Metabolomics-Driven Mining of Metabolite Resources: Applications and Prospects for Improving Vegetable Crops

Vegetable crops possess a prominent nutri-metabolite pool that not only contributes to the crop performance in the fields, but also offers nutritional security for humans. In the pursuit of identifying, quantifying and functionally characterizing the cellular metabolome pool, biomolecule separation...

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Bibliographic Details
Published in:International journal of molecular sciences 2022-10, Vol.23 (20), p.12062
Main Authors: Singh, Dhananjaya, Bisen, Mansi, Shukla, Renu, Prabha, Ratna, Maurya, Sudarshan, Reddy, Yesaru, Singh, Prabhakar, Rai, Nagendra, Chaubey, Tribhuvan, Chaturvedi, Krishna, Srivastava, Sudhir, Farooqi, Mohammad, Gupta, Vijai, Sarma, Birinchi, Rai, Anil, Behera, Tusar
Format: Article
Language:English
Subjects:
Agricultural commodities
Amino acids
Antioxidants
Bioinformatics
Biomolecules
Biosynthesis
Carbohydrates
Carotenoids
Crop diseases
Crops
Data acquisition
Defense mechanisms
Domestication
Factories
Flavonoids
Fruits
Human influences
Metabolic pathways
Metabolism
Metabolites
Metabolomics
Organisms
Pests
Physiology
Plant breeding
Plants (botany)
Proteins
Quantitative trait loci
Review
Sterols
Vegetables
VOCs
Volatile organic compounds
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Summary:Vegetable crops possess a prominent nutri-metabolite pool that not only contributes to the crop performance in the fields, but also offers nutritional security for humans. In the pursuit of identifying, quantifying and functionally characterizing the cellular metabolome pool, biomolecule separation technologies, data acquisition platforms, chemical libraries, bioinformatics tools, databases and visualization techniques have come to play significant role. High-throughput metabolomics unravels structurally diverse nutrition-rich metabolites and their entangled interactions in vegetable plants. It has helped to link identified phytometabolites with unique phenotypic traits, nutri-functional characters, defense mechanisms and crop productivity. In this study, we explore mining diverse metabolites, localizing cellular metabolic pathways, classifying functional biomolecules and establishing linkages between metabolic fluxes and genomic regulations, using comprehensive metabolomics deciphers of the plant’s performance in the environment. We discuss exemplary reports covering the implications of metabolomics, addressing metabolic changes in vegetable plants during crop domestication, stage-dependent growth, fruit development, nutri-metabolic capabilities, climatic impacts, plant-microbe-pest interactions and anthropogenic activities. Efforts leading to identify biomarker metabolites, candidate proteins and the genes responsible for plant health, defense mechanisms and nutri-rich crop produce are documented. With the insights on metabolite-QTL (mQTL) driven genetic architecture, molecular breeding in vegetable crops can be revolutionized for developing better nutritional capabilities, improved tolerance against diseases/pests and enhanced climate resilience in plants.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms232012062