Intracellular amplification and expression of a synthetic analog of rotavirus genomic RNA bearing a foreign marker gene: mapping cis-acting nucleotides in the 3'-noncoding region.

cDNAs were constructed to encode plus- or minus-sense analogs of gene 9 RNA of porcine rotavirus strain OSU in which the bacterial chloramphenicol acetyltransferase (CAT) reporter gene was flanked by the 5'-terminal 44 nucleotides (nt) and 3'-terminal 35 nt of the authentic rotavirus gene. Transfection of plus-sense gene-9-CAT RNA into rotavirus-infected cells resulted in its amplification and in the efficient expression of CAT; this was greatly enhanced by the presence of a 5' cap structure. Amplification was ablated by omitting the rotavirus superinfection or by removing the 3'-terminal 35-nt rotavirus sequence from the RNA. This result indicated that amplification depended both on rotavirus proteins supplied in trans and on cis-acting rotavirus sequences. Minus-sense or double-stranded gene-9-CAT RNA was essentially inactive, indicating that synthetic RNAs can be introduced into the rotavirus replicative cycle in vivo only when provided in the plus sense. However, incorporation of the CAT-bearing RNA into infectious rotavirus was not detected. Two heterologous rotaviruses, the simian RRV and chicken Ch2 strains, efficiently complemented the OSU-based gene-9-CAT RNA, even though the Ch2 strain was only 50%-66% related in the noncoding regions. Mutational analysis of the 35-nt 3'-noncoding region showed that the 3'-terminal 12 or 17 nt were sufficient for reduced (12% or 23%, respectively) levels of amplification, whereas inclusion of the 3'-terminal 19 nt fully restored amplification. Thus, the 3'-terminal cis-acting signals required for amplification include the 7-nt-terminal consensus sequence together with 12 nt of adjoining, less-well-conserved sequence.