Litcius/Paper detail

Ratiometric-enhanced G-Quadruplex Probes for Amplified and Mix-to-Read Detection of Mercury Pollution in Aquatic Products

Yanping Wu, Yuxi Yue, Sha Deng, Guiping He, Hong Gao, Mi Zhou, Kai Zhong, Ruijie Deng

2020Journal of Agricultural and Food Chemistry33 citationsDOI

Abstract

Mercury, as a global toxic pollutant, is easy to be accumulated in aquatic products and poses a great threat to human health. In this work, we proposed a mix-to-read, label-free, and robust assay for detecting mercury pollution in aquatic products by engineering a ratiometric-enhanced G-quadruplex probe. The transformation from the G-quadruplex to a hairpin-like structure allows us to confer a ratiometric and leveraged response to Hg2+, amplifying the signal-to-background ratio for Hg2+ detection. Hg2+ response was further improved by screening parallel- and antiparallel-, single-, and multiple-stranded G-quadruplex structures. Compared to the common aptamer probes, the ratiometric-enhanced G-quadruplex probe increased the sensitivity for Hg2+ detection by 4.7 times. This proposed sensing system allowed a simple and one-tube homogenous detection of Hg2+ at room temperature using a single unlabeled DNA sequence. Its application for Hg2+ detection in fish and shrimp conferred satisfactory recovery rates ranging from 98.5 to 105.9%. The label-free and mix-to-read assay is promising for the onsite detection of mercury pollution and facilitating food safety of aquatic products.

Topics & Concepts

Mercury (programming language)G-quadruplexDetection limitChemistryEnvironmental chemistryPollutantAptamerHuman healthAquatic ecosystemDNAChromatographyBiologyMolecular biologyComputer scienceBiochemistryOrganic chemistryMedicineEnvironmental healthProgramming languageAdvanced biosensing and bioanalysis techniquesDNA and Nucleic Acid ChemistryGold and Silver Nanoparticles Synthesis and Applications