Advances in G‐quadruplexes‐based fluorescent imaging

G‐quadruplexes (G4s), the noncanonical nucleic acid secondary structure, form within guanine‐rich DNA or RNA sequences. G4s formation can affect chromatin architecture and gene regulation and has been associated with various cellular functions, including DNA replication, transcription, and genome maintenance. Visualizing and detecting G4s precisely in such processes is essential to increasing our understanding of G4s biology. Considerable attention has focused on the G4s targeting molecular imaging studies. Besides, fluorescent light‐up aptamers (FLAPs, also referred to as fluorogenic aptamers) have gained momentum, which commonly have a G4 scaffolding for imaging intracellular RNAs and metabolites. In this review, we first introduce several representative fluorescent imaging approaches for tracking G4s in cells and in vivo. We also discuss the potential of G4‐containing FLAPs in bioimaging and summarize current developments in this field from the standpoint of fluorescent molecules. Finally, we discuss the present challenges and future potential of G4 imaging and G4‐containing FLAPs development.