Promoter recognition by sigma-37 RNA polymerase from Bacillus subtilis

Abstract

Bacillus subtilis possesses at least five different forms of RNA polymerase holoenzyme which are distinguished by their sigma subunit and their promoter recognition specificity. Sigma-37 RNA polymerase, a minor form of RNA polymerase, recognizes a class of promoters, which includes promoters for genes transcribed early during endospore formation. We have used site-directed bisulfite mutagenesis to construct a series of single and multiple base substitutions in a promoter recognized by sigma-37 RNA polymerase. In vitro transcription analysis of this series of mutant promoters demonstrated that single base substitutions at positions -36, -16, -15 and -14 most dramatically reduced the efficiency of promoter utilization by sigma-37 RNA polymerase. These results support a model in which sigma-37 RNA polymerase recognizes its cognate promoters by interacting with a sequence of nucleotides near the -10 region and the -35 region of the promoter--a sequence not recognized by B. subtilis sigma-55 RNA polymerase or Escherichia coli RNA polymerase.