Antifungal Effect of Phenyllactic Acid Produced by Lactobacillus casei Isolated from Button Mushroom

Journal of Mushroom Pub Date : 2016-12-31 DOI:10.14480/JM.2016.14.4.162

Jeoung-Ah Yoo, Chan-Jung Lee, Yong-Gyun Kim, Byung-eui Lee, Min-ho Yoon

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引用次数: 1

Abstract

: Lactic acid bacteria (LAB) producing phenyllactic acid (PLA), which is known as antimicrobial compound, was isolated from button mushroom bed and the isolated LAB was identified to Lactobacillus casei by 16 rRNA gene sequence analysis. Cell-free supernatant (CFS) from L. casei was assessed for both the capability to produce the antimicrobial compound PLA and the antifungal activity against three fungal pathogens ( Rhizoctonia solani , Botrytis cinerea , and Collectotricum aculatum ). PLA concentration was investigated to be 3.23 mM in CFS when L. casei was grown in MRS broth containing 5 mM phenylpyruvic acid as precursor for 16 h. Antifungal activity demonstrated that all fungal pathogens were sensitive to 5% CFS (v/v) of L. casei with average growth inhibitions ranging from 34.58% to 65.15% ( p < 0.005), in which R. solani was the most sensitive to 65.15% and followed by C. aculatum , and B. cinerea . The minimum inhibitory concentration (MIC) for commercial PLA was also investigated to show the same trend in the range of 0.35 mg mL-1 (2.11 mM) to 0.7 mg mL-1 (4.21 mM) at pH 4.0. The inhibition ability of CFS against the pathogens were not affected by the heating or protease treatment. However, pH modification in CFS to 6.5 resulted in an extreme reduction in their antifungal activity. These results may indicate that antifungal activities in CFS was caused by acidic compounds like PLA or organic acids rather than protein or peptide molecules.

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纽扣菇干酪乳杆菌苯乳酸的抑菌作用

:从蘑菇床中分离到一株产苯乳酸(PLA)的乳酸菌，经16 rRNA基因序列分析鉴定为干酪乳杆菌(Lactobacillus casei)。研究了干酪乳杆菌的无细胞上清液(CFS)产生抗菌化合物聚乳酸的能力以及对3种真菌病原体(茄枯丝核菌、灰霉病菌和穗孢菌)的抗真菌活性。在含5 mM苯丙酮酸的MRS培养液中培养16 h，聚乳酸浓度为3.23 mM。抗真菌活性表明，所有真菌病原菌对5% CFS (v/v)的CFS均敏感，平均生长抑制率为34.58% ~ 65.15% (p < 0.005)，其中番茄病菌(R. solani)对65.15%最敏感，其次为C. aculatum，其次为B. cinerea。对商业PLA的最小抑制浓度(MIC)也进行了研究，在pH 4.0的0.35 mg mL-1 (2.11 mM)至0.7 mg mL-1 (4.21 mM)范围内显示了相同的趋势。CFS对病原菌的抑制能力不受加热和蛋白酶处理的影响。然而，将CFS的pH值修改为6.5导致其抗真菌活性急剧降低。这些结果可能表明CFS的抗真菌活性是由PLA或有机酸等酸性化合物引起的，而不是由蛋白质或肽分子引起的。

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 Mushroom

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