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A Cyanine Dye for Highly Specific Recognition of Parallel G-Quadruplex Topology and Its Application in Clinical RNA Detection for Cancer Diagnosis.

Hong-Xia SunRanran SunDawei YangQian LiWenna JiangTianxing ZhouRuiyang BaiFanru ZhongBoyang ZhangJunfeng XiangJing LiuYa-Lin TangLi Yao
Published in: Journal of the American Chemical Society (2024)
G-quadruplex (G4), an unconventional nucleic acid structure, shows polymorphism in its topological morphology. The parallel G4 topology is the most prevalent form in organisms and plays a regulatory role in many biological processes. Designing fluorescent probes with high specificity for parallel G4s is important but challenging. Herein, a supramolecular assembly of the anionic cyanine dye SCY-5 is reported, which selectively identifies parallel G4 topology. SCY-5 can clearly distinguish parallel G4s from other G4s and non-G4s, even including hybrid-type G4s with parallel characteristics. The high specificity mechanism of SCY-5 involves a delicate balance between electrostatic repulsion and π-π interaction between SCY-5 and G4s. Using SCY-5, cellular RNA extracted from peripheral venous blood was quantitatively detected, and a remarkable increase in RNA G4 content in cancer patients compared to healthy volunteers was confirmed for the first time. This study provides new insights for designing specific probes for parallel G4 topology and opens a new path for clinical cancer diagnosis using RNA G4 as a biomarker.
Keyphrases
  • nucleic acid
  • papillary thyroid
  • small molecule
  • squamous cell
  • gene expression
  • squamous cell carcinoma
  • highly efficient
  • dna methylation
  • quantum dots
  • molecular dynamics simulations
  • gram negative
  • label free