Specific Root Exudate Compounds Sensed by Dedicated Chemoreceptors Shape Azospirillum brasilense Chemotaxis in the Rhizosphere
Lindsey O’Neal, Lam Vo, Gladys Alexandre
Abstract
Plant root exudates play critical roles in shaping rhizosphere microbial communities, and the ability of motile bacteria to respond to these gradients mediates competitive colonization of root surfaces. Root exudates are complex chemical mixtures that are spatially and temporally dynamic. Identifying the exact chemical(s) that mediates the recruitment of soil bacteria to specific regions of the roots is thus challenging. Here, we connect patterns of bacterial chemotaxis responses and sensing by chemoreceptors to chemicals found in root exudate gradients and identify key chemical signals that shape root surface colonization in different plants and regions of the roots.
Topics & Concepts
RhizosphereExudateChemotaxisAzospirillum brasilenseBiologyBacteriaColonizationChemoreceptorMicrobial inoculantPlant rootsBotanyChemical communicationMicrobiologyBiochemistryReceptorGeneticsSex pheromoneLegume Nitrogen Fixing SymbiosisPlant-Microbe Interactions and ImmunityNematode management and characterization studies