Subgenomic (sg) mRNAs are synthesized by (+)-strand RNA viruses to allow for efficient translation of products encoded 3' in their genomes. This strategy also provides a means for regulating the expression of such products via modulation of sg mRNA accumulation. We have studied the mechanism by which sg mRNAs levels are controlled in tomato bushy stunt virus, a small (+)-strand RNA virus which synthesizes two sg mRNAs during infections. Neither the viral capsid nor movement proteins were found to play any significant role in modulating the accumulation levels of either sg mRNA. Deletion analysis did, however, identify a 12-nt-long RNA sequence located approximately 1,000 nt upstream from the site of initiation of sg mRNA2 synthesis that was required specifically for accumulation of sg mRNA2. Further analysis revealed a potential base-pairing interaction between this sequence and a sequence located just 5' to the site of initiation for sg mRNA2 synthesis. Mutant genomes in which this interaction was either disrupted or maintained were analyzed and the results indicated a positive correlation between the predicted stability of the base-pairing interaction and the efficiency of sg mRNA2 accumulation. The functional significance of the long-distance interaction was further supported by phylogenetic sequence analysis which revealed conservation of base-pairing interactions of similar stability and relative position in the genomes of different tombusviruses. It is proposed that the upstream sequence represents a cis-acting RNA element which facilitates sg mRNA accumulation by promoting efficient synthesis of sg mRNA2 via a long-distance RNA-RNA interaction.