Click Chemical Ligation-Initiated On-Bead DNA Polymerization for the Sensitive Flow Cytometric Detection of 3′-Terminal 2′-O-Methylated Plant MicroRNA

A versatile flow cytometric strategy is developed for the sensitive detection of plant microRNA (miRNA) by coupling the target-templated click nucleic acid ligation (CNAL) with on-bead terminal enzymatic DNA polymerization (TEP). Unlike ligase-catalyzed ligation reaction, the plant miRNA-templated enzyme-free CNAL between two single-stranded DNA (ssDNA) probes, respectively modified with Aza-dibenzocyclooctyne (Aza-DBCO) and N3, can not only simplify the operation, but also achieve a much higher ligation efficiency. More importantly, the undesirable nonspecific ligation between the Aza-DBCO- and N3-modified ssDNA, can be effectively eliminated by adding Tween-20, which allows the use of cycling CNAL (CCNAL) in a background-free manner. So each plant miRNA can template many rounds of CNAL reaction to produce numerous ligation products, forming efficient signal amplification. The ligated ssDNA can be anchored on the magnetic beads (MBs) with the 3′-OH termini exposed outside. Then terminal deoxynucleotidyl ...