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The syntheses of two novel truncated analogs of the natural substrate orotidine 5'-monophosphate (OMP) for orotidine 5'-monophosphate decarboxylase (OMPDC) with enhanced reactivity toward decarboxylation are reported: 1-(β-d-erythrofuranosyl)-5-fluoroorotic acid (FEO) and 5'-deoxy-5-fluoroorotidine (5'-dFO). A comparison of the second-order rate constants for the OMPDC-catalyzed decarboxylations of FEO (10 M⁻¹ s⁻¹) and 1-(β-d-erythrofuranosyl)orotic acid (EO, 0.026 M⁻¹ s⁻¹) shows that the vinyl carbanion-like transition state is stabilized by 3.5 kcal/mol by interactions with the 5-F substituent of FEO. The OMPDC-catalyzed decarboxylations of FEO and EO are both activated by exogenous phosphite dianion (HPO₃²⁻), but the 5-F substituent results in only a 0.8 kcal stabilization of the transition state for the phosphite-activated reaction of FEO. This provides strong evidence that the phosphite-activated OMPDC-catalyzed reaction of FEO is not limited by the chemical step of decarboxylation of the enzyme-bound substrate. Evidence is presented that there is a change in the rate-limiting step from the chemical step of decarboxylation for the phosphite-activated reaction of EO, to closure of the phosphate gripper loop and an enzyme conformational change at the ternary E•FEO•HPO₃²⁻ complex for the reaction of FEO. The 4'-CH₃ and 4'-CH₂OH groups of 5'-dFO and orotidine, respectively, result in identical destabilizations of the transition state for the unactivated decarboxylation of 2.9 kcal/mol. By contrast, the 4'-CH₃ group of 5'-dFO and the 4'-CH₂OH group of orotidine result in very different 4.7 and 8.3 kcal/mol destabilizations of the transition state for the phosphite-activated decarboxylation. Here, the destabilizing effect of the 4'-CH₃ substituent at 5'-dFO is masked by the rate-limiting conformational change that depresses the third-order rate constant for the phosphite-activated reaction of the parent substrate FEO.

Citation

Bogdana Goryanova, Krisztina Spong, Tina L Amyes, John P Richard. Catalysis by orotidine 5'-monophosphate decarboxylase: effect of 5-fluoro and 4'-substituents on the decarboxylation of two-part substrates. Biochemistry. 2013 Jan 22;52(3):537-46

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PMID: 23276261

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