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Physiology, Biochemistry, and Applications of F420- and Fo-Dependent Redox Reactions

生物 氧化还原 生物物理学 生物化学 环境化学 化学 无机化学
作者
Chris Greening,F. Hafna Ahmed,A. Elaaf Mohamed,Brendon M. Lee,Gunjan Pandey,Andrew C. Warden,Colin Scott,John G. Oakeshott,Matthew C. Taylor,Colin J. Jackson
出处
期刊:Microbiology and Molecular Biology Reviews [American Society for Microbiology]
卷期号:80 (2): 451-493 被引量:177
标识
DOI:10.1128/mmbr.00070-15
摘要

SUMMARY 5-Deazaflavin cofactors enhance the metabolic flexibility of microorganisms by catalyzing a wide range of challenging enzymatic redox reactions. While structurally similar to riboflavin, 5-deazaflavins have distinctive and biologically useful electrochemical and photochemical properties as a result of the substitution of N-5 of the isoalloxazine ring for a carbon. 8-Hydroxy-5-deazaflavin (F o ) appears to be used for a single function: as a light-harvesting chromophore for DNA photolyases across the three domains of life. In contrast, its oligoglutamyl derivative F 420 is a taxonomically restricted but functionally versatile cofactor that facilitates many low-potential two-electron redox reactions. It serves as an essential catabolic cofactor in methanogenic, sulfate-reducing, and likely methanotrophic archaea. It also transforms a wide range of exogenous substrates and endogenous metabolites in aerobic actinobacteria, for example mycobacteria and streptomycetes. In this review, we discuss the physiological roles of F 420 in microorganisms and the biochemistry of the various oxidoreductases that mediate these roles. Particular focus is placed on the central roles of F 420 in methanogenic archaea in processes such as substrate oxidation, C 1 pathways, respiration, and oxygen detoxification. We also describe how two F 420 -dependent oxidoreductase superfamilies mediate many environmentally and medically important reactions in bacteria, including biosynthesis of tetracycline and pyrrolobenzodiazepine antibiotics by streptomycetes, activation of the prodrugs pretomanid and delamanid by Mycobacterium tuberculosis , and degradation of environmental contaminants such as picrate, aflatoxin, and malachite green. The biosynthesis pathways of F o and F 420 are also detailed. We conclude by considering opportunities to exploit deazaflavin-dependent processes in tuberculosis treatment, methane mitigation, bioremediation, and industrial biocatalysis.
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