Abstract
The role of the oxidizing agent in the xanthine oxidase reaction has been evaluated. The long standing notion that oxygen normally functions only as an electron acceptor in the xanthine oxidase reaction has been confirmed. When molecular oxygen was the oxidizing agent and the reaction was carried out at pH 7.5, 18O was incorporated into uric acid from 18O-labeled water; no 18O was found in uric acid when xanthine was oxidized in an atmosphere of 18O2. However, at pH 8.9 there was a small amount of direct oxygen transfer from 18O2 into uric acid. In experiments in which nicotinamide N-oxide was used in place of O2, the N-oxide appeared to function to a large extent by direct transfer of oxygen. It acted as an electron acceptor as well. Xanthine oxidase catalyzed the transfer of 18O from nicotinamide 18ON-oxide to xanthine in the course of the formation of uric acid. 18O from 18O-labeled water was also incorporated into uric acid when nicotinamide N-oxide was used as the oxidant in the xanthine oxidase reaction. Essentially identical results were obtained with both milk and liver xanthine oxidases. The possibility was raised that heterocyclic N-oxides may be capable of acting as general biological oxygenating agents.
Highlights
At pH 8.9 there was a small amount of direct oxygen transfer from IsO2 into uric acid
In experiments in which nicotinamide N-oxide wasused in place of 02,the N-oxide appearedto function to a large extent by direct transfer of oxygen
It acted as an electron acceptor as well
Summary
The role of the oxidizing agent in the xanthine oxidase reaction has been evaluated. The long standing notion that oxygen normally functions only as an electron acceptor in the xanthine oxidase reaction has been confirmed. In experiments in which nicotinamide N-oxide wasused in place of 02,the N-oxide appearedto function to a large extent by direct transfer of oxygen It acted as an electron acceptor as well. Xanthine oxidase is generally thought to utilize oxidizing agents as electron acceptors, with water serving as oxygen donor, if one is required [3]. This concept originated with the finding that a variety of dyes can substitute for oxygen as electron acceptors in the xanthine oxidase reaction and from the fact that xanthine oxidase can catalyze the oxidation of substrates with no concomitant incorporation of oxygen into the oxidized product. This paper deals with an evalua tion of the role of nicotinamide N-oxide and a re-evaluation of the function of molecular oxygen in oxidations catalyzed by xanthine oxidase
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