Sequence-Modulated Interactions between Single Multivalent DNA-Conjugated Gold Nanoparticles

DNA-conjugated gold nanoparticle (AuNP) is an attractive building block to construct elegant plasmonic nanomaterials by self-assembly but the complicated interaction between multivalent nanoconjugates governing the assembly process and the properties of assembled structures remains poorly understood. Herein, with an in situ kinetic single-particle imaging method, we report the dynamic interaction between single multivalent DNA-conjugated AuNPs quantitatively depends on the nucleic acid sequence in nanoconjugates. From the binding dynamics analysis, it was found that the binding of nanoconjugates with DNA length longer than nine bases is kinetically irreversible and the binding rate is dependent on both the sequence length and GC content, enabling us to predict the rational modulation of binding rates of individual building blocks for stepwise assembly. Moreover, the reversibility for the multivalent interaction between single nanoconjugates at constant temperature can be reinstated by adopting the DNA seq...