利用海洋真菌合成纳米银及其对病原微生物的抑菌活性。

IF 3.6 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Manar A Basheer, Khaled Abutaleb, Nermine N Abed, Amal A I Mekawey
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引用次数: 1

摘要

目标:目前,人们一直需要通过环保、可持续和经济的技术来去除环境污染物。家庭和工业固体和液体废物不受控制的处置做法导致水污染,对公众健康、环境和社会经济发展产生负面影响。几种水媒疾病通过病原细菌等微生物在人与人之间传播。为保护水体,应妥善管理和修复各种来源的所有废水。真菌修复是一种利用真菌去除污染物的生物修复方法。真菌是生物合成纳米粒子尤其是银纳米粒子(AgNPs)的有吸引力的媒介,银纳米粒子被认为是应用最广泛的纳米粒子之一,因为它具有独特的特性,如抗菌、抗病毒、抗真菌和抗炎特性。方法:采用硝酸银和四种海洋真菌的上清液;单纯青霉、地曲霉、日本曲霉和米曲霉的胞外生物合成纳米银,并评价其对不同病原微生物的活性。这些纳米颗粒可用于水体中微生物污染物的处理或纳米生物修复,改善水质。结果:合成了银纳米颗粒,结果表明,银纳米颗粒粒径在3.8 ~ 23 nm之间,呈球形,分散良好。表征结果证实了稳定的元素银纳米晶的存在。抗菌活性结果表明,AgNPs对多种病原菌、酵母菌和真菌具有较强的抗菌活性。4种海洋真菌介导的AgNPs中,日本青霉(5 mM)介导的AgNPs抑菌活性最高,单纯青霉(8 mM)介导的AgNPs抑菌活性最高。结论:海洋真菌可以合成稳定的AgNPs,对多种病原菌具有较强的抑菌活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mycosynthesis of silver nanoparticles using marine fungi and their antimicrobial activity against pathogenic microorganisms.

Objectives: At the present time, there is a persistent need to get rid of environmental contaminants by eco-friendly, sustainable, and economical technologies. Uncontrolled disposal practices of domestic and industrial solid and liquid wastes led to water pollution which has negative impacts on public health, environment, and socio-economic development. Several water-borne diseases are spreading man to man by microorganisms such as pathogenic bacteria. For the protection of water bodies, all wastewater from various sources should be managed and remediated properly. Myco-remediation is a form of bioremediation in which fungi are used to get rid of contaminants. Fungi are attractive agents for the biosynthesis of nanoparticles especially silver nanoparticles (AgNPs) which are considered one of the most widely utilized nanoparticles because of their unique characteristics such as antibacterial, antiviral, antifungal, and anti-inflammatory properties.

Methods: This study uses silver nitrate and supernatants of four marine fungi; Penicillium simplicissimum, Aspergillus terreus, Aspergillus japonicus, and Aspergillus oryzae for extracellular biosynthesis of silver nanoparticles and to evaluate its activity against different pathogenic microorganisms. These nanoparticles may subsequently be applied for the treatment or nano-bioremediation of microbial contaminants in water bodies and improve water quality.

Results: Silver nanoparticles were synthesized and the results revealed that spherical and well-dispersed nanoparticles of different sizes were formed with sizes ranging between 3.8 and 23 nm. Characterization results approved the existence of stable nanocrystalline elemental silver. Antibacterial activity results revealed that AgNPs can be used as a powerful antimicrobial agent for several pathogenic bacteria, yeast, and fungi. Among the biosynthesized NPs mediated by the four marine fungi, AgNPs mediated by A. japonicus (5 mM) had the highest antibacterial activity, while AgNPs mediated by Penicillium simplicissmum (8 mM) had the highest antifungal activity.

Conclusion: Marine fungi can biosynthesize stable AgNPs that exhibit potent antimicrobial activity against a variety of pathogens.

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