Simple construction of a two-component fluorescent sensor for turn-on detection of Hg2+ in human serum

The simply constructed fluorescent sensor with inexpensive reagents and low toxicity has attracted increasing attention contributing to its practical application. However, the common construction methods usually required a few building blocks and complex procedures, which is inconvenient for their further application. Herein, a simply constructed fluorescent Hg2+ sensor has been developed based on the intrinsic fluorescence quenching power of G-quadruplex. Two components, AGRO 100 and AMT, were used to construct the sensor. AMT was selected as the fluorescent probe because of its distinct merits. The free AMT emits strongly. However, the fluorescence of AMT could be quenched by G-quadruplex DNA. Additionally, AMT is less toxic and inexpensive. AGRO 100 acts as both the quencher and the capture sequence because it consists of G-rich sequences and T-T mismatched base pairs. The fluorescence of AMT could be quenched by the formed G-quadruplex structure of AGRO 100 in the presence of K+. In the presence of Hg2+, G-quadruplex structure of AGRO 100 was switched to hairpin DNA structure because T-T mismatched base pairs in AGRO 100 could specifically recognize and capture Hg2+ with high affinity. Thus, AMT was released and the fluorescence of AMT was recovered. The developed sensing system was successfully applied to detect Hg2+ in human serum with good recovery and reproducibility.

Automated summary

A simply constructed fluorescent Hg2+ sensor based on the intrinsic fluorescence quenching power of G-quadruplex was developed using inexpensive reagents and low toxicity. Two components, AGRO 100 and AMT, were used to construct the sensor. AMT served as the fluorescent probe while AGRO 100 acted as both the quencher and the capture sequence. The sensing system showed good performance for detecting Hg2+ in human serum.