Interaction of Arabidopsis TGA3 and WRKY53 transcription factors on Cestrum yellow leaf curling virus (CmYLCV) promoter mediates salicylic acid-dependent gene expression in planta

Abstract

Several transcriptional promoters isolated from plant-infecting Caulimoviruses are being presently used worldwide as efficient tools for plant gene expression. The CmYLCV promoter has been isolated from the Cestrum yellow leaf curling virus (Caulimoviruses) and characterized more than 12 years ago; also we have earlier reported a near-constitutive, pathogen-inducible CmYLCV promoter fragment (−329 to +137 from transcription start site; TSS) that enhances stronger (3×) expression than the previously reported fragments; all these fragments are highly efficient in monocot and dicot plants (Sahoo et al. Planta 240: 855–875, 2014). Here, we have shown that the full-length CmYLCV promoter fragment (−729 to +137 from TSS) is salicylic acid (SA) inducible. In this context, we have performed an in-depth study to elucidate the factors responsible for SA-inducibility of the CmYLCV promoter. We found that the as-1 1 and W-box1 elements (located at −649 and −640 from the TSS) of the CmYLCV promoter are required for SA-induced activation by recruiting Arabidopsis TGA3 and WRKY53 transcription factors. Consequently, as a nascent observation, we established the physical interaction between TGA3 and WYKY53; also demonstrated that the N-terminal domain of TGA3 is sufficient for the interaction with the full-length WRKY53. Such interaction synergistically activates the CmYLCV promoter activity in planta. Further, we found that activation of the CmYLCV promoter by SA through TGA3 and WRKY53 interaction depends on NPR1. Finally, the findings presented here provide strong support for the direct regulatory roles of TGA3 and WRKY53 in the SA and NPR1-dependent activation of a Caulimoviral promoter (CmYLCV).