Abstract

The primary objective of the current investigation was the biosynthesis of Phy-AgNPs by the endophytic fungus Phyllosticta owaniana (extractedfrom Abrus precatorius) and the evaluation of the secondary metabolites from the ethyl acetate extract of P. owaniana cultivated by submerged fermentation. Utilizing bioanalytical strategies, Phy-AgNPs were characterized. The UV-visible spectrophotometer analysis revealed an absorption spectrum with a peak at 420nm, thus validating the Phy-AgNPs synthesis. The FTIR analysis revealed peaks correlating to various potential functional groups, suggesting that Phy-AgNPs have been reduced and capped. SEM-EDAX and HR-TEM analyses demonstrated the spherical shape of Phy-AgNPs, and the 3keV EDAX analysis confirmed the existence of silver atoms. XRD analyses showed the Phy-AgNPs crystalline structure. The size and the stability of synthesized Phy-AgNPs (65.81nm) were measured by DLS and Zeta potential studies. While the ethyl acetate extract was analyzed with GC-MS and FTIR for secondary metabolites. The synthesized Phy-AgNPs showed effective antibacterial activity against Pseudomonas aeruginosa (15.1 ± 0.17mm, 10mg/mL), while the antifungal activity of Phy-AgNPs inhibited the growth of Candida albicans extremely efficiently (12.16 ± 0.28mm, 10mg/mL). Phy-AgNPs were evaluated for a variety of biomedical properties in which they showed significant activity. In a cell viability assay using the MTT assay, Phy-AgNPs exhibited a cytotoxic impact of up to 30.67% and 34.53% when 200µg/mL were detected. In both in vitro and in vivo anti-inflammatory examinations, nanoparticles (NPs) exhibited a significant anti-inflammatory effect. These findings support the pharmaceutical and biomedical properties of the synthesized Phy-AgNPs.

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