Rapid and annealing-free self-assembly of DNA building blocks for 3D hydrogel chaperoned by cationic comb-type copolymers

Abstract

<p>The construction and self-assembly of DNA building blocks are the foundation of bottom-up development of three-dimensional DNA nanostructures or hydrogels. However, most self-assembly from DNA components is impeded by the mishybridized intermediates or the thermodynamic instability. To enable rapid production of complicated DNA objects with high yields no need for annealing process, herein different DNA building blocks (Y-shaped, L- and L′-shaped units) were assembled in presence of a cationic comb-type copolymer, poly (L-lysine)-<i>graft</i>-dextran (PLL-<i>g</i>-Dex), under physiological conditions. The results demonstrated that PLL-<i>g</i>-Dex not only significantly promoted the self-assembly of DNA blocks with high efficiency, but also stabilized the assembled multi-level structures especially for promoting the complicated 3D DNA hydrogel formation. This study develops a novel strategy for rapid and high-yield production of DNA hydrogel even derived from instable building blocks at relatively low DNA concentrations, which would endow DNA nanotechnology for more practical applications.</p> <p>This work illustrates a cationic comb-type copolymer to promote the self-assembly of different DNA building units especially of complicated 3D DNA hydrogel with highly efficiency and stability.</p