Reactions of Prostaglandin H Synthase with Monosubstituted Hydrazines and Diazenes

Mahy, Jean‐Pierre; Gaspard, Sarra; Delaforge, Marcel; Mansuy, Daniel

doi:10.1111/j.1432-1033.1994.tb20069.x

Cited by 7 publications

References 88 publications

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Ostensible Enzyme Promiscuity: Alkene Cleavage by Peroxidases

Mutti

Lara

Kroutil

et al. 2010

Chemistry A European J

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Enzyme promiscuity is generally accepted as the ability of an enzyme to catalyse alternate chemical reactions besides the 'natural' one. In this paper peroxidases were shown to catalyse the cleavage of a C=C double bond adjacent to an aromatic moiety for selected substrates at the expense of molecular oxygen at an acidic pH. It was clearly shown that the reaction occurs due to the presence of the enzyme; furthermore, the reactivity was clearly linked to the hemin moiety of the peroxidase. Comparison of the transformations catalysed by peroxidase and by hemin chloride revealed that these two reactions proceed equally fast; additional experiments confirmed that the peptide backbone was not obligatory for the reaction and only a single functional group of the enzyme was required, namely in this case the prosthetic group (hemin). Consequently, we propose to define such a promiscuous activity as 'ostensible enzyme promiscuity'. Thus, we call an activity that is catalysed by an enzyme 'ostensible enzyme promiscuity' if the reactivity can be tracked back to a single catalytic site, which on its own can already perform the reaction equally well in the absence of the peptide backbone.

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