Aligner-mediated cleavage-triggered exponential amplification for sensitive detection of nucleic acids

Talanta
Wanghua WuTao Zhang

Abstract

Exponential amplification reaction (EXPAR), as a simple and high sensitive method, holds great promise in nucleic acids detection. One major challenge in EXPAR is the generation of trigger DNA with a definite 3'-end, which now relies on fingerprinting technology. However, the requirement of different endonucleases for varying target sequences and two head-to-head recognition sites in double stranded DNA, as well as the confinement of trigger DNA's 3'-end to be near/within the recognition site, usually subject EXPAR to compromised universality and/or repeated matching of reaction conditions. Herein, we report a simple and universal method for high sensitive detection of nucleic acids, termed aligner-mediated cleavage-triggered exponential amplification (AMCEA). The aligner-mediated cleavage (AMC) needs only one nicking endonuclease and can make a break at any site of choice in a programmable way. Thus, the 3'-end of target DNA can be easily redefined as required, a key step for initiating the amplification reaction. This capability endows the proposed AMCEA with excellent universality and simplicity. Moreover, it is sensitive and specific, with a detection limit at amol level, a broad dynamic range of 5~6 orders of magnitude and...Continue Reading

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