Abstract

Enhancers are one of the main classes of cis-regulatory elements (CREs) in the regulation of plant gene expression. Plant enhancers can be predicted based on genomic signatures associated with open chromatin. However, predicted enhancers need to be validated experimentally. We developed an experimental system for rapid enhancer validation. Predicted enhancer candidates are cloned into a vector containing a minimal 35S promoter and a luciferase reporter gene. The construct is then agroinfiltrated into Nicotiana benthamiana leaves followed by bioluminescence signal detection and analysis. Positive bioluminescence signals indicate the enhancer function of each candidate, and the relative signal strength from different enhancers can be quantitatively measured and compared. In summary, we have developed an efficient and rapid plant enhancer validation assay based on a bioluminescent luciferase reporter and agroinfiltration-based N. benthamiana leaf transient expression. This assay can be used for the initial screening of candidate enhancers that are active in leaf tissue. The system can potentially be used to examine the activity of candidate enhancers under different environmental conditions.

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