metabolism in olive varieties with high and low chlorophyll content

Olive fruits of the Arbequina variety are differentiated from those of Hojiblanca and Picual by the differing presence of 13²-OH-chlorophyll a and of dephytylated chlorophyll derivatives during the life cycle of the fruit. During the fruit growth stage, which coincides with chlorophyll synthesis, chlorophyllase (EC: 3.1.1.14) is present in the three varieties but only yields chlorophyllides in Arbequina. The presence of oxidized catabolites of chlorophyll a in fruits of the Arbequina variety during this same period confirms the activity of oxidative enzyme systems. The low synthesis of chlorophylls in the fruits of the Arbequina variety is associated with the fact that, during the natural biosynthetic turnover, the catabolic pathway is more potentiated than the anabolic one. In the ripening phase, in the Hojiblanca and Picual fruits, chlorophyllase activity was measured but the absence of chlorophyllides showed that this enzyme remains latent and that oxidative enzymes are the ones taking part in the chlorophyll disappearance. In the Arbequina variety, both chlorophyllase and oxidative enzymes are responsible for the chlorophyll degradation.     

Accumulation of antioxidants in apricot fruit through ripening: characterization of a genotype with enhanced functional properties

Two apricot genotypes, 'Gonci magyarkajszi' and 'Preventa' were assayed at three ripening stages for flesh color indices (L*, a*, b*, C* and Ho), contents of total phenolics and vitamin C, and both water- and lipid-soluble antioxidant capacities (ferric reducing antioxidant power; 2,2'-diphenyl-1-picrylhydrazyl scavenging activity; total radical scavenging activity; and Photochem lipid-soluble antioxidant capacity) to compare their dynamics in the accumulation of antioxidant compounds and capacities through ripening. The increase in a*, b* and C* and decrease in Ho during ripening represented a color shift from green to yellow and orange due to carotenoid accumulation. Parallel to carotenoid accumulation, contents of total phenolics and vitamin C and antioxidant capacity increased significantly (p < 0.05) from unripe to fully ripe fruits. More phenolics and vitamin C accumulated in fully ripe fruits of 'Preventa' than 'G?nci magyarkajszi'. The accumulation patterns of these compounds were different: while the vitamin C contents in unripe fruit of 'Preventa' and 'G?nci magyarkajszi' were identical (approx. 6 mg/100 g fresh weight), unripe 'Preventa' contained even more phenolics (approx. 12 mmolGA/l) than fully ripe 'G?nci magyarkajszi' (8 mmolGA/l). Our results confirm that fully ripe 'Preventa' fruits are characterized by outstanding functional properties due to the increased accumulation of vitamin C and phenolics throughout the ripening process.     

Factors Affecting Egg Hatch of Heterodera mediterranea and Differential Responses of Olive Cultivars to Infestation

The influence of temperature and olive root exudates on Heterodera mediterranea egg hatch and the effects of H. mediterranea on the growth of two olive cultivars (Arbequina and Picual) were investigated. Egg hatch occurred over a temperature range of 10 to 30°C and was optimal at 20 to 25°C. There were no differences in egg hatch between sterile deionized distilled water or root exudate dilutions (undiluted, diluted 1:1, and 1:2) of Arbequina and Picual at 20°C. Heterodera mediterranea reproduced on both olive cultivars in growth chambers at 25°C. Soil and root final nematode populations, as well as total number of cysts per plant and reproduction rate, were significantly higher in Arbequina than in Picual. Shoot dry and root fresh weights as well as increases of shoot height, trunk diameter, and numbers of nodes were significantly suppressed by infection with 10,000 eggs + second-stage juveniles/pot in Arbequina but not in Picual.     

Expression profile of genes coding for carotenoid biosynthetic pathway during ripening and their association with accumulation of lycopene in tomato fruits

Fruit ripening process is associated with change in carotenoid profile and accumulation of lycopene in tomato (Solanum lycopersicum L.). In this study, we quantified the β-carotene and lycopene content at green, breaker and red-ripe stages of fruit ripening in eight tomato genotypes by using high-performance liquid chromatography. Among the genotypes, lycopene content was found highest in Pusa Rohini and lowest in VRT-32-1. To gain further insight into the regulation of lycopene biosynthesis and accumulation during fruit ripening, expression analysis of nine carotenoid pathway-related genes was carried out in the fruits of high lycopene genotype—Pusa Rohini. We found that expression of phytoene synthase and β-carotene hydroxylase-1 was four and thirty-fold higher, respectively, at breaker stage as compared to red-ripe stage of fruit ripening. Changes in the expression level of these genes were associated with a 40% increase in lycopene content at red-ripe stage as compared with breaker stage. Thus, the results from our study suggest the role of specific carotenoid pathway-related genes in accumulation of high lycopene during the fruit ripening processes.     

Effect of prolonged root hypoxia on the antioxidant content of tomato fruit

Tomato fruit quality depends on its metabolite content, which in turn is determined by numerous metabolic changes occurring during fruit development and ripening. The aim of this work was to investigate whether flooding affects the nutritional quality of tomato fruit, focusing on compounds essential to human health: carotenoids and ascorbate. To this end, tomato plants (Solanum lycopersicum L. cv Micro-Tom) were submitted to prolonged root hypoxia (1–2% O₂) at first flower anthesis. Fruits were harvested at five stages of the ripening process and analysed for their carotenoid and ascorbate contents. Our results showed that the ripening of fruits that developed on hypoxia treated plants was not inhibited. However, root hypoxia significantly limits carotenoid and ascorbate accumulation in pericarp during fruit ripening, the strongest effects being observed at late stages of ripening. Limitation of both carotenoids and ascorbate accumulation seems to be primarily mediated by the reduced level of expression of genes of the corresponding metabolic pathway.     

Effect of gamma-Irradiation on the Biosynthesis of Carotenoids in the Tomato Fruit

Fruits of the lutescent tomato genetic line were exposed to γ-radiation at different stages of maturity to determine the effect of ionizing radiation on carotenoid synthesis in the ripening fruit. Irradiation generally resulted in the inhibition of carotenogenesis. The effect was more pronounced at the higher dosage and in less mature fruit. Lycopene synthesis was inhibited more extensively than β-carotene synthesis. The total carotenoid content was also generally lower in irradiated fruits. It was proposed that the β-carotene in the tomato fruit is formed by a pathway not involving lycopene.     

Factors influencing α-tocopherol synthesis in pepper fruits

Determination of vitamin E in the fruit pericarp of green, yellow and red varieties of Capsicum annuum L. from the local market points to a parallel accumulation in pepper fruits of α-tocopherol with secondary carotenoids and triacylglycerols enriched in unsaturated fatty acids. Highest α-tocopherol concentrations of about 400 nmol per g of dry weight have been found in red fruits. Ripe yellow and red pepper fruits grown under greenhouse conditions were smaller and contained lower α-tocopherol contents than corresponding ones from the local market. An approximation to the α-tocopherol levels in market fruits has been observed, however, if the green plants had been treated with the bleaching herbicide norflurazone before fruit ripening, affecting the carotenoid pathway. Optimum herbicide efficiency has been obtained via watering of the green plants. In ripe fruits of the yellow and red varieties α-tocopherol contents were paralleled by increasing γ-tocopherol methyltransferase activities. In chromoplast preparations from pepper, methylation capacities have been found for γ- and δ-tocopherol as well as for the structurally related tocotrienols, the diterpene side chain of which consists of a geranylgeranyl- instead of the reduced phytyl residue found in tocopherols. β-Tocopherol was not methylated, which supports the position-specific methylation of prenylquinones at the 5 position of the tocopherol aromatic headgroup.     

Formation of Pungent Principles in Fruits of Sweet Pepper,Capsicum annuum L. var. grossum during Post-harvest Ripening under Continuous Light

Pungent principles (Capsaicinoid(s)) were found to be produced in fruits of sweet pepper, Capsicum annuum L. var. grossum, during post-harvest ripening under continuous light. The initial formation was observed after 4 days’ ripening. After 7 days’ ripening, the capsaicinoids content in placenta increased to 12.9 μg per fruit, which was 2.5-fold of that in pericarp. No pungent principles were detected in fruits during ripening in the dark and in seeds under continuous light. In placenta, the formation of dihydrocapsaicin and nordihydrocapsaicin which are the vanillylamides of saturated branched fatty acids was higher than that of capsaicin which is the vanillylamide of an unsaturated one. Remarkable formation and accumulation of carotenoid were also observed during post-harvest ripening under continuous light.