利用副丝状芽孢杆菌细胞内蛋白延伸因子 Tu 揭示硒纳米颗粒的创新绿色合成机制。
Unveiling the innovative green synthesis mechanism of selenium nanoparticles by exploiting intracellular protein elongation factor Tu from Bacillus paramycoides.
发表日期:2024 Aug 19
作者:
Pei Liu, Haiyu Long, Shuai He, Han Cheng, Erdong Li, Siyu Cheng, Mengdi Liang, Zhengwei Liu, Zhen Guo, Hao Shi
来源:
Journal of Zhejiang University-SCIENCE B
摘要:
硒纳米粒子(SeNP)因其独特的特性(包括抗氧化、抗癌和抗菌活性)而引起了广泛的研究兴趣,并在不同领域显示出有前景的应用(Ojeda 等,2020;Qu 等,2023;Zambonino 等,2023)。 、2021 年、2023 年)。在 SeNP 合成所采用的各种方法中,绿色合成已成为一种值得注意的环保方法。凯什特曼德等人。 (2023) 强调了绿色合成 SeNP 的重要性,在该领域提出了一条引人注目的途径。这一创新策略利用植物提取物或微生物等自然资源的潜力来促进 SeNP 的生产。
Selenium nanoparticles (SeNPs) have garnered extensive research interest and shown promising applications across diverse fields owing to their distinctive properties, including antioxidant, anticancer, and antibacterial activity (Ojeda et al., 2020; Qu et al., 2023; Zambonino et al., 2021, 2023). Among the various approaches employed for SeNP synthesis, green synthesis has emerged as a noteworthy and eco-friendly methodology. Keshtmand et al. (2023) underscored the significance of green-synthesized SeNPs, presenting a compelling avenue in this domain. This innovative strategy harnesses the potential of natural resources, such as plant extracts or microorganisms, to facilitate the production of SeNPs.