Comprehensive metabolic profiling to decipher the influence of rootstocks on fruit juice metabolome of Kinnow (C. nobilis × C. deliciosa)

[Display omitted] •Rootstocks have a significant impact on the metabolite profile of Kinnow.•MS-based approaches were employed to study the influence of rootstocks on Kinnow.•Sour Orange rootstocks confer higher concentration of limonin and polyphenolics in Kinnow.•Rough lemon and Cleopatra mandarin...

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Bibliographic Details
Published in:Scientia horticulturae 2019-11, Vol.257, p.108673, Article 108673
Main Authors: Saini, Manpreet Kaur, Capalash, Neena, Kaur, Charanjit, Singh, Sukhvinder Pal
Format: Article
Language:English
Subjects:
Kinnow
Limonoids
Metabolomics
Organic acids
Polyphenolics
Rootstocks
Sugars
Vitamins
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Summary:[Display omitted] •Rootstocks have a significant impact on the metabolite profile of Kinnow.•MS-based approaches were employed to study the influence of rootstocks on Kinnow.•Sour Orange rootstocks confer higher concentration of limonin and polyphenolics in Kinnow.•Rough lemon and Cleopatra mandarin rootstocks induce lower limonin concentration in Kinnow.•Metabolomics helps in the selection of the desired rootstock for intended fruit quality. The effect of rootstocks on flavor-related compounds, and nutrition and processing quality of Kinnow mandarin (C. nobilis × C. deliciosa) was investigated by targeted metabolomics approach employing LC–MS/MS and GC–MS/MS. Fruit samples were collected from mature trees grafted on six rootstocks, viz. Rough lemon 1 (C. jambhiri Lush), Rough lemon 2 (C. jambhiri), Sour orange (C. aurantium ‘Karun Jamir’), Cleopatra mandarin (C. reshni), Pectinifera (C. × depressa ‘Pectinifera’), and Shekwasha (C. × depressa ‘Shekwasha’). The data revealed significant differences in the concentration of some primary and secondary metabolites. Sour orange rootstock showed a higher concentration of polyphenolics and limonoid aglycones and a lower concentration of sugars, organic acids and aroma volatiles as compared to Shekwasha and Pectinifera. Rough lemon and Cleopatra rootstock presented desired concentration of organic acids and limonoid aglycones with moderate concentration of vitamins (B-complex and C), polyphenolics, and aroma volatiles. Principal component analysis (PCA) segregated Kinnow fruit grafted on different rootstocks into different PCs based on primary and secondary metabolites. Such differences indicate the influence of rootstock on Kinnow metabolome. This study highlights the importance of metabolomics in illuminating metabolic profile of citrus, thereby aiding in the selection of the desired rootstock for intended fruit quality.
ISSN:0304-4238
1879-1018
DOI:10.1016/j.scienta.2019.108673