Publication | Open Access
The involvement of the bridging imidazolate in the catalytic mechanism of action of bovine superoxide dismutase
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Citations
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References
1977
Year
Bioorganic ChemistryLipid PeroxidationRapid ProtonationMolecular BiologyChemistryRedox BiologyPulse-radiolysis MethodOxidative StressBovine Superoxide DismutaseBiosynthesisBioorganometallic ChemistryRedox ChemistrySuperoxide DismutaseBiochemistryPhotochemistryBridging ImidazolateSpectroelectrochemistryCatalysisReactive Oxygen SpecieCatalytic MechanismNatural SciencesHeme DegradationEnzyme CatalysisMedicine
The pulse-radiolysis method has been used to study the catalytic mechanism of O2 leads to dismutation by the Co(II)-substituted bovine erythrocuprein (superoxide dismutase, EC 1.15.1.1). Catalysis is accompanied by spectral changes that may be interpreted in terms of rapid protonation and deprotonation of the Cu-facing nitrogen atom of the imidazolate that bridges the Cu(II) and the Co(II) [or Zn(II)] in the oxidized enzyme. This rapid change permits the possibility that the imidazole is a proton donor in the catalytic reduction of O2 leads to.
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