Escherichia coli dnaA gene function and bacteriophage lambda replication.

Allele specificity of the Escherichia coli dnaA gene function in the replication of plasmids derived from bacteriophage lambda has been demonstrated previously. Here, using a series of dnaA temperature-sensitive mutants, we investigated dnaA allele specificity of the replication of phages lambda P+ and lambda Pts 1 pi A66. We found that phage lambda P+ produces its progeny efficiently at 43 degrees C irrespective of the dnaA allele, whereas lambda Pts 1 pi A66, which is unable to develop lytically in the dnaA+ host at this temperature, can replicate with different efficiency in certain dnaA mutants. Since the main role of DnaA in lambda development seems to be stimulation of transcription from the pR promoter, we measured the activity of this promoter (using a pR-lacZ fusion) and the abundance of pR-derived transcripts (by Northern blotting analysis) in dnaA+ host and dnaA(ts) mutants at 30 and 43 degrees C. We found significant differences in the activity of pR in various dnaA(ts) mutants at 30 degrees C, which indicate different levels of stimulation of this promoter by products of particular dnaA alleles at permissive temperature. Differential levels of DnaA-mediated stimulation of pR in various dnaA(ts) mutants were also found at 43 degrees C. Stimulation of the pR promoter by DnaA is necessary for both efficient production of the lambda replication proteins, O and P, and effective transcriptional activation of ori lambda. The differences in the efficiency of pR activation observed in dnaA mutants at 30 and 43 degrees C can explain the mechanisms of allele specificity of dnaA gene function in the replication of bacteriophage lambda and plasmids derived from this phage.