The requirement for a 5' stem-loop structure in brome mosaic virus replication supports a new model for viral positive-strand RNA initiation.

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J Virol. 1992 February; 66(2): 674-684

The requirement for a 5' stem-loop structure in brome mosaic virus replication supports a new model for viral positive-strand RNA initiation.

G P Pogue and T C Hall

Department of Biology, Texas A & M University, College Station 77843-3258.

ABSTRACT

Sequences with strong similarity to internal control regions1 and 2 (ICR1 and -2; A and B boxes) of tRNA genes are foundat the 5' termini of the genomic RNAs of brome mosaic virus(BMV) and other plant viruses. The functionality of these motifswas studied by introducing point mutations into the ICR2-likesequence of pRNA-2 M/S, a BMV RNA-2 deletion mutant that replicatesin the presence of RNAs-1 and -2 but does not encode a functionalviral protein. The accumulation of positive-strand progeny frompRNAs bearing single and double base substitutions was 70 to91% lower than that of the wild type, while the addition ofsingle bases at position 8 of this motif reduced replicationby 80%. These dramatic decreases in positive-strand synthesisparalleled decreases in transcription seen (C. Traboni, G. Ciliberto,and R. Cortese, Cell 36:179-187, 1984) from a tRNAPro gene containingsimilar mutations, suggesting comparable functions for the ICRregions in protein factor binding and demonstrating that a wild-typecomposition of the virus ICR2-like motif is required for properRNA replication. Substitutions introduced at bases surroundingthe ICR2 motif yielded levels of pRNA replication that differed,depending on the maintenance of a putative 5' stem-loop structurein the positive strand of the viral genome. Mutations disruptingthis positive-strand stem-loop while maintaining the integrityof the complementary negative-strand structure reduced pRNAreplication by 85 to 97%. In contrast, disruption of the negative-strandstructure while maintaining the positive-strand stem-loop didnot reduce pRNA replication. Similar positive-strand structurescan be predicted to form from 5' sequences of cucumber mosaicvirus (strain Q) and cowpea chlorotic mottle virus RNAs-1 and-2, supporting the concept that such structures comprise anintegral part of virus genomic positive-strand promoters. Therequirement of a stem-loop structure present on the positive-strandprovided the basis for a new model describing how these sequenceand structural elements act in the production of virus positive-strandRNA.

J Virol. 1992 February; 66(2): 674-684

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