Catalytic Mechanism and Product Specificity of the Histone Lysine Methyltransferase SET7/9: an Ab Initio QM/MM-FE Study with Multiple Initial Structures

Overview

Journal J Am Chem Soc

Publisher American Chemical Society

Specialty Chemistry

Date 2006 Jan 26

PMID 16433545

Citations 57

Authors

Po Hu

Yingkai Zhang

Affiliations

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Abstract

Histone lysine methylation is emerging as an important mechanism to regulate chromatin structure and gene activity. To provide theoretical understanding of its reaction mechanism and product specificity, ab initio quantum mechanical/molecular mechanical free energy (QM/MM-FE) calculations and molecular dynamics simulations have been carried out to investigate the histone lysine methyltransferase SET7/9. It is found that the methyl-transfer reaction catalyzed by SET7/9 is a typical in-line S(N)2 nucleophilic substitution reaction with a transition state of 70% dissociative character. The calculated average free energy barrier at the MP2(6-31+G) QM/MM level is 20.4 +/- 1.1 kcal/mol, consistent with the activation barrier of 20.9 kcal/mol estimated from the experimental reaction rate. The barrier fluctuation has a strong correlation with the nucleophilic attack distance and angle in the reactant complex. The calculation results show that the product specificity of SET7/9 as a monomethyltransferase is achieved by disrupting the formation of near-attack conformations for the dimethylation reaction.

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