Abstract

To facilitate manipulation of brome mosaic virus (BMV) RNA replicons in Saccharomyces cerevisiae and for yeast genetic analysis of BMV RNA replication, gene expression, and host interactions, we constructed DNA plasmids from which BMV RNA3 and RNA3 derivatives can be transcribed in vivo from the galactose-inducible yeast GAL1 promoter and terminated by a self-cleaving ribozyme at or near their natural 3' ends. In galactose-induced yeast harboring such plasmids, expression of BMV RNA replication proteins 1a and 2a led to synthesis of negative-strand RNA3, amplification of positive-strand RNA3 to levels over 45-fold higher than those of DNA-derived RNA3 transcripts, and synthesis of the RNA3-encoded subgenomic mRNA for coat protein. Although the GAL1 promoter initiated transcription from multiple sites, 1a and 2a selectively amplified RNA3 with the authentic viral 5' end. As expected, reporter genes substituted for the 3'-proximal coat protein gene could not be translated directly from DNA-derived RNA3 transcripts, so their expression depended on 1a- and 2a-directed subgenomic mRNA synthesis. In yeast in which DNA transcription of B3CAT, an RNA3 derivative with the chloramphenicol acetyltransferase (CAT) gene replacing the coat gene, was induced, CAT activity remained near background levels in the absence of 1a and 2a but increased over 500,000-fold when 1a and 2a were expressed. Similarly, a plasmid encoding B3URA3, an RNA3 derivative with the yeast URA3 gene replacing the coat gene, conferred uracil-independent growth to ura3- yeast only after 1a and 2a expression and galactose induction. Once its 1a- and 2a-dependent replication was initiated, B3URA3 was maintained in dividing yeast as a free RNA replicon, even after repression of the GAL1 promoter or the loss of the B3URA3 cDNA plasmid. These findings should be useful for many experimental purposes.

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