The RNA polymerase (RNAP) omega factor () forms a complex with the ␣ 2  core of this enzyme in bacteria. We have characterized the rpoZ gene of Streptomyces coelicolor, which encodes a small protein (90 amino acids) identified as the omega factor. Deletion of the rpoZ gene resulted in strains with a slightly reduced growth rate, although they were still able to sporulate. The biosynthesis of actinorhodin and, particularly, that of undecylprodigiosin were drastically reduced in the ⌬rpoZ strain, suggesting that expression of these secondary metabolite biosynthetic genes is dependent upon the presence of RpoZ in the RNAP complex. Complementation of the ⌬rpoZ mutant with the wild-type rpoZ allele restored both phenotype and antibiotic production. Interestingly, the rpoZ gene contains a PHO box in its promoter region. DNA binding assays showed that the phosphate response regulator PhoP binds to such a region. Since luciferase reporter studies showed that rpoZ promoter activity was increased in a ⌬phoP background, it can be concluded that rpoZ is controlled negatively by PhoP, thus connecting phosphate depletion regulation with antibiotic production and morphological differentiation in Streptomyces.In bacteria, the RNA polymerase (RNAP) complex plays a central role in transcription and is a target for regulation of primary metabolism (6,7,44). The rpoZ gene encodes the RNAP omega () subunit, which forms a complex with the ␣ 2 Ј core of this enzyme. The subunit has been identified in the RNAPs of most free-living bacteria. This protein is functionally homologous to the RpoK subunit of the archaeal RNA polymerase complex and the RPB6 subunit of the eukaryotic RNA polymerases I, II, and III (32). In Escherichia coli the subunit interacts with the Ј subunit and promotes assembly of the RNA polymerase complex (14, 32), although it is not essential for survival in this bacterium (13).Streptomyces spp. are soil-dwelling bacteria that are notorious for their ability to produce thousands of antibiotics, pigments, antitumor agents, immunomodulators, and a variety of other bioactive secondary metabolites (1, 2, 8). Differential expression of secondary metabolism genes occurs following nutrient depletion (34), but the transcriptional control mechanisms that govern the onset of secondary metabolites are still obscure (29). The rpoZ gene of Streptomyces kasugaensis has been shown to be required for antibiotic production and morphological differentiation but is not essential for growth (21). A DNA fragment containing the rpoZ gene was shown to complement an S. kasugaensis pleiotropic mutant deficient in aerial mycelium formation and kasugamycin biosynthesis. Although sigma factors in Streptomyces have received considerable attention in relation to the expression of antibiotic biosynthetic genes (9,19,20), the role of the RNAP subunit is still obscure.The expression of many genes involved in antibiotic biosynthesis is negatively controlled by the phosphate concentration in the medium (reviewed in references 28 and 30). Limitati...
