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Dual UV irradiation-based metal oxide nanoparticles for enhanced antimicrobial activity in Escherichia coli and M13 bacteriophage

机译：基于双紫外线辐射的金属氧化物纳米颗粒可增强大肠杆菌和M13噬菌体的抗菌活性

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Metal oxide (MO) nanoparticles have been studied as nano-antibiotics due to their antimicrobial activities even in antibiotic-resistant microorganisms. We hypothesized that a hybrid system of dual UV irradiation and MO nanoparticles would have enhanced antimicrobial activities compared with UV or MO nanoparticles alone. In this study, nanoparticles of ZnO, ZnTiO3, MgO, and CuO were selected as model nanoparticles. A dual UV collimated beam device of UV-A and UV-C was developed depending upon the lamp divided by coating. Physicochemical properties of MO nanoparticles were determined using powder X-ray diffractometry (PXRD), Brunauer-Emmett-Teller analysis, and field emission-scanning electron microscopy with energy-dispersive X-ray spectroscopy. Atomic force microscopy with an electrostatic force microscopy mode was used to confirm the surface topology and electrostatic characteristics after dual UV irradiation. For antimicrobial activity test, MO nanoparticles under dual UV irradiation were applied to Escherichia coli and M13 bacteriophage (phage). The UV-A and UV-C showed differential intensities in the coated and uncoated areas (UV-A, coated = uncoated; UV-C, coated ≪ uncoated). MO nanoparticles showed sharp peaks in PXRD patterns, matched to pure materials. Their primary particle sizes were less than 100 nm with irregular shapes, which had an 8.6~25.6 m²/g of specific surface area with mesopores of 22~262 nm. The electrostatic properties of MO nanoparticles were modulated after UV irradiation. ZnO, MgO, and CuO nanoparticles, except ZnTiO3 nanoparticles, showed antibacterial effects on E. coli. Antimicrobial effects on E. coli and phages were also enhanced after cyclic exposure of dual UV and MO nanoparticle treatment using the uncoated area, except ZnO nanoparticles. Our results demonstrate that dual UV-MO nanoparticle hybrid system has a potential for disinfection. We anticipate that it can be developed as a next-generation disinfection system in pharmaceutical industries and water purification systems.

机译：由于金属氧化物（MO）纳米颗粒即使在具有抗生素抗性的微生物中也具有抗微生物活性，因此已被研究为纳米抗生素。我们假设，与单独的UV或MO纳米粒子相比，双重UV辐射和MO纳米粒子的混合系统将具有增强的抗菌活性。在本研究中，选择了ZnO，ZnTiO3，MgO和CuO纳米颗粒作为模型纳米颗粒。根据灯除以涂层的不同，开发了UV-A和UV-C的双UV准直光束设备。 MO纳米粒子的理化性质使用粉末X射线衍射法（PXRD），Brunauer-Emmett-Teller分析和具有能量色散X射线光谱的场发射扫描电子显微镜确定。使用具有静电力显微镜模式的原子力显微镜来确认双UV照射后的表面拓扑和静电特性。为了进行抗菌活性测试，将双紫外线辐照下的MO纳米颗粒应用于大肠杆菌和M13噬菌体（噬菌体）。 UV-A和UV-C在涂层和未涂层区域的强度不同（UV-A，涂层=未涂层； UV-C，涂层，未涂层）。 MO纳米颗粒在PXRD图案中显示出尖锐的峰，与纯物质相匹配。它们的初级粒径小于100nm，具有不规则形状，其比表面积为8.6〜25.6m ^{2 / g，中孔为22〜262nm。 UV照射后，可调节MO纳米颗粒的静电性能。除ZnTiO3纳米颗粒外，ZnO，MgO和CuO纳米颗粒对大肠杆菌具有抗菌作用。使用ZnO纳米粒子以外的未涂覆区域对UV和MO纳米粒子进行双重处理后，对大肠杆菌和噬菌体的抗菌作用也得到了增强。我们的结果表明，双重UV-MO纳米颗粒混合系统具有消毒潜力。我们期望它可以被开发为制药工业和水净化系统中的下一代消毒系统。}

著录项

期刊名称 International Journal of Nanomedicine
作者
Su-Eon Jin; Woochul Hwang; Hyo Jung Lee; Hyo-Eon Jin;
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作者单位

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年(卷),期 2017(12),-1
年度 2017
页码 8057–8070
总页数 14
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
dual UV metal oxide nanoparticles antimicrobial activity E. coli M13 bacteriophage;

机译：双重紫外线;金属氧化物纳米颗粒;抗菌活性;大肠杆菌;M13噬菌体;

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机译：基于双紫外线辐射的金属氧化物纳米颗粒增强大肠杆菌和M13噬菌体的抗菌活性

2. Photocatalytic antimicrobial activity of thin surface films of TiO2, CuO and TiO2/CuO dual layers on Escherichia coli and bacteriophage T4 [J] . Ditta IB, Steele A, Liptrot C, Applied Microbiology and Biotechnology . 2008,第1期

机译：TiO2，CuO和TiO2 / CuO双层薄膜对大肠杆菌和T4噬菌体的光催化抗菌活性

3. Photocatalytic antimicrobial activity of thin surface films of TiO2, CuO and TiO2/CuO dual layers on Escherichia coli and bacteriophage T4 [J] . Iram B. Ditta, Alex Steele, Christopher Liptrot, Applied Microbiology and Biotechnology . 2008,第1期

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6. Replication of bacteriophage M13. XIV. Differential inhibition of the replication of M13 and M13 miniphage in a mutant of Escherichia coli defective in the 5 leads to 3 exonuclease associated with DNA polymerase I. [O] . T C Chen, D S Ray 1978

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Dual UV irradiation-based metal oxide nanoparticles for enhanced antimicrobial activity in Escherichia coli and M13 bacteriophage

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