Identification of regions affecting virulence, RNA processing and infectivity in the virulent satellite of turnip crinkle virus.

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Turnip crinkle virus (TCV) supports a small family of satellite RNAs (RNAs C, D and F). RNA C is a virulent satellite, producing severe symptoms in host plants, while RNAs D and F are avirulent satellites. The virulent satellite (RNA C) has two major domains--a 5'-domain similar to the avirulent satellites and a 3'-domain similar to the 3'-end of the TCV genome. To demonstrate that the 3'-domain of RNA C determines virulence, a chimeric satellite was constructed composed mostly of the 5'-domain of the avirulent satellite (RNA F) and the 3'-domain of the virulent satellite (RNA C). To locate other functional regions, small DNA fragments were inserted or deleted at various sites in the cDNA of virulent satellite (RNA C). Most small internal deletions and insertions in the midsection of the molecule had no detectable effects while those near the 3'-end of RNA C destroyed infectivity. Modifications in a small region centering on an AGCAGC repeat in the domain of satellite homology blocked the accumulation of monomers and presumably the processing of RNA C. Other modifications in this region produced more intense symptoms. Hence, these experiments reveal regions of the satellite which determine virulence, are essential for infectivity, affect monomer accumulation (RNA processing) and modulate symptom expression.