The dioxygenation rate in lipoxygenase catalysis is determined by the amount of iron (III) lipoxygenase in solution
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Publication date
1994
Authors
Vliegenthart, J.F.G.
Schilstra, M.J.
Veldink, G.A.
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Abstract
The dioxygenation rate in reactions catalyzed by lipoxygenase- 1 from soybeans has been measured
as a function of the enzyme present in the Fe(II1) form with rapid kinetic techniques. The experiments
were carried out at pH 10, 25 'C. The product concentration and the fraction of iron(II1) lipoxygenase
were monitored by measuring the absorbance at 243 nm and the tryptophan fluorescenceat 330 nm (excitation
at 287 nm), respectively. In reactions started with 1.3 mu M iron(I1) lipoxygenase and 9 mu M linoleate, the
initial rate, Qnit (estimated from the increase in absorbance over the initial 0.02 s of the reaction), is very
small (4 SKI). In contrast, when the reactions are started with 1.3 mu M iron(II1) lipoxygenase, Qnit is large
(1 50 s-l). In reactions started with mixtures of iron(I1) and iron(II1) lipoxygenase, finit is linearly related
to the initial concentration of the Fe(II1) enzyme form. Redistributions of the Fe(I1) and Fe(II1) enzyme
forms during the reaction with 12 nM enzyme and 10,50, or 100 mu M linoleate appear to be directly reflected
in changes in the dioxygenation rate. The observations provide solid evidence for the hypothesis that only
iron(II1) lipoxygenase can catalyze the hydrogen abstraction step in the dioxygenation reaction, and thus
can be regarded as the active enzyme species. The observed dynamics are accurately predicted by a
nonallosteric, two-step model for lipoxygenase catalysis [Schilstra et al. (1 992) Biochemistry 31, 7692-
76991,