跷跷板分子几何学
泄漏(经济)
DNA
电子线路
探测器
生物传感器
计算机科学
纳米技术
化学
工程类
物理
材料科学
粒子物理学
电气工程
电信
生物化学
中微子
经济
宏观经济学
作者
Qin Yang,Feiyang Huang,Qi Tang,Jiangtian Li,Heao Zhang,Kuangdi Luo,Jiahui Zhou,Hongxun Wang,Limei Wang,Longjie Li,Xianjin Xiao
标识
DOI:10.1016/j.bios.2024.116203
摘要
DNA nanomaterials have a wide application prospect in biomedical field, among which DNA computers and biosensors based on Seesaw-based DNA circuit is considered to have the most development potential. However, the serious leakage of Seesaw-based DNA circuit prevented its further development and application. Moreover, the existing methods to suppress leakage can't achieve the ideal effect. Interestingly, we found a new source of leakage in Seesaw-based DNA circuit, which we think is the main reason why the previous methods to suppress leakage are not satisfactory. Therefore, based on this discovery, we use DNA triplex to design a new method to suppress the leakage of Seesaw-based DNA circuit. Its ingenious design makes it possible to perfectly suppress the leakage of all sources in Seesaw-based DNA circuit and ensure the normal output of the circuit. Based on this technology, we have constructed basic Seesaw module, AND gate, OR gate, secondary complex circuits and DNA detector. Experimental results show that we can increase the working range of the secondary Seesaw-based DNA circuit by five folds and keep its normal output signal above 90%, and we can improve the LOD of the Seesaw-based DNA detector to 1/11 of the traditional one(1.8pM). More importantly, we successfully developed a detector with adjustable detection range, which can theoretically achieve accurate detection in any concentration range. We believe the established triplex blocking strategy will greatly facilitate the most powerful Seesaw based DNA computers and biosensors, and further promote its application in biological systems.
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