反式激活crRNA
清脆的
生物
计算生物学
核酸
计算机科学
多路复用
核糖核酸
生物系统
解耦(概率)
聚合酶
灵活性(工程)
环介导等温扩增
合成生物学
基因组编辑
灵敏度(控制系统)
适体
核酸检测
寡核苷酸
纳米技术
稳健性(进化)
劈理(地质)
分布式计算
DNA
作者
Hyungbin Park,Jiyoung Yun,K.S. Lee,Jee Hyeon Kim,Ji-Ho Park,Yeo-Jin Park,Jun Hyeok Park,Hoyeon Lee,Min-Gon Kim
摘要
One-pot CRISPR-based diagnostics have transformed nucleic acid testing, yet their design customizability remains constrained. Because target programming and cis-cleavage activity are simultaneously determined during CRISPR RNA (crRNA) design, optimizing cleavage activity to match isothermal amplification inevitably requires altering the programmed crRNA sequence. This requirement fundamentally constrains the range of compatible target sequences, imposing limitations on the flexible design of diagnostic assays. Here, we establish a customizable one-pot system by decoupling the dual functions inherent in crRNA design to enable their independent control. In this strategy, target programming remains defined by the crRNA sequence, whereas cis-cleavage activity is regulated by the reaction energy barrier. We selectively modulate this energy barrier through the introduction of a crRNA-complementary RNA oligonucleotide, achieving cleavage regulation without altering the crRNA sequence. Consequently, this approach ensures that cis-cleavage activity matches isothermal amplification conditions independent of the programmed target sequence, thereby realizing a customizable CRISPR diagnostic system. We validated the clinical applicability of this system using 120 patient-derived samples, achieving sensitivity and specificity comparable to quantitative polymerase chain reaction. Collectively, this work resolves a fundamental constraint of CRISPR diagnostics and establishes a customizable and clinically deployable platform for next-generation nucleic acid testing.
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