The EMBO Journal Vol.18 No.20 pp.5653-5665, 1999
In vivo and in vitro characterization of an RNA replication enhancer in a satellite RNA associated with Turnip crinkle virus: comparison of sequences and structures stimulating primer-dependent and primer-independent RNA synthesis.
Peter D. Nagy*, Judit Pogany* and Anne E. Simon
*Department
of Plant Pathology, University of Kentucky, Lexington, KY 40546 and
**Department of Cell Biology and Molecular Genetics, University of
Maryland College Park, College Park, MD
20742
RNA
replication enhancers are cis-acting
elements that can stimulate replication or transcription of RNA viruses.
Turnip crinkle virus (TCV) and satC, a parasitic RNA associated with
TCV infections, contain stem-loop structures that are RNA replication
enhancers (P. Nagy, J. Pogany and A. E. Simon, EMBO J., 18:5653-5665, 1999). We have found that replacement of 28
nt of the satC enhancer, termed the motif1-hairpin, with 28 randomized
bases reduced satC accumulation 8- to 13-fold in Arabidopsis
thaliana protoplasts. Deletion of single-stranded flanking
sequences at either side of the hairpin also affected RNA accumulation
with combined alterations at both sides of the hairpin showing the most
detrimental effect in protoplasts.
In vitro analysis with a partially purified TCV RdRp preparation demonstrated that the motif1-hairpin in its minus-sense orientation was able to stimulate RNA synthesis from the satC hairpin promoter (located at the 3’ end of plus-strands) by almost 2-fold. This level of RNA synthesis stimulation is ~5-fold lower than that observed with a linear promoter, suggesting that a highly stable hairpin promoter is less responsive to the presence of the motif1-hairpin enhancer than a linear promoter. The motif1-hairpin in its plus-sense orientation was only 60% as active in enhancing transcription from the hairpin promoter. Since the motif1-hairpin is a hotspot for RNA recombination during plus-strand synthesis and since satC promoters located on the minus-strand are all short linear sequences, these findings support the hypothesis that the motif1-hairpin is primarily involved in enhancing plus-strand synthesis.