期刊
TALANTA
卷 269, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.talanta.2023.125454
关键词
Multi-pedal DNA tetrahedron machine; Ratiometric biosensor; Lateral motion mode; Lipid bilayer
This work introduces a lateral moving multi-pedal DNA tetrahedron machine (MTM) coupled with a dual-signal output system for ultrasensitive target DNA analysis. The lateral motion mode of the DNA machine coalescing with a ratiometric system improves the movement efficiency and shortens the time fragment, resulting in high sensitivity and accuracy for early diagnosis.
In this work, a lateral moving multi-pedal DNA tetrahedron machine (MTM) is designed and coupled with dualsignal output system to construct a biomimetic electrochemical ratiometric strategy for ultrasensitive target DNA analysis. The tetrahedral structure provided rigid support for the pedal, ensuring efficient replacement of the rail chain modified with ferrocene. By conjugating cholesterol molecules to one vertex of MTM, it is decorated on a lipid bilayer. This molecular architecture confers lateral movement of MTM on an electrode surface while prevents its detachment from the system. The methylene blue tagged hairpin probe provides constant power to support MTM swim on lipid bilayer. Compared with the conventional motion mode, the lateral moving mechanism has the fastest reaction rate and the highest signal-to-noise ratio. Additionally, the dual-signal reporting system further improves the accuracy of target detection on the basis of ensuring motion efficiency. The work improved movement efficiency and shortened time fragment. A linear relationship between the ratio value of two reporters and target DNA concentration was observed from 0.5 fM to 50 pM with a detection limit of 28 aM. The lateral motion mode of DNA machine coalescing with ratiometric system made this sensing platform ultrasensitive and accurate, which holds new avenue of early diagnosis.
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