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Microsphere-Enhanced Fluorescence-Lightened Solid-Phase Hybridization Assay: The Strategy to Highly Selective Detection of Micro Ribonucleic Acids.

Ziheng WeiXiaoli YangLingrui XuLamu BenmaDanhong WuHulie Zeng
Published in: Analytical chemistry (2024)
The detection of low-abundance microribonucleic acid (miRNA) frequently adopted nucleic acid sequence-based amplification detection, which was found to have poor selectivity for the nonspecific amplification of template-dependent ligation in enzyme-mediated cascade reactions. Here, a highly selective detection of miRNAs was developed that combined microsphere-enhanced fluorescence (MSEF) and solid-phase base-paired hybridization. The target miRNA could be accurately and quantitatively identified through the solid-phase hybridization assay on the surface of an optical microsphere, while the detected fluorescence signal could be physically amplified by MSEF. Hereinto, the optical microsphere acted as the fluorescence amplifier and whose surface supplied the space to carry out base-paired hybridization to recognize the target miRNA via the immobilized capture DNA sequence. The detected fluorescence signal of the single-base mismatched miRNA-21 sequence was just around 12% of that of the target miRNA-21 sequence in the measurement of model miRNA-21, while the limit of detection of miRNA-21 could be 1.0 fM. The developed detection of miRNA on an optical microsphere was demonstrated to be an excellent physically amplified method to selectively and sensitively detect the target miRNA and magnificently avoid the nonspecific amplification and false-positive results, which is expected to have wide applications in pathematology, pharmacology, clinic diagnosis, and on-site screening fields as well.
Keyphrases
  • nucleic acid
  • label free
  • single molecule
  • loop mediated isothermal amplification
  • real time pcr
  • high resolution
  • energy transfer
  • primary care
  • mass spectrometry
  • cell free
  • ionic liquid
  • simultaneous determination