全自动化采样结果SIMPLE RPA微流控芯片在蛋类检测中的应用

npj Biosensing Pub Date : 2024-12-26 DOI:10.1038/s44328-024-00019-6

Simão Monteiro Belo dos Santos, Celine Wegsteen, Dries Vloemans, Matthias Corion, Bart De Ketelaere, Dragana Spasic, Jeroen Lammertyn

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引用次数: 0

摘要

几个欧洲国家已经实施了立法，以消除对日龄雄鸡的捕杀。虽然胚胎性别测定（在卵子性别测定中）是最有前途的替代方法，但目前还没有一种方法可以在孵化和加工第13天（每小时2万个鸡蛋）之前以98%的性别测定准确率、低成本和最小的胚胎干扰来处理所有的鸡蛋颜色。重组酶聚合酶扩增（RPA）提出了一个有前途的替代PCR，可以集成到微流控平台。在这项工作中，我们开发了完全自主的微流控盒（简单- rpa芯片），用于在37.7°C的孵卵器中30分钟内检测雌性鸡特异性合成HINTW基因。我们首先优化了片外RPA，允许高灵敏度的DNA检测（1.6 × 10-5 ng/µL）。SIMPLE-RPA芯片的开发是为了实现片上RPA生物测定的自动化，减少用户错误和污染风险，并保持片外LOD，同时提供低价格，占地面积小，升级兼容性，易于转移到其他护理点应用。

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Fully automated sample to result SIMPLE RPA microfluidic chip towards in ovo sexing application

Several European countries have implemented legislations to eliminate day-old male chicks killing. Although embryo sexing (in ovo sexing) is the most promising alternative, no current solution can handle all egg colors with >98% sexing accuracy, low cost and minimal embryo disturbance before day 13 of incubation and processing >20,000 eggs/hour. Recombinase polymerase amplification (RPA) presents a promising alternative to PCR that can be integrated into microfluidic platforms. In this work, we developed fully autonomous microfluidic cartridge (SIMPLE-RPA chip) for female chick-specific synthetic HINTW gene detection in 30 min at 37.7 °C inside an egg incubator. We first optimized off-chip RPA, allowing for highly sensitive DNA detection (1.6 × 10–5 ng/µL). The SIMPLE-RPA chip was developed to automate the RPA bioassay on-chip, reducing user errors, and contamination risks and maintaining the off-chip LOD while offering low price, small footprint, upscaling compatibility, and easy transfer to other point-of-care applications.

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npj Biosensing

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