Abstract
The chemical and functional stability of the five vesicular stomatitis virus (VSV) messenger RNAs during infection of Chinese hamster ovary (CHO) cells was studied using the temperature-sensitive mutant, tsG114. By incubating infected cells at the nonpermissive temperature (39 °C), RNA synthesis was blocked and the five VSV mRNAs decayed chemically and functionally with a half-life of 1 to 1.5 h. However, all five VSV mRNAs were stable in vivo at 39 °C when protein synthesis was blocked with either cycloheximide or emetine. In contrast, when pactamycin was used to inhibit protein synthesis, the chemical and functional decay rates of the VSV mRNAs were indistinguishable from those observed in the absence of antibiotic. On the basis of the mode of action of each of the antibiotic inhibitors, these data imply that (a) ribosome movement along VSV mRNAs plays no role in their stabilities, and (b) each VSV mRNA contains a nuclease-sensitive site, at its 5′ end at or near the initiation site, which regulates its decay in vivo.
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