Litcius/Paper detail

Synthetic bacteria for the detection and bioremediation of heavy metals

Thi Duc Thai, Wonseop Lim, Dokyun Na

2023Frontiers in Bioengineering and Biotechnology74 citationsDOIOpen Access PDF

Abstract

Toxic heavy metal accumulation is one of anthropogenic environmental pollutions, which poses risks to human health and ecological systems. Conventional heavy metal remediation approaches rely on expensive chemical and physical processes leading to the formation and release of other toxic waste products. Instead, microbial bioremediation has gained interest as a promising and cost-effective alternative to conventional methods, but the genetic complexity of microorganisms and the lack of appropriate genetic engineering technologies have impeded the development of bioremediating microorganisms. Recently, the emerging synthetic biology opened a new avenue for microbial bioremediation research and development by addressing the challenges and providing novel tools for constructing bacteria with enhanced capabilities: rapid detection and degradation of heavy metals while enhanced tolerance to toxic heavy metals. Moreover, synthetic biology also offers new technologies to meet biosafety regulations since genetically modified microorganisms may disrupt natural ecosystems. In this review, we introduce the use of microorganisms developed based on synthetic biology technologies for the detection and detoxification of heavy metals. Additionally, this review explores the technical strategies developed to overcome the biosafety requirements associated with the use of genetically modified microorganisms.

Topics & Concepts

BioremediationBiosafetyBiochemical engineeringMicroorganismSynthetic biologyHeavy metalsEnvironmental remediationBiotechnologyEnvironmental scienceBiologyBacteriaEnvironmental chemistryContaminationChemistryEcologyComputational biologyEngineeringGeneticsChromium effects and bioremediationbioluminescence and chemiluminescence researchMicrobial Community Ecology and Physiology