Precision fabrication of polymer nanostructures on recyclable DNA template

Zi'an Lin, Xuemei Xu, Yiwei Shi, Yuzhou Wu
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Abstract

The fabrication of precisely patterned polymers at the nanoscale is of critical importance. We have previously succeeded in creating various nanopatterned polymers with nanoscale resolution through the use of in situ atom transfer radical polymerization (ATRP) techniques on deoxyribonucleic acid (DNA) origami. However, separating nanopatterned polymers from the origami template without damaging the origami presents a significant challenge, thereby increasing costs and limiting the development of applications involving nanopatterned polymers. Here, we achieved spatially and temporally controlled release of DNA origami templates through photo‐regulation by incorporating azobenzene‐modified DNA into the initiator. Under UV exposure, azobenzene isomerization rapidly induces the disassociation of patterned polymers from the origami template at ambient temperatures, without damaging the DNA origami. Additionally, the released origami template can be reused as a template for the cyclic production of nanopatterned polymers. This method provides a pathway for the large‐scale production of patterned polymers at reduced costs and facilitates dynamic control over the polymer‐DNA complex, with potential applications in both the biomedical and chemical fields.
在可回收 DNA 模板上精密制造聚合物纳米结构
制造纳米级精确图案聚合物至关重要。此前,我们通过在脱氧核糖核酸(DNA)折纸上使用原位原子转移自由基聚合(ATRP)技术,成功地制造出了各种具有纳米级分辨率的纳米图案聚合物。然而,如何在不损坏折纸的情况下将纳米图案化聚合物从折纸模板中分离出来是一个巨大的挑战,从而增加了成本,限制了纳米图案化聚合物的应用开发。在这里,我们将偶氮苯修饰的 DNA 加入到引发剂中,通过光调节实现了 DNA 折纸模板在空间和时间上的可控释放。在紫外线照射下,偶氮苯异构化可在环境温度下迅速诱导图案化聚合物与折纸模板分离,而不会损坏 DNA 折纸。此外,释放出的折纸模板可作为模板重复使用,循环生产纳米图案聚合物。这种方法为降低成本大规模生产图案化聚合物提供了途径,并有利于对聚合物-DNA 复合物进行动态控制,有望应用于生物医学和化学领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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