Novel Tautomerisation Mechanisms of the Biologically Important Conformers of the Reverse Löwdin,
Hoogsteen, and Reverse Hoogsteen G
*·C
* DNA Base Pairs
via Proton Transfer: A Quantum-Mechanical Survey.
Front Chem 2019;
7:597. [PMID:
31620420 PMCID:
PMC6759773 DOI:
10.3389/fchem.2019.00597]
[Citation(s) in RCA: 13] [Impact Index Per Article: 2.6] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/05/2019] [Accepted: 08/12/2019] [Indexed: 11/22/2022] Open
Abstract
For the first time, in this study with the use of QM/QTAIM methods we have exhaustively investigated the tautomerization of the biologically-important conformers of the G*·C* DNA base pair-reverse Löwdin G*·C*(rWC), Hoogsteen G*'·C*(H), and reverse Hoogsteen G*'·C*(rH) DNA base pairs-via the single (SPT) or double (DPT) proton transfer along the neighboring intermolecular H-bonds. These tautomeric reactions finally lead to the formation of the novel G· C O 2 * (rWC), G N 2 * · C(rWC), G*'N2·C(rWC), G N 7 * · C(H), and G*'N7·C(rH) DNA base mispairs. Gibbs free energies of activation for these reactions are within the range 3.64-31.65 kcal·mol-1 in vacuum under normal conditions. All TSs are planar structures (Cs symmetry) with a single exception-the essentially non-planar transition state TSG*·C*(rWC)↔G+·C-(rWC) (C1 symmetry). Analysis of the kinetic parameters of the considered tautomerization reactions indicates that in reality only the reverse Hoogsteen G*'·C*(rH) base pair undergoes tautomerization. However, the population of its tautomerised state G*'N7·C(rH) amounts to an insignificant value-2.3·10-17. So, the G*·C*(rWC), G*'·C*(H), and G*'·C*(rH) base pairs possess a permanent tautomeric status, which does not depend on proton mobility along the neighboring H-bonds. The investigated tautomerization processes were analyzed in details by applying the author's unique methodology-sweeps of the main physical and chemical parameters along the intrinsic reaction coordinate (IRC). In general, the obtained data demonstrate the tautomeric mobility and diversity of the G*·C* DNA base pair.
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