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Designed bacteria based on natural pbr operons for detecting and detoxifying environmental lead: A mini-review

Chang-ye Hui, Bing-chan Ma, Yongqiang Wang, Xueqin Yang, Jin-min Cai

2023Ecotoxicology and Environmental Safety34 citationsDOIOpen Access PDF

Abstract

Lead (Pb), a naturally occurring element, is redistributed in the environment mainly due to anthropogenic activities. Pb pollution is a crucial public health problem worldwide due to its adverse effects. Environmental bacteria have evolved various protective mechanisms against high levels of Pb. The pbr operon, first identified in Cupriavidus metallidurans CH34, encodes a unique Pb(II) resistance mechanism involving transport, efflux, sequestration, biomineralization, and precipitation. Similar pbr operons are gradually found in diverse bacterial strains. This review focuses on the pbr-encoded Pb(II) resistance system. It summarizes various whole-cell biosensors harboring artificially designed pbr operons for Pb(II) biomonitoring with fluorescent, luminescent, and colorimetric signal output. Optimization of genetic circuits, employment of pigment-based reporters, and screening of host cells are promising in improving the sensitivity, selectivity, and response range of whole-cell biosensors. Engineered bacteria displaying Pb(II) binding and sequestration proteins, including PbrR and its derivatives, PbrR2 and PbrD, for adsorption are involved. Although synthetic bacteria show great potential in determining and removing Pb at the nanomolar level for environmental protection and food safety, some challenges must be addressed to meet demanding application requirements.

Topics & Concepts

OperonBacteriaEffluxBiosensorEnvironmental chemistryChemistryBiologyBiochemistryGeneGeneticsEscherichia colibioluminescence and chemiluminescence researchChromium effects and bioremediationMicrobial Fuel Cells and Bioremediation
Designed bacteria based on natural pbr operons for detecting and detoxifying environmental lead: A mini-review | Litcius