Identification of physiological changes and key metabolites coincident with postharvest internal browning of pineapple (Ananas comosus L.) fruit

•The metabolite profiling of chilled pineapple fruit presented here is the first reported.•Antioxidant and ascorbic acid were the measurable changes in response to early PCI.•Amino acid and organic acid pool were most adjustable to PCI in pineapple. Chilling causes biochemical and physiological dysf...

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Published in:Postharvest biology and technology 2018-03, Vol.137, p.56-65
Main Authors: Luengwilai, Kietsuda, Beckles, Diane M., Roessner, Ute, Dias, Daniel A., Lui, Veronica, Siriphanich, Jingtair
Format: Article
Language:English
Subjects:
Amino acids
Antioxidants
Ascorbic acid
Biomarkers
Browning
Chilling
Cooling
Cultivars
Electrolyte leakage
Fruits
Internal browning
Lactic acid
Mass spectrometry
Metabolism
Metabolite profiling
Metabolites
Organic acids
Phenolic compounds
Phenols
Physiology
Pineapples
Postharvest chilling injury
Studies
Valine
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cited_by cdi_FETCH-LOGICAL-c349t-2b371c4b3a059bcf33c636d28704b9a8db117109b99c43890eac2afa0ed46fea3
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container_title Postharvest biology and technology
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creator Luengwilai, Kietsuda
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description •The metabolite profiling of chilled pineapple fruit presented here is the first reported.•Antioxidant and ascorbic acid were the measurable changes in response to early PCI.•Amino acid and organic acid pool were most adjustable to PCI in pineapple. Chilling causes biochemical and physiological dysfunction in pineapple fruit, evidently as internal browning (IB). Here, putative biomarkers of the early responses to chilling stress, prior to the appearance of IB, were investigated using a combination of GC–MS profiling and physiological and biochemical assay. Two cultivars – one tolerant and one susceptible – were used, and attention was made to tissue sampling from the early reversible to late irreversible phase of chilling injury. At these stages, electrolyte leakage and the levels of phenolic compounds were not altered even after prolonged chilling stress; however, changes in ascorbic acid levels and antioxidant activity coincided with IB occurrence. These data suggest that antioxidant capacity and ascorbic acid are the measurable and ‘early’ responses to IB. The GC–MS metabolite profiling data of chilled pineapple fruit presented here is the first reported. The tolerant pineapple showed greater shifts in metabolism and accumulated higher levels of amino acids and organic acids, especially, valine, cysteine, aspartate and galacturonate. In contrast, the lactic acid content of susceptible cultivar was higher upon chilled storage.
doi_str_mv 10.1016/j.postharvbio.2017.11.013
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Chilling causes biochemical and physiological dysfunction in pineapple fruit, evidently as internal browning (IB). Here, putative biomarkers of the early responses to chilling stress, prior to the appearance of IB, were investigated using a combination of GC–MS profiling and physiological and biochemical assay. Two cultivars – one tolerant and one susceptible – were used, and attention was made to tissue sampling from the early reversible to late irreversible phase of chilling injury. At these stages, electrolyte leakage and the levels of phenolic compounds were not altered even after prolonged chilling stress; however, changes in ascorbic acid levels and antioxidant activity coincided with IB occurrence. These data suggest that antioxidant capacity and ascorbic acid are the measurable and ‘early’ responses to IB. The GC–MS metabolite profiling data of chilled pineapple fruit presented here is the first reported. 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Chilling causes biochemical and physiological dysfunction in pineapple fruit, evidently as internal browning (IB). Here, putative biomarkers of the early responses to chilling stress, prior to the appearance of IB, were investigated using a combination of GC–MS profiling and physiological and biochemical assay. Two cultivars – one tolerant and one susceptible – were used, and attention was made to tissue sampling from the early reversible to late irreversible phase of chilling injury. At these stages, electrolyte leakage and the levels of phenolic compounds were not altered even after prolonged chilling stress; however, changes in ascorbic acid levels and antioxidant activity coincided with IB occurrence. These data suggest that antioxidant capacity and ascorbic acid are the measurable and ‘early’ responses to IB. The GC–MS metabolite profiling data of chilled pineapple fruit presented here is the first reported. 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Chilling causes biochemical and physiological dysfunction in pineapple fruit, evidently as internal browning (IB). Here, putative biomarkers of the early responses to chilling stress, prior to the appearance of IB, were investigated using a combination of GC–MS profiling and physiological and biochemical assay. Two cultivars – one tolerant and one susceptible – were used, and attention was made to tissue sampling from the early reversible to late irreversible phase of chilling injury. At these stages, electrolyte leakage and the levels of phenolic compounds were not altered even after prolonged chilling stress; however, changes in ascorbic acid levels and antioxidant activity coincided with IB occurrence. These data suggest that antioxidant capacity and ascorbic acid are the measurable and ‘early’ responses to IB. The GC–MS metabolite profiling data of chilled pineapple fruit presented here is the first reported. 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subjects Amino acids
Antioxidants
Ascorbic acid
Biomarkers
Browning
Chilling
Cooling
Cultivars
Electrolyte leakage
Fruits
Internal browning
Lactic acid
Mass spectrometry
Metabolism
Metabolite profiling
Metabolites
Organic acids
Phenolic compounds
Phenols
Physiology
Pineapples
Postharvest chilling injury
Studies
Valine
title Identification of physiological changes and key metabolites coincident with postharvest internal browning of pineapple (Ananas comosus L.) fruit
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