Abstract

All retroviruses require both unspliced and spliced RNA for a productive infection. One mechanism by which Rous sarcoma virus achieves incomplete splicing involves suboptimal env and src 3' splice sites. We have previously shown that mutagenesis of the nonconsensus src polypyrimidine tract to a 14-nucleotide uninterrupted polypyrimidine tract results in an oversplicing phenotype and a concomitant defective replication in permissive chicken embryo fibroblasts. In this report, we show that splicing at the src 3' splice site (3'ss) is further negatively regulated by the suppressor of src splicing cis element which is located approximately 100 nucleotides upstream of the src 3'ss. The increase in splicing at the src 3'ss results in a corresponding increase in splicing at a cryptic 5'ss within the env gene. Two classes of replication-competent revertants of the src oversplicing mutant (pSAP1) were produced after infection, and these mutants were characterized by molecular cloning and sequence analysis. Class I revertants are transformation-defective revertants in which the src 3'ss and the src gene are deleted by homologous recombination at several different sites within the imperfect direct repeat sequences that flank the src gene. Cells infected with these transformation-defective revertants produce lower levels of virus particles than cells infected with the wild-type virus. Class II revertants bear small deletions in the region containing the branchpoint sequence or polypyrimidine tract of the src 3'ss. Insertion of these mutated sequences into pSAP1 restored inefficient splicing at the src 3'ss and efficient replication in chicken embryo fibroblasts. All of these mutations caused reduced splicing at the src 3'ss when they were tested in an in vitro splicing system. These results indicate that maintenance of a weak src 3'ss is necessary for efficient Rous sarcoma virus replication.

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