Effects of volatile compounds produced by plants on fungal growth and the production of mycotoxins

Mycotoxins Pub Date : 2015-07-31 DOI:10.2520/MYCO.65.131
T. Taguchi, A. Ishihara, H. Nakajima
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引用次数: 1

Abstract

Fungal contamination of food is one of the most important food safety concerns, however effective techniques to prevent fungal contamination and/or control fungal growth in foods have not yet been established. Some endogenous volatile compounds in plants have antibacterial and/or antifungal activities. For example, when some plants are damaged, they release aliphatic aldehydes with six or nine carbons to protect themselves from microbial infection. Patulin is the major mycotoxin that contaminates apples and apple juice worldwide, and it is regulated in many countries. Patulin has been shown to be immunotoxic and neurotoxic by animal experiments. Many species of Penicillium and Aspergillus produce patulin, but P. expansum is the most typical species responsible for patulin contamination in apples. We attempted to assess the effects of aliphatic aldehydes on P. expansum . Aliphatic aldehydes composed of 3–6 carbons bearing an E double bond at the α -position completely inhibited the fungal growth and suppressed colony formation from spores at relatively low concentrations. On the basis of the structure-activity relationship, the antifungal activity of the compounds is probably attributable to the interaction of the aldehyde group with biological macromolecules. On the other hand, aliphatic aldehydes with 8–10 carbons stimulated patulin production by P. expansum . The results of a reverse transcription-quantitative polymerase chain reaction analysis suggested that the stimulation was partially due to enhanced transcription of some patulin biosynthetic genes. The effects of volatiles of apple on patulin production by P. expansum were also studied. Some volatile compounds, that is, 2-mehtylbutanoic acid and ethyl 2-methylbutanoate, were found to stimulate patulin production. These findings will contribute to the development of new techniques to prevent and control fungal and mycotoxin contamination of foods.
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植物挥发性化合物对真菌生长和真菌毒素产生的影响
食品中的真菌污染是最重要的食品安全问题之一,然而,预防真菌污染和/或控制食品中真菌生长的有效技术尚未建立。植物中一些内源性挥发性化合物具有抗菌和/或抗真菌活性。例如,当一些植物受到损害时,它们会释放含有6个或9个碳的脂肪醛,以保护自己免受微生物感染。棒曲霉素是世界上污染苹果和苹果汁的主要霉菌毒素,在许多国家都受到管制。动物实验表明,展青霉素具有免疫毒性和神经毒性。许多种青霉菌和曲霉都能产生棒曲霉素,但膨胀假单胞菌是导致苹果中棒曲霉素污染的最典型的物种。我们试图评估脂肪族醛对白杨的影响。由3-6个碳组成的脂肪醛在α位置具有E双键,在相对较低的浓度下完全抑制真菌的生长和孢子的集落形成。从构效关系来看,化合物的抗真菌活性可能与醛基与生物大分子的相互作用有关。另一方面,含有8-10个碳的脂肪醛刺激展曲霉素的产生。逆转录-定量聚合酶链反应分析结果表明,这种刺激部分是由于一些展霉素生物合成基因的转录增强。还研究了苹果挥发物对膨松菌生产展霉素的影响。一些挥发性化合物,即2-甲基丁酸和2-甲基丁酸乙酯,被发现可以刺激展霉素的产生。这些发现将有助于开发预防和控制食品真菌和霉菌毒素污染的新技术。
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