Development of a two-part transcription probe to determine the completeness of temporal and spatial compartmentalization of gene expression during bacterial development

Abstract

We have developed a two-part test, using the Bacillus subtilis sacB/SacY transcription antitermination system, to evaluate the completeness of temporal and spatial compartmentalization of gene expression during bacterial cell development. Transcription of sacY(1–55) (encoding a constitutively active form of the antiterminator, SacY) is directed by one promoter, whereas transcription of sacB′-′lacZ (the target of SacY action) is directed by the same or another promoter. To obtain β-galactosidase activity, SacY(1–55) needs to be present when sacB′-′lacZ is being transcribed. We tested the system by analyzing the spatial compartmentalization of the activities of RNA polymerase σ factors, which are tightly regulated during sporulation of B. subtilis: σ^F and then σ^G in the prespore, σ^E and then σ^K in the mother cell. We have confirmed that the activities of σ^F and σ^E are spatially compartmentalized. We have demonstrated that there is also sharp temporal compartmentalization, with little or no overlap in the activities of σ^F and σ^G or of σ^E and σ^K. In contrast, we found no compartmentalization of the activity of the main vegetative factor, σ^A, which continued to be active alongside all of the sporulation-specific σ factors. We also found no temporal compartmentalization of expression of loci that are activated during the development of competent cells of B. subtilis, a developmental program distinct from spore formation. A possible mechanism to explain the temporal compartmentalization of σ^F and σ^G activities is that the anti-sigma factor SpoIIAB transfers from σ^G to σ^F.