AI Article Synopsis
- Domoic acid (DA) is a neurotoxic compound from harmful marine algae that accumulates in shellfish, posing significant health risks and requiring improved detection methods.
- Traditional detection techniques have struggled with stability and sensitivity, leading to the development of a new direct competitive enzyme-linked immunosorbent assay (dc-ELISA) that uses peptide-immobilized magnetic beads for more reliable toxin monitoring.
- This innovative platform demonstrates a high sensitivity with a detection range of 0.5-10 ng/mL and a low limit of 0.29 ng/mL, making it a scalable and effective tool for enhancing marine toxin surveillance and protecting public health.
Article Abstract
Addressing the critical health concerns posed by domoic acid (DA), a neurotoxic compound produced by toxic marine algae and bioaccumulated in shellfish, necessitates the development of a rapid, precise, and robust detection system. Traditional DA detection methods have stability and sensitivity issues, which hinder effective toxin detection. To overcome these limitations, we developed a novel direct competitive enzyme-linked immunosorbent assay (dc-ELISA) platform that utilizes peptide-immobilized magnetic beads (MGBs/peptide). The affinity peptides identified through phage display and chemically synthesized with biotin labels present an innovative alternative to conventional antibodies for ELISA applications. Streptavidin-modified MGBs were used as the bioreceptor carriers to facilitate magnetic separation and simplify sample preparation, making the MGB/peptide-based dc-ELISA platform an ideal tool for comprehensive monitoring efforts. The developed platform exhibits a detection range of 0.5-10 ng mL and a low limit of detection of 0.29 ng mL, offering enhanced sensitivity and cost-effectiveness. Moreover, our developed dc-ELISA demonstrated a high recovery rate when validated with DA-spiked CRM-mussel samples. This method overcomes the limitations of traditional detection techniques and offers a scalable and efficient approach to marine toxin surveillance with improved marine environmental monitoring and public health management.
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| http://dx.doi.org/10.1016/j.chemosphere.2024.143274 | DOI Listing |
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