Cytochrome bd oxidase has an important role in sustaining growth and development of Streptomyces coelicolor A3(2) under oxygen-limiting conditions

Abstract

Streptomyces coelicolor A3(2) is a filamentously growing, spore-forming, obligately aerobic actinobacterium that uses both a copper aa3-type cytochrome c oxidase and a cytochrome bd oxidase to respire oxygen. Using defined knockout mutants, we demonstrated that either of these terminal oxidases was capable of allowing the bacterium to grow and complete its developmental cycle. The genes encoding the bcc complex and the aa3 oxidase are clustered at a single locus. Using Western blot analyses, we showed that the bcc-aa3 oxidase branch is more prevalent in spores than the bd oxidase. The level of the catalytic subunit, CydA, of the bd oxidase was low in spore extracts derived from the wild type, but it was upregulated in a mutant lacking the bcc-aa3 supercomplex. This indicates that cytochrome bd oxidase can compensate for the lack of the other respiratory branch. Components of both oxidases were abundant in growing mycelium. Growth studies in liquid medium revealed that a mutant lacking the bcc-aa3 oxidase branch grew approximately half as fast as the wild type, while the oxygen reduction rate of the mutant remained close to that of the wild type, indicating that the bd oxidase was mainly functioning in controlling electron flux. Developmental defects were observed for a mutant lacking the cytochrome bd oxidase during growth on buffered rich medium plates with glucose as the energy substrate. Evidence based on using the redox-cycling dye methylene blue suggested that cytochrome bd oxidase is essential for the bacterium to grow and complete its developmental cycle under oxygen limitation.