Vaccinia virus (VACV) is a prototypical poxvirus originally used for eradication of smallpox. Investigation into VACV mRNAs carried out almost half a century ago substantially contributed to the fundamental discovery of the 5' mRNA cap, a hallmark of all eukaryotic and many viral mRNAs.
VACV research also facilitated the identification and understanding of the general mechanism of 5' mRNA cap synthesis. We characterized the VACV transcripts at the individual mRNA molecule level and found that vaccinia postreplicative mRNAs, containing nontemplated 5' poly(A) leaders, surprisingly lack the 5' cap structure in vivo.
We showing that 5' cap occurrence in viral mRNAs gradually decreases in each successive gene time classes, in contrast to the reciprocal increase in 5' poly(A) leader lengths, and that these two variables are mutually negatively correlated. We also demonstrate that the initiator region element (INR) directly or indirectly inuences both the frequency of 5' mRNA capping and the occurrence of 5' poly(A) leaders, including their lengths in postreplicative VACV mRNAs.