Multiplexed food-borne pathogen detection using an argonaute-mediated digital sensor based on a magnetic-bead-assisted imaging transcoding system

Nature Food Pub Date : 2025-01-02 DOI:10.1038/s43016-024-01082-y

Zhipan Wang, Xinrui Cheng, Aimin Ma, Feng Jiang, Yiping Chen

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Abstract

Accurate, sensitive and multiplexed detection of food-borne pathogens is crucial for assessing food safety risks. Here we present a digital DNA-amplification-free nucleic acid detection assay to achieve multiplexed and ultrasensitive detection of three food-borne pathogens. We used mesophilic Clostridium butyricum argonaute and magnetic beads in a digital carrier system (d-MAGIC). Clostridium butyricum argonaute, with its two-guide accurate cleavage activity, precisely targets and cleaves fluorescence-quencher reporters corresponding to different bacteria through a two-step process. The system uses fluorescence-encoded magnetic beads as programmable multi-probes, allowing the simultaneous detection of multiple pathogens and easy data interpretation via artificial intelligence. The method showed a wide detection range (10¹ to 10⁷ CFU ml⁻¹) and a low limit of detection of 6 CFU ml⁻¹ for food-borne pathogens without DNA amplification. Digital nucleic acid testing using d-MAGIC can become a next-generation strategy for accurate and convenient pathogen detection.

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基于磁头辅助成像转码系统的氩气介导数字传感器的多路食源性病原体检测

准确、灵敏和多样化的食源性病原体检测对于评估食品安全风险至关重要。在这里，我们提出了一种无dna扩增的数字核酸检测方法，以实现三种食源性病原体的多路和超灵敏检测。我们在数字载体系统（d-MAGIC）中使用嗜中温丁酸梭菌和磁珠。argonaute Clostridium butyricum argonaute具有双导精确裂解活性，通过两步法精确靶向和裂解不同细菌对应的荧光猝灭报告基因。该系统使用荧光编码磁珠作为可编程的多探针，允许同时检测多种病原体，并通过人工智能轻松解释数据。该方法检测范围宽（101 ~ 107 CFU ml−1），检测下限低（6 CFU ml−1）。使用d-MAGIC进行数字核酸检测可以成为准确、方便地检测病原体的新一代策略。

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Nature Food

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