A hairpin-mediated nicking enzymatic signal amplification for nucleic acids detection

A novel signal amplification to detect nucleic acid, called hairpin-mediated nicking enzymatic signal amplification (HNESA), is developed. This method overcomes the limitation of conventional nicking enzymatic signal amplification (NESA) that the target must contain the nicking endonuclease recognition site by using a hairpin probe containing the nicking endonuclease recognition site as an intermediary. Nucleic acid with any sequence can be amplified by HNESA which substantially improves the substrate-scope of traditional NESA. HNESA could detect nucleic acids (ssDNA and RNA) with a detection limit of 8.3 pM at 55 °C. As low as 68 fM could also be detected by integrating HNESA and strand-displacement amplification (SDA). More importantly, HNESA is quite efficient in distinguish single base mismatched sequences. HNESA has potential application for nucleic acid detection in complex biological samples. Therefore, HNESA with high sensitivity and ultrahigh selectivity, should be a promising tool for nucleic acid research, especially for single nucleotide polymorphism (SNP) detection.