RNA-Primed Amplification for Noise-Suppressed Visualization of Single-Cell Splice Variants.

Splice variants visualization is pivotal for a deeper understanding of cell growth and development. However, it remains technically challenging due to short lengths, similar sequences, and low abundance. The existing single-cell imaging strategies suffer from nonspecific amplification that causes considerable noise during visualization of the splice variants. Herein we develop a new RNA-primed amplification strategy for noise-suppressed visualization of single-cell splice variants. Block probes were designed to specifically identify the conjugated region of exons in mRNA, which was then digested by endonuclease and provided a hydroxyl group at the 3' terminal. The RNA target can act as primer to trigger rolling circle amplification, achieving visualization of splice variants with noise suppressed to nearly zero. We further explored the expression and distribution of BRCA1 splice variants in three breast cell lines, revealing cell-type specific mapping of this cancer suppressor gene.