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ROS1-Dependent DNA Demethylation Is Required for ABA-Inducible NIC3 Expression.

June-Sik KimJoo Young LimHosub ShinBeom-Gi KimSang-Dong YooWoo Taek KimJin Hoe Huh
Published in: Plant physiology (2019)
DNA methylation plays an important role in diverse developmental processes in many eukaryotes, including the response to environmental stress. Abscisic acid (ABA) is a plant hormone that is up-regulated under stress. The involvement of DNA methylation in the ABA response has been reported but is poorly understood. DNA demethylation is a reverse process of DNA methylation and often induces structural changes of chromatin leading to transcriptional activation. In Arabidopsis (Arabidopsis thaliana), active DNA demethylation depends on the activity of REPRESSOR OF SILENCING 1 (ROS1), which directly excises 5-methylcytosine from DNA. Here we showed that ros1 mutants were hypersensitive to ABA during early seedling development and root elongation. Expression levels of some ABA-inducible genes were decreased in ros1 mutants, and more than 60% of their proximal regions became hypermethylated, indicating that a subset of ABA-inducible genes are under the regulation of ROS1-dependent DNA demethylation. Notable among them is NICOTINAMIDASE 3 (NIC3) that encodes an enzyme that converts nicotinamide to nicotinic acid in the NAD+ salvage pathway. Many enzymes in this pathway are known to be involved in stress responses. The nic3 mutants display hypersensitivity to ABA, whereas overexpression of NIC3 restores normal ABA responses. Our data suggest that NIC3 is responsive to ABA but requires ROS1-mediated DNA demethylation at the promoter as a prerequisite to transcriptional activation. These findings suggest that ROS1-induced active DNA demethylation maintains the active state of NIC3 transcription in response to ABA.
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