氧化锆纳米粒子对大肠杆菌基因组效应的研究

Simin Rashidia, b, Bahram Golestani Eimania
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引用次数: 0

摘要

由于社会对抗生素耐药性感染增加的担忧,人们对纳米粒子和纳米生物技术的应用进行了大量研究。氧化锆($\text{ZrO}_{2}$)被称为氧化锆,是锆金属的白色氧化物,直径为 20 纳米。这些颗粒的胶体尺寸通常小于细菌和真核细胞。本文的主要目的是研究不同剂量的 $text{ZrO}_{2}$ NPs 对 $textit{Escherichia coli}$ ($\textit{E. coli}$)基因组序列变化的影响。首先,分别在曙红亚甲蓝琼脂和脑心草(BHB)培养基中培养$textit{大肠杆菌}$。然后用浓度为 100、250 和 350 $\mu$g/ml 的 NPs 处理细菌。处理后,在 37$^{\circ}$C 温度下培养 2、4、6、8 和 24 小时后,用 600 纳米分光光度法评估细菌的生长情况。第二步,使用对照样本和处理样本提取 DNA。然后,使用 RAPD 标记研究细菌基因组序列的变化。最后,使用 NTSYS-PC 平台对琼脂糖凝胶电泳提取的结果进行分析。本文观察到,$text{ZrO}_{2}$NPs 在 250 和 350$\mu$g/ml 的浓度下处理 8 小时后可以抑制细菌的生长。研究还发现,不同浓度的$text{ZrO}_{2}$NPs并没有改变$textit{大肠杆菌}$的基因组序列。此外,研究还得出结论:浓度为 350 毫微克/毫升的 NPs 对大肠杆菌的抑制作用最强,且不会明显改变大肠杆菌的基因组序列。
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Investigation of Genomic Effect of Zirconium Oxide Nanoparticles in Escherichia coli Bacteria
Due to the concerns of the society about the increase of antibiotic resistant infections, many studies and research have been done on nanoparticles and applications of nano-biotechnology. Zirconium Oxide ($\text{ZrO}_{2}$) in which called zirconia, is a white oxide of zirconium metal that its diameter is 20 nm. The colloidal size of these particles is often smaller than bacterial and eukaryotic cells. The main intention of this paper is to investigate the effect of different doses of $\text{ZrO}_{2}$ NPs on the sequences changes for the $\textit{Escherichia coli}$ ($\textit{E. coli}$) genome. At the first step, $\textit{E. coli}$ was cultured in eosin methylene blue agar and brain heart broth (BHB) mediums, respectively. Then, bacteria were treated with $\text{ZrO}_{2}$ NPs at concentrations of 100, 250, and 350 $\mu$g/ml. After treatment, the growth of bacteria was evaluated by utilizing spectrophotometry at 600 nm after incubation times including 2, 4, 6, 8, and 24 hours at 37 $^{\circ}$C. At the second step, the extraction of DNA was performed by using control and treated samples. Then, the changes in the sequence of bacterial genome were investigated using RAPD markers. Finally, NTSYS-PC platform was employed in order to analyze of the results extracted by electrophoresis of products on agarose gel. In this paper, it was observed that $\text{ZrO}_{2}$ NPs can inhibit the growth of bacteria at concentrations of 250 and 350 $\mu$g/ml after 8 hours of treatment. It was also found that the $\text{ZrO}_{2}$ NPs at different concentrations have not changed the genome sequence of $\textit{E. coli}$. Furthermore, it was concluded that the $\text{ZrO}_{2}$ NPs with the concentration of 350 $\mu$g/ml had the highest inhibitory properties without significant changing in the genomic sequence of $\textit{E. coli}$.
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