The Mismetallation of Enzymes during Oxidative Stress

The Mismetallation of Enzymes during Oxidative Stress

Mononuclear iron enzymes can tightly bind non-activating metals. How do cells avoid mismetallation? The model bacterium Escherichia coli may control its metal pools so that thermodynamics favor the correct metallation of each enzyme. This system is disrupted, however, by superoxide and hydrogen pero...

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Veröffentlicht in:The Journal of biological chemistry 2014-10, Vol.289 (41), p.28121-28128
1. Verfasser: Imlay, James A.
Format: Artikel
Sprache:eng
Schlagworte:
Cations, Divalent
Escherichia coli - chemistry
Escherichia coli - enzymology
Escherichia coli - genetics
Escherichia coli Proteins - chemistry
Escherichia coli Proteins - genetics
Escherichia coli Proteins - metabolism
Gene Expression
Hydrogen Peroxide - chemistry
Iron - chemistry
Iron - metabolism
Manganese - chemistry
Manganese - metabolism
Metalloproteins - chemistry
Metalloproteins - genetics
Metalloproteins - metabolism
Minireviews
Oxidation-Reduction
Oxidative Stress
Structure-Activity Relationship
Superoxides - chemistry
Zinc - chemistry
Zinc - metabolism
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Zusammenfassung:Mononuclear iron enzymes can tightly bind non-activating metals. How do cells avoid mismetallation? The model bacterium Escherichia coli may control its metal pools so that thermodynamics favor the correct metallation of each enzyme. This system is disrupted, however, by superoxide and hydrogen peroxide. These species oxidize ferrous iron and thereby displace it from many iron-dependent mononuclear enzymes. Ultimately, zinc binds in its place, confers little activity, and imposes metabolic bottlenecks. Data suggest that E. coli compensates by using thiols to extract the zinc and by importing manganese to replace the catalytic iron atom. Manganese resists oxidants and provides substantial activity.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.R114.588814