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New CRISPR-Derived microRNA Sensing Mechanism Based on Cas12a Self-Powered and Rolling Circle Transcription-Unleashed Real-Time crRNA Recruiting

Gaoting Wang, Weimin Tian, Xiaoling Liu, Wei Ren, Chenghui Liu

2020Analytical Chemistry125 citationsDOI

Abstract

Current CRISPR-Cas-based nucleic acid sensing methods relying on the preassembled Cas-crRNA complexes are generally limited to the detection of protospacer-adjacent motif (PAM)-containing sequences, and nonspecific backgrounds are inevitable. Herein, we propose a new CRISPR-derived microRNA sensing mechanism based on rolling circle transcription (RCT)-unleashed self-recruiting of crRNA by Cas12a (Cas12a-SCR). In Cas12a-SCR, target microRNA can specifically trigger RCT to produce a long single-strand RNA with numerous pre-crRNA repeats, which can be trimmed and recruited by Cas12a actively. This new target-initiated, real-time producing, trimming, and self-assembling manner of Cas12a-crRNA remarkably suppresses the nonspecific background and relieves the stringent requirement of PAM site in the target sequence. Thus, the universality of the Cas12a-SCR toward different nucleic acid sequences is greatly expanded.

Topics & Concepts

Trans-activating crRNACRISPRChemistryNucleic acidComputational biologymicroRNARNATranscription (linguistics)Rolling circle replicationNanotechnologyCas9DNABiologyGeneBiochemistryPolymerasePhilosophyMaterials scienceLinguisticsCRISPR and Genetic EngineeringAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene Delivery
New CRISPR-Derived microRNA Sensing Mechanism Based on Cas12a Self-Powered and Rolling Circle Transcription-Unleashed Real-Time crRNA Recruiting | Litcius