G-quadruplex (G4), an important secondary structure of nucleic acids, is polymorphic in structure. G4 monomers can associate with each other to form multimers, which show better application performance than monomers in some aspects. G4 dimers, the simplest and most widespread multimeric structures, are often used as a representative for studying multimers. RHAU, a G4 ligand, has been reported to recognize G4 dimers. However, there are few reports focusing on interactions between RHAU and different G4 dimers. In this work, interactions between RHAU peptide and six G4 dimers were investigated by size-exclusion chromatography (SEC). It was revealed that compared to the hybrid G4 monomer, the hybrid tandem unstacked G4 dimer could form special binding sites, leading to a weak interaction with RHAU. It was also found that the steric hindrance at terminal G-tetrads of a special Z-G4 structure greatly weakened their interactions with RHAU. Additionally, RHAU exhibited stronger interactions with intermolecular stacked/interlocked parallel dimers than with intramolecular tandem stacked parallel dimers. This work enriches the understanding of interactions between RHAU and G4 dimers, which is conducive to the elucidation of G4 polymorphism, and provides a strong reference for studying G4 multimer-peptide interactions.
Keywords: G-quadruplex dimers; G4 dimer–RHAU interaction; SEC; retention behavior; size-exclusion chromatography.