1. Electrochemical detection of Nanog in cell extracts via target-induced resolution of an electrode-bound DNA pseudoknot.
- Author
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Ma J, Li C, Tao Y, Feng C, and Li G
- Subjects
- Adsorption, DNA Probes ultrastructure, Equipment Design, Equipment Failure Analysis, Reproducibility of Results, Sensitivity and Specificity, Conductometry instrumentation, DNA Probes chemistry, Electrodes, Molecular Probe Techniques instrumentation, Nanog Homeobox Protein analysis, Nanog Homeobox Protein chemistry
- Abstract
Nanog is among the most important indicators of cell pluripotency and self-renew, so detection of Nanog is critical for tumor assessment and monitoring of clinical prognosis. In this work, a novel method for Nanog detection is proposed by using electrochemical technique based on target-induced conformational change of an electrode-bound DNA pseudoknot. In the absence of Nanog, the rigid structure of the pseudoknot will minimize the connection between the redox tag and the electrode, thus reducing the obtained faradaic current. Nevertheless, the Nanog binding may liberate the flexible single-stranded element that transforms the DNA pesudokont into DNA hairpin structure due to steric hindrance effect, thus making the electrochemical tag close to the electrode surface. Consequently, electron transfer can be enhanced and very well electrochemical response can be observed. By using the proposed method, Nanog can be determined in a linear range from 2nM to 25nM with a detection limit of 163 pM. Furthermore, the proposed method can be directly used to assay Nanog not only in purified samples but also in complex media (cell extracts), which shows potential applications in Nanog functional studies as well as clinical diagnosis in the future., (Copyright © 2016 Elsevier B.V. All rights reserved.)
- Published
- 2016
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