Christopher J. Cooksey scite author profile

Tyrosinase (EC 1.14.18.1) exhibits unusual kinetic properties in the oxidation of monohydric phenol substrates consisting of a lag period that increases with increasing substrate concentration. The cause of this is an autocatalytic process dependent on the generation of a dihydric phenol substrate, which acts as an activator of the enzyme. Experiments with N-substituted dihydric phenol substrates (N-methyldopamine, N-acetyldopamine) demonstrate that oxygen consumption is retarded in the N-acetyl substituted material due to a diminished rate of cyclization. The oxygen uptake exhibited a similar pattern when N-acetyltyramine was oxidized, and this was reflected by a prolongation of the lag period. N,N-Dipropyldopamine was oxidized with normal kinetics but with an oxygen stoichiometry of 0.5 mol of oxygen/mol of substrate. We show that this is the result of the formation of a stable indoliumolate product with oxidation-reduction properties that prevent the formation of dopaminochrome, thus blocking further stages in the tyrosinase-catalyzed oxidation.Evidence that the indoliumolate product is formed by cyclization of the ortho-quinone is presented by pulse radiolysis studies, which demonstrate the formation of the ortho-quinone (by disproportionation of the corresponding semiquinones), which cyclizes to give the indoliumolate. The rate constant for cyclization was shown to be 48 s ؊1 (at pH 6.0). Tyrosinase-catalyzed oxidation of the monohydric phenol analogue, N,N-dimethyltyramine, was shown to require the addition of a dihydric phenol. Oxygen utilization then exhibited a stoichiometry of 1.0, indicating that the reactions proceed only as far as the cyclization. The analogous stable cyclic indoliumolate product was shown to be formed, with UV absorption and NMR spectra closely similar to the indoliumolate derived from N,N-dipropyldopamine. This material was methylated by catechol O-methyltransferase but was unreactive to redox reagents. The formation of the cyclic product accounts for the indefinite lag when N,N-dimethyltyramine is used as the substrate for tyrosinase in the absence of a dihydric phenol cofactor.Tyrosinase (EC 1.14.18.1) is an enzyme widely distributed in nature that catalyzes the oxidation of monohydric phenols (such as tyrosine). It exhibits unusual kinetic properties. Its natural substrate is considered to be tyrosine, yet it exhibits an induction period or a lag phase in the oxidation of this substrate (1). The lag phase is explained by an autocatalytic mechanism that depends on the elaboration of dihydroxyphenylalanine (DOPA) 1 in the initial phase of the reaction pathway of melanogenesis. There are two main mechanistic theories of tyrosinase autocatalysis: (a) allosteric activation and (b) the recruitment hypothesis, which depends on the two-electron reduction of the active site of the enzyme by the oxidation of dihydroxy substrates. There has been some controversy in the literature regarding the method of generation of DOPA and, therefore, of the explanation of the kinetics. According to on...

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Tyrian Purple: 6,6’-Dibromoindigo and Related Compounds

Cooksey

2001

Molecules

207

149

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Indigo, woad, and Tyrian Purple: important vat dyes from antiquity to the present

Clark¹,

Cooksey²,

Daniels³

et al. 1993

Endeavour

140

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A dienyl stilbene phytoalexin from Arachis hypogaea

Cooksey¹,

Garratt²,

Richards³

et al. 1988

Phytochemistry

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Melanogenesis-targeted anti-melanoma pro-drug development: Effect of side-chain variations on the cytotoxicity of tyrosinase-generated ortho-quinones in a model screening system

Riley

Cooksey

Johnson

et al. 1997

European Journal of Cancer

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