Unveiling the unusual i-motif-derived architecture of a DNA aptamer exhibiting high affinity for influenza A virus

Abstract Non-canonical nucleic acid structures play significant roles in cellular processes through selective interactions with proteins. While both natural and artificial G-quadruplexes have been extensively studied, the functions of i-motifs remain less understood. This study investigates the artificial aptamer BV42, which binds strongly to influenza A virus hemagglutinin and unexpectedly retains its i-motif structure even at neutral pH. However, BV42 conformational heterogeneity hinders detailed structural analysis. Molecular dynamics simulations and chemical modifications of BV42 helped us to identify a potential binding site, allowing for aptamer redesign to eliminate the conformational diversity while retaining binding affinity. Nuclear magnetic resonance spectroscopy confirmed the i-motif/duplex junction with the three-cytosine loop nearby. This study highlights the unique structural features of the functional i-motif and its role in molecular recognition of the target.