Antimicrobial Activity and GC-MS Analysis of the Volatile Oil of

ZHANG Li-yong; LIU Xiu-mei; ZHAN Yue; CUI Yun-hong; GUO Zi-qi; LIU Ling-fei; HOU Chun-mei

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Antimicrobial Activity and GC-MS Analysis of the Volatile Oil of

更新时间：2024-01-04

- Antimicrobial Activity and GC-MS Analysis of the Volatile Oil of
- Chinese Journal of Experimental Traditional Medical Formulae Vol. 17, Issue 22, Pages: 60-63(2011)
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- Published：2011
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ZHANG Li-yong, LIU Xiu-mei, ZHAN Yue, et al. Antimicrobial Activity and GC-MS Analysis of the Volatile Oil of [J]. Chinese journal of experimental traditional medical formulae, 2011, 17(22): 60-63.
DOI：

ZHANG Li-yong, LIU Xiu-mei, ZHAN Yue, et al. Antimicrobial Activity and GC-MS Analysis of the Volatile Oil of [J]. Chinese journal of experimental traditional medical formulae, 2011, 17(22): 60-63. DOI：

摘要

目的 :采用不同方法对青蒿挥发油进行提取

研究提取过程的优化条件

并对所得青蒿挥发油分别进行抗菌活性研究及GC-MS分析

用于指导制药。方法 :采用索氏提取法和直接蒸馏法提取青蒿挥发油

分别进行抗菌实验研

采用气相色谱-质谱分析法对两种方法得到的挥发油进行成分分析。结果: 索氏提取法提取青蒿挥发油的优化条件是:料液比约为1 ∶7.8

提取时间为3 h。直接蒸馏法提取青蒿挥发油的优化条件是:料液比为1 ∶7.4

蒸馏时间为5 h。索氏提取法所得青蒿挥发油为青蒿油-1

直接蒸馏法所得青蒿挥发油为青蒿油-2。青蒿油-1对黑曲霉的最低抑制浓度(MIC)为1.25%

菌刺孢属的最低抑制浓度(MIC)为1.25%

青霉的最低抑制浓度(MIC)为5.0%

马青霉的最低抑制浓度(MIC)为1.25%。青蒿油-2对4种细菌最低抑制浓度分别为北京棒状杆菌:0.023 5%

枯草芽孢杆菌0.023 5%

四联球菌0.005 9%

普通变形杆菌3.75%。进行GC-MS分析

青蒿油-1中分离出55个峰

鉴定出48个化合物

青蒿油-2中分离出48个峰

鉴定出39个化合物。结论: 青蒿油-1抗真菌作用好于抗细菌作用

可能与青蒿油-1中酮类、醚类、有机酸类具有较强的抗真菌作用(共占总量的8.25%)有关;烯类是挥发油中重要的抗菌成分

青蒿油-2的抗菌作用好于青蒿油-1

可能与青蒿油-2的烯类含量(烯类65.42%)远远高于青蒿油-1(26.49%)有关。

Abstract

Objective: To obtain the optimum condition for the extract of essential oil from Artemisia annua by different extract methods and analyze the chemical composition of the essential oil by GC-MS and evaluate the antimicrobial properties of the essential oil. Method: The fresh aerial part of A. annua was extracted by Soxhlet extraction and direct distillation to yield two essential oil samples designated as oil-1 and oil-2

respectively

which were both subjected to antimicrobial activity screening and GC-MS analysis. Result: The optimum condition for Soxhlet extraction was at a solid-liquid ratio1:7.8 and extraction time of 3 h

while for direct distillation at a solid-liquid ratio1:7.4 and extraction time of 5 h. Oil-1 displayed inhibitory activity against Aspergillus niger

Mycocentrospora sp.

Penicillium sp.

and Penicillium marneffei with MIC values of 1.25

1.25

5.0

and 1.25 mg·L-1

respectively

while oil-2 showed antibacterial activity toward Corynebacterium pekinense

Bacillus subtilis

tetracoccus

and Proteus vulgaris with MIC values of 0.023 5

0.023 5

0.005 9

3.75 mg·L-1

respectively. According to the results from GC-MS analysis

48 components from 55 peaks in the gas chromatogram of oil-1 and 39 components from 48 peaks in the gas chromatogram of oil-2 were identified. Conclusion: Comparatively

fungi were more sensitive to oil-1 in the antimicrobial test

which may be attributed to the antifungal components comprising 8.25% of the oil-1

including ketones

ethers

and oganic acids. However

oil-2 showed stronger antibacterial activity than oil-1due to the higher content of alkenes in oil-2 (65.42%) than that of in oil-1(26.49%)

since alkenes were the major antibacterial components of the essential oil.

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Related Institution

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