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3 Biotech. 2014 Apr;4(2):121-126. doi: 10.1007/s13205-013-0130-8. Epub 2013 Apr 17.
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Silver nanoparticles as potential antibacterial agents.银纳米颗粒作为潜在的抗菌剂。
Molecules. 2015 May 18;20(5):8856-74. doi: 10.3390/molecules20058856.
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Silver nanoparticles: synthesis, properties, and therapeutic applications.银纳米颗粒:合成、性质及治疗应用。
Drug Discov Today. 2015 May;20(5):595-601. doi: 10.1016/j.drudis.2014.11.014. Epub 2014 Dec 24.
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Green rapid biogenic synthesis of bioactive silver nanoparticles (AgNPs) using Pseudomonas aeruginosa.利用铜绿假单胞菌进行生物活性银纳米颗粒(AgNPs)的绿色快速生物合成。
IET Nanobiotechnol. 2014 Dec;8(4):267-74. doi: 10.1049/iet-nbt.2013.0059.
5
Rapid synthesis of biocompatible silver nanoparticles using aqueous extract of Rosa damascena petals and evaluation of their anticancer activity.利用大马士革玫瑰花瓣水提取物快速合成生物相容性银纳米颗粒及其抗癌活性评估
Asian Pac J Trop Med. 2014 Sep;7S1:S294-300. doi: 10.1016/S1995-7645(14)60249-2.
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Biogenic synthesis of metal nanoparticles from actinomycetes: biomedical applications and cytotoxicity.放线菌金属纳米颗粒的生物合成:生物医学应用与细胞毒性
Appl Microbiol Biotechnol. 2014 Oct;98(19):8083-97. doi: 10.1007/s00253-014-5953-7. Epub 2014 Aug 27.
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Plants and microbes assisted selenium nanoparticles: characterization and application.植物和微生物辅助合成的硒纳米颗粒:表征与应用
J Nanobiotechnology. 2014 Aug 16;12:28. doi: 10.1186/s12951-014-0028-6.
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Recent advances in gold and silver nanoparticles: synthesis and applications.金和银纳米粒子的最新进展:合成与应用
J Nanosci Nanotechnol. 2014 Jul;14(7):4757-80. doi: 10.1166/jnn.2014.9526.
9
Optimization and Characterization of Silver Nanoparticle by Endophytic Fungi Penicillium sp. Isolated from Curcuma longa (Turmeric) and Application Studies against MDR E. coli and S. aureus.内生真菌 Penicillium sp. 对银纳米颗粒的优化和特性研究及其对 MDR E. coli 和 S. aureus 的应用研究
Bioinorg Chem Appl. 2014;2014:408021. doi: 10.1155/2014/408021. Epub 2014 Feb 3.
10
Synthesis, optimization, and characterization of silver nanoparticles from Acinetobacter calcoaceticus and their enhanced antibacterial activity when combined with antibiotics.从不动杆菌属中合成、优化和表征银纳米粒子及其与抗生素联合使用时增强的抗菌活性。
Int J Nanomedicine. 2013;8:4277-90. doi: 10.2147/IJN.S48913. Epub 2013 Nov 6.

在优化条件下从纺织土壤中分离出的银纳米颗粒的快速合成及其抗菌和细胞毒性特性评估。

Rapid synthesis of silver nanoparticles by isolated from textile soil under optimised conditions and evaluation of their antimicrobial and cytotoxicity properties.

作者信息

Rajora Nishant, Kaushik Sanket, Jyoti Anupam, Kothari Shanker L

机构信息

AMITY Institute of Biotechnology, AMITY University Rajasthan, Jaipur 302006, India.

出版信息

IET Nanobiotechnol. 2016 Dec;10(6):367-373. doi: 10.1049/iet-nbt.2015.0107.

DOI:10.1049/iet-nbt.2015.0107
PMID:27906136
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8676139/
Abstract

Present study utilised textile soil isolated bacterium to synthesise extracellular silver nanoparticles (AgNPs) under optimised conditions. The synthesised AgNPs were characterised using ultraviolet-visible spectroscopy, Fourier transform infrared spectroscopy (FTIR) and transmission electron microscopy (TEM). Optimisation showed AgNPs synthesis within 8 h using 2mM Ag nitrate at pH9, temperature 80°C and maximum absorbance toward 400 nm. TEM analysis revealed spherical shape AgNPs and reduction in size upto 8 nm was observed under optimised conditions. FTIR spectra confirmed presence of proteins bound to AgNPs act as reducing agent. AgNPs showed strong antibacterial activity against multi-drug resistant (MDR) and as demonstrated by disc diffusion and colony forming unit assays. Zone of inhibition increased with increasing concentration of AgNPs with maximum of 19 mm against and 17 mm against at concentration of 2 μg/disc. Furthermore, AgNPs did not show any cytotoxic effects on human epithelial cells as demonstrated by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide assay even at 2 μg/ml concentration of AgNPs. The results of the present study suggest that AgNPs can be synthesised rapidly under optimised conditions and show strong antimicrobial property against MDR pathogens without having toxicity effect on human epithelial cells.

摘要

本研究利用从土壤中分离出的纺织细菌,在优化条件下合成细胞外银纳米颗粒(AgNPs)。使用紫外可见光谱、傅里叶变换红外光谱(FTIR)和透射电子显微镜(TEM)对合成的AgNPs进行了表征。优化结果表明,在pH9、温度80°C条件下,使用2mM硝酸银,8小时内即可合成AgNPs,最大吸光度在400nm处。TEM分析显示AgNPs呈球形,在优化条件下观察到其尺寸减小至8nm。FTIR光谱证实与AgNPs结合的蛋白质作为还原剂存在。AgNPs对多重耐药(MDR)菌表现出强大的抗菌活性,通过纸片扩散法和菌落形成单位测定得以证明。抑菌圈随AgNPs浓度增加而增大,在浓度为2μg/片时,对[具体细菌1]的最大抑菌圈为19mm,对[具体细菌2]的为17mm。此外,即使在AgNPs浓度为2μg/ml时,通过3-(4,5-二甲基噻唑-2-基)-2,5-二苯基四氮唑溴盐试验表明,AgNPs对人上皮细胞未显示任何细胞毒性作用。本研究结果表明,AgNPs可在优化条件下快速合成,对MDR病原体具有强大的抗菌性能,且对人上皮细胞无毒性作用。