Exogenous melatonin treatment in the postharvest storage of pitaya fruits delays senescence and regulates reactive oxygen species metabolism

Ba, Liangjie; Cao, Sen; Ji, Ning; Ma, Chao; Wang, Rui; Luo, Dan

doi:10.1590/fst.15221

Cited by 16 publications

(10 citation statements)

References 38 publications

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“…Pitaya fruit is highly perishable throughout postharvest storage due to the high moisture content present in the pulp. A study indicated that melatonin treatment effectively delayed fruit deterioration by reducing respiration intensity and oxygen radical production [14]. However, little information is known regarding the physicochemical changes that occur during fruit growth and maturation Foods 2021, 10, x FOR PEER REVIEW 2 of 22 linoleic acid, extracted from pitaya seeds have been reported to have laxative activity on gastroenteritis [11].…”

Section: Pitaya Species and Maturationmentioning

confidence: 99%

Maturation Process, Nutritional Profile, Bioactivities and Utilisation in Food Products of Red Pitaya Fruits: A Review

Huang

Brennan

Kasapis

et al. 2021

Foods

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Red pitaya (Hylocereus polyrhizus, red pulp with pink peel), also known as dragon fruit, is a well-known species of pitaya fruit. Pitaya seeds and peels have been reported to exhibit higher concentrations of total polyphenols, beta-cyanins and amino acid than pulp, while anthocyanins (i.e., cyanidin 3-glucoside, delphinidin 3-glucoside and pelargonidin 3-glucoside) were only detected in the pulp extracts. Beta-cyanins, phenolics and flavonoids were found to increase gradually during fruit maturation and pigmentation appeared earlier in the pulp than peel. The phytochemicals were extracted and purified by various techniques and broadly used as natural, low-cost, and beneficial healthy compounds in foods, including bakery, wine, dairy, meat and confectionery products. These bioactive components also exhibit regulative influences on the human gut microbiota, glycaemic response, lipid accumulation, inflammation, growth of microbials and mutagenicity, but the mechanisms are yet to be understood. The objective of this study was to systematically summarise the effect of red pitaya’s maturation process on the nutritional profile and techno-functionality in a variety of food products. The findings of this review provide valuable suggestions for the red pitaya fruit processing industry, leading to novel formulations supported by molecular research.

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Section: Pitaya Species and Maturationmentioning

confidence: 99%

Maturation Process, Nutritional Profile, Bioactivities and Utilisation in Food Products of Red Pitaya Fruits: A Review

Huang

Brennan

Kasapis

et al. 2021

Foods

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“…Postharvest decay is the main limiting factor for commercial value and shelf life of pitaya fruit ( Xu et al, 2021 ), which causes 40–50 % loss of postharvest fruit due to pathogen contamination and improper postharvest handling ( Bordoh, Ali, Dickinson, Siddiqui, & Romanazzi, 2019 ). Several approaches, such as cold storage, edible-coating, X-ray, plant hormones, antioxidation additives and antimicrobial agents, have been reported to resist postharvest diseases and hold fruit quality ( Ba et al, 2022 , Xu et al, 2021 ). However, these treatments are basic means of delaying fruit senescence and retaining flavor characteristics to various degrees after pathogenic invasion.…”

Section: Discussionmentioning

confidence: 99%

Fe2+ protects postharvest pitaya (Hylocereus undulatus britt) from Aspergillus. flavus infection by directly binding its genomic DNA

Yao

Zhang

Peng

et al. 2022

Food Chemistry: Molecular Sciences

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“…Some metabolic activities, such as transpiration and respiration, the main factors influencing the increase of weight loss and decrease of firmness with the extension of storage time, occurred in postharvest jujube fruits ( Lufu, Ambaw & Opara, 2020 ; Park et al, 2015 ; Yang et al, 2021 ). Recently, studies on strawberry ( Liu et al, 2018 ), pitaya ( Ba et al, 2021 ), peach ( Gao et al, 2016 ) and plum ( Yan et al, 2022 ) showed that exogenous melatonin significantly inhibited the increases in decay and water loss, and the decline in firmness. In the present study, firmness had the strongest positive correlation with crisp fine fruits and negative correlation with crisp rotten, soft and rotten fruits, while weight loss was just the opposite.…”

Section: Discussionmentioning

confidence: 99%

“…In this study, exogenous melatonin of 50, 200 and 400 µM delayed the decline of AsA content in postharvest fruits at 15 d. As seen by correlation analysis, high level of AsA content was correlated with decline in weight loss and increase in firmness of jujube fruits treated with melatonin, thereby indirectly affect visual appearance. Similarly, application of exogenous melatonin resulted in higher AsA contents in plum ( Bal, 2019 ), peach ( Gao et al, 2016 ), pitaya ( Ba et al, 2021 ) and tomato ( Liu et al, 2016 ). It was speculated that the decrease in the AsA content may be related to triggering of ASA-GSH cycle to enhance the cold tolerance of jujube fruit ( Miranda et al, 2020 ).…”

Section: Discussionmentioning

confidence: 99%

Exogenous melatonin treatment on post-harvest jujube fruits maintains physicochemical qualities during extended cold storage

Wang

Zhang

et al. 2022

PeerJ

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This study was conducted to investigate the visual appearance and physicochemical changes of postharvest jujube fruits (Ziziphus jujuba Mill. cv. Shucuizao) stored under 0 °C for 15 days. The fruits were dipped in 0 (control), 50, 100, 200 and 400 µM melatonin solutions after harvest. The results showed that treatment with a suitable melatonin concentration improved the rate of crisp fine fruits, delayed weight loss and firmness decline, and suppressed changes in total soluble solids (TSS) and titratable acidity (TA) contents of jujube fruits compared with the control. In addition, jujube fruits soaked with melatonin showed improved antioxidant capacity through increased ascorbic acid (AsA) content, enhanced superoxide dismutase (SOD) activity, and decreased malonaldehyde (MDA) content. As a result, 50 µM melatonin showed the greatest improvement of visual appearance and quality maintenance, and could be used as an effective treatment to preserve postharvest jujube fruit.

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Exogenous melatonin treatment in the postharvest storage of pitaya fruits delays senescence and regulates reactive oxygen species metabolism

Cited by 16 publications

References 38 publications

Maturation Process, Nutritional Profile, Bioactivities and Utilisation in Food Products of Red Pitaya Fruits: A Review

Maturation Process, Nutritional Profile, Bioactivities and Utilisation in Food Products of Red Pitaya Fruits: A Review

Fe2+ protects postharvest pitaya (Hylocereus undulatus britt) from Aspergillus. flavus infection by directly binding its genomic DNA

Exogenous melatonin treatment on post-harvest jujube fruits maintains physicochemical qualities during extended cold storage

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