Metabolomic dynamics reveals oxidative stress in spongy tissue disorder during ripening of mangifera indica l. fruit

TitleMetabolomic dynamics reveals oxidative stress in spongy tissue disorder during ripening of mangifera indica l. fruit
Publication TypeJournal Article
Year of Publication2019
AuthorsOak, P, Deshpande, A, Giri, A, Gupta, V
JournalMetabolites
Volume9
Issue11
Pagination255
Date PublishedNOV
Type of ArticleArticle
Keywordsgamma amino butyric acid shunt, mango metabolomics, Oxidative stress, spongy tissue disorder, tricarboxylic acid cycle
Abstract

Spongy tissue disorder, a mesocarp specific malady, severely affects the flavor and pulp characters of Alphonso mango fruit reducing its consumer acceptability. Here, we investigated comparative metabolomic changes that occur during ripening in healthy and spongy tissue-affected fruits using high resolution mass spectrometric analysis. During the spongy tissue formation, 46 metabolites were identified to be differentially accumulated. These putative metabolites belong to various primary and secondary metabolic pathways potentially involved in maintaining the quality of the fruit. Analysis revealed metabolic variations in tricarboxylic acid cycle and gamma amino butyric acid shunt generating reactive oxygen species, which causes stressed conditions inside the mesocarp. Further, reduced levels of antioxidants and enzymes dissipating reactive oxygen species in mesocarp deteriorate the fruit physiology. This oxidative stress all along affects the level of amino acids, sugars and enzymes responsible for flavor generation in the fruit. Our results provide metabolic insights into spongy tissue development in ripening Alphonso mango fruit.

DOI10.3390/metabo9110255
Type of Journal (Indian or Foreign)

Foreign

Impact Factor (IF)

3.303

Divison category: 
Biochemical Sciences

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