D-Amino acid oxidase (DAAO) from pig has been reported to catalyze the β-elimination of Cl(-) from βCl-D-alanine via abstraction of the substrate α-H as H(+) (″carbanion mechanism″) (Walsh, C. T., Schonbrunn, A., and Abeles, R. H. (1971) J Biol Chem 246, 6855-6866). In view of the fundamental mechanistic importance of this reaction and of the recent reinterpretation of the DAAO dehydrogenation step as occurring via a hydride mechanism, we reinvestigated the elimination reaction using yeast DAAO. That enzyme catalyzes the same reactions as the pig enzyme, but with a much higher efficiency and a substantially different kinetic behavior. The reaction is initiated by a very rapid and fully reversible dehydrogenation step. This leads to an equilibrium (k(on) ≈ k(reverse)) between the complexes of oxidized enzyme-βCl-D-alanine and reduced enzyme-βCl-iminopyruvate. In the presence of O(2) the latter complex can partition between an oxidative half-reaction and elimination of Cl(-), which proceeds at a rate of ≈ 50 s(-1). This step forms a complex between oxidized enzyme and eneamine that is characterized by a charge transfer absorption (which describes its rates of formation and decay). A minimal scheme that lists relevant steps of the reductive and oxidative half-reactions and elimination pathways along with the estimate of the corresponding rate constants is presented. β-Elimination of Cl(-) is proposed to originate at the locus of the enzyme-βCl-iminopyruvate complex. A chemical mechanism that can account for elimination is discussed in detail.
|Titolo:||Revisitation of the betaCl-elimination reaction of D-amino acid oxidase: New interpretation of the reaction that sparked flavoprotein dehydrogenation mechanisms|
|Data di pubblicazione:||2011|
|Appare nelle tipologie:||Articolo su Rivista|