Xin Zhang scite author profile

The transformation of extracellular antibiotic resistance genes (eARGs) is largely influenced by their inevitable photodegradation in environments where they tend to be adsorbed by ubiquitous clay minerals instead of being in a free form. However, the photodegradation behaviors and mechanisms of the adsorbed eARGs may be quite different from those of the free form and still remain unclear. Herein, we found that kaolinite, a common 1:1-type clay, markedly enhanced eARG photodegradation and made eARGs undergo direct photodegradation under UVA. The decrease in the transformation efficiency of eARGs caused by photodegradation was also promoted. Spectroscopy methods combined with density functional theory calculations revealed that the Lewis acid–base interaction between P–O in eARGs and Al–OH on kaolinite delocalized electrons of eARGs, thus resulting in increased photon absorption ability of eARGs. This ultimately led to enhanced photodegradation of kaolinite-adsorbed eARGs. Additionally, divalent Ca2+ could reduce the Lewis acid–base interaction-mediated adsorption of eARGs by kaolinite, thereby weakening the enhanced photodegradation of eARGs caused by electron delocalization. In contrast, the 2:1-type clay montmorillonite without strong Lewis acid sites was unable to delocalize the electrons to enhance the photodegradation of eARGs. This work allowed us to better evaluate eARGs’ fate and risk in real aqueous environments.

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Novel compound heterozygous mutation and phenotype in the tetratricopeptide repeat-like domain of the GEMIN5 gene in two Chinese families

Zhang

Guo²,

et al. 2023

J Hum Genet

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Xin Zhang

Highly efficient removal of phosphonates by ferrate-induced oxidation coupled with in situ coagulation

Lewis Acid–Base Interaction Triggering Electron Delocalization to Enhance the Photodegradation of Extracellular Antibiotic Resistance Genes Adsorbed on Clay Minerals

Novel compound heterozygous mutation and phenotype in the tetratricopeptide repeat-like domain of the GEMIN5 gene in two Chinese families

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