Root microbiota is known to modulate plant growth, defense and stress responses. However, the underlying microbiota-responsive host regulators remain elusive. Previous mono-association study, using Arabidopsis root-derived bacteria culture collection (At-R-sphere), facilitated the differentiation of root commensals into two groups of bacteria showing contrasting capacities to suppress root immune responses. Root transcriptome experiments narrowed down immunity-related genes to gene clusters exhibiting differential responses to synthetic communities (SynComs) comprised of these two groups of bacteria. Using a comparative transcriptomics approach, I further identified a novel regulator, PEROXIDASE 5 (PER5), that is required for immunity-triggered growth inhibition. PER5 is an uncharacterized peroxidase with a predicted function to regulate reactive oxygen species (ROS) homeostasis. ROS-dependent signaling is implicated in multiple biological processes including crosstalks with immunity and abiotic stress responses. I propose to perform biochemical and reconstitution experiments to study the impacts of microbiota on plant growth-defense crosstalk and abiotic stress tolerance through indirect interference with ROS homeostasis.

DFG Programme Priority Programmes

Subproject of SPP 2125:  Deconstruction and Reconstruction of the Plant Microbiota "DECRyPT"

Ehemaliger Antragsteller Dr. Ka-Wai Ma, Ph.D., until 12/2023