Diverse environmental cues transiently regulate OsOPR1 of the "octadecanoid pathway" revealing its importance in rice defense/stress and development

Abstract

Previously, we reported rice (Oryza sativa L. japonica type cv. Nipponbare) allene oxide synthase (OsAOS) and cyclase (OsAOC) genes of the octadecanoid pathway. Here we have isolated a 12-oxo-phytodienoic acid reductase gene, called OsOPR1, encoding the last committed enzymatic step on the octadecanoid pathway leading to jasmonic acid (JA) biosynthesis. OsOPR1 encodes a 380 amino acid long polypeptide with a predicted molecular mass of 42465.02 and pI of 5.79, and belongs to a gene family in the rice genome. Transcriptional profiling using our established two-week-old rice seedling model system against a variety of environmental factors such as wounding, global signals (including JA), osmotic stresses, heavy metals, UV-C irradiation, fungal elicitor, protein phosphatase inhibitors, and gaseous pollutants indicated that OsOPR1 transcript was rapidly, transiently and differentially up-regulated within 30 min in leaves. Surprisingly, co-application of signaling molecules JA, salicylate and ethylene, resulted in a massive accumulation of the OsOPR1 transcript at 30 min and remained elevated with time, a new observation. Furthermore, transient expression of OsOPR1, most likely regulated by a de novo synthesized negative trans-acting factor(s), was evidenced by the use of cycloheximide. Finally, the endogenous OsOPR1 expression varied with the stage of plant development. These results strongly suggest a regulatory role for OsOPR1 in rice plant defense/stress response pathway(s) and reproduction.