Litcius/Paper detail

Glutamic acid reshapes the plant microbiota to protect plants against pathogens

Da‐Ran Kim, Chang-Wook Jeon, Gyeongjun Cho, Linda S. Thomashow, David M. Weller, Man‐Jeong Paik, Yong Bok Lee, Youn‐Sig Kwak

2021Microbiome91 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Plants in nature interact with other species, among which are mutualistic microorganisms that affect plant health. The co-existence of microbial symbionts with the host contributes to host fitness in a natural context. In turn, the composition of the plant microbiota responds to the environment and the state of the host, raising the possibility that it can be engineered to benefit the plant. However, technology for engineering the structure of the plant microbiome is not yet available. RESULTS: The loss of diversity and reduction in population density of Streptomyces globisporus SP6C4, a core microbe, was observed coincident with the aging of strawberry plants. Here, we show that glutamic acid reshapes the plant microbial community and enriches populations of Streptomyces, a functional core microbe in the strawberry anthosphere. Similarly, in the tomato rhizosphere, treatment with glutamic acid increased the population sizes of Streptomyces as well as those of Bacillaceae and Burkholderiaceae. At the same time, diseases caused by species of Botrytis and Fusarium were significantly reduced in both habitats. We suggest that glutamic acid directly modulates the composition of the microbiome community. CONCLUSIONS: Much is known about the structure of plant-associated microbial communities, but less is understood about how the community composition and complexity are controlled. Our results demonstrate that the intrinsic level of glutamic acid in planta is associated with the composition of the microbiota, which can be modulated by an external supply of a biostimulant. Video Abstract.

Topics & Concepts

BiologyRhizosphereMicrobiomePopulationMicrobial population biologyMicrobial ecologyContext (archaeology)BotanyStreptomycesHost (biology)EcologyBacteriaSociologyPaleontologyGeneticsBioinformaticsDemographyPlant-Microbe Interactions and ImmunityMicrobial Natural Products and BiosynthesisLegume Nitrogen Fixing Symbiosis