Abstract
Retroviruses whose gag and pol genes are in the same reading frame depend upon approximately 5% read-through of the gag UAG termination codon to make the gag-pol polyprotein. For murine leukemia virus, this read-through is dependent on a pseudoknot located eight nucleotides 3' of the UAG. Other retroviruses whose gag and pol genes are in the same frame can potentially form similar pseudoknots 3' of their UAG codons. Beyond the similar secondary structures, there is strong sequence conservation in the spacer region and in loop 2 of the pseudoknots. The detrimental effects of substitutions of several of these conserved spacer and loop 2 nucleotides in the murine leukemia virus sequence show their importance for the read-through process. The importance of specific nucleotides in loop 2 of the pseudoknot contrasts with the flexibility of sequence in loop 2 of the most intensively studied frameshift-promoting pseudoknot which occurs in infectious bronchitis virus. Two nucleotides in loop 2 of the murine leukemia virus pseudoknot, which were shown to be important by mutagenic analysis, display hypersensitivity to the single-strand specific nuclease, S1. They are likely to be particularly accessible or are in an unusually reactive conformation.
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