2020
DOI: 10.1016/j.aca.2020.04.037
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Ultrasensitive detection of microRNA based on a homogeneous label-free electrochemical platform using G-triplex/methylene blue as a signal generator

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Cited by 28 publications
(11 citation statements)
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“…As shown in Figure 2A , 10 μM MB had a high reduction current (curve a). When G3 was mixed with MB at 1:1, the current signal was reduced by 56.5% (curve b), which was consistent with the published result ( Zhao et al, 2020a ; Chen et al, 2021 ). The current drop was because G3 was bound to MB to form a G3/MB complex, which could significantly decrease the diffusion rate and inhibit the reduction of MB at electrodes.…”
Section: Resultssupporting
confidence: 91%
See 2 more Smart Citations
“…As shown in Figure 2A , 10 μM MB had a high reduction current (curve a). When G3 was mixed with MB at 1:1, the current signal was reduced by 56.5% (curve b), which was consistent with the published result ( Zhao et al, 2020a ; Chen et al, 2021 ). The current drop was because G3 was bound to MB to form a G3/MB complex, which could significantly decrease the diffusion rate and inhibit the reduction of MB at electrodes.…”
Section: Resultssupporting
confidence: 91%
“…Previous experiments have shown that a higher concentration of G3 resulted in a lower current of MB, and the best ratio of G3 and MB was 1:1 (Zhao et al, 2020a;Chen et al, 2021). Therefore, in this experiment, we used the same concentration of 10 μM for MB, G3, and C-DNA.…”
Section: Feasibility Of the Analytical Strategymentioning
confidence: 99%
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“…The peak current of MB redox process was proportional to miR-21 concentration, achieving low detection limit of 0.02 fM. On the other hand, a newly discovered G-triplex that can specifically bind with MB was applied in electrochemical detection of let-7a by coupling with two-stage isothermal exponential amplification reaction, displaying ultralow detection limit of 0.45 fM and high specificity [50].…”
Section: Intercalation Of Redox Mediatormentioning
confidence: 99%
“…Among these methods, electrochemical miRNA biosensors because of superior advantages including simplicity of miniaturization, high sensitivity and selectivity, good detection limits with small analyte volumes, functional diversity, and relatively low cost have made them a suitable option for nucleic acids analysis. 12,13 This technique typically was designed based on the change in electrochemical signal which generates via the hybridization of the probe, a supplementary single-stranded nucleotide, and the target miRNA, 14 that it is suitable for low-concentration agents like miRNAs which are usually present only in femto-or nanomolar quantities in plasma. 15 Selection of the appropriate probe is one of the most important steps in electrochemical miRNA biosensors design.…”
Section: Introductionmentioning
confidence: 99%