IN VITRO ANTIFUNGAL EFFECT OF TWELVE ESSENTIAL OILS ON PENICILLIUM EXPANSUM GROWTH

IF 0.6 Q4 FOOD SCIENCE & TECHNOLOGY

Journal of microbiology, biotechnology and food sciences Pub Date : 2023-11-14 DOI:10.55251/jmbfs.9922

Monika Mrvová, Zuzana Barboráková, Z. Mašková, Juraj Medo, Jana Štefániková, D. Tancinova

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Abstract

The questionable safety of food spoiled by microorganisms is and should be the subject of attention and investigation. Pathogens such as Penicillium expansum are more difficult to control due to their resistance and ubiquity. Awareness of plant essential oils (EOs) as alternative natural preservatives is increasing because of their significant antimicrobial activity. The aim of this research work was therefore to contribute to this topic with new results. The antifungal activity of twelve EOs was tested in vitro against five strains of Penicillium expansum, using the vapour-phase diffusion method. Three EOs, from bergamot, star anise and rosaline, inhibited colony growth during two-week cultivation with a partial efficacy, all other EOs showed complete (100%) inhibitory activity at a concentration of 625 μL.L-1. These (EOs from clove, cinnamon, cinnamon bark, laurel, lemongrass, peppermint, Mitcham mint, spearmint, and lavender) were included in the second part of the trial, the aim of which was to determine their minimum inhibitory doses (MIDs). In the case of peppermint, Mitcham mint, spearmint and lavender EOs, some strains of P. expansum grew already at a concentration of 500 μL.L-1. Clove EO stopped the fungal growth of two strains at 250 μL.L-1. Laurel EO was 100% effective at MID 250 μL.L-1 throughout the cultivation period. EOs from lemongrass and cinnamon bark had similar efficacy on the strains. Both EOs were able to inhibit one strain at a MID of 125 μL.L-1, cinnamon bark EO inhibited the remaining strains at 250 μL.L-1, lemongrass EO inhibited three strains at 250 μL.L-1 and one at 500 μL.L-1. The lowest MID was recorded for cinnamon EO, which effectively inhibited two strains at 125 μL.L-1, two strains at 62.5 μL.L-1 and one strain even at 31.25 μL.L-1. The sensitivity of the strains used in this study varied according to the EOs used.

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十二种精油对扩张青霉生长的体外抗真菌作用

因微生物而变质的食品的安全性值得怀疑，这一点值得关注和研究。扩张青霉菌等病原体因其抗药性和无处不在而更难控制。由于植物精油（EO）具有显著的抗菌活性，人们对其作为替代天然防腐剂的认识正在不断提高。因此，这项研究工作的目的就是为这一课题提供新的成果。研究人员采用气相扩散法对 12 种环氧乙烷的抗真菌活性进行了体外测试，结果表明这些环氧乙烷对五株扩张青霉具有抗真菌活性。在为期两周的培养过程中，佛手柑、八角和玫瑰醛中的三种环氧乙烷对菌落生长有部分抑制作用，其他环氧乙烷在 625 μL.L-1 的浓度下显示出完全（100%）的抑制活性。这些环氧乙烷（丁香、肉桂、肉桂皮、月桂、柠檬草、薄荷、米查姆薄荷、留兰香和薰衣草的环氧乙烷）被纳入试验的第二部分，目的是确定它们的最小抑制剂量（MID）。薄荷油、米查姆薄荷油、留兰香和薰衣草环氧乙烷的浓度为 500 μL.L-1 时，扩张菌的一些菌株已经开始生长。丁香环氧乙烷在 250 μL.L-1 的浓度下就能阻止两种菌株的生长。月桂环氧乙烷在 MID 250 μL.L-1 浓度下对整个培养期100%有效。柠檬草和肉桂树皮的环氧乙烷对菌株具有相似的功效。两种环氧乙烷都能在 125 μL.L-1 的 MID 值下抑制一种菌株，肉桂皮环氧乙烷在 250 μL.L-1 的 MID 值下抑制其余菌株，柠檬草环氧乙烷在 250 μL.L-1 的 MID 值下抑制三种菌株，在 500 μL.L-1 的 MID 值下抑制一种菌株。肉桂环氧乙烷的 MID 最低，在 125 μL.L-1 的浓度下有效抑制了两株菌株，在 62.5 μL.L-1 的浓度下抑制了两株菌株，在 31.25 μL.L-1 的浓度下甚至抑制了一株菌株。本研究中所用菌株的敏感性随所用环氧乙烷的不同而变化。

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来源期刊

Journal of microbiology, biotechnology and food sciences FOOD SCIENCE & TECHNOLOGY-

CiteScore

1.90

自引率

0.00%

发文量

156

审稿时长

8 weeks

期刊介绍： The Journal of Microbiology, Biotechnology and Food Sciences is an Open Access, peer-reviewed online scientific journal published by the Faculty of Biotechnology and Food Sciences (Slovak University of Agriculture in Nitra). The major focus of the journal is regular publishing of original scientific articles, short communications and reviews about animal, plant and environmental microbiology (including bacteria, fungi, yeasts, algae, protozoa and viruses), microbial, animal and plant biotechnology and physiology, microbial, plant and animal genetics, molecular biology, agriculture and food chemistry and biochemistry, food control, evaluation and processing in food science and environmental sciences.