Establishment of an Accurate and Fast Detection Method Using Molecular Beacons in Loop-mediated Isothermal Amplification Assay

Overview

Journal Sci Rep

Specialty Science

Date 2017 Jan 7

PMID 28059137

Citations 39

Authors

Wei Liu

Simo Huang

Ningwei Liu

Derong Dong

Zhan Yang

Yue Tang

Wen Ma

Xiaoming He

Da Ao

Yaqing Xu

Dayang Zou

Liuyu Huang

Affiliations

Soon will be listed here.

Abstract

This study established a constant-temperature fluorescence quantitative detection method, combining loop-mediated isothermal amplification (LAMP) with molecular beacons. The advantages of LAMP are its convenience and efficiency, as it does not require a thermocycler and results are easily visualized by the naked eye. However, a major disadvantage of current LAMP techniques is the use of indirect evaluation methods (e.g., electrophoresis, SYBR Green I dye, precipitation, hydroxynaphthol blue dye, the turbidimetric method, calcein/Mn dye, and the composite probe method), which cannot distinguish between the desired products and products of nonspecific amplification, thereby leading to false positives. Use of molecular beacons avoids this problem because molecular beacons produce fluorescence signals only when binding to target DNA, thus acting as a direct indicator of amplification products. Our analyses determined the optimal conditions for molecular beacons as an evaluation tool in LAMP: beacon length of 25-45 bp, beacon concentration of 0.6-1 pmol/μL, and reaction temperature of 60-65 °C. In conclusion, we validated a novel molecular beacon loop-mediated isothermal amplification method (MB-LAMP), realizing the direct detection of LAMP product.

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