The role of flavonoids in root–rhizosphere signalling: opportunities and challenges for improving plant–microbe interactions
Samira Hassan,Ulrike Mathesius +1 more
TLDR
The manipulation of the flavonoid pathway to synthesize specifically certain products has been suggested as an avenue to improve root-rhizosphere interactions and the overlapping functions of many flavonoids as stimulators of functions in one organism and inhibitors of another suggests caution in attempts to manipulate flavonoidal rhizosphere signals.Abstract:
The flavonoid pathway produces a diverse array of plant compounds with functions in UV protection, as antioxidants, pigments, auxin transport regulators, defence compounds against pathogens and during signalling in symbiosis This review highlights some of the known function of flavonoids in the rhizosphere, in particular for the interaction of roots with microorganisms Depending on their structure, flavonoids have been shown to stimulate or inhibit rhizobial nod gene expression, cause chemoattraction of rhizobia towards the root, inhibit root pathogens, stimulate mycorrhizal spore germination and hyphal branching, mediate allelopathic interactions between plants, affect quorum sensing, and chelate soil nutrients Therefore, the manipulation of the flavonoid pathway to synthesize specifically certain products has been suggested as an avenue to improve root‐rhizosphere interactions Possible strategies to alter flavonoid exudation to the rhizosphere are discussed Possible challenges in that endeavour include limited knowledge of the mechanisms that regulate flavonoid transport and exudation, unforeseen effects of altering parts of the flavonoid synthesis pathway on fluxes elsewhere in the pathway, spatial heterogeneity of flavonoid exudation along the root, as well as alteration of flavonoid products by microorganisms in the soil In addition, the overlapping functions of many flavonoids as stimulators of functions in one organism and inhibitors of another suggests caution in attempts to manipulate flavonoid rhizosphere signalsread more
Citations
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Going back to the roots: the microbial ecology of the rhizosphere.
TL;DR: Recent developments in rhizosphere research are discussed in relation to assessing the contribution of the micro- and macroflora to sustainable agriculture, nature conservation, the development of bio-energy crops and the mitigation of climate change.
Journal ArticleDOI
The rhizosphere microbiome: significance of plant beneficial, plant pathogenic, and human pathogenic microorganisms
TL;DR: The main functions of rhizosphere microorganisms and how they impact on health and disease are reviewed and several strategies to redirect or reshape the rhizospheric microbiome in favor of microorganisms that are beneficial to plant growth and health are highlighted.
Journal ArticleDOI
Flavonoids as antioxidants in plants: Location and functional significance
TL;DR: The genes that govern the biosynthesis of antioxidant flavonoids are present in liverworts and mosses and are mostly up-regulated as a consequence of severe stress, which suggests that the antioxidant Flavonoid metabolism is a robust trait of terrestrial plants.
Journal ArticleDOI
The plant microbiome.
TL;DR: High-throughput technologies are revealing interactions between these complex communities and their hosts in unprecedented detail, with significant implications for plant health and productivity.
Journal ArticleDOI
Dynamic root exudate chemistry and microbial substrate preferences drive patterns in rhizosphere microbial community assembly.
Kateryna Zhalnina,Katherine B. Louie,Zhao Hao,Nasim Mansoori,Ulisses Nunes da Rocha,Ulisses Nunes da Rocha,Shengjing Shi,Heejung Cho,Heejung Cho,Ulas Karaoz,Dominique Loqué,Benjamin P. Bowen,Mary K. Firestone,Mary K. Firestone,Trent R. Northen,Eoin L. Brodie,Eoin L. Brodie +16 more
TL;DR: It is shown that pre-programmed developmental processes in plants result in consistent patterns in the chemical composition of root exudates, which provides a mechanistic underpinning for the process of rhizosphere microbial community assembly and provides an attractive direction for the manipulation of the Rhizosphere microbiome for beneficial outcomes.
References
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