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Journal of Biomolecular Structure and Dynamics Volume 20, 2003 - Issue 6
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Original Articles

Theoretical ab Initio Study of the Effects of Methylation on Structure and Stability of G:C Watson-Crick Base Pair

Gareth Forde Computational Center for Molecular Structure and Interactions, Jackson State University, Jackson, MS, 39217, USA
,
Aviane Flood Computational Center for Molecular Structure and Interactions, Jackson State University, Jackson, MS, 39217, USA
,
Latasha Salter Computational Center for Molecular Structure and Interactions, Jackson State University, Jackson, MS, 39217, USA
,
Glake Hill Computational Center for Molecular Structure and Interactions, Jackson State University, Jackson, MS, 39217, USA
,
Leonid Gorb Computational Center for Molecular Structure and Interactions, Jackson State University, Jackson, MS, 39217, USA
&
Jerzy Leszczynski Computational Center for Molecular Structure and Interactions, Jackson State University, Jackson, MS, 39217, USA
Pages 811-817 | Received 27 Feb 2003, Published online: 15 May 2012
 
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Abstract

Methylation of DNA occurs most readily at N(3), N(7), and O(6) of purine bases and N(3) and O(2) of pyrimidines. Methylated bases are continuously formed through endogenous and exogenous mechanisms. The results of a theoretical ab initio study on the methylation of G:C base pair components are reported. The geometries of the local minima were optimized without symmetry restrictions by the gradient procedure at DFT level of theory and were verified by energy second derivative calculations. The standard 6–31G(d) basis set was used. The single-point calculations have been performed at the MP2/6–31G(d,p), MP2/6–31++G(d,p), and MP2/6–311++G(2d,2p) levels of theory. The geometrical parameters, relative stability and counterpoise corrected interaction energies are reported. Also, using a variation-perturbation energy decomposition scheme we have found the vital contributions to the total interaction energy.

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