Digital droplet RT‐LAMP increases speed of SARS‐CoV‐2 viral RNA detection

Yuan Yuan, Perry Ellis, Ye Tao, Dimitri A. Bikos, E. Loveday, Mallory M. Thomas, J. Wilking, Connie B. Chang, Fangfu Ye, David A. Weitz
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Abstract

Nucleic acid amplification testing (NAAT) remains one of the most reliable methods for pathogen identification. However, conventional bulk NAATs may not be sufficiently fast or sensitive enough for the detection of clinically‐relevant pathogens in point‐of‐care testing. Here, we have developed a digital droplet RT‐LAMP (ddRT‐LAMP) assay that rapidly and quantitatively detects the SARS‐CoV‐2 viral E gene in microfluidic drops. Droplet partitioning using ddRT‐LAMP significantly accelerates detection times across a wide range of template concentrations compared to bulk RT‐LAMP assays. We discover that a reduction in droplet diameter decreases assay times up to a certain size, upon which surface adsorption of the RT‐LAMP polymerase reduces reaction efficiency. Optimization of drop size and polymerase concentration enables rapid, sensitive, and quantitative detection of the SARS‐CoV‐2 E gene in only 8 min. These results highlight the potential of ddRT‐LAMP assays as an excellent platform for quantitative point‐of‐care testing.
数字液滴 RT-LAMP 提高了 SARS-CoV-2 病毒 RNA 的检测速度
核酸扩增检测(NAAT)仍是病原体鉴定最可靠的方法之一。然而,传统的批量 NAAT 可能不够快速或灵敏,无法用于临床相关病原体的床旁检测。在此,我们开发了一种数字液滴 RT-LAMP(ddRT-LAMP)检测方法,可在微流控液滴中快速定量检测 SARS-CoV-2 病毒 E 基因。与大容量 RT-LAMP 检测法相比,使用 ddRT-LAMP 进行液滴分区可大大加快各种模板浓度下的检测时间。我们发现,液滴直径减小到一定大小时,检测时间会缩短,因为此时 RT-LAMP 聚合酶的表面吸附会降低反应效率。通过优化液滴大小和聚合酶浓度,只需 8 分钟就能对 SARS-CoV-2 E 基因进行快速、灵敏和定量检测。这些结果凸显了 ddRT-LAMP 检测法作为定量床旁检测优良平台的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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