Viable deletions of the M13 complementary strand origin

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RESUMO

The single-stranded DNA of bacteriophage M13 is converted to a duplex replicative form by a mechanism involving RNA-primed initiation at a single unique site on the viral DNA. The DNA sequence that specifies the RNA primer is contained largely within one of two adjacent hairpin structures protected from DNase degradation by RNA polymerase. We have used in vitro techniques to construct a series of M13 mutants having deletions in the region of the complementary strand origin. Deletions of the duplex replicative form DNA range in size from 54 to 201 base pairs. The largest deletions remove both of the RNA polymerase-protected hairpins and the entire sequence specifying the primer RNA. Mutants lacking one or both hairpins form faint plaques, give reduced phage yields, and show a lag in phage production of >30 min. The rate of conversion of the single-stranded viral DNA to the parental replicative form is reduced both in vivo and in vitro. These results indicate that both the RNA polymerase-protected hairpins and the RNA primer-coding sequence are important, but not essential, for replication. Other sequences within the origin region, or possibly elsewhere in the genome, may play a role in complementary strand initiation in these mutant phages. The M13 viral strand is initiated by extension of the 3′ terminus generated by site-specific nicking of the viral strand of the replicative form DNA by the M13 gene II protein. This specific nicking site is retained in all of the M13 deletion mutants. Deletion end points do not extend into a 13-nucleotide sequence preceding the viral strand nicking site. We propose that a sequence including these 13 nucleotides is required for gene II protein action at this site.

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