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J. Biol. Chem., Vol. 260, Issue 29, 15530-15535, Dec, 1985

Preparation and properties of ferrous chloroperoxidase complexes with dioxygen, nitric oxide, and an alkyl isocyanide. Spectroscopic dissimilarities between the oxygenated forms of chloroperoxidase and cytochrome P-450

M Sono, KS Eble, JH Dawson and LP Hager

Extensive spectroscopic investigations of chloroperoxidase and cytochrome P-450 have consistently revealed close similarities between these two functionally distinct enzymes. Although the CO-bound ferrous states were the first to display such resemblance, additional comparisons have focused on the native ferric and ferrous and the ligand-bound ferric derivatives of the enzymes. In order to test the extent to which the spectral properties of the two enzymes match each other, we have prepared the NO, alkyl isocyanide, and O2 adducts of ferrous chloroperoxidase, the latter two for the first time. As expected, the NO adducts of the two proteins have similar UV-visible absorption and magnetic circular dichroism spectra; the same behavior is observed for the alkyl isocyanide complexes. Unexpectedly, the dioxygen adduct of ferrous chloroperoxidase (i.e. Compound III), generated in cryogenic solvents at -30 degrees C by bubbling with O2, is spectrally distinct from oxy-P-450-CAM. Identification of this derivative as oxygenated chloroperoxidase is based on the following criteria: It is EPR-silent at 77 K. The bound O2 is dissociable as judged by the uniform conversion to the CO-bound form. Oxy- chloroperoxidase autoxidizes to form the native ferric enzyme without detectable intermediates at a rate comparable to that determined for oxy-P-450-CAM. Oxy-chloroperoxidase exhibits optical absorption (lambda nm (epsilon mM) = 354 (41), 430 (94), 554 (16.5), 587 (12.5)) and magnetic circular dichroism spectra that are clearly distinct from those of histidine-ligated heme proteins such as oxy-myoglobin or oxy- horseradish peroxidase. Surprisingly, several of its spectral properties, namely the red-shifted Soret peak and discrete alpha peak, are also unlike those of oxy-P-450-CAM. Since considerable evidence has accumulated supporting the ligation of an endogenous thiolate to the heme iron of chloroperoxidase, as has been established for the P-450 enzyme, the observed dissimilarities suggest that the electronic properties of the two dioxygen adducts are quite sensitive to differences in their active site heme environment. This, in turn may be related to the functional differences between the two enzymes.
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