Reactive oxygen species produced by NADPH oxidase regulate plant cell growth

Abstract

Cell expansion is a central process in plant morphogenesis, and the elongation of roots and root hairs is essential for uptake of minerals and water from the soil. Ca²⁺ influx from the extracellular store is required for (and sets the rates of) cell elongation in roots¹. Arabidopsis thaliana rhd2 mutants are defective in Ca²⁺ uptake and consequently cell expansion is compromised—rhd2 mutants have short root hairs^2,3 and stunted roots. To determine the regulation of Ca²⁺ acquisition in growing root cells we show here that RHD2 is an NADPH oxidase, a protein that transfers electrons from NADPH to an electron acceptor leading to the formation of reactive oxygen species (ROS). We show that ROS accumulate in growing wild-type (WT) root hairs but their levels are markedly decreased in rhd2 mutants. Blocking the activity of the NADPH oxidase with diphenylene iodonium (DPI) inhibits ROS formation and phenocopies Rhd2^-. Treatment of rhd2 roots with ROS partly suppresses the mutant phenotype and stimulates the activity of plasma membrane hyperpolarization-activated Ca²⁺ channels, the predominant root Ca²⁺ acquisition system. This indicates that NADPH oxidases control development by making ROS that regulate plant cell expansion through the activation of Ca²⁺ channels.