Cloning, characterization, and expression in Escherichia coli of the genes encoding the cytochrome d oxidase complex from Azotobacter vinelandii.

Azotobacter vinelandii is a free-living nitrogen-fixing bacterium that has one of the highest respiratory rates of all aerobic organisms. Based on various physiological studies, a d-type cytochrome has been postulated to be the terminal oxidase of a vigorously respiring but apparently uncoupled branch of the electron transport system in the membranes of this organism. We cloned and characterized the structural genes of the two subunits of this oxidase. The deduced amino acid sequences of both subunits of the A. vinelandii oxidase have extensive regions of homology with those of the two subunits of the Escherichia coli cytochrome d complex. Most notably, the histidine residues proposed to be the axial ligands for the b hemes of the E. coli oxidase and an 11-amino-acid stretch proposed to be part of the ubiquinone binding site are all conserved in subunit I of the A. vinelandii oxidase. The A. vinelandii cytochrome d was expressed in a spectrally and functionally active form in the membranes of E. coli, under the control of the lac or tac promoter. The spectral features of the A. vinelandii cytochrome d expressed in E. coli are very similar to those of the E. coli cytochrome d. The expressed oxidase was active as a quinol oxidase and could reconstitute an NADH to oxygen electron transport chain.