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Drought Shifts Sorghum Root Metabolite and Microbiome Profiles and Enriches for Pipecolic Acid

Daniel Caddell, Dean Pettinga, Katherine Louie, Benjamin P. Bowen, Julie Sievert, Joy Hollingsworth, Rebeckah Rubanowitz, Jeffery Dahlberg, Elizabeth Purdom, Trent R. Northen, Devin Coleman‐Derr

2023Phytobiomes Journal35 citationsDOIOpen Access PDF

Abstract

Plant-associated microbial communities shift in composition as a result of environmental perturbations, such as drought. It has been shown that Actinobacteria are enriched in plant roots and rhizospheres during drought stress. However, the correlations between microbiome dynamics and plant response to drought are poorly understood. Here we apply a combination of bacterial community composition analysis and plant metabolite profiling in Sorghum bicolor roots, rhizospheres, and soil during drought and drought recovery to investigate potential contributions of host metabolism to shifts in bacterial composition. Our results provide a detailed view of metabolic shifts across the plant root during drought and show that the response to rewatering differs between root and soil; additionally, we identify drought-responsive metabolites that are highly correlated with the observed changes in Actinobacteria abundance. Furthermore, we find that pipecolic acid is a drought-enriched metabolite in sorghum roots, and that exogenous application of pipecolic acid inhibits root growth. Finally, we show that this activity functions independent of the systemic acquired resistance pathway and has the potential to impact Actinobacterial taxa within the root microbiome.

Topics & Concepts

ActinobacteriaRhizospherePipecolic acidBiologyMetaboliteSorghumMicrobiomeBotanyDrought tolerancePrimary metaboliteMetabolite profilingAgronomyBacteriaAmino acidBiochemistry16S ribosomal RNAGeneticsBioinformaticsPlant-Microbe Interactions and ImmunityGut microbiota and healthMicrobial Community Ecology and Physiology
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