L-RNA aptamers have been developed to target G-quadruplexes (G4s) and regulate G4-mediated gene expression. However, the aptamer selection process is laborious and challenging, and aptamer identification is subjected to high failure rate. By analyzing the previously reported G4-binding L-RNA aptamers, we found that the stem-loop (SL) structure is favored by G4 binding. Herein, we present a robust and effective G4-SLSELEX-Seq platform specifically for G4 targets by introducing a pre-defined stem-loop structure library during SELEX process. Using G4-SLSELEX-Seq, we rapidly identified an L-RNA aptamer, L-Apt1-12 for EBNA1 RNA G4 (rG4) in just three selection rounds. L-Apt1-12 maintained the stem-loop structure initially introduced, and possessed a unique G-triplex motif that is important for the strong binding affinity and specificity to EBNA1 rG4. Notably, L-Apt1-12 effectively downregulated endogenous EBNA1 protein expression in human cancer cells and showed selective toxicity towards EBV-positive cancer cells, highlighting its potential for targeted therapy against EBV-associated cancers. Furthermore, we demonstrate the robustness and generality of G4-SLSELEX-Seq by selecting L-RNA aptamers for another two G4 targets-APP rG4 and HCV-1a rG4, also obtaining high-affinity aptamers in three selection rounds. These findings demonstrated G4-SLSELEX-Seq can be a robust and efficient platform for the selection of L-RNA aptamers targeting rG4.
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