The synthesis of the peptide antibiotic microcin B17 was shown to occur as the cells entered the stationary phase of growth. This type of growth phase regulation is commonly observed in the production of a number of different bacterial products such as toxins and antibiotics. Microcin B17 synthesis is also dependent on the product of the ompR gene. To determine the role of transcription in this double regulation of microcin B17 production, operon fusions with Mu d1 (Ap lac) were constructed. Insertions were obtained in all four plasmid genes involved in production of microcin B17 (mcbA-D) and in the immunity region. Three classes of fusions were obtained. Fusions into mcbA, mcbB, and mcbC (first class) exhibited an increase in their transcription as the cells approached the stationary phase. These increases as well as basal levels of transcription were dependent on OmpR. Expression of fusions in mcbD and in the immunity region (second class) was also dependent on OmpR, but their expression remained constant throughout growth. One fusion in mcbC (third class) was obtained which was transcribed in the opposite direction than the others. It showed no growth phase regulation and no OmpR dependence. The implications of these results in terms of the transcriptional organization of the mbc genes are discussed.