PMID: 7019208Jul 25, 1981Paper

Inactivation of D-serine dehydratase by alkylamines via a transimination of enzyme-linked cofactor.

The Journal of Biological Chemistry
C S Federiuk, J A Shafer

Abstract

The time-dependent inactivation of D-serine dehydratase by alkylamines was characterized. Evidence is presented indicating that inactivation proceeds via a transimination reaction analogous to the first step in the catalytic pathway. The product of alkylamine attack, an alkylamine pyridoxal 5'-phosphate Schiff base, readily dissociated from D-serine dehydratase to produce inactive apoenzyme. Reaction with alkylamines was shown to be a convenient way of producing apoenzyme which can be reconstituted with pyridoxal 5'-phosphate to fully active holoenzyme. Amino acids such as glycine and alanine, unlike alkylamines, did not resolve D-serine dehydratase but were competitive inhibitors of the enzyme. The inability of amino acids to resolve D-serine dehydratase from its cofactor was attributed to a failure of the amino acid-cofactor Schiff base to dissociate from the enzyme. Transimination of D-serine dehydratase with its substrate D-serine was at least 3.5 X 10(5) times faster than a nonenzymic model transimination reaction and more than 70 million times faster than the reaction of the enzyme with 2-hydroxyethylamine, indicating that the carboxyl group of the substrate is an important structural determinant for catalysis of the tran...Continue Reading

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