4.7 Article

DFT-based analysis of siderophore-metal ion interaction for efficient heavy metal remediation

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Publisher

SPRINGER HEIDELBERG
DOI: 10.1007/s11356-023-28854-6

Keywords

Siderophores; Selectivity; Stability; Density functional theory; Metal remediation; Interaction

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In this study, the interaction between metal ions and four types of siderophore was modeled and analyzed. The results showed that the siderophores exhibited different levels of selectivity towards various metal ions, which was determined by the electronegativity and ionic radius of the siderophore functional groups and metals, as well as the interaction between them. Moreover, cyclic siderophores were found to be more stable than linear ones for metal binding.
Siderophores have great application potential in metal pollutant remediation because of their effective cost and friendly impact on the environment. However, the practical use of siderophores in the remediation of specific metals is rather limited because of the weak nonspecific interactions between the siderophores and different metals. Thus, screening for a siderophore with optimal interaction with a specific metal would be necessary. In this study, the interaction between metal ions and moieties that donate the oxygen ligands for the coordination of four types of siderophore (hydroxamates, catecholates, phenolates, and carboxylates) was modeled and analyzed. As revealed by DFT-based analysis, the four types of siderophore generally exhibited selection preference for different metal ions in the order Ga3+ > Al3+ > Fe3+ > Cr3+ > Ni2+ > Cu2+ > Zn2+ > Co2+ > Mn2+ > Hg2+ > Pb2+ > Cd2+, which was determined mainly by the electronegativity of the siderophore functional groups, the electronegativity of the metals, and the ionic radius of the metals, as well as the interaction between the siderophores and the metals. Moreover, the effect of linear or nonlinear (cyclic) structure on the affinity of each siderophore for different metal ions was evaluated. In most situations, metal-bound cyclic siderophores were found to be more stable than their linear counterparts. Thus, proper siderophores for the remediation of metal pollution may be rapidly screened using this model.

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