Mutational analysis of the primer RNA template region in the replication origin (oric) of bacteriophage G4: priming signal recognition by Escherichia coli primase.

The primase-dependent phage G4 origin of complementary DNA strand synthesis (G4oric) contains three stable stem-loops (I, II, and III) upstream from the initiation point of primer RNA (pRNA). Site-directed mutagenesis was used to introduce alterations into the nucleotide (nt) sequence of the G4oric pRNA template region. Mutations in stem-loop I, that changed the length of the stem and the sequence of the loop, slightly depressed, but did not abolish, G4oric activity. However, functional G4oric activity was destroyed when the sequence containing the starting position of pRNA synthesis was deleted, or when insertions were introduced between the pRNA starting position (5'-CTG-3') and stem-loop I. Reintroducing a CTG as part of a PstI linker close to stem-loop I, however, resulted in recovery of G4oric functional activity. These results suggest that the specific nt sequence, containing 5'-CTG-3', between nt 3994 and 4007, and also the distance between the starting position of pRNA synthesis and stem-loop I, are essential structural features for G4oric function.