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用锯棕榈籽酚提取物生物合成的银纳米粒子的统计优化、表征、抗氧化和抗菌性能。

Statistical optimization, characterization, antioxidant and antibacterial properties of silver nanoparticle biosynthesized by saw palmetto seed phenolic extract.

机构信息

Molecular Biology Department, National Research Centre, Dokki, Cairo, Egypt.

出版信息

Sci Rep. 2023 Sep 20;13(1):15605. doi: 10.1038/s41598-023-42675-0.

Abstract

On the global market, silver nanoparticles (Ag-NPs) are in high demand for their various applications in biomedicine, material engineering, and consumer products. This study highlighted the biosynthesis of the Ag-NPs using saw palmetto seed phenolic extract (SPS-phenolic extract), which contained vital antioxidant-phenolic compounds. Herein, central composite statistical design, response surface methodology, and sixteen runs were conducted to optimize Ag-NPs biosynthesis conditions for maximizing the production of Ag-NPs and their phenolic content. The best-produced SPS-Ag-NPs showed a surface plasmon resonance peak at 460 nm and nano-spherical sizes ranging from 11.17 to 38.32 nm using the UV spectrum analysis and TEM images, respectively. The produced SPS-Ag-NPs displayed a high negative zeta-potential value (- 32.8 mV) demonstrating their high stability. The FTIR analysis demonstrated that SPS-phenolic compounds were involved in sliver bio-reduction and in stabilizing, capping, and preventing Ag-NP aggregation. The thermogravimetric investigation revealed that the produced SPS-Ag-NPs have remarkable thermal stability. The produced SPS-Ag-NP exceeded total antioxidant activity (13.8 µmol Trolox equivalent) more than the SPS-phenolic extract (12.0 µmol Trolox equivalent). The biosynthesized SPS-Ag-NPs exhibited noticeably better antibacterial activity against multidrug-resistant Gram-negative E. coli and Gram-positive S. aureus compared to SPS-phenolic extract. Hence, the bio-synthesized SPS-Ag-NPs demonstrated great potential for use in biomedical and antimicrobial applications.

摘要

在全球市场上,由于银纳米粒子(Ag-NPs)在生物医药、材料工程和消费产品等各个领域的广泛应用,其需求很高。本研究利用富含重要抗氧化酚类化合物的锯棕榈籽酚提取物(SPS-酚提取物)来合成 Ag-NPs。在此,采用中心组合统计设计、响应面法和 16 次运行,对 Ag-NPs 生物合成条件进行了优化,以最大限度地提高 Ag-NPs 的产量及其酚类含量。最佳生产的 SPS-Ag-NPs 在 UV 光谱分析和 TEM 图像中分别显示出 460nm 的表面等离子体共振峰和 11.17nm 至 38.32nm 的纳米球形尺寸。所生产的 SPS-Ag-NPs 显示出高负的 ζ 电位值(-32.8mV),表明其具有高稳定性。FTIR 分析表明,SPS 酚类化合物参与了银的生物还原以及 Ag-NP 的稳定、覆盖和防止聚集。热重研究表明,所生产的 SPS-Ag-NPs 具有显著的热稳定性。所生产的 SPS-Ag-NP 的总抗氧化活性(13.8µmol Trolox 当量)超过了 SPS-酚提取物(12.0µmol Trolox 当量)。与 SPS-酚提取物相比,生物合成的 SPS-Ag-NPs 对多药耐药革兰氏阴性大肠杆菌和革兰氏阳性金黄色葡萄球菌表现出明显更好的抗菌活性。因此,生物合成的 SPS-Ag-NPs 显示出在生物医学和抗菌应用方面的巨大潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/62eb/10511706/0a286886ff98/41598_2023_42675_Fig1_HTML.jpg

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