4.8 Article

pH-Dependent Capping Interactions Induce Large-Scale Structural Transitions in i-Motifs

Journal

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
Volume 145, Issue 6, Pages 3696-3705

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/jacs.2c130433696

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We studied a DNA oligonucleotide that can form two different i-motif structures, with their stability depending on pH and temperature. The structure at neutral pH is stabilized by C:C+ base pairs and G:C:G:C tetrads. At pH 5, a more elongated structure consisting of C:C+ base pairs and G:T:G:T tetrads is observed. The transition between these two structures is driven by the protonation state of key cytosines.
We study here a DNA oligonucleotide having the ability to form two different i-motif structures whose relative stability depends on pH and temperature. The major species at neutral pH is stabilized by two C:C+ base pairs capped by two minor groove G:C:G:C tetrads. The high pH and thermal stability of this structure are mainly due to the favorable effect of the minor groove tetrads on their adjacent positively charged C:C+ base pairs. At pH 5, we observe a more elongated i-motif structure consisting of four C:C+ base pairs capped by two G:T:G:T tetrads. Molecular dynamics calculations show that the conformational transition between the two structures is driven by the protonation state of key cytosines. In spite of large conformational differences, the transition between the acidic and neutral structures can occur without unfolding of the i-motif. These results represent the first case of a conformational switch between two different i-motif structures and illustrate the dramatic pH-dependent plasticity of this fascinating DNA motif.

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