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ABSTRACT: Unspliced cytoplasmic retroviral RNA in chronically infected cells either is encapsidated by Gag proteins in the manufacture of virus or is used to direct synthesis of Gag proteins. Several models have been suggested to explain the sorting of viral RNA for these two purposes. Here we present evidence supporting a simple biochemical mechanism that accounts for the routing of retroviral RNA. Our results indicate that ribosomes compete with the Gag proteins to determine the fate of nascent retroviral RNA. Although the integrity of the entire Rous sarcoma virus leader sequence is important for retroviral packaging and translation, the RNA structure around the third small open reading frame, which neighbors the psi site required for packaging of the RNA, is particularly critical for maintenance of the balance between translation and packaging. These results support the hypothesis that Gag proteins autogenously regulate their synthesis and encapsidation of retroviral RNA and that an equilibrium exists between RNA destined for translation and packaging that is based on the intracellular levels of Gag proteins and ribosomes. To test the model, mRNAs with natural or mutated 5' leader sequences from Rous sarcoma virus were expressed in avian cells in the presence and absence of Pr76gag. We demonstrate that Pr76gag acts as a translational repressor of these mRNAs in a dose-dependent manner, supporting the hypothesis that Pr76gag can sort retroviral RNA for translation and encapsidation.
Journal of Virology 11/1996; 70(10):6642-52. · 5.40 Impact Factor
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ABSTRACT: The Rous sarcoma virus (RSV) leader RNA has three short open reading frames (ORF1 to ORF3) which are conserved in all avian sarcoma-leukosis retroviruses. Effects on virus propagation were determined following three types of alterations in the ORFs: (i) replacement of AUG initiation codons in order to prohibit ORF translation, (ii) alterations of the codon context around the AUG initiation codon to enhance translation of the normally silent ORF3, and (iii) elongation of the ORF coding sequences. Mutagenesis of the AUG codons for ORF1 and ORF2 (AUG1 and AUG2) singly or together delayed the onset of viral replication and cell transformation. In contrast, mutagenesis of AUG3 almost completely suppressed these viral activities. Mutagenesis of ORF3 to enhance its translation inhibited viral propagation. When the mutant ORF3 included an additional frameshift mutation which extended the ORF beyond the initiation site for the gag, gag-pol, and env proteins, host cells were initially transformed but died soon thereafter. Elongation of ORF1 from 7 to 62 codons led to the accumulation of transformation-defective virus with a delayed onset of replication. In contrast, viruses with elongation of ORF1 from 7 to 30 codons, ORF2 from 16 to 48 codons, or ORF3 from 9 to 64 codons, without any alterations in the AUG context, exhibited wild-type phenotypes. These results are consistent with a model that translation of the ORFs is necessary to facilitate virus production.
Journal of Virology 08/1993; 67(7):4337-49. · 5.40 Impact Factor
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ABSTRACT: Three short open reading frames (ORFs) reside in the 5' leader of Rous sarcoma virus (RSV) and are conserved in all avian sarcoma-leukosis retroviruses. Both extensions of the lengths of the ORFs and alterations in their initiation codons affect viral replication and gene expression. To determine whether the effects on viral replication were due to translational regulation mediated by the ORFs, we examined translation following mutation of the initiation and termination codons of each of the three ORFs. We found that the ORFs marginally enhanced downstream gene expression. Moreover, repression of downstream gene translation was proportional to the lengths of the elongated ORFs and depended on the initiation contexts of the AUG codons. Although the ORFs play a major role in viral activities, their effects on translation were relatively minor. Rather, the ORFs may affect the fate of unspliced avian retroviral RNA in chronically infected cells by participating in the sorting of viral RNA for either translation or encapsidation into virions.
Journal of Virology 08/1993; 67(7):4350-7. · 5.40 Impact Factor
