Chromate-Reducing Properties of Soluble Flavoproteins from Pseudomonas putida and Escherichia coli

铬酸盐转化膜 恶臭假单胞菌 化学 黄素组 生物修复 半醌 生物化学 氧化还原 细菌 无机化学 生物 有机化学 遗传学
作者
David F. Ackerley,C. F. Gonzalez,C. H. Park,Robert C. Blake,M. Keyhan,A. Matin
出处
期刊:Applied and Environmental Microbiology [American Society for Microbiology]
卷期号:70 (2): 873-882 被引量:301
标识
DOI:10.1128/aem.70.2.873-882.2004
摘要

ABSTRACT Cr(VI) (chromate) is a toxic, soluble environmental contaminant. Bacteria can reduce chromate to the insoluble and less toxic Cr(III), and thus chromate bioremediation is of interest. Genetic and protein engineering of suitable enzymes can improve bacterial bioremediation. Many bacterial enzymes catalyze one-electron reduction of chromate, generating Cr(V), which redox cycles, generating excessive reactive oxygen species (ROS). Such enzymes are not appropriate for bioremediation, as they harm the bacteria and their primary end product is not Cr(III). In this work, the chromate reductase activities of two electrophoretically pure soluble bacterial flavoproteins—ChrR (from Pseudomonas putida ) and YieF (from Escherichia coli )—were examined. Both are dimers and reduce chromate efficiently to Cr(III) ( k cat / K m = ∼2 × 10 4 M −1 · s −1 ). The ChrR dimer generated a flavin semiquinone during chromate reduction and transferred >25% of the NADH electrons to ROS. However, the semiquinone was formed transiently and ROS diminished with time. Thus, ChrR probably generates Cr(V), but only transiently. Studies with mutants showed that ChrR protects against chromate toxicity; this is possibly because it preempts chromate reduction by the cellular one-electron reducers, thereby minimizing ROS generation. ChrR is thus a suitable enzyme for further studies. During chromate reduction by YieF, no flavin semiquinone was generated and only 25% of the NADH electrons were transferred to ROS. The YieF dimer may therefore be an obligatory four-electron chromate reducer which in one step transfers three electrons to chromate and one to molecular oxygen. As a mutant lacking this enzyme could not be obtained, the role of YieF in chromate protection could not be directly explored. The results nevertheless suggest that YieF may be an even more suitable candidate for further studies than ChrR.
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