Characterization of the oxygen-dependent promoter of the Vitreoscilla hemoglobin gene in Escherichia coli.

Abstract

The gene coding for the Vitreoscilla hemoglobin (VHb) molecule has been cloned and functionally expressed in Escherichia coli. By using a plasmid-encoded gene as well as single-copy integrants, the oxygen-dependent VHb gene (VHb) promoter was shown to be functional in E. coli. The promoter was maximally induced under microaerobic conditions (dissolved oxygen levels of less than 2% air saturation). Direct analysis of mRNA levels as well as the use of gene fusions with lacZ showed that oxygen-dependent regulation occurred at the level of transcription. Transcriptional activity decreased substantially under anaerobic conditions, suggesting the presence of a regulatory mechanism that is maximally induced under hypoxic but not completely anaerobic conditions in E. coli. Primer extension analysis was used to identify the existence of two overlapping promoters within a 150-base-pair region upstream of the structural VHb gene. The oxygen-dependent activity of both promoters was qualitatively similar, suggesting the existence of a common mechanism by which available oxygen concentrations influence expression from the two promoters. Analysis of promoter activity in crp and cya mutants showed that both cyclic AMP and catabolite activator protein were required for full activity of the promoter. The VHb promoter contained a region of significant homology to the catabolite activator protein-binding site near the E. coli lac promoter.