Both the 7-methyl and the 2'-O-methyl groups in the cap of mRNA strongly influence its ability to act as primer for influenza virus RNA transcription.

Abstract

The ability of eukaryotic mRNAs to serve as primers for influenza virus RNA transcription depends on the presence of a 5'-terminal methylated can structure, the absence of which eliminates essentially all priming activity [Plotch, S. J., Bouloy, M. & Krug, R. M. (1979) Proc. Natl. Acad. Sci. USA 76, 1618-1622]. The present study was undertaken to determine the extent to which each of the methyl groups in the cap influences the priming activity of a mRNA. To assess the importance of the 2'-O-methyl group on the penultimate base of the cap, we used several plant viral RNAs containing the monomethylated cap 0 structure, m7GpppG. Brome mosaic virus (BMV) RNA 4 stimulated influenza virus RNA transcription only about 10-15% as effectively as did globin mRNA, which has a cap with a 2'-O-methyl group. When the cap of BMV RNA 4 was enzymatically 2'-O-methylated, its priming activity was increased 14-fold. Qualitatively similar results were obtained with other plant virus RNAs. To assess the importance of the terminal 7-methyl group, BMV RNA 4 containing the cap structure GpppGm was prepared by a series of chemical and enzymatic steps. These molecules were found to be only about 15% as active in priming as BMV RNA 4 molecules containing the fully methylated cap, m7GpppGm, indicating that the terminal 7-methyl group also strongly enhances priming activity. These results indicate that the cap 1 structure (m7GpppXm) found in all mammalian cellular mRNAs is more stringently required for priming influenza virus RNA transcription than for translation in cell-free systems.