Superoxide dismutases: Ancient enzymes and new insights

Superoxide dismutases: Ancient enzymes and new insights

Superoxide dismutases (SODs) catalyze the de toxification of superoxide. SODs therefore acquired great importance as O2 became prevalent following the evolution of oxygenic photosynthesis. Thus the three forms of SOD provide intriguing insights into the evolution of the organisms and organelles that...

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Veröffentlicht in:FEBS letters 2012-03, Vol.586 (5), p.585-595
1. Verfasser: Miller, Anne-Frances
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biological Evolution
Escherichia coli
Eukaryotic Cells - enzymology
evolution
Humans
Iron
Manganese
Models, Chemical
Molecular Conformation
organelles
oxidation
Oxidation-Reduction
oxygen
photosynthesis
Prokaryotic Cells - enzymology
proteins
Proton-coupled electron transfer
Redox tuning
Superoxide dismutase
Superoxide Dismutase - chemistry
Superoxide Dismutase - classification
Superoxide Dismutase - metabolism
Superoxides - chemistry
Superoxides - metabolism
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Zusammenfassung:Superoxide dismutases (SODs) catalyze the de toxification of superoxide. SODs therefore acquired great importance as O2 became prevalent following the evolution of oxygenic photosynthesis. Thus the three forms of SOD provide intriguing insights into the evolution of the organisms and organelles that carry them today. Although ancient organisms employed Fe-dependent SODs, oxidation of the environment made Fe less bio-available, and more dangerous. Indeed, modern lineages make greater use of homologous Mn-dependent SODs. Our studies on the Fe-substituted MnSOD of Escherichia coli, as well as redox tuning in the FeSOD of E. coli shed light on how evolution accommodated differences between Fe and Mn that would affect SOD performance, in SOD proteins whose activity is specific to one or other metal ion.
ISSN:0014-5793
1873-3468
DOI:10.1016/j.febslet.2011.10.048