An alternative sigma factor governs the principal sigma factor in Streptomyces griseus.

In bacteria, the RNA polymerase holoenzyme comprises a five-subunit core enzyme and a dissociable subunit, sigma factor, which is responsible for transcriptional initiation. The filamentous bacterium Streptomyces griseus has 52 sigma factors, including one essential 'principal' sigma factor (σ(HrdB) ) that is responsible for the transcription of housekeeping genes. Here we characterized an alternative sigma factor (σ(ShbA) ), which is highly conserved within the genus Streptomyces. A σ(ShbA) -deficient mutant showed a severe growth defect and transcriptome analysis indicated that many housekeeping genes were downregulated in response to insufficient σ(ShbA) production. Biochemical and genetic analyses proved that σ(ShbA) is a major determinant of transcription of the σ(HrdB) gene. This observation of a principal sigma factor being governed by another sigma factor throughout growth is unprecedented. We found that increasing σ(ShbA) production with mycelial growth maintained a high σ(HrdB) level late in growth. Furthermore, a hrdB-autoregulatable σ(ShbA) -deficient mutant, in which the principal sigma factor gene can be transcribed by RNA polymerase containing σ(HrdB) itself, showed several defects: rapid mycelial lysis in stationary phase in liquid culture and delayed morphological development and impaired streptomycin production in solid culture. From these observations, we discuss the biological significance of control of σ(HrdB) by σ(ShbA) in S. griseus.