Structural varieties of selectively mixed G‐ and C‐rich short DNA sequences studied with electrospray ionization mass spectrometry

Short guanine(G)‐repeat and cytosine(C)‐repeat DNA strands can self‐assemble to form four‐stranded G‐quadruplexes and i‐motifs, respectively. Herein, G‐rich and C‐rich strands with non‐G or non‐C terminal bases and different lengths of G‐ or C‐repeats are mixed selectively in pH 4.5 and 6.7 ammonium acetate buffer solutions and studied by electrospray ionization mass spectrometry (ESI‐MS). Various strand associations corresponding to bi‐, tri‐ and tetramolecular ions are observed in mass spectra, indicating that the formation of quadruplex structures is a random strand by strand association process. However, with increasing incubation time for the mixtures, initially associated hybrid tetramers will transform into self‐assembled conformations, which is mainly driven by the structural stability. The melting temperature values of self‐assembled quadruplexes suggest that the length of G‐repeats or C‐repeats shows more significant effect on the stability of quadruplex structures than that of terminal residues. Accordingly, we can obtain the self‐associated tetrameric species generated from the mixtures of various homologous G‐ or C‐strands efficiently by altering the length of G‐ or C‐repeats. Our studies demonstrate that ESI‐MS is a very direct, fast and sensitive tool to provide significant information on DNA strand associations and stoichiometric transitions, particularly for complex mixtures. Copyright © 2016 John Wiley & Sons, Ltd.