Screening Antimicrobial Activity of Nickel Nanoparticles Synthesized Using Ocimum sanctum Leaf Extract

Journal of Nanoparticles Pub Date : 2016-03-03 DOI:10.1155/2016/4694367

Chitra Jeyaraj Pandian, R. Palanivel, Solairaj Dhanasekaran

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引用次数: 51

Abstract

Antimicrobial efficacy of nickel nanoparticles synthesized using leaf extract of Ocimum sanctum (NiGs) was investigated against pathogenic Gram-negative (E. coli, K. pneumoniae, and S. typhi), Gram-positive (B. subtilis, S. epidermidis) bacteria and fungi (C. albicans, C. tropicalis, A. fumigatus, A. clavatus, and A. niger). 100 µg/mL NiGs showed maximum antimicrobial activity against tested pathogens compared to leaf extract and antibiotics. E. coli (25 mm) and C. albicans (23 mm) exhibited higher zone of inhibition at 100 µg/mL NiGs. MIC, MBC, and MFC values of NiGs against all tested pathogens ranged between 25 and 50 µg/mL. Growth of bacterial and fungal cells (105 cfu/mL) was completely inhibited at 50 µg/mL NiGs. E. coli and C. albicans have showed strong antimicrobial activity with 81% and 50% reactive oxygen species (ROS) production, 30 and 16 µg/mL protein leakage, and 95 and 82 U/L LDH leakages, respectively. Gram-negative bacteria and Candida species showed more sensitivity to NiGs at all concentrations tested (25–100 µg/mL) than Gram-positive bacteria and Aspergillus species, respectively. Microbial growth in the presence of NiGs and ascorbic acid confirmed the involvement of ROS in antimicrobial activity. Hence, NiGs induced ROS generation was attributed to the protein and LDH leakage from microbial membranes.

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竹叶提取物合成纳米镍的抗菌活性筛选

研究了由圣叶提取物合成的纳米镍对致病性革兰氏阴性菌(大肠杆菌、肺炎克雷伯菌和伤寒沙门氏菌)、革兰氏阳性菌(枯草芽孢杆菌、表皮芽孢杆菌)和真菌(白色念珠菌、热带念珠菌、烟曲霉、clavatus和黑曲霉)的抑菌效果。与叶提取物和抗生素相比，100µg/mL的nig对病原菌的抑菌活性最高。大肠杆菌(25 mm)和白色念珠菌(23 mm)在100µg/mL NiGs时表现出较高的抑制区。nig对所有检测病原体的MIC、MBC和MFC值在25 ~ 50µg/mL之间。在50µg/mL的浓度下，细菌和真菌细胞(105 cfu/mL)的生长被完全抑制。大肠杆菌和白色念珠菌的活性氧(ROS)产量分别为81%和50%，蛋白质泄漏量分别为30和16µg/mL, LDH泄漏量分别为95和82 U/L，具有较强的抗菌活性。革兰氏阴性菌和念珠菌在所有浓度(25-100µg/mL)下对NiGs的敏感性分别高于革兰氏阳性菌和曲霉菌。微生物在NiGs和抗坏血酸存在下的生长证实了ROS参与抗菌活性。因此，nig诱导的ROS生成归因于微生物膜的蛋白质和LDH泄漏。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Nanoparticles

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