Abstract
Fluorogenic RNA aptamers have various applications, including use as fluorescent tags for imaging RNA trafficking and as indicators of RNA-based sensors that exhibit fluorescence upon binding small-molecule fluorophores in living cells. Current fluorogenic RNA:fluorophore complexes typically emit visible fluorescence. However, it is challenging to develop fluorogenic RNA with near-infrared (NIR) fluorescence for in vivo imaging and sensing studies. To address this issue, we identify and modulate red fluorescent protein-like fluorophores to bind Squash, a highly folded fluorogenic RNA. One of these fluorophores, DFQL-1T, exhibits photostable NIR fluorescence when bound to Squash, enabling RNA visualization in living mammalian cells and mice. With Squash:DFQL-1T complexes, we generate RNA-based sensors for detecting non-coding RNAs and small molecule targets in living mammalian cells and in mice. These studies reveal a fluorogenic RNA:fluorophore complex that can be readily developed into NIR fluorescent RNA tags for in vivo imaging and sensing.