Herbert Jenzer scite author profile

In the presence of iodide (I−, 10 mM) and hydrogen peroxide in a large excess (H2O2, 0.1–10 mM) catalytic amounts of lactoperoxidase (2 nM) are very rapidly irreversibly inactivated without forming compound III (cpd III). In contrast, in the absence of I− cpd III is formed and inactivation proceeds very slowly. Increasing the enzyme concentration up to the micromolar range significantly accelerates the rate of inactivation. The present data reveal that irreversible inactivation of the enzyme involves cleavage of the prosthetic group and liberation of heme iron. The rate of enzyme destruction is well correlated with the production of molecular oxygen (O2), which originates from the oxidation of excess H2O2. Since H2O2 and O2per se do not affect the heme moiety of the peroxidase, we suggest that the damaging species may be a primary intermediate of the H2O2 oxidation, such as oxygen in its excited singlet state (1ΔgO2), superoxide radicals (O−2), or consequently formed hydroxyl radicals (OH⋅).

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The role of superoxide radicals in lactoperoxidase-catalysed H2O2 — metabolism and in irreversible enzyme inactivation

Jenzer

Köhler

1986

Biochemical and Biophysical Research Communications

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The role of hydroxyl radicals in irreversible inactivation of lactoperoxidase by excess H2O2

Jenzer

Köhler

Broger

1987

Archives of Biochemistry and Biophysics

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On the molecular mechanism of lactoperoxidase-catalyzed H2O2 metabolism and irreversible enzyme inactivation.

Jenzer¹,

Jones²,

Köhler³

1986

Journal of Biological Chemistry

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Herbert Jenzer

Interaction of lactoperoxidase with hydrogen peroxideFormation of enzyme intermediates and generation of free radicals

The role of compound III in reversible and irreversible inactivation of lactoperoxidase

The role of superoxide radicals in lactoperoxidase-catalysed H2O2 — metabolism and in irreversible enzyme inactivation

The role of hydroxyl radicals in irreversible inactivation of lactoperoxidase by excess H2O2

On the molecular mechanism of lactoperoxidase-catalyzed H2O2 metabolism and irreversible enzyme inactivation.

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