Genetic variation occurring on the genome of an in vitro insertion mutant of poliovirus type 1.

An insertion sequence of 72 nucleotides prepared from a polylinker sequence of plasmid pUC18 was introduced at nucleotide position 702 of the 5' noncoding sequence (742 nucleotides long) of the genome of the Sabin strain of poliovirus type 1 by using an infectious cDNA clone of the virus strain. The insertion mutant thus obtained showed a small-plaque phenotype compared with that of the parent virus. Apparent revertants (large-plaque variants) were easily generated from the insertion mutant. Nucleotide sequence analysis was performed on the revertant genomes to determine the mutation(s) by which the plaque size of the parent virus was regained. Some large-plaque variants lacked genomic sequences including all or a part of the insertion sequence. A computer-aided search for secondary structures with respect to the deletion sites detected possible supporting sequences which provided fairly stable secondary structures at the deletion sites. This result was consistent with our supporting sequence-loop model which had been proposed as a new copy-choice model for the generation of genetic rearrangements occurring on single-stranded RNA genomes (S. Kuge, I. Saito, and A. Nomoto, J. Mol. Biol. 192:473-487, 1986). The other large-plaque variants had point mutations at any one of three positions of an AUG existing in the insertion sequence. A small-plaque phenotype was observed when an AUG codon was inserted in frame or out of frame with regard to the initiation site of viral polyprotein synthesis. Our data strongly suggest that an AUG sequence in this genome region is deleterious for efficient poliovirus replication.