计算生物学
鉴定(生物学)
适应性
计算机科学
核酸
生物系统
基因组
肺炎支原体
编码
生物
协议(科学)
探测理论
DNA
软体动物
人类基因组
基因组学
DNA测序
锁核酸
人乳头瘤病毒
作者
Tian Tian,Ting Zhang,Wanting Zhang,Zhiqiang Qiu,Xinyi Guo,Yuxin Chen,Mei Lin,Weiwei Qi,Yuting Shen,Mengen Hao,Hongrui Xiao,Bo Xiang,Feibiao Pang,Jinzhao Song,B Sun,Meng Cheng,Xiaoming Zhou
标识
DOI:10.1038/s41467-026-68476-3
摘要
The canonical PAM site TTTV (where V = A, G, or C) is widely used in the design of CRISPR-Cas12a systems for both genome editing and diagnostic applications. Although several non-canonical protospacer-adjacent motifs (PAM) have been identified, they generally exhibit weak Cas12a cleavage activity. In this study, we find that increasing the reaction temperature to 45 °C or higher allows the identification of numerous non-canonical PAMs with trans-cleavage activity comparable to that of canonical PAMs, while displaying only weak cis-cleavage activity. Moreover, we observe that combining these non-canonical PAMs with elevated temperatures significantly enhances the Cas12a system's ability to discriminate highly similar sequences. Based on these findings, we develop a non-canonical PAM-mediated, poikilothermal, one-pot CRISPR-Cas12a detection platform (POP-CRISPR), which demonstrates substantial improvements in sensitivity, specificity, speed, and target adaptability for nucleic acid detection compared to existing methods. These advantages are validated through the reliable detection of clinical samples, including those of Human papillomavirus (HPV), Mycoplasma pneumoniae (MP), and its drug-resistant strains. Additionally, we show that POP-CRISPR enables rapid, on-site pathogen detection within 20 min, using a fast sample processing protocol and a miniaturized detection device.
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