A gene homologous to the Escherichia coli dnaA gene and two flanking 'regulatory' regions which contain nine and four DnaA-boxes respectively, are located in the replication origin region of the Bacillus subtilis chromosome. Attempts to isolate an autonomously replicating fragment from these 'regulatory' regions in order to identify oriC have been unsuccessful because the DnaA-box-containing regions strongly inhibited plasmid transformation particularly when inserted into a high-copy number plasmid pUB110. Using two plasmids differing in copy number, the two regions were subdivided into three regions, A, B and C, each containing five, four and four DnaA-boxes respectively, which differed in level of inhibition of transformation. Region C is downstream of the 'dnaA' gene and inhibits transformation in high-copy but not in low-copy number plasmids. When a part of the DnaA-boxes was deleted from the incompatible plasmids, they became transformable and produced slow-growing transformants in which the initiation frequency of chromosomal replication was selectively reduced. Fast-growing revertants were found containing the same number of plasmids as the parent but with single base changes in the DnaA-boxes. These mutations were in the most highly conserved bases of the DnaA-box sequence. This indicates that a sequence-specific interaction of the DnaA-box, probably with the B. subtilis DnaA protein is responsible for the observed incompatibility and thus appears to be involved in control of initiation frequency of the chromosomal replication.