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  • Title: Kinetic isotope effect studies of the reaction catalyzed by uracil DNA glycosylase: evidence for an oxocarbenium ion-uracil anion intermediate.
    Author: Werner RM, Stivers JT.
    Journal: Biochemistry; 2000 Nov 21; 39(46):14054-64. PubMed ID: 11087352.
    Abstract:
    The DNA repair enzyme uracil DNA glycosylase catalyzes the first step in the uracil base excision repair pathway, the hydrolytic cleavage of the N-glycosidic bond of deoxyuridine in DNA. Here we report kinetic isotope effect (KIE) measurements that have allowed the determination of the transition-state structure for this important reaction. The small primary (13)C KIE (=1.010 +/- 0.009) and the large secondary alpha-deuterium KIE (=1.201 +/- 0.021) indicate that (i) the glycosidic bond is essentially completely broken in the transition state and (ii) there is significant sp(2) character at the anomeric carbon. Large secondary beta-deuterium KIEs were observed when [2'R-(2)H] = 1.102 +/- 0.011 and [2'S-(2)H] = 1.106 +/- 0.010. The nearly equal and large magnitudes of the two stereospecific beta-deuterium KIEs indicate strong hyperconjugation between the elongated glycosidic bond and both of the C2'-H2' bonds. Geometric interpretation of these beta-deuterium KIEs indicates that the furanose ring adopts a mild 3'-exo sugar pucker in the transition state, as would be expected for maximal stabilization of an oxocarbenium ion. Taken together, these results strongly indicate that the reaction proceeds through a dissociative transition state, with complete dissociation of the uracil anion followed by addition of water. To our knowledge, this is the first transition-state structure determined for enzymatic cleavage of the glycosidic linkage in a pyrimidine deoxyribonucleotide.
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