Theoretical Studies of the Hydroxide-Catalyzed P−O Cleavage Reactions of Neutral Phosphate Triesters and Diesters in Aqueous Solution: Examination of the Changes Induced by H/Me Substitution - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Journal of Physical Chemistry B Année : 2005

Theoretical Studies of the Hydroxide-Catalyzed P−O Cleavage Reactions of Neutral Phosphate Triesters and Diesters in Aqueous Solution: Examination of the Changes Induced by H/Me Substitution

Résumé

DFT calculations and dielectric continuum methods have been employed to map out the lowest activation free-energy profiles for the alkaline hydrolysis of representative phosphate triesters and diesters, including trimethyl phosphate (TMP), dimethyl 4-nitrophenyl phosphate (DMNPP), dimethyl hydrogen phosphate (DMHP), and the dimethyl phosphate anion (DMP-). The reliability of the calculations is supported by the excellent agreement observed between the calculated and the experimentally determined activation enthalpies for phosphate triesters with poor (TMP) and good (DMNPP) leaving groups. The results obtained for the OH- + DMHP and OH- + DMP- reactions are also consistent with all the available experimental information concerning the hydrolysis reaction of dimethyl phosphate anion at pH > 5. By performing geometry optimizations in the dielectric field (ε = 78.39), we found that OH- can attack the phosphorus atom of DMHP without capturing its proton only if the O−H bond of DMHP is oriented opposite the attacking OH- group. In these conditions, the rate for OH- attack on DMHP was found to be ∼103-fold faster than that for OH- attack on TMP. The calculated rate acceleration induced by the phosphoryl proton corresponds to the maximum rate effect expected from kinetic studies. Overall, our calculations performed on the dimethyl phosphate ester predict that, contrary to what is generally observed for RNA and aryl phosphodiesters, the water-promoted P−O cleavage reaction of DNA should dominate the base-catalyzed reaction at pH 7. These results are suggestive that nucleases may be less proficient as catalysts than has recently been suspected.

Dates et versions

hal-01754877 , version 1 (30-03-2018)

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Nathalie Tarrat, Jean-Claude Barthelat, Daniel Rinaldi, Alain Vigroux. Theoretical Studies of the Hydroxide-Catalyzed P−O Cleavage Reactions of Neutral Phosphate Triesters and Diesters in Aqueous Solution: Examination of the Changes Induced by H/Me Substitution. Journal of Physical Chemistry B, 2005, 109 (47), pp.22570 - 22580. ⟨10.1021/jp0550558⟩. ⟨hal-01754877⟩
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