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. 2014 Mar 6;19(3):2896-910.
doi: 10.3390/molecules19032896.

Unravelling the complex antimicrobial interactions of essential oils--the case of Thymus vulgaris (thyme)

Aijaz Ahmad  1 Sandy van Vuuren  2 Alvaro Viljoen  3
Affiliations

Unravelling the complex antimicrobial interactions of essential oils--the case of Thymus vulgaris (thyme)

Aijaz Ahmad et al. Molecules. .

Abstract

Thymus vulgaris has gained tremendous popularity as an ornamental, culinary herb and its use in phytotherapy is well established and supported in the literature. The objective of this study was to explore possible interactions between selected molecules within Thymus vulgaris essential oil (TvEO) to gain a better understanding of how this complex essential oil exerts its antimicrobial activity. Evaluation of the antimicrobial efficacy and interactions were assessed on the essential oil and volatile constituents against various pathogens. Interactions between molecules at various ratios were graphically observed through the construction of isobolograms. Gas chromatography-mass spectrometry (GC-MS) analysis revealed 22 compounds which collectively represent >95% of the oil composition. Based on their minimum inhibitory concentration (MIC) values, they were categorised into weak (≥4 mg mL⁻¹), moderate (2-4 mg mL⁻¹) and noteworthy active (≤2 mg mL⁻¹) compounds. For the combination study, 21% synergistic, 42% additive, 36% indifferent and 1% antagonistic interactions were observed. Most of the interactions were observed between the weak and highly active molecules, and interestingly, no synergistic interaction was observed between the highly active compounds. Synergistic and additive interactions between the strong and weaker antimicrobial constituents present in TvEO enhance the antimicrobial efficacy of this commercially important essential oil.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

Figure 1
Figure 1
GC-MS analysis of Thymus vulgaris essential oil.
Figure 2
Figure 2
Isobolograms of active molecules in nine different ratios against selected pathogens.
Figure 2
Figure 2
Isobolograms of active molecules in nine different ratios against selected pathogens.
Figure 2
Figure 2
Isobolograms of active molecules in nine different ratios against selected pathogens.
See this image and copyright information in PMC

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