适体
化学
变构调节
生化工程
检出限
转导(生物物理学)
机制(生物学)
纳米技术
放射性检测
生物化学
生物系统
食品
生物物理学
分子识别
计算生物学
计算机科学
级联
设计要素和原则
极限(数学)
工作(物理)
信号转导
食品安全
DNA
作者
Tai Ye,Mei Xue,Haohao Chen,Shuying Yue,Min Yuan,Jinsong Yu,Hui Cao,Liling Hao,Xiuxiu Wu,Fengqin Yin,Fei Xu
标识
DOI:10.1021/acs.jafc.5c12150
摘要
CRISPR/Cas-based aptasensors (Cas-aptasensors) hold great promise for detecting non-nucleic acid targets, yet their intrinsic competitive recognition mechanism imposes a trade-off between transduction efficiency and background leakage. In this study, we developed a Cas-aptasensor that employs a non-competitive recognition mechanism. In our design, the aptamer-target interaction accelerates the toehold-mediated strand displacement reaction and exposes a second toehold domain. The CRISPR/Cas system is ultimately activated via a cascade strand-displacement reaction, which is hindered in the absence of the target and, thus, delays activation. We demonstrated the applicability of this non-competitive Cas-aptasensor for the detection of ATP, achieving a detection limit as low as 1.0 nM within 45 min. Furthermore, we successfully applied this method to ATP detection in complex matrices and to assess the freshness of diverse meat products across different storage temperatures. Overall, this work advances the design of Cas-aptasensors and expands their potential applications in food safety monitoring.
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