Legume Bioactive Compounds: Influence of Rhizobial Inoculation

Overview

Journal AIMS Microbiol

Specialty Microbiology

Date 2019 Jul 12

PMID 31294160

Citations 2

Authors

Luis R Silva

Catarina Bento

Ana Carolina Goncalves

Jose David Flores-Felix

Martha Helena Ramirez-Bahena

Alvaro Peix

Encarna Velazquez

Affiliations

Soon will be listed here.

Abstract

Legumes consumption has been recognized as beneficial for human health, due to their content in proteins, fiber, minerals and vitamins, and their cultivation as beneficial for sustainable agriculture due to their ability to fix atmospheric nitrogen in symbiosis with soil bacteria known as rhizobia. The inoculation with these baceria induces metabolic changes in the plant, from which the more studied to date are the increases in the nitrogen and protein contents, and has been exploited in agriculture to improve the crop yield of several legumes. Nevertheless, legumes also contain several bioactive compounds such as polysaccharides, bioactive peptides, isoflavones and other phenolic compounds, carotenoids, tocopherols and fatty acids, which makes them functional foods included into the nutraceutical products. Therefore, the study of the effect of the rhizobial inoculation in the legume bioactive compounds content is gaining interest in the last decade. Several works reported that the inoculation of different genera and species of rhizobia in several grain legumes, such as soybean, cowpea, chickpea, faba bean or peanut, produced increases in the antioxidant potential and in the content of some bioactive compounds, such as phenolics, flavonoids, organic acids, proteins and fatty acids. Therefore, the rhizobial inoculation is a good tool to enhance the yield and quality of legumes and further studies on this field will allow us to have plant probiotic bacteria that promote the plant growth of legumes improving their functionality.

Citing Articles

Exploring the benefits of inoculated cowpeas under different climatic conditions in Namibia.

Rasche L, Becker J, Chimwamurombe P, Eschenbach A, Grongroft A, Jeong J Sci Rep. 2023; 13(1):11761.

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Proteomic Analysis of Alfalfa ( L.) Roots in Response to Nodulation and Salt Stress.

Wang Y, Zhang P, Li L, Li D, Liang Z, Cao Y Genes (Basel). 2022; 13(11).

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