Kinetic and Docking Studies of the Interaction of Quinones with the Quinone Reductase Active Site
Zhigang Zhou(Lebanon Valley College), Derek J. Fisher(Duquesne University), Jared Spidel(Duquesne University), Jodi Greenfield(Duquesne University), Brian J. Patson(Lebanon Valley College), Aleem Fazal(Lebanon Valley College), Carl T. Wigal(Lebanon Valley College), Owen A. Moe(Duquesne University), Jeffry D. Madura(Lebanon Valley College)
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Abstract
NAD(P)H/quinone acceptor oxidoreductase type 1 (QR1) protects cells from cytotoxic and neoplastic effects of quinones though two-electron reduction. Kinetic experiments, docking, and binding affinity calculations were performed on a series of structurally varied quinone substrates. A good correlation between calculated and measured binding affinities from kinetic determinations was obtained. The experimental and theoretical studies independently support a model in which quinones (with one to three fused aromatic rings) bind in the QR1 active site utilizing a pi-stacking interaction with the isoalloxazine ring of the FAD cofactor.
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