DNA origami nanostructures are regarded as powerful and versatile vehicles for targeted drug delivery. So far, DNA origami-based drug delivery strategies mostly use intercalation of the therapeutic molecules between the base pairs of the DNA origami’s double helices for drug loading. The binding of nonintercalating drugs to DNA origami nanostructures, however, is less studied. Therefore, in this work, we investigate the interaction of the drug methylene blue (MB) with different DNA origami nanostructures under conditions that result in minor groove binding. We observe a noticeable effect of DNA origami superstructure on the binding affinity of MB. In particular, non-B topologies as for instance found in designs using the square lattice with 10.67 bp/turn may result in reduced binding affinity because groove binding efficiency depends on groove dimensions. Also, mechanically flexible DNA origami shapes that are prone to structural fluctuations may exhibit reduced groove binding, even though they are based on the honeycomb lattice with 10.5 bp/turn. This can be attributed tothe induction of transient over- and underwound DNA topologies bythermal fluctuations. These issues should thus be considered whendesigning DNA origami nanostructures for drug delivery applicationsthat employ groove-binding drugs.
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机译:DNA折纸纳米结构被认为是靶向药物递送的强大而多功能的载体。到目前为止,基于DNA折纸的药物递送策略主要是在DNA折纸的双螺旋碱基对之间插入治疗分子,以进行载药。然而,较少研究非嵌入药物与DNA折纸纳米结构的结合。因此,在这项工作中,我们调查药物亚甲蓝(MB)与不同的DNA折纸纳米结构在导致较小的凹槽结合的条件下的相互作用。我们观察到DNA折纸上层建筑对MB的结合亲和力的显着影响。特别地,例如在使用10.67 bp /圈的方格的设计中发现的非B拓扑可能会导致结合亲和力降低,因为凹槽的结合效率取决于凹槽的尺寸。同样,倾向于结构波动的机械柔性DNA折纸形状即使在基于10.5 bp /圈的蜂窝晶格的情况下,也可能会减少凹槽的结合。这可以归因于通过以下方式诱导瞬时过交和欠交DNA拓扑热波动。因此,应在何时考虑这些问题设计用于药物递送应用的DNA折纸纳米结构使用凹槽结合药物的药物。
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