Chemiluminescence-Based Assay to Monitor Early Oxidative Bursts in Soybean (Glycine max) Lateral Roots

Abstract

The reactive oxygen species (ROS) burst assay is a valuable tool for studying pattern-triggered immunity (PTI) in plants. During PTI, the interaction between pathogen recognition receptors (PRRs) and pathogen-associated molecular patterns (PAMPs) leads to the rapid production of ROS in the apoplastic space. The resultant ROS can be measured using a chemiluminescent approach that involves the usage of horseradish peroxidase and luminol. Although several methods and protocols are available to detect early ROS bursts in leaf tissues, no dedicated method is available for root tissues. Here, we have established a reliable method to measure the PAMP-triggered ROS burst response in soybean lateral roots. In plants, lateral roots are the potential entry and colonization sites for pathogens in the rhizosphere. We have used important PAMPs such as chitohexaose, flagellin 22 peptide fragment, and laminarin to validate our method. In addition, we provide a detailed methodology for the isolation and application of fungal cell wall components to monitor the oxidative burst in soybean lateral roots. Furthermore, we provide methodology for performing ROS burst assays in soybean leaf discs with laminarin and fungal cell walls. This approach could also be applied to leaf and root tissues of other plant species to study the PTI response upon elicitor treatment