Shanxi Agricultural University, Dept Basic Sci, Taigu, 030801, Shanxi, PR China; Natural Products Research Center, Chengdu Institute of Biology, Chinese Academy of Sciences, Chengdu, 610041, PR China; University of Chinese Academy of Sciences, Beijing, 100049, PR China.
School of Clinical Medical College & Affiliated Hospital, Chengdu University, Chengdu, 610052, PR China.
Anal Chim Acta. 2024 Sep 8;1321:343041. doi: 10.1016/j.aca.2024.343041. Epub 2024 Aug 2.
Rapid DNA detection is a long-pursuing goal in molecular detection, especially in combating infectious diseases. Loop-mediated isothermal amplification (LAMP) is a robust and prevailing DNA detection method in pathogen detection, which has been drawing broad interest in improving its performance. Herein, we reported a new strategy and developed a new LAMP variant named TLAMP with a superior amplification rate. In this strategy, the turn-back loop primers (TLPs) were devised by ingeniously extending the 5' end of the original loop primer, which conferred the new role of being the inner primer for TLPs while retaining its original function as the loop primer. In theory, based on the bifunctional TLPs, a total of eight basic dumbbell-like structures and four cyclic amplification pathways were produced to significantly enhance the amplification efficiency of TLAMP. With the enhancing effect of TLPs, TLAMP exhibited a significantly reduced amplification-to-result time compared to the conventional six-primer LAMP (typically 1 h), enabling rapid DNA detection within 20 min. Furthermore, TLAMP proved to be about 10 min faster than the fast LAMP variants reported so far, while still presenting comparable sensitivity and higher repeatability. Finally, TLAMP successfully achieved an ultrafast diagnosis of Monkeypox virus (MPXV), capable of detecting as few as 10 copies (0.67copies/μL) of pseudovirus within 20 min using real-time fluorescence assay or within 30 min using a colorimetric assay, suggesting that the proposed TLAMP offers a sensitive, specific, reliable, and, most importantly, ultrafast DNA detection method when facing the challenges posed by infectious diseases.
快速 DNA 检测是分子检测中一个长期追求的目标,特别是在对抗传染病方面。环介导等温扩增(LAMP)是一种在病原体检测中强大且流行的 DNA 检测方法,它在提高其性能方面引起了广泛的关注。在这里,我们报告了一种新的策略,并开发了一种新的 LAMP 变体,称为 TLAMP,具有更高的扩增率。在该策略中,回环引物(TLPs)通过巧妙地延伸原始环引物的 5'端而设计出来,这赋予了 TLPs 作为内引物的新作用,同时保留了其作为环引物的原始功能。从理论上讲,基于双功能 TLPs,总共产生了八个基本哑铃状结构和四个循环扩增途径,以显著提高 TLAMP 的扩增效率。由于 TLPs 的增强作用,TLAMP 与传统的六引物 LAMP(通常为 1 小时)相比,扩增到结果的时间明显缩短,能够在 20 分钟内实现快速 DNA 检测。此外,TLAMP 比迄今为止报道的快速 LAMP 变体快约 10 分钟,同时仍具有相当的灵敏度和更高的可重复性。最后,TLAMP 成功实现了猴痘病毒(MPXV)的超快速诊断,使用实时荧光分析在 20 分钟内即可检测到低至 10 个拷贝(0.67 拷贝/μL)的假病毒,或使用比色分析在 30 分钟内即可检测到低至 10 个拷贝的假病毒,表明所提出的 TLAMP 提供了一种敏感、特异、可靠的、最重要的是,在面对传染病带来的挑战时,具有超快速的 DNA 检测方法。
