Green synthesis of silver nanoparticles using Tropaeolum majus: Phytochemical screening and antibacterial studies

The green biosynthesis of metal nanoparticles of already explored phytomedicines has many advantages such as enhanced biological action, increased bioavailability, etc. In this direction, keeping in view the peculiar medicinal value of L., we synthesized its silver nanoparticles (AgNPs) by adopting...

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Published inGreen processing and synthesis Vol. 10; no. 1; pp. 85 - 94
Main Authors Bawazeer, Saud, Rauf, Abdur, Shah, Syed Uzair Ali, Shawky, Ahmed M., Al-Awthan, Yahya S., Bahattab, Omar Salem, Uddin, Ghias, Sabir, Javeria, El-Esawi, Mohamed A.
Format Journal Article
LanguageEnglish
Published Berlin De Gruyter 01.01.2021
Walter de Gruyter GmbH
Subjects
Antibacterial activity
antimicrobial activity
antioxidant
Antioxidants
Atomic force microscopy
Bacillus subtilis
Bioavailability
Biosynthesis
Cardiac glycosides
Flavonoids
Fourier transforms
Free radicals
Glycosides
Hydroxyl groups
Infrared spectroscopy
Klebsiella
Klebsiella pneumoniae
Nanoparticles
Phytochemicals
Pneumonia
Reducing agents
Scavenging
Screening
Silver
silver nanoparticles
Spectra
Spectral analysis
Spectrum analysis
Staphylococcus aureus
Terpenes
Tropaeolum majus
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Summary:The green biosynthesis of metal nanoparticles of already explored phytomedicines has many advantages such as enhanced biological action, increased bioavailability, etc. In this direction, keeping in view the peculiar medicinal value of L., we synthesized its silver nanoparticles (AgNPs) by adopting eco-friendly and cost-effective protocol by using methanolic and aqueous extract of . The synthesized AgNPs were characterized by using several techniques including UV spectroscopic analysis, FTIR analysis, and atomic force microscopy. The methanolic/aqueous extracts of and synthesized AgNPs were assessed for antioxidant potential and antimicrobial effect. The preliminary screening showed that the extracts have variety of reducing phytochemicals including tannins, terpenoids, flavonoids, and cardiac glycosides. The green synthesis of AgNPs was confirmed by the appearance of sharp peak at 430–450 nm in the UV-Visible spectra. The FTIR spectral analysis of extract and AgNPs exhibited that peaks at 2947.23, 2831.50, 2592.33, 2522.89, and 1,411 cm disappeared in the spectra of FTIR spectra of the AgNPs, indicating carboxyl and hydroxyl groups are mainly accountable for reduction and stabilization of AgNPs. Atomic force microscopic scan of the synthesized AgNPs confirmed its cylindrical shape with size of 25 µm. The extracts and AgNPs were investigated for antioxidant potential by DPPH-free radical essay, which showed that aqueous extract has significant and dose-independent antioxidant activity; however, the synthesized AgNPs showed decline in antioxidant activity. The extracts and synthesized AgNPs were also evaluated for antibacterial activity against , , and Neither extract nor AgNPs were active against The aqueous and methanolic extract exhibited inhibition against and their synthesized AgNPs were active against Our data concluded that the extracts of have necessary capping and reducing agents which make it capable to develop stable AgNPs. The aqueous extract of has potential antioxidant effect; however, the AgNPs did not enhance its free radical scavenging effect. The bacterial strains’ susceptibility of the extract and AgNPs was changed from to , respectively. The biological action of AgNPs is changed in case of antibacterial activity which means that AgNPs might change the specificity of and likewise other drugs.
ISSN:2191-9550
2191-9542
2191-9550
DOI:10.1515/gps-2021-0003