开发新型 Cas13a/Cas12a 介导的转基因作物 "一锅式 "双重检测试验。

Lin Ding, Xiaofu Wang, Xiaoyun Chen, Xiaoli Xu, Wei Wei, Lei Yang, Yi Ji, Jian Wu, Junfeng Xu, Cheng Peng
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引用次数: 0

摘要

简介:转基因作物已在全球广泛种植,开发快速、超灵敏、可视化、适用于田间部署的多重检测平台对转基因生物监管至关重要:在这项研究中,我们开发了一种新型的单锅系统,称为 MR-DCA(多重 RPA 和双 CRISPR 检测),用于同时检测转基因作物中的 CaMV35S 和 NOS 基因靶标。这种创新方法结合了多重 RPA(重组酶聚合酶扩增)和双 CRISPR(聚类规则间隔短回文重复)检测技术,为转基因作物检测提供了一种精简高效的方法:方法:用于扩增 CaMV35S 和 NOS 靶标的 RPA 反应物装在试管底部,而双 CRISPR 酶则装在试管盖中。离心后,启动双 CRISPR(Cas13a/Cas12a)检测系统。荧光显像法通过 FAM 通道测量 CaMV35S,通过 HEX 通道测量 NOS。使用横向流动条时,使用兔抗地高辛(蓝线)检测 CaMV35S,而使用抗小鼠 FITC(红线)识别 NOS。使用 Image J 对线强度进行量化,并以图表形式显示:结果:目标检测在 35 分钟内完成,检测限低至 20 个拷贝。此外,还开发了两种分析系统,它们在 MR-DCA 检测中表现良好。在对 24 个基因组范围较广的转基因作物盲样进行分析时,MR-DCA 与定量 PCR 方法的结果一致,表明该方法具有较高的准确性、适用性和半定量能力:MR-DCA的开发是转基因检测领域的一大进步,它提供了一种快速、灵敏、便携的多目标检测方法,可用于资源有限的环境。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of a novel Cas13a/Cas12a-mediated 'one-pot' dual detection assay for genetically modified crops.

Introduction: Genetically modified (GM) crops have been widely cultivated across the world and the development of rapid, ultrasensitive, visual multiplex detection platforms that are suitable for field deployment is critical for GM organism regulation.

Objective: In this study, we developed a novel one-pot system, termed MR-DCA (Multiplex RPA and Dual CRISPR assay), for the simultaneous detection of CaMV35S and NOS genetic targets in GM crops. This innovative approach combined Multiplex RPA (recombinase polymerase amplification) with the Dual CRISPR (clustered regularly interspaced short palindromic repeat) assay technique, to provide a streamlined and efficient method for GM crop detection.

Methods: The RPA reaction used for amplification CaMV35S and NOS targets was contained in the tube base, while the dual CRISPR enzymes were placed in the tube cap. Following centrifugation, the dual CRISPR (Cas13a/Cas12a) detection system was initiated. Fluorescence visualization was used to measure CaMV35S through the FAM channel and NOS through the HEX channel. When using lateral flow strips, CaMV35S was detected using rabbit anti-digoxin (blue line), whilst NOS was identified using anti-mouse FITC (red line). Line intensity was quantified using Image J and depicted graphically.

Results: Detection of the targets was completed in 35 min, with a limit of detection as low as 20 copies. In addition, two analysis systems were developed and they performed well in the MR-DCA assay. In an analysis of 24 blind samples from GM crops with a wide genomic range, MR-DCA gave consistent results with the quantitative PCR method, which indicated high accuracy, applicability and semi-quantitative ability.

Conclusion: The development of MR-DCA represents a significant advancement in the field of GM detection, offering a rapid, sensitive and portable method for multiple target detection that can be used in resource-limited environments.

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