Sequence organization of replication origin of the Escherichia coli K-12 chromosome.

A sequence of 245 base-pairs (oriC) in the replication origin of the Escherichia coli K-12 chromosome has been shown to provide all the information essential for initiation of bidirectional replication. In order to elucidate the sequence organization of oriC, numerous mutants carrying a single-to-multiple transitions from G X C to A X T base-pair were constructed by localized mutagenesis in vitro, which uses sodium bisulfite, and the correlation between the mutation sites and replicating ability (Ori function) was systematically analyzed. By isolating non-defective (Ori+) mutants with multiple base changes, transitions at 71 positions among 101 G X C pairs in oriC were found to have no effect on Ori function. Investigation of defective (Ori-) mutants, on the other hand, showed that individual replacements at 18 positions were detrimental to Ori function to some extent. These irreplaceable G X C pairs fell in the positions where no substitution was detected in the Ori+ mutants. The defect of the Ori- mutants with a single base substitution was generally weaker than that of the previously constructed Ori- mutants lacking a part of oriC. The addition of two or more base changes each giving a faint Ori- phenotype, however, resulted in a more intensive Ori- phenotype. We have previously demonstrated that oriC contains several regions where deletion or insertion of oligonucleotides leads to strong Ori- phenotypes. Transitions in those areas did not cause any defect of Ori function. Combining present results on base substitution mutants with the previous observations together, we assumed that the oriC sequence provides multiple interaction sites with replication initiation factors, and the precise arrangement of these sites are required for Ori function.