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Development of a highly sensitive aptamer-based electrochemical sensor for detecting saxitoxin based on KFe(CN) regulated silver nanoparticles. | LitMetric

Development of a highly sensitive aptamer-based electrochemical sensor for detecting saxitoxin based on KFe(CN) regulated silver nanoparticles.

Anal Chim Acta

School of Food Science and Engineering, Key Laboratory of Tropical Fruits and Vegetables Quality and Safety for State Market Regulation, Hainan University, Haikou, 570228, China. Electronic address:

Published: January 2024

AI Article Synopsis

  • - Saxitoxin (STX) is a highly toxic marine toxin that poses health risks, making sensitive and cost-effective detection critical for the seafood industry, which suffers from STX contamination.
  • - Researchers developed a novel aptamer-based electrochemical sensor (AECs) using silver nanoparticles, demonstrating a strong linear response to STX and achieving a low detection limit of 1 nM, surpassing regulatory standards for seafood.
  • - The AECs showed excellent performance in terms of sensitivity, stability, and reproducibility, making it a promising tool for STX detection in seafood, while improving electrochemical signal stability through a unique reaction system involving KFe(CN) and Ag NPs.

Article Abstract

Background: Saxitoxin (STX) is the most toxic marine toxin, which can pose several adverse effects on human health. High sensitivity, fast response, and low-cost detection of STX contamination are of significance to reducing the fishery and seafood industries' loss. Among the various types of biosensors, the electrochemical biosensors have been extensively studied in the detection of STX, but the electrode surface modification material is easy to fall off, resulting in unstable electrochemical signals and poor reproducibility. It is imperative to have a ratiometric electrochemical biosensor for STX.

Results: In this study, we developed a novel aptamer-based electrochemical sensor (AECs) for the sensitive detection of STX based on a KFe(CN) regulated silver nanoparticles (Ag NPs) modified with aptamer. The AECs was constructed by immobilizing aptamer on Ag NPs surfaces. Under optimized conditions, the AECs showed a linear response towards STX in the range from 0.04 to 0.15 μM with the regression equation of Y = -8.0 + 233.7 X (R = 0.9956). The limit of detection (LOD) was calculated to be 1 nM (based on 3 N/S), which is significantly lower than the regulatory limits for STX in seafood. Moreover, the AECs showed excellent sensitivity, reproducibility and stability, as well as the detection in samples with acceptable recovery ranged from 71.2 % to 93.8 %, demonstrating its broad application prospects in detection of STX in seafood samples.

Significance: This work proposed an AECs to achieve sensitive detection of STX. A reaction system of KFe(CN) etched Ag NPs was introduced and used as the signal source to avoid the instability of the electrochemical signal, which can produce a ratiometric electrochemical signal output mode, improving the stability and sensitivity of electrochemical detection of STX.

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Source
http://dx.doi.org/10.1016/j.aca.2023.342134DOI Listing

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