Antisense-induced guanine quadruplexes inhibit reverse transcription by HIV-1 reverse transcriptase.

Guanine quadruplex structures in DNA and RNA affect normal cellular processes such as replication, recombination, and translation. Thus, controlling guanine quadruplex structures could make it possible to manipulate the biological function of nucleic acids. Here, we report a novel antisense strategy using guanine-tethered antisense oligonucleotides (g-ASs) that introduces an RNA-DNA heteroquadruplex structure on RNA templates in a predictable and sequence-specific manner, which in practice effectively inhibited reverse transcription on a variety of RNA sequences, including the HIV-1 RNA genome.