Abstract
Fagonia indica is a widely known medicinal plant. The extracts of Fagonia species contain secondary metabolites such as flavonoids, phenolic compounds, and terpenoids. Silver nanoparticles are known for antibacterial properties. In this study, AgNPs were synthesized using the callus extract of F. indica as a reducing agent. Characterization through different techniques suggests that the AgNPs absorbed light and gave SPR peaks at 414 nm while in case of ciprofloxacin supplemented callus mediated AgNPs the peak were recorded at 419 nm. Furthermore, FTIR analysis revealed the role of amides, acyl group, nitro group of callus extract of F. indica, and some functional groups of the ciprofloxacin in the reduction process as well as the capping and stabilization of AgNPs. Similarly, X-Ray Diffraction analysis indicate the structure of AgNPs as face-centered cubic crystalline particles. The antibacterial activity of AgNPs and ciprofloxacin and callus extract as control against resistant bacteria such as Escherichia coli, Citrobacter amalonaticus, Shigella sonnei, and Salmonella typhi was studied. The combination of AgNPs and antibiotic showed better antibacterial activity as compared to AgNPs alone and ciprofloxacin alone. Maximum inhibition zone of E. coli, C. amalonaticus, S. sonnei, and S. typhi in response to AgNPs and ciprofloxacin was 38.5 mm, 35.5 mm, 33 mm, and 35.5 mm, respectively. It can, therefore, be suggested that the AgNPs along with Ciprofloxacin might have worked in interaction and resulted in better antibacterial activity against all the tested pathogens.
Highlights
Nanotechnology focuses on manufacturing nanotechnology-based particles i.e. nanoparticles (Vidhu et al 2011)
The purpose of the study was to synthesize the nanoparticles in the presence of combination of an antibiotic and callus extract from the F. indica to assess the effects of antibiotic supplementation on AgNPs synthesis
There is a shift in the surface plasmon resonance peaks toward higher wavelengths in the case of ciprofloxacin + callus extract mediated AgNPs
Summary
Nanotechnology focuses on manufacturing nanotechnology-based particles i.e. nanoparticles (Vidhu et al 2011). Nanotechnology has gained much importance in areas such as biomedical sciences, chemical industry, druggene delivery, and energy sciences (Iravani 2011). The demand for production of metal nanoparticles has widely increased during the recent past due to their use in different areas such as chemical sensors, biosensing, antimicrobial activity, energy, medicine, and catalysis (Edison and Sethuraman 2012; Iravani 2011). Adil et al AMB Expr (2019) 9:75 antimicrobial activity of AgNPs. Smaller the dimensions of the particles, greater will be the antimicrobial effect of the particles. AgNPs as an antimicrobial agent can be utilized for the cleaning and decontamination of wastewater treatment plants, for the prevention of bacterial colonies and elimination of microorganisms to protect food and textile fabrics (Guzman et al 2012)
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