Sugarcane mosaic virus (SCMV) is a serious disease of monocotyledonous plants, including sugarcane, causing deterioration in both growth and productivity. RNA interference (RNAi) inhibits gene expression through RNA-mediated sequence-specific interactions and is considered an effective approach to control viral infection in plants. In this study, the SCMVCp gene encoding the coat protein (CP) was inserted into the pGreen-0179 plasmid in both sense and antisense orientations. Cauliflower mosaic virus (CaMV) and Zea mays ubiquitin (Ubi) promoters were selected to drive the transcription of the intron-hairpin constructs, called HpSCMVCp-CaMV and HpSCMVCp-Ubi, respectively. Transgenic sugarcane expressing these constructs was generated through Agrobacterium-mediated transformation. This transformation method produced a high percentage of transgenic plants for both HpSCMVCp-CaMV and HpSCMVCp-Ubi, as confirmed by PCR analysis. Southern blotting revealed a single stable insertion of the DNA target in the genome of transgenic sugarcane lines. After artificial virus infection, lines that developed mosaic symptoms were classified as susceptible, whereas those that remained green without symptoms were classified as resistant at 42 days post-inoculation. Immunoblotting revealed CP expression at 37 kDa in susceptible and non-transgenic sugarcane, but not in resistant lines. RT-PCR analysis confirmed viral Cp and Nib gene expression in susceptible lines and their absence in resistant lines. Interestingly, upon comparison of effectivity, CaMV and Ubi promoter-driven gene expression resulted in 57.69% and 82.35% resistant sugarcane lines, respectively. Thus, we concluded that RNAi is effective for inducing resistance against SCMV and that the Ubi promoter is an effective promoter for producing transgenic sugarcane.
Keywords: Coat protein; RNA interference; Sugarcane mosaic virus; Transgenic sugarcane; Viral resistance.