1. The combination of DNA nanostructures and materials for highly sensitive electrochemical detection.
- Author
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Tian, Rong, Ma, Wenhao, Wang, Lue, Xie, Wanyi, Wang, Yunjiao, Yin, Yajie, Weng, Ting, He, Shixuan, Fang, Shaoxi, Liang, Liyuan, Wang, Liang, Wang, Deqiang, and Bai, Jingwei
- Subjects
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DNA nanotechnology , *DNA folding , *FIELD-effect transistors , *ELECTROCHEMICAL apparatus , *APTAMERS , *DEOXYRIBOZYMES - Abstract
• Electrochemical, nanopore and field-effect transistors biosensor has been developed. • Aptamer, DNAzyme, DNA origami and nanomaterials has been used for amplification. • The biosensor exhibits an excellent performance for amplification detection. • We discussed the challenges of detection strategies in clinical application. Due to the wide range of electrochemical devices available, DNA nanostructures and material-based technologies have been greatly broadened. They have been actively used to create a variety of beautiful nanostructures owing to their unmatched programmability. Currently, a variety of electrochemical devices have been used for rapid sensing of biomolecules and other diagnostic applications. Here, we provide a brief overview of recent advances in DNA-based biomolecular assays. Biosensing platform such as electrochemical biosensor, nanopore biosensor, and field-effect transistor biosensors (FET), which are equipped with aptamer, DNA walker, DNAzyme, DNA origami, and nanomaterials, has been developed for amplification detection. Under the optimal conditions, the proposed biosensor has good amplification detection performance. Further, we discussed the challenges of detection strategies in clinical applications and offered the prospect of this field. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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