A. Marchesini scite author profile

The reactivity of a series of para-substituted phenolic compounds in the peroxidation catalyzed by chloroperoxidase was investigated, and the results were interpreted on the basis of the binding characteristics of the substrates to the active site of the enzyme. Marked selectivity effects are observed. These operate through charge, preventing phenolic compounds carrying amino groups on the substituent chain to act as substrates for the enzyme, and through size, excluding potential substrates containing bulky substituents to the phenol nucleus. Also, chiral recognition is exhibited by chloroperoxidase in the oxidation of N-acetyltyrosine, where only the L isomer is oxidized. Kinetic measurements show that, in general, the efficiency of chloroperoxidase in the oxidation of phenols is lower than that of horseradish peroxidase. Paramagnetic NMR spectra and relaxation rate measurements of chloroperoxidase-phenol complexes are consistent with binding of the substrates close to the heme, in the distal pocket, with the phenol group pointing toward the iron atom. On the other hand, phenolic compounds which are not substrates for chloroperoxidase bind to the enzyme with a much different disposition, with the phenol group very distant from the iron and probably actually outside the active-site cavity.

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Ascorbate Oxidase from Cucurbita pepo medullosa

Marchesini¹,

Kroneck²

1979

European Journal of Biochemistry

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1. Ascorbate oxidase has been isolated from the green squash Cucurbitapepo medullosa by a new purification method. Furthermore a low-molecular-weight copper protein containing one type-1 copper/20 000 M, could be separated during the purification of the oxidase. The six-step procedure developed improved the yield of ascorbate oxidase by a factor of 2.5. The method is well reproducible and a constant value of 8 Cu (7.95 f 0.11140000 MI) has been established. By ultracentrifugal and electrophoretic criteria the enzyme preparations have been found to be homogeneous. They exhibited a specific activity of 3930 2. The pure enzyme is characterized by the following optical purity indices: A2so/Ablo = 25 +_ 0.5, A330/A610 = 0.65 & 0.05 and A6I0/A500 = 7.0 & 0.25. The molar absorption coefficient of the characteristic absorption maximum at 610 nm (oxidized minus reduced) amounts to 9700 M-' em-'.3. Computer simulations of the electron paramagnetic resonance (EPR) spectra of the oxidized enzyme reveal the following parameters: for the type-1 (blue) copper gz = 2.227, g , = 2.058, g, = 2.036; A , = 5.0 mT, A , = A , = 0.5 mT, for the type-2 (non-blue) copper gli = 2.242, g l = 2.053; All = 19.0 mT, A1 = 0.5 mT. Out of the eight copper atoms present in the oxidase four are detectable by EPR. Of these, three belong to the type-1 class, and one to the type-2 class, as demonstrated by computer simulations of the EPR spectra.4. To achieve full reduction of the enzyme, as measured by bleaching of the blue chromophore, four equivalents of L-ascorbate or reductate must be added in the absence of molecular oxygen. Upon reduction of the enzyme the fluorescence at 330 nm (%ax = 295 nm) is enhanced by a factor of 1.5 to 1.75. The reduced enzyme is readily reoxidized by dioxygen, ferricyanide or hydrogen peroxide. It binds two molecules of hydrogen peroxide in the oxidized state (l/type-3 Cu pair), which can be monitored by a characteristic increase of the absorbance around 310 nm ( A s = 1000 f 50 M-'

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The Vilsmeier-Haack reaction of isoxazolin-5-ones. Synthesis and reactivity of 2-(dialkylamino)-1,3-oxazin-6-ones

Beccalli¹,

Marchesini²

1987

J. Org. Chem.

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Redox properties and acid–base equilibria of zucchini mavicyanin

Battistuzzi

Borsari

Loschi

et al. 2001

Journal of Inorganic Biochemistry

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A. Marchesini

X-ray crystal structure of the blue oxidase ascorbate oxidase from Zucchini

The Chloroperoxidase-Catalyzed Oxidation of Phenols. Mechanism, Selectivity, and Characterization of Enzyme-Substrate Complexes

Ascorbate Oxidase from Cucurbita pepo medullosa

The Vilsmeier-Haack reaction of isoxazolin-5-ones. Synthesis and reactivity of 2-(dialkylamino)-1,3-oxazin-6-ones

Redox properties and acid–base equilibria of zucchini mavicyanin

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