Thioflavin T (ThT) is a commercially available fluorescent dye that is commonly used in biomedical research for over five decades. It was first reported as an extrinsic fluorescent probe for the detection of amyloid fibrils and related processes and it has also been used extensively for assessing protein binding in fluorescence-based assays. Although the nucleic acid binding of ThT was reported half of a century ago in the 1970s, it was not widely explored until the start of this decade. In recent years, Thioflavin T has become a major tool in the recognition of many types of non-canonical nucleic acid conformations including duplexes, triplexes, and G-quadruplexes. The propensity of ThT binding is more towards base aberrations, bulges, and mismatches highlighting its importance in serving as a diagnostic tool in a variety of ailments/disease conditions. In this review, we cover major advancements in nucleic acid detection/binding by ThT to a variety of nucleic acid structures.
Keywords: Fluorescent probes; G-quadruplex; Molecular rotors; Nucleic acids; ThT.
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