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Dual-colored bacterial biosensor responsive to cadmium, mercury, and lead for detecting heavy metal pollution in seawater

Shun-yu Hu, Chang-ye Hui, Can Wu, Chao-xian Gao, Zhenlie Huang, Yan Guo

2024Ecological Indicators20 citationsDOIOpen Access PDF

Abstract

Estimating bioavailable heavy metals in seawater is closely related to the indication of ecological risk. This study combined a CadR-regulated vioABE expression module and a MerR-regulated VioC expression module to generate a novel dual-colored bacterial cell-based biosensor. After genetic optimization, the preferred biosensor could detect as low as 9.7 nM Cd(II), 24.4 nM Pb(II), and 0.5 nM Hg(II). Increased grey-green intensities were observed in Cd(II) (4.9 nM to 40 μM) and Pb(II) (24.4 nM to 200 μM) exposure groups. Interestingly, increased purple intensity was observed in the Hg(II) exposure group (3.7 to 468.8 nM) in a dose-dependent manner. A low-cost and mini-equipment biosensing process was established for detecting pollutant heavy metals in seawater, with the added advantage of providing information on the bioavailability and cytotoxicity of heavy metals. High salinity weakly interferes with the biosensing response to Hg(II). This study shows that novel colorimetric biosensors have the potential to simultaneously report various toxic metals in environmental water samples, contributing to protecting marine ecology.

Topics & Concepts

Mercury (programming language)CadmiumSeawaterEnvironmental chemistryHeavy metalsEnvironmental scienceLead (geology)PollutionBiosensorChemistryEcologyBiologyComputer sciencePaleontologyBiochemistryProgramming languageOrganic chemistrybioluminescence and chemiluminescence researchAdvanced biosensing and bioanalysis techniquesMercury impact and mitigation studies
Dual-colored bacterial biosensor responsive to cadmium, mercury, and lead for detecting heavy metal pollution in seawater | Litcius