Beacon-mediated exponential amplification reaction (BEAR) using a single enzyme and primer

Asymmetric stem-loop–mediated isothermal amplification of nucleic acids for DNA diagnostic assays by simple modification of canonical PCR primers

Nucleic acid–based assays have been adopted as mainstream tools for clinical diagnostics, food safety, and environment monitoring with the merits of accuracy, rapidity, and sensitivity. Loop-mediated isothermal amplification (LAMP) is a well-established method to rapidly identify nucleic acids and has gained recognition and been developed for clinical applications in resource-limited areas. However, the needs for specifically designed primer sets and non-specific amplification hinder the development of LAMP-based nucleic acid tests. Here, a promoted method, termed asymmetric stem-loop–mediated isothermal amplification (ASLAMP) by simple modification of canonical PCR primers, was developed to attempt to overcome those drawbacks. The two primers in the ASLAMP reaction can be easily obtained by adding a stem-loop sequence part to one PCR primer at 5′-ends to get the folding primer (FP), then adding the same primer to the counter canonical PCR primer at 5′-ends to get the turn-back primer (TP). The ASLAMP method was demonstrated in detecting the H1N1 gene fragment with merits of simple primer design, short target sequence, and high amplification efficiency. In addition, the ASLAMP method showed similar efficacy compared with LAMP targeting at the same H1N1 gene sequence. Furthermore, Shigella detection monitored by real-time fluorescence and endpoint colorimetric approaches were taken as examples for evaluation of the practical application of the ASLAMP method, both offered 100% sensitivity and specificity. In conclusion, the novel ASLAMP method with simplicity of primer design, low requirement of equipment, efficiency, and rapidity has exhibited its great prospect for establishment of DNA isothermal amplification in point of care application.

Closed dumbbell mediated isothermal amplification of nucleic acids for DNA diagnostic assays

Nucleic acid amplification tests have been widely applied in clinical diagnostics, food safety monitoring, and molecular biology. As a well-established isothermal amplification method, Loop-mediated isothermal amplification (LAMP) has gained recognition. However, the need for specifically designed four to six primers and non-specific amplification pose challenges for further application of LAMP based detection methods. Here, a novel isothermal amplification method, termed closed dumbbell mediated isothermal amplification (CDA) of nucleic acids, was developed. The primers are easily designed by adding two different parts of middle sequence to the canonical PCR primers at 5'-ends. CDA method was demonstrated in detecting MERS-CoV orf1a gene and H1N1 gene fragments with merits of short core primer, simple primer design process and high amplification efficiency. In addition, CDA showed excellent amplification efficacy over LAMP and competitive annealing mediated isothermal amplification (CAMP) by slight modification of primers targeting at same sequence. Furthermore, real-time and HNB based colorimetric CDA detection of Shigella were developed for practical application, both exhibited 100% success. In all, the developed CDA method with high specificity, simplicity, efficiency and rapidity has shown its great potential for point of care nucleic acids diagnostic.