Issue 85, 2024

Advances in mechanism for the microbial transformation of heavy metals: implications for bioremediation strategies

Abstract

Heavy metals are extensively discharged through various anthropogenic activities, resulting in an environmental risk on a global scale. In this case, microorganisms can survive in an extreme heavy metal-contaminated environment via detoxification or resistance, playing a pivotal role in the speciation, bioavailability, and mobility of heavy metals. Therefore, studies on the mechanism for the microbial transformation of heavy metals are of great importance and can provide guidance for heavy metal bioremediation. Current research studies on the microbial transformation of heavy metals mainly focus on the single oxidation, reduction and methylation pathways. However, complex microbial transformation processes and corresponding bioremediation strategies have never been clarified, which may involve the inherent physicochemical properties of heavy metals. To uncover the underlying mechanism, we reclassified heavy metals into three categories based on their biological transformation pathways, namely, metals that can be chelated, reduced or oxidized, and methylated. Firstly, we comprehensively characterized the difference in transmembrane pathways between heavy metal cations and anions. Further, biotransformation based on chelation by low-molecular-weight organic complexes is thoroughly discussed. Moreover, the progress and knowledge gaps in the microbial redox and (de)methylation mechanisms are discussed to establish a connection linking theoretical advancements with solutions to the heavy metal contamination problem. Finally, several efficient bioremediation strategies for heavy metals and the limitations of bioremediation are proposed. This review presents a solid contribution to the design of efficient microbial remediation strategies applied in the real environment.

Graphical abstract: Advances in mechanism for the microbial transformation of heavy metals: implications for bioremediation strategies

Article information

Article type
Feature Article
Submitted
24 Jul 2024
Accepted
23 Sep 2024
First published
23 Sep 2024

Chem. Commun., 2024,60, 12315-12332

Advances in mechanism for the microbial transformation of heavy metals: implications for bioremediation strategies

C. Ding, Z. Ding, Q. Liu, W. Liu and L. Chai, Chem. Commun., 2024, 60, 12315 DOI: 10.1039/D4CC03722G

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