A Zn-Al-Zr layered double hydroxide/graphene oxide nanocomposite enables rapid photocatalytic removal of kanamycin-resistance bacteria and genes via nano-confinement effects

For efficient removal of the antibiotic-resistance bacteria and antibiotic-resistance genes, zirconium-doped zinc-aluminum layered double hydroxide/graphene oxide (Zn-Al-Zr LDHs/GO) nanocomposite has been developed. The Zn-Al-Zr LDHs/GO shows outstanding photocatalytic sterilization, inactivating ka...

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Published inApplied catalysis. B, Environmental Vol. 350; p. 123922
Main Authors Yu, Miao, Liu, Dawei, Wang, Lichao, Xia, Jing, Ren, Jianhui, Fan, Yuqiu, Zhu, Xiaofeng, Wang, Jun, Xiong, Kun
Format Journal Article
LanguageEnglish
Published Elsevier B.V 05.08.2024
Subjects
Antibiotic-resistance
Differential Proteomics
Nano-confinement Effects
Photocatalysis
Wastewater Treatment
Nano-confinement Effects
Differential Proteomics
Antibiotic-resistance
Photocatalysis
Wastewater Treatment
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Abstract For efficient removal of the antibiotic-resistance bacteria and antibiotic-resistance genes, zirconium-doped zinc-aluminum layered double hydroxide/graphene oxide (Zn-Al-Zr LDHs/GO) nanocomposite has been developed. The Zn-Al-Zr LDHs/GO shows outstanding photocatalytic sterilization, inactivating kanamycin-resistance E. coli (6.53 log10 CFU/mL) under the full-wavelength light irradiation within 50 minutes. Owing to the 1O2 formation, it greatly disrupts the respiratory chain of the kanamycin-resistance E. coli, thereby leading to a declined yield of adenosine triphosphate, down-regulated expressions of the DNA ligase and polymerase proteins, as well as completely inhibited expressions of the DNA repair proteins. Meanwhile, the strong adsorption capability of the Zn-Al-Zr LDHs/GO towards phosphorus endows it with special nano-confinement effects for ARGs. It results in significantly enriched local concentration of the kanamycin-resistance genes on the Zn-Al-Zr LDHs/GO, consequently enhanced removal ability towards the kanamycin-resistance genes (4.70 log10 copies/mL in 3 hours). This work provides a new strategy for effectively removing the ARB and ARGs. [Display omitted] •Zn-Al-Zr LDHs/GO binds e-ARGs through the nano-confinement effects.•Zn-Al-Zr LDHs/GO removes ARB with different concentrations in 60 min by photocatalytic.•ATP yield in ARB decreased and DNA replication was blocked by 1O2.•Zn-Al-Zr LDHs/GO has stable material structure and photocatalytic activity.
AbstractList For efficient removal of the antibiotic-resistance bacteria and antibiotic-resistance genes, zirconium-doped zinc-aluminum layered double hydroxide/graphene oxide (Zn-Al-Zr LDHs/GO) nanocomposite has been developed. The Zn-Al-Zr LDHs/GO shows outstanding photocatalytic sterilization, inactivating kanamycin-resistance E. coli (6.53 log10 CFU/mL) under the full-wavelength light irradiation within 50 minutes. Owing to the 1O2 formation, it greatly disrupts the respiratory chain of the kanamycin-resistance E. coli, thereby leading to a declined yield of adenosine triphosphate, down-regulated expressions of the DNA ligase and polymerase proteins, as well as completely inhibited expressions of the DNA repair proteins. Meanwhile, the strong adsorption capability of the Zn-Al-Zr LDHs/GO towards phosphorus endows it with special nano-confinement effects for ARGs. It results in significantly enriched local concentration of the kanamycin-resistance genes on the Zn-Al-Zr LDHs/GO, consequently enhanced removal ability towards the kanamycin-resistance genes (4.70 log10 copies/mL in 3 hours). This work provides a new strategy for effectively removing the ARB and ARGs. [Display omitted] •Zn-Al-Zr LDHs/GO binds e-ARGs through the nano-confinement effects.•Zn-Al-Zr LDHs/GO removes ARB with different concentrations in 60 min by photocatalytic.•ATP yield in ARB decreased and DNA replication was blocked by 1O2.•Zn-Al-Zr LDHs/GO has stable material structure and photocatalytic activity.
ArticleNumber 123922
Author Liu, Dawei
Yu, Miao
Fan, Yuqiu
Zhu, Xiaofeng
Xia, Jing
Xiong, Kun
Wang, Lichao
Ren, Jianhui
Wang, Jun
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Keywords Nano-confinement Effects
Differential Proteomics
Antibiotic-resistance
Photocatalysis
Wastewater Treatment
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SSID ssj0002328
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Snippet For efficient removal of the antibiotic-resistance bacteria and antibiotic-resistance genes, zirconium-doped zinc-aluminum layered double hydroxide/graphene...
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elsevier
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StartPage 123922
SubjectTerms Antibiotic-resistance
Differential Proteomics
Nano-confinement Effects
Photocatalysis
Wastewater Treatment
Title A Zn-Al-Zr layered double hydroxide/graphene oxide nanocomposite enables rapid photocatalytic removal of kanamycin-resistance bacteria and genes via nano-confinement effects
URI https://dx.doi.org/10.1016/j.apcatb.2024.123922
Volume 350
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