Facile Synthesis and Application of Ag-NPs for Controlling Antibiotic-ResistantPseudomonas spp. and Bacillus spp. in a Poultry Farm Environment

IF 3.9 Q2 NANOSCIENCE & NANOTECHNOLOGY
Aminur Rahman, H. Rasid, Md. Isahak Ali, Nymul Yeachin, M. Alam, K. S. Hossain, M. A. Kafi
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引用次数: 2

Abstract

This study synthesized silver nanoparticles (Ag-NPs) using silver nitrate (AgNO3) as the ion source and sodium tripolyphosphate (STPP) as reducing as well as capping agents. The synthesized Ag-NPs were confirmed initially using Ag-NPs specific λmax at 410 nm with UV-Vis spectrophotometry and homogenously distributed, 100–300 nm size, and round-shaped particles were realized through atomic force microscopy (AFM) and transmission electron microscopy (TEM) image analysis. The various reaction condition-based studies revealed 0.01 M AgNO3 yields maximum particle after 4 h reduction with 1% STPP. Bacillus spp. (n = 23/90) and Pseudomonas spp. (n = 26/90) were isolated from three different poultry farms for evaluating the antibacterial activity of Ag-NPs. Among the PCR confirmed isolates, 52% (12/23) Bacillus spp. were resistant to ten antibiotics and 65% (17/26) Pseudomonas spp. were resistant to eleven antibiotics. The representative resistant isolates were subjected to antibacterial evaluation of synthesized Ag-NPs following the well diffusion method, revealing the maximum sensitive zone of inhibition 19 ± 0.2 mm against Bacillus spp. and 17 ± 0.38 mm against Pseudomonas spp. The minimum inhibitory concentration (MIC) and minimum bacterial concentration (MBC) of Ag-NPs were 2.1 μg/ml and 8.4 μg/ml, respectively, for broad-spectrum application. Finally, the biocompatibility was determined by observing the viability of Ag-NP-treated BHK-21 cell through trypan blue-based exclusion assay revealing nonsignificant decreased of cell viability ≤2MIC doses. Thus, the synthesized Ag-NPs were proven as biocompatible and sensitive to both Gram-positive and Gram-negative bacteria of the poultry farm environmental samples.
Ag-NPs在家禽养殖环境中控制耐药假单胞菌和芽孢杆菌的简易合成及应用
本研究以硝酸银(AgNO3)为离子源,三聚磷酸钠(STPP)为还原和封盖剂,合成了银纳米颗粒(Ag-NPs)。通过紫外-可见分光光度法对合成的Ag-NPs在410 nm处的特异性λmax进行初步验证,并通过原子力显微镜(AFM)和透射电子显微镜(TEM)图像分析实现了100-300 nm的均匀分布和圆形颗粒。各种反应条件下的研究表明,以1%的STPP还原4 h后,得到的AgNO3颗粒最大,为0.01 M。从3个不同的家禽养殖场分离到芽孢杆菌(n = 23/90)和假单胞菌(n = 26/90),评价Ag-NPs的抗菌活性。其中,52%(12/23)的芽孢杆菌对10种抗生素耐药,65%(17/26)的假单胞菌对11种抗生素耐药。采用孔扩散法对具有代表性的耐药菌株进行抑菌评价,对芽孢杆菌和假单胞菌的最大抑制区分别为19±0.2 mm和17±0.38 mm,最低抑菌浓度(MIC)和最低细菌浓度(MBC)分别为2.1 μg/ml和8.4 μg/ml,适合广谱应用。最后,通过台锥蓝排斥实验观察ag - np处理后的BHK-21细胞的活性,发现≤2MIC剂量的BHK-21细胞活性无显著下降。结果表明,所合成的Ag-NPs对禽场环境样品的革兰氏阳性菌和革兰氏阴性菌均具有生物相容性和敏感性。
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来源期刊
Journal of Nanotechnology
Journal of Nanotechnology NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
5.50
自引率
2.40%
发文量
25
审稿时长
13 weeks
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