Chromium(VI) reduction inStreptomycessp. M7 mediated by a novel Old Yellow Enzyme

Abstract

Old Yellow Enzymes play key roles in several cellular processes and have become an important family of enzymes withbiotechnological potential. One of the major challenges of biotechnology consists of the bioremediation of co-polluted soilswith organic and inorganic compounds. In co-contaminated areas, chromium normally exists in its more toxic and carcinogenicform Cr(VI). Microorganisms can reduce this metal to the insoluble and less toxic Cr(III).Streptomycessp. M7 is a strain able toefficiently bioremediate polluted soils withγ-hexachlorocyclohexane and Cr(VI). The complete degradation pathway for γ-hexachlorocyclohexane was recently elucidated in this strain. In the present work, we confirmed the ability ofStreptomycessp.M7 to eliminate a high percentage of Cr(VI) from a synthetic culture medium. After a transcriptional study in the presence ofCr(VI), we also report the molecular cloning of a gene coding for an Old Yellow Enzyme with chromate reductase activity. Ourresults suggest that the elimination of Cr(VI) byStreptomycessp. M7 is directly related to the activity of this Old Yellow Enzyme.The importance of our work is in identifying for the first time an Old Yellow Enzyme with chromate reductase activity inStreptomycesand Actinobacteria. Finding this enzyme helps understand chromium homeostasis inStreptomycessp. M7, inaddition to opening a new research window related to Old Yellow Enzymes from Actinobacteria.