The main early and late promoters ofBacillus subtilisphage ø29 form unstable open complexes with σA-RNA polymerase that are stabilized by DNA supercoiling

Abstract

Most Escherichia coli promoters studied so far form stable open complexes with σ⁷⁰-RNA polymerase which have relatively long half-lives and, therefore, are resistant to a competitor challenge. A few exceptions are nevertheless known. The analysis of a number of promoters in Bacillus subtilis has suggested that the instability of open complexes formed by the vegetative σ^A polymerase may be a more general phenomenon than in Escherichia coli. We show that the main early and late promoters from the Bacillus subtilis phage ø29 form unstable open complexes that are stabilized either by the formation of the first phosphodlester bond between the initiating nucleoside triphosphates or by DNA supercoiling. The functional characteristics of these two strong promoters suggest that they are not optimized for a tight and stable RNA polymerase binding. Their high activity is probably the consequence of the efficiency of further steps leading to the formation of an elongation complex.