{Reference Type}: Journal Article
{Title}: Diverse Chiral Nanotubes Assembled from Identical DNA Strands.
{Author}: Xie C;Chen Z;Chen K;Hu Y;Xu F;Pan L;
{Journal}: Nano Lett
{Volume}: 0
{Issue}: 0
{Year}: 2024 Jul 5
{Factor}: 12.262
{DOI}: 10.1021/acs.nanolett.4c02071
{Abstract}: DNA nanotubes with controllable geometries hold a wide range of interdisciplinary applications. When preparing DNA nanotubes of varying widths or distinct chirality, existing methods require repeatedly designing and synthesizing specific DNA sequences, which can be costly and laborious. Here, we proposed an intercalator-assisted DNA tile assembly method which enables the production of DNA nanotubes of diverse widths and chirality using identical DNA strands. Through adjusting the concentration of intercalators during assembly, the twisting direction and extent of DNA tiles could be modulated, leading to the formation of DNA nanotubes featuring controllable widths and chirality. Moreover, through introducing additional intercalators and secondary annealing, right-handed nanotubes could be reconfigured into distinct left-handed nanotubes. We expect that this method could be universally applied to modulating the self-assembly pathways of various DNA tiles and other chiral materials, advancing the landscape of DNA tile assembly.