posted on 2018-02-28, 00:00authored byTao Zeng, Aaron M. Fleming, Yun Ding, Hang Ren, Henry S. White, Cynthia J. Burrows
In
DNA, guanine oxidation yields diastereomers of 5-guanidinohydantoin
(Gh) as one of the major products. In nucleosides and single-stranded
DNA, Gh is in a pH-dependent equilibrium with its constitutional isomer
iminoallantoin (Ia). Herein, the isomerization reaction between Gh
and Ia was monitored in duplex DNA using a protein nanopore by measuring
the ionic current when duplex DNA interacts with the pore under an
electrophoretic force. Monitoring current levels in this single-molecule
method proved to be superior for analysis of population distributions
in an equilibrating mixture of four isomers in duplex DNA as a function
of pH. The results identified Gh as a major isomer observed when base
paired with A, C, or G at pH 6.4–8.4, and Ia was a minor isomer
of the reaction mixture that was only observed when the pH was >7.4
in the duplex DNA context. The present results suggest that Gh will
be the dominant isomer in duplex DNA under physiological conditions
regardless of the base-pairing partner in the duplex.