Comparative studies on ribonucleic acid dependent RNA polymerases in cucumber mosaic virus infected cucumber and tobacco and uninfected tobacco plants.

RNA-dependent RNA polymerases have been isolated in almost pure form from cucumber mosaic virus (CMV) infected cucumber cotyledons and from tobacco leaves and were compared with the less pure enzyme from uninfected tobacco. The purified polymerase from cucumber shows on sodium dodecyl sulfate gels two peptide chains of about 100 and 112 kdaltons. The enzyme from tobacco shows a close doublet of about 125 kdaltons, which is also present in the less pure preparation from healthy tobacco. While both the cucumber and tobacco enzymes can use many polynucleotides and RNAs as templates, considerable quantitative differences exist, poly(C) being by far the most effective template for the cucumber enzyme but of low activity with the tobacco enzyme and poly(UG) being highly active with the latter but not the former. Poly(A) and poly(G) are inactive. Different viral RNAs, including CMV RNA, show smaller differences. The sedimentation rates of the enzyme from both sources are the same as that of gamma-globulin. A uridine 5'-triphosphate (UTP) terminal transferase also present in both plants sediments much more slowly and can be completely removed from the RNA polymerases. However, slight nucleolytic activity remains associated with the purified polymerases and appears to be proportional to the polymerase activity. The conclusion derived from these data is that the RNA-dependent RNA polymerases of different plants differ and are not detectably affected by virus infection in qualitative terms while being produced in greatly increased amounts upon some virus infections. Similar conclusions were previously reached with less purified enzyme preparations from tobacco as compared to cowpea, infected with different viruses, if any.