JOURNAL OF PHYSICAL CHEMISTRY B, v.127, no.9, pp.1932 - 1939
Publisher
AMER CHEMICAL SOC
Abstract
At acidic pH, cytosine-rich single-stranded DNA can be folded into a tetraplex structure called i-motif (iM). In recent studies, the effect of monovalent cations on the stability of iM structure has been addressed, but a consensus about the issue has not been reached yet. Thus, we investigated the effects of various factors on the stability of iM structure using fluorescence resonance energy transfer (FRET)-based analysis for three types of iM derived from human telomere sequences. We confirmed that the protonated cytosine-cytosine (C:C+) base pair is destabilized as the concentration of monovalent cations (Li+, Na+, K+) increases and that Li+ has the greatest tendency of destabilization. Intriguingly, monovalent cations would play an ambivalent role in iM formation by making single-stranded DNA flexible and pliant for an iM structure. In particular, we found that Li+ has a notably greater flexibilizing effect than Na(+ )and K+. All taken together, we conclude that the stability of iM structure is controlled by the subtle balance of the two counteractive effects of monovalent cations: electrostatic screening and disruption of cytosine base pairing. (GRAPHICS)