Green synthesis and characterizations of silver nanoparticles with enhanced antibacterial properties by secondary metabolites of Bacillus subtilis (SDUM301120)

Silver nanoparticles (AgNPs) have been exploited for their broad-spectrum antibacterial effects and their vast applications, which are generating interest of researchers towards green synthesis of AgNPs. In this paper, we describe a novel biosynthesis of AgNPs employing secondary metabolites of Baci...

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Published in	Green chemistry letters and reviews Vol. 14; no. 2; pp. 190 - 203
Main Authors	Yu, Xiuxia, Li, Junyu, Mu, Dashuai, Zhang, Hui, Liu, Qiaoxi, Chen, Guanjun
Format	Journal Article
Language	English
Published	Abingdon Taylor & Francis 03.04.2021 Taylor & Francis Ltd Taylor & Francis Group
Subjects	Antibacterial activity antibacterial effects Antibiotics Bacillus subtilis Bacillus subtilis (SDUM301120) Bacteria Bacterial diseases Biosynthesis Crystal structure Diffraction patterns E coli green biosynthesis Metabolites Nanoparticles Particle size Secondary metabolites Silver silver nanoparticles synergistic effect X-ray diffraction
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Abstract	Silver nanoparticles (AgNPs) have been exploited for their broad-spectrum antibacterial effects and their vast applications, which are generating interest of researchers towards green synthesis of AgNPs. In this paper, we describe a novel biosynthesis of AgNPs employing secondary metabolites of Bacillus subtilis (SDUM301120). The mean particle diameter of AgNPs was calculated by the high-resolution transmission electron microscope (HRTEM). HRTEM analysis revealed the particle was spherical and distributed in the range of 2-26 nm. Crystal nature of the nanoparticles in the face-centered cubic structure was confirmed by the peaks in the X-ray diffraction pattern corresponding to (111), (200), (220), and (311) planes. The formation of the reduced AgNPs was monitored by UV-VIS spectrophotometer analysis which displayed a peak in the region of 430-460 nm. We investigated the antibacterial activity of AgNPs against Escherichia coli ATCC 25922, Staphylococcus aureus ATCC 29213, Vibrio Parahaemolyticus ATCC 17802 T , and Acinetobacter baumanni ATCC 19606 T . The results show that AgNPs with enhanced antibacterial properties have significant antimicrobial effects compared with pure AgNPs, antibacterial substances (lipopeptide), and the mixture of lipopeptide and pure AgNPs. The bacteriostatic experiments compared with antibiotics showed that the obtained AgNPs had a promising future in the bacterial infections.
AbstractList	Silver nanoparticles (AgNPs) have been exploited for their broad-spectrum antibacterial effects and their vast applications, which are generating interest of researchers towards green synthesis of AgNPs. In this paper, we describe a novel biosynthesis of AgNPs employing secondary metabolites of Bacillus subtilis (SDUM301120). The mean particle diameter of AgNPs was calculated by the high-resolution transmission electron microscope (HRTEM). HRTEM analysis revealed the particle was spherical and distributed in the range of 2-26 nm. Crystal nature of the nanoparticles in the face-centered cubic structure was confirmed by the peaks in the X-ray diffraction pattern corresponding to (111), (200), (220), and (311) planes. The formation of the reduced AgNPs was monitored by UV-VIS spectrophotometer analysis which displayed a peak in the region of 430-460 nm. We investigated the antibacterial activity of AgNPs against Escherichia coli ATCC 25922, Staphylococcus aureus ATCC 29213, Vibrio Parahaemolyticus ATCC 17802 T , and Acinetobacter baumanni ATCC 19606 T . The results show that AgNPs with enhanced antibacterial properties have significant antimicrobial effects compared with pure AgNPs, antibacterial substances (lipopeptide), and the mixture of lipopeptide and pure AgNPs. The bacteriostatic experiments compared with antibiotics showed that the obtained AgNPs had a promising future in the bacterial infections. Silver nanoparticles (AgNPs) have been exploited for their broad-spectrum antibacterial effects and their vast applications, which are generating interest of researchers towards green synthesis of AgNPs. In this paper, we describe a novel biosynthesis of AgNPs employing secondary metabolites of Bacillus subtilis (SDUM301120). The mean particle diameter of AgNPs was calculated by the high-resolution transmission electron microscope (HRTEM). HRTEM analysis revealed the particle was spherical and distributed in the range of 2–26 nm. Crystal nature of the nanoparticles in the face-centered cubic structure was confirmed by the peaks in the X-ray diffraction pattern corresponding to (111), (200), (220), and (311) planes. The formation of the reduced AgNPs was monitored by UV–VIS spectrophotometer analysis which displayed a peak in the region of 430–460 nm. We investigated the antibacterial activity of AgNPs against Escherichia coli ATCC 25922, Staphylococcus aureus ATCC 29213, Vibrio Parahaemolyticus ATCC 17802T, and Acinetobacter baumanni ATCC 19606T. The results show that AgNPs with enhanced antibacterial properties have significant antimicrobial effects compared with pure AgNPs, antibacterial substances (lipopeptide), and the mixture of lipopeptide and pure AgNPs. The bacteriostatic experiments compared with antibiotics showed that the obtained AgNPs had a promising future in the bacterial infections.
Author	Zhang, Hui Mu, Dashuai Chen, Guanjun Li, Junyu Liu, Qiaoxi Yu, Xiuxia
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SubjectTerms	Antibacterial activity antibacterial effects Antibiotics Bacillus subtilis Bacillus subtilis (SDUM301120) Bacteria Bacterial diseases Biosynthesis Crystal structure Diffraction patterns E coli green biosynthesis Metabolites Nanoparticles Particle size Secondary metabolites Silver silver nanoparticles synergistic effect X-ray diffraction
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Title	Green synthesis and characterizations of silver nanoparticles with enhanced antibacterial properties by secondary metabolites of Bacillus subtilis (SDUM301120)
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