ZmEREB57 regulates OPDA synthesis and enhances salt stress tolerance through two distinct signal pathways in Zea mays

In plants, APETALA2/Ethylene-Responsive Factor (AP2/ERF)-domain transcription factors play important roles in regulating responses to biotic and abiotic types of stress. In this study, a novel AP2/ERF gene in maize, ethylene responsive element binding factor 57 (ZmEREB57), was identified by comparative transcriptomics, which was significantly upregulated under salt treatment; however, its function remained unclear. Our findings revealed that ZmEREB57 is a nuclear protein with transactivation activity, induced by a number of abiotic types of stress. What's more, two CRISPR/Cas9 knockout lines of ZmEREB57 conferred sensitivity to saline conditions. DNA affinity purification sequencing (DAP-Seq) analysis revealed that ZmEREB57 mainly binds to promoters containing the O-box like motif (CCGGCC) to regulate the expression of its target genes. Further experiments validated that ZmEREB57 directly bind to the promoter of ZmAOC2 involved in the synthesis of 12-oxo-phytodienoic acid (OPDA) and JA. Besides, transcriptome analysis identified a number of genes responded to both OPDA and JA treatment, while a different set of genes specifically responded specifically to OPDA, but not JA. Analysis of mutants deficient in the biosynthesis of OPDA and JA revealed that OPDA functions as a signaling molecule in the salt response. Our results provide evidence for ZmEREB57's involvement in salt tolerance by regulating OPDA and JA signaling, and confirm early observations that OPDA signaling can function independently of JA signaling in maize.