Abstract
AbstractStilbenes are developmentally induced metabolites in Scots pine heartwood where they have important role in protecting wood from decaying fungi. The stilbene pathway is also stress inducible, and ultraviolet (UV)-C radiation was among the first discovered artificial stress activators of the pathway. Many conditions that activate the pathway are known, but the specific transcriptional regulators and the biosynthetic enzyme responsible for activating the stilbene precursor cinnamate in the pathway are unknown.Here we describe the first large-scale transcriptomic analysis of pine needles in response to UV-C exposure and treatment with translational inhibitor cycloheximide, both activating the transcription of stilbene pathway genes, to uncover the candidates for the transcriptional regulation of the pathway and the cinnamate activating CoA ligase. We show that the regulation of pine stilbene pathway has shared features with grapevine stilbene pathway. In both species, the stilbene pathway was transcriptionally activated after UV-C treatment, protein phosphatase inhibitors and plant hormones ethylene and jasmonate.The pine stilbene synthase promoter retains its inducibility when transformed in plants that normally do not synthesize stilbenes. Pine stilbene synthase promoter was able to activate the expression of a reporter gene in Arabidopsis in response to UV-C exposure and phosphatase inhibitors, but not as response to plant hormone treatment. This indicates that stilbene synthase gene regulation occurs both via ancient stress-response pathway(s) but also via species specific regulators. With transcriptomic approach we identified candidate enzymes for cinnamate acting CoA ligase and transcription factors regulating the pathway.
Publisher
Cold Spring Harbor Laboratory