Wash-Free and High-Contrast Imaging of Single-Nucleotide Variation in Single Cells Using Transcription-Amplified Light-Up RNA Aptamer.

ABSTRACT

Single-nucleotide variation (SNV) imaging can indicate cellular heterogeneity and spatial pattern, but it remains challenging to produce high-gain signal while also yielding single-nucleotide resolution. Herein, we developed a light-up strategy for visualizing SNVs based on transcription amplification, enabling wash-free and high-contrast imaging of SNVs inside cells. The discrimination of SNVs is achieved by ligase-assisted transcription reaction. Employing a light-up RNA aptamer as a reporter eliminates nonspecific probe binding and the washing process and contributes to a 2-fold improvement of signal gain compared to that using the fluorescence in situ hybridization (FISH) method. The method allowed us to precisely quantify drug-resistant strains in the bacteria mixture and identify drug-resistant Salmonella enterica (S. enterica) isolated from poultry farm. Using this approach, we explored the colonization features of drug-resistant and drug-sensitive S. enterica in the mice intestinal tract and screened the prebiotics for Salmonella colonization inhibition. The SNV imaging method promises for the interrogation of genotypes in physiological and pathological states at the single-cell level.