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Exploring the puzzle of reactive oxygen species acting on root hair cells

Leonel E. Lopez, Miguel Angel Ibeas, Gabriela Díaz Domínguez, José M. Estevez

2024Journal of Experimental Botany13 citationsDOI

Abstract

Reactive oxygen species (ROS) are essential signaling molecules that enable cells to respond rapidly to a range of stimuli. The ability of plants to recognize various stressors, incorporate a variety of environmental inputs, and initiate stress-response networks depends on ROS. Plants develop resilience and defensive systems as a result of these processes. Root hairs are central components of root biology since they increase the surface area of the root, anchor it in the soil, increase its ability to absorb water and nutrients, and foster interactions between microorganisms. In this review, we specifically focused on root hair cells and we highlighted the identification of ROS receptors, important new regulatory hubs that connect ROS production, transport, and signaling in the context of two hormonal pathways (auxin and ethylene) and under low temperature environmental input related to nutrients. As ROS play a crucial role in regulating cell elongation rates, root hairs are rapidly gaining traction as a very valuable single plant cell model for investigating ROS homeostasis and signaling. These promising findings might soon facilitate the development of plants and roots that are more resilient to environmental stressors.

Topics & Concepts

Reactive oxygen speciesCell biologyBiologyContext (archaeology)AuxinBiochemistryGenePaleontologyPlant responses to water stressPlant Stress Responses and TolerancePlant nutrient uptake and metabolism
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