Construction and testing of an intron-containing luciferase reporter gene fromRenilla reniformis

Abstract

We describe a newRenilla reniformis luciferase reporter gene,RiLUC, which was designed to allow detection of luciferase activity in studies involvingAgrobacterium-based transient expression studies. TheRLUC gene was altered to contain a modified intron from the castor bean catalase gene while maintaining consensus eukaryotic splicing sites recognized by the plant spliceosome.RLUC andRiLUC reporter genes were fused to the synthetic plant SUPER promoter. Luciferase activity within agrobacteria containing the SUPER-RLUC construct increased during growth in culture. In contrast, agrobacteria harboring the SUPER-RiLUC gene fusion showed no detectable luciferase activity. Agrobacteria containing these gene fusions were cotransformed with a compatible normalization plasmid containing a cauliflower mosaic virus 35S promoter (CaMV) joined to the firefly luciferase coding region (FiLUC) and infused into tobacco leaf tissues through stomatal openings. The kinetics of luciferase production from theRLUC orRiLUC reporters were consistent, with expression of theRiLUC gene being limited to transiently transformed plant cells.RiLUC activity from the reporter gene fusions was measured transiently and within stably transformed tobacco leaf tissues. Analysis of stably transformed tobacco plants harboring either reporter gene fusion showed that the intron altered neither the levels of luciferase activity nor tissue-specific expression patterns driven by the SUPER promoter. These results demonstrate that theRiLUC reporter gene can be used to monitor luciferase expression in transient and stable transformation experiments without interference from contaminating agrobacteria.