Ab initio studies of the intramolecular amide hydrolysis in N-methylmaleamic acids |
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Authors: | H. Park J. Suh S. Lee |
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Affiliation: | Department of Chemistry and Center for Molecular Catalysis, Seoul National University, Seoul 151-742, South Korea |
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Abstract: | The intramolecular amide hydrolysis reactions of N-methylmaleamic acids (NMMA) are studied at the MP2/6-31G**//RHF/4-31G level of theory as model reactions of peptide bond cleavage by a proteolytic enzyme. In contrast to the previously reported results for a bimolecular reaction model of peptide hydrolysis, the unimolecular reactions studied here proceed via the concerted pathway in which the C–O bond formation and the release of methylamine occur simultaneously in preference to the stepwise one. The determination of an intrinsic reaction coordinate shows that the reaction is facilitated by the intramolecular proton transfer from the undissociated carboxyl group to the nitrogen of the leaving amine group. Mainly because of the increase in activation energy, methyl substitution at the 2-position retards the hydrolysis reaction rate by a factor of 14 compared to the reaction of the unsubstituted molecule. In contrast, additional methyl substitution at 3-position leads to 35-fold increase in the reaction rate. These variations of reactivity are caused by the charge redistributions in the amide group induced by methyl substitutions and the resulting changes in electrophilicity of the aminocarbonyl carbon. |
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Keywords: | Ab initio studies Amide hydrolysis Model enzyme reaction Reaction pathway |
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