Tautomerisation Mechanisms in the Adenine-Thymine Nucleobase Pair during DNA Strand Separation

Benjamin King; Max Sputnik Claus Winokan; Paul Denis Stevenson; Jim Al-Khalili; Louie Slocombe; Marco Sacchi

doi:10.1021/acs.jpcb.2c08631

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Tautomerisation Mechanisms in the Adenine-Thymine Nucleobase Pair during DNA Strand Separation

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Tautomerisation Mechanisms in the Adenine-Thymine Nucleobase Pair during DNA Strand Separation

Benjamin King, Max Sputnik Claus Winokan, Paul Denis Stevenson, Jim Al-Khalili, Louie Slocombe and Marco Sacchi

The journal of physical chemistry B, Vol.127(19), pp.4220-4228

18/05/2023

DOI: https://doi.org/10.1021/acs.jpcb.2c08631

PMID: 36939840

Abstract

Chemistry

Chemistry, Physical

Science & Technology

Physical Sciences

The adenine-thymine tautomer (A*-T*) has previously been discounted as a spontaneous mutagenesis mechanism due to the energetic instability of the tautomeric configuration. We study the stability of A*-T* while the nucleobases undergo DNA strand separation. Our calculations indicate an increase in the stability of A*-T* as the DNA strands unzip and the hydrogen bonds between the bases stretch. Molecular Dynamics simulations reveal the timescales and dynamics of DNA strand separation and the statistical ensemble of opening angles present in a biological environment. Our results demonstrate that the unwinding of DNA, an inherently out-of-equilibrium process facilitated by helicase, will change the energy landscape of the adenine-thymine tautomerisation reaction. We propose that DNA strand separation allows the stable tautomerisation of adenine-thymine, providing a feasible pathway for genetic point mutations via proton transfer between the A-T bases.

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Title: Tautomerisation Mechanisms in the Adenine-Thymine Nucleobase Pair during DNA Strand Separation
Creators: Benjamin King
Max Sputnik Claus Winokan - University of Surrey, School of Maths and Physics
Paul Denis Stevenson - University of Surrey, School of Maths and Physics
Jim Al-Khalili - University of Surrey, School of Maths and Physics
Louie Slocombe - University of Surrey, School of Chemistry and Chemical Engineering
Marco Sacchi - University of Surrey, School of Chemistry and Chemical Engineering
Publication Details: The journal of physical chemistry B, Vol.127(19), pp.4220-4228
Publisher: ACS
Number of pages: 9
Publication Date: 18/05/2023
Date accepted for publication: 03/03/2023
Grant note: This work was made possible through the support of the Leverhulme Trust doctoral training centre grant number DS-2017-079 and from the John Templeton Foundation grant number 62210. M.S. is grateful for support from the Royal Society (URF/R/191029). Via our membership of the UKCP Consortium funded by EPSRC grant ref EP/P022561/1 and HECBioSim, the UK High End Computing Consortium for Biomolecular Simulation, which is supported by the EPSRC (EP/L000253/1), this work used the ARCHER2 UK National Supercomputing Service.
Identifiers: 99729866402346; WOS:000955010200001
Academic Unit: School of Chemistry and Chemical Engineering; School of Maths and Physics
Language: English
Resource Type: Journal article
Data Access Statement: The data presented in the figures of this article are available from the corresponding authors upon reasonable request. The reaction pathways and structures are available on Github (https://github.com/LouieSlocombe/Effect-of-Strand-Separation-on-AT-Tautomerism).

Tautomerisation Mechanisms in the Adenine-Thymine Nucleobase Pair during DNA Strand Separation

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