Development and application of G4-Flame as a visual biosensor for G4-DNA
Liu Ruyi, Wang Tao, Wang Chunxu, Xu Mingyou, Chen Boyu, Zhao Jinyi, Xiong Wanxiang, Pan Shixiang, Ruan Zhao, Lu Ningyuan, Zhang Yuxin, Yang Guang, Meng Fanzheng, Liu Yufeng, Sun Xuedan, Liu Lianxin
Journal:NUCLEIC ACIDS RESEARCH
IF:15
DOI:10.1093/nar/gkag179
PMID:41873758
Published:2026-03-24
research field:核酸结构分子生物学基因工程生物成像癌症诊断
Abstract
G-quadruplex DNA (G4-DNA), a noncanonical tetrahelical nucleic acid structure stabilized by stacked G-quartets via Hoogsteen hydrogen bonding, plays critical roles in genomic regulation and disease pathogenesis. Current methodologies for detecting these structures face limitations in specificity, spatiotemporal resolution, and live-cell applicability. To address these challenges, we engineered G4-Flame, a genetically encoded fluorescent biosensor utilizing circularly permuted fluorescent protein technology. By strategically positioning a G4-specific binding domain proximal to the fluorophore of circularly permuted YFP (cpYFP), G4-Flame achieves real-time, high-resolution visualization of G4-DNA dynamics in living systems, with specificity across diverse G4 conformations. Experimental validation revealed distinct spatiotemporal patterns of G4-DNA during the cell cycle: nuclear G4-DNA levels peaked during the S phase, while mitochondrial G4-DNA was found to suppress the expression of mitochondrial-encoded genes. Clinically, serum analysis revealed significantly elevated G4-DNA levels in cancer patients compared to healthy controls. This work establishes G4-Flame as a transformative tool for investigating G4-DNA spatiotemporal regulation and advances its potential as a biomarker for early cancer detection, bridging fundamental research with clinical translation.
本文使用的Yeasen产品


