0000000000089795

AUTHOR

Florencia Rey

showing 2 related works from this author

Antioxidant capacity in fruit of Citrus cultivars with marked differences in pulp coloration: Contribution of carotenoids and vitamin C.

2020

The purpose of this study was to evaluate the specific contribution of carotenoids and vitamin C to the lipophilic and hydrophilic antioxidant capacity, respectively, of the pulp of citrus fruits using the genetic diversity in pigmentation and in the carotenoid complement. To this end, six citrus varieties were selected: two mandarins, Clemenules (Citrus clementina) and Nadorcott (C. reticulata); two grapefruits (C. paradisi), Marsh and Star Ruby; and two sweet oranges (C. sinensis), Valencia late and Valencia Ruby. Total carotenoid content and composition in the pulp of fruits were very different, in relation to their color singularities. Valencia Ruby and Nadorcott had the highest caroten…

Citrus030309 nutrition & dieteticsDPPHGeneral Chemical EngineeringColorAscorbic Acidengineering.materialIndustrial and Manufacturing EngineeringAntioxidants03 medical and health scienceschemistry.chemical_compound0404 agricultural biotechnologyPhytoeneVitamin CFood scienceCarotenoidchemistry.chemical_classification0303 health sciencesABTSVitamin CChemistryPulp (paper)food and beverages04 agricultural and veterinary sciences040401 food scienceCarotenoidsPhytoflueneLycopeneAntioxidant capacityFruitengineeringCitrus fruitFood ScienceCitrus sinensisFood science and technology international = Ciencia y tecnologia de los alimentos internacional
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Ascorbic acid content and transcriptional profiling of genes involved in its metabolism during development of petals, leaves, and fruits of orange (C…

2021

Citrus fruit is one of the most important contributors to the ascorbic acid (AsA) intake in humans. Here, we report a comparative analysis of AsA content and transcriptional changes of genes related to its metabolism during development of petals, leaves and fruits of Valencia Late oranges (Citrus sinensis). Petals of close flowers and at anthesis contained the highest concentration of AsA. In fruits, AsA content in the flavedo reached a maximum at color break, whereas the pulp accumulated lower levels and experienced minor fluctuations during development. AsA levels in leaves were similar to those in the flavedo at breaker stage. The transcriptional profiling of AsA biosynthetic, degradatio…

CitrusorangePetalascorbic acid; <i>Citrus</i>; fruit; leaf; maturation; orange; petal; vitamin CPlant ScienceOrange (colour)BiologyOrangeArticleAnthesisMaturationVitamin CEcology Evolution Behavior and SystematicsleafEcologyVitamin CmaturationBotanyPromoterfruitMetabolismAscorbic acidHorticultureLeafsurgical procedures operativeQK1-989Fruit<i>Citrus</i>Ascorbic acidascorbic acidPetalCitrus × sinensis
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