posted on 2022-02-03, 18:44authored byZhi Weng, Hongyan Yu, Wang Luo, Yongcan Guo, Qian Liu, Li Zhang, Zhang Zhang, Ting Wang, Ling Dai, Xi Zhou, Xiaole Han, Luojia Wang, Junjie Li, Yujun Yang, Guoming Xie
DNA
strand displacement plays an essential role in the field of
dynamic DNA nanotechnology. However, flexible regulation of strand
displacement remains a significant challenge. Most previous regulatory
tools focused on controllable activation of toehold and thus limited
the design flexibility. Here, we introduce a regulatory tool termed
cooperative branch migration (CBM), through which DNA strand displacement
can be controlled by regulating the complementarity of branch migration
domains. CBM shows perfect compatibility with the majority of existing
regulatory tools, and when combined with forked toehold, it permits
continuous fine-tuning of the strand displacement rate spanning 5
orders of magnitude. CBM manifests multifunctional regulation ability,
including rate fine-tuning, continuous dynamic regulation, reaction
resetting, and selective activation. To exemplify the powerful function,
we also constructed a nested if-function signal processing system
on the basis of cascading CBM reactions. We believe that the proposed
regulatory strategy would effectively enrich the DNA strand displacement
toolbox and ultimately promote the construction of DNA machines of
higher complexity in nucleic acid research and biomedical applications.