Pathway of promoter melting by Bacillus subtilis RNA polymerase at a stable RNA promoter: effects of temperature, delta protein, and sigma factor mutations
- PMID: 7599136
- DOI: 10.1021/bi00026a030
Pathway of promoter melting by Bacillus subtilis RNA polymerase at a stable RNA promoter: effects of temperature, delta protein, and sigma factor mutations
Erratum in
- Biochemistry 1995 Oct 31;34(43):14270
Abstract
Bacillus subtilis RNA polymerase (RNAP) contains a catalytic core (beta beta' alpha 2; or E) associated with one of several sigma factors, which determine promoter recognition, and delta protein, which enhances promoter selectivity. We have shown previously that specific mutations in sigma A region 2.3, or addition of delta, decrease the ability of RNAP to melt the ilv-leu promoter. Here we extend these studies to a stable RNA promoter, PtmS, which controls transcription of seven tRNA genes. KMnO4 footprinting was used to visualize DNA melting at PtmS as a function of both temperature and the protein composition of the RNAP holoenzyme. We propose that the pathway leading to productive initiation includes several intermediates: a closed complex (RPc), a complex in which DNA melting has nucleated within the conserved TATA element (RPn), and an open complex in which DNA-melting extends to at least -4 (RPo1). RNAP reconstituted with either of two mutant sigma A proteins, Y189A and W192A, was defective for both the nucleation and propagation of the transcription bubble while a third sigma A mutant, W193A, allows normal nucleation of DNA-melting, but does not efficiently propagate the melted region downstream.
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