氯的微生物还原潜力及其对耐药菌应激反应基因发生率的贡献

B. Olowe, O. Adelegan
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引用次数: 0

摘要

背景:各种家庭对饮用水可饮用性的追求导致氯或氯化合物在水处理中的广泛使用。然而,这也增加了环境中抗生素耐药性的发生率。目的:研究次氯酸钠(NaOCl)对耐药菌中应激反应基因发生率的影响及其抑菌潜力。研究设计:本研究采用实验设计研究地点和研究时间:研究于2019年10月至2020年2月在埃基蒂州立大学理学院微生物系进行。方法:从阿多-埃基蒂Ajilosun的不同家庭中随机收集16个不同的水样,并按照制造商的说明进行氯化处理。采用标准倾板法测定原水和氯化水的微生物负荷。采用标准划线法从氯化水样中分离细菌。采用标准CLSI技术检测菌株对不同抗生素的敏感性,采用PCR技术检测原研品Olowe和Adelegan;植物学报,36(4):120-131,2021;文章no.ARRB。67526 121检测多种耐药菌分离株的应激反应基因(RpoS、RpoN、KatF基因)。结果:NaOCl处理180秒后,井传水样和管传水样的微生物负荷分别降低24%和52%。从氯化水样中分离到的细菌分别为产气肠杆菌(7.14%)、普通变形杆菌(10.71%)、大肠杆菌(25%)、蜡样芽孢杆菌(32.14%)、地衣芽孢杆菌(14.29%)和金黄色葡萄球菌(10.70%)。分离的细菌对不同的抗生素表现出不同的耐药模式。在部分耐药菌株中检测到编码应激反应的RpoS、RpoN和KatF基因。结论:因此,本研究强调了氯化在增加细菌对环境中应激源的抗性发生率方面的重要性。因此,颠覆氯处理水的功效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microbial Reduction Potential of Chlorine and its Contribution to Incidence of Stress Response Genes in Antibiotic-Resistant Bacteria
Background: The quest for potability of drinking water in various homes led to the widely use of chlorine or chlorine compound in treatment of water. Which however has contributed to increasing incidences of antibiotic resistance in the environment. Aim: This study aimed to investigate the microbial reduction potential and contribution of Sodium hypochlorite, NaOCl, to incidence of stress response genes in antibiotic-resistant bacteria. Study Design: Experimental Design was adopted in this study Place and Duration of the Study: The study was carried out at the Department of Microbiology, Faculty of Science, Ekiti State University between October, 2019 and February, 2020. Methodology: Sixteen (16) different water samples were randomly collected from various homes in Ajilosun, Ado-Ekiti and were chlorinated following manufacturer’s instruction. Microbial load of both raw and chlorinated water was determined using standard pour plate technique. Standard streaking method was used to isolate bacteria from chlorinated water samples. Standard CLSI technique was used to test the sensitivity of isolates to different antibiotics and PCR technique was employed to Original Research Article Olowe and Adelegan; ARRB, 36(4): 120-131, 2021; Article no.ARRB.67526 121 detect stress response genes (RpoS, RpoN, KatF genes) in multiple antibiotic-resistant bacterial isolates. Results: The result showed 24% and 52% reduction in the microbial load of well and pipe-borne water samples respectively following treatment with NaOCl for 180 sec. The different identified bacterial isolates recovered from chlorinated water samples included Enterobacter aerogenes (7.14 %), Proteus vulgaris (10.71 %), Escherichia coli (25 %), Bacillus cereus (32.14 %), Bacillus licheniformis (14.29 %) and Staphylococcus aureus (10.70 %). The bacterial isolates demonstrated varying resistance pattern to the different antibiotics. RpoS, RpoN and KatF genes encoding stress responses were detected in some of the tested antibiotic-resistant isolates. Conclusion: The study therefore stresses the importance of chlorination in contributing to increasing incidence of resistance of bacteria to stressors in the environment. Hence, subverting chlorination efficacy in treatment of water.
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