Combination of Paraconiothyrium brasiliense fabricated titanium dioxide nanoparticle and antibiotics enhanced antibacterial and antibiofilm properties: A toxicity evaluation

Antimicrobial resistance (AMR) causes global consequences through increased mortality and economic loss. Antimicrobial drugs including nanomaterials are an emerging environmental impact. Hence, this work aimed to synthesize and characterize the titanium dioxide nanoparticles (TiO2 NPs) using the aqu...

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Published in:Environmental research 2022-09, Vol.212 (Pt B), p.113237-113237, Article 113237
Main Authors: Sathiyaseelan, Anbazhagan, Saravanakumar, Kandasamy, Naveen, Kumar Vishven, Han, Ki-Seok, Zhang, Xin, Jeong, Myeong Seon, Wang, Myeong-Hyeon
Format: Article
Language:English
Subjects:
Anti-biofilm
Antibacterial
Mycosynthesis
TiO2 NPs
Toxicity
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Summary:Antimicrobial resistance (AMR) causes global consequences through increased mortality and economic loss. Antimicrobial drugs including nanomaterials are an emerging environmental impact. Hence, this work aimed to synthesize and characterize the titanium dioxide nanoparticles (TiO2 NPs) using the aqueous extract of endophytic fungus Paraconiothyrium brasiliense (Pb) for enhancing the antibacterial efficiency of existing standard antibiotics at minimum concentration. The FTIR and XRD results confirmed the capping of functional molecules and the crystalline nature of Pb–TiO2 NPs. The spherical-shaped TiO2 NPs with the size of 57.39 ± 13.65 nm were found in TEM analysis. The average hydrodynamic size (68.43 ± 1.49 d. nm) and the zeta potential (−19.6 ± 1.49 mV) was confirmed the stability of Pb–TiO2 NPs. Antibacterial studies revealed that bare Pb–TiO2 NPs (20 μg/mL) did not exhibit significant antibacterial activity while combination of TCH + Pb–TiO2 NPs considerably increased the inhibition of E. coli biofilm evidenced by CLSM and SEM analysis. Further, Pb–TiO2 NPs (100 μg/mL) were found to be moderately toxic to cell line (NIH3T3), red blood cells (RBC), and egg embryos. Hence, this study concluded that
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2022.113237