化学
荧光
DNA
突变
分子生物学
突变体
突变
生物物理学
荧光光谱法
点突变
色谱法
核糖核酸
T790米
基因组DNA
数字聚合酶链反应
寡核苷酸
荧光相关光谱
转染
液体活检
Cas9
聚合酶链反应
作者
Wenjun Ming,Yidan Zhu,Longjie Li,Tianyi Wang,Anli Pan,Qian Xu,Haiwei Ji,Yu-Ling Qin,Li Wu,Wenjun Ming,Yidan Zhu,Longjie Li,Tianyi Wang,Anli Pan,Qian Xu,Haiwei Ji,Yu-Ling Qin,Li Wu
标识
DOI:10.1021/acs.analchem.5c05548
摘要
Effective detection of low-abundance EGFR L858R mutation from circulating tumor DNA (ctDNA) is critical for early stage NSCLC diagnosis. Here, a portable CRISPR-Cas9-based ratiometric fluorescence sensor was proposed. Typically, allele-specific activation of Cas9 and the trans-cleavage of Cy5/BHQ2-labeled blocker DNAs were achieved by engineering sgRNA to position the L858R mutation within the PAM region of Cas9, resulting in increased Cy5 fluorescence. Simultaneously, the attenuated fluorescence of HBC-530 was observed because the released input RNA bound to the Pepper aptamer, which resulted from the decreased melting temperature (Tm) of the blocker DNA-RNA hybrid. Thus, a dual-channel ratiometric readout can be readily attained. Ultimately, visual point-of-care testing (POCT) of L858R at 0.01% allele frequency with single-nucleotide specificity was realized using a compact 3D-printed device. The validation result of 22 collected plasma samples demonstrated 100% concordance with the clinical diagnoses. This platform provides a cost-effective and accessible solution for NSCLC screening, making it particularly suitable for resource-limited healthcare settings.
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