作为有益乳酸菌来源的传统保加利亚发酵食品

Viktoria Y. Marinova - Yordanova, Y. Kizheva, Iliyana Rasheva, P. Hristova
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摘要

背景:传统的保加利亚发酵食品因其独特的当地配料、生产方法和地方微生物物种而闻名于世。本研究调查了从各种独特的保加利亚发酵食品中分离出来的乳酸菌(LAB)的多样性和有益生物潜力。方法:通过 16S rDNA 测序进行菌种鉴定。通过测定抗菌活性(通过琼脂井扩散试验)、H 2 O 2 产量、分光光度法测定的自聚和共聚、微生物对碳氢化合物的粘附以及生物膜的形成,对生物活性进行评估。根据溶血活性、表型和基因型抗生素敏感性确定了分离出的乳酸菌的生物安全性。结果:从发酵食品(酸菜、发酵青西红柿、发酵黄瓜、酸乳酒、白奶酪和伊兹瓦拉(凝乳))中分离出 45 株菌株。检测到五个物种:植物乳杆菌(Lactiplantibacillus plantarum)、韩国左旋乳杆菌(Levilactobacillus koreensis)、酿酒左旋乳杆菌(Levilacto-bacillus brevis)、螺旋乳杆菌(Lactobacillus helveticus)和永宁左旋乳杆菌(Levilactobacillus yonginensis)。最主要的菌种是植物乳杆菌,占 47%。本研究首次报道了从保加利亚独特的发酵食品中分离出的韩国乳杆菌和永阴乳杆菌。对无细胞上清液的抗菌效果进行了评估。观察到几株植物酵母菌对大肠杆菌(57%)和肠炎沙门氏菌亚种血清型肠炎(19%)有拮抗作用。只有一种 L. brevis(酸菜,S15)菌株对大肠杆菌有活性。在第 4 小时,L. koreensis(发酵黄瓜,FC4)(48%)和 L. brevis S2(44%)的自动聚集能力最强。在实验中,在第 4 小时与白色念珠菌共同聚集比例最高的菌株是 L. koreensis(发酵青番茄,FGT1)(70%)、L.菌株 S2 (54%)、S13 (51%) 和 S6 (50%),而在第 24 小时,L. koreensis FGT1 (95%)、L. brevis (Kefir, K7) (89%)、L. plantarum S2 (72%) 和 L. koreensis FC2 (70%)。分离出的 LAB 菌株中有 7 株的疏水性超过 40%。我们的研究结果表明,生物膜的形成能力取决于菌株。未检测到溶血活性。对不同组别的 10 种抗生素的抗药性进行了表型和基因型测试。没有在任何菌株中观察到扩增产物,这证实分离菌株不携带抗生素耐药性基因。结论 :保加利亚传统发酵食品可视为功能性食品和有益的 LAB 来源。
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Traditional Bulgarian Fermented Foods as a Source of Beneficial Lactic Acid Bacteria
Background : Traditional Bulgarian fermented foods are prominent for their uniqueness of local ingredients, production methods, and endemic microbial species. The present research investigated the diversity and beneficial biological potential of lactic acid bacteria (LAB) isolated from various types of unique Bulgarian fermented foods. Methods : Species identification was performed via 16S rDNA sequencing. Biological activity was evaluated by determining antibacterial activity (via agar well diffusion assay), H 2 O 2 production, spectrophotometrically determined auto-and co-aggregation, microbial adhesion to hydrocarbon, and biofilm formation. The biosafety of the isolated lactic acid bacteria was established based on hemolytic activity and phenotypic and genotypic antibiotic susceptibility. Results : Forty-five strains were isolated from fermented foods (sauerkraut, fermented green tomatoes, fermented cucumbers, kefir, white cheese, and Izvara (curdled milk)). Five species were detected: Lactiplantibacillus plantarum , Levilactobacillus koreensis , Levilacto-bacillus brevis , Lactobacillus helveticus , and Levilactobacillus yonginensis . The most prominent species was L. plantarum , at 47%. For the first time, L. koreensis and L. yonginensis , isolated from unique Bulgarian fermented foods, are reported in this study. The antibacterial effect of the cell-free supernatants was evaluated. An antagonistic effect was observed against Escherichia coli (57%) and Salmonella enterica subsp. enterica serotype Enteritidis (19%) for several L. plantarum strains. Only one L. brevis (Sauerkraut, S15) strain showed activity against E. coli . The best autoaggregation ability at hour 4 was observed for L. koreensis (fermented cucumbers, FC4) (48%) and L. brevis S2 (44%). The highest percentage of co-aggregation with Candida albicans, at hou 4 in the experiments, was observed for strains L. koreensis (fermented green tomato, FGT1) (70%), L. plantarum strains S2 (54%), S13 (51%), and S6 (50%), while at hour 24 for strains L. koreensis FGT1 (95%), L. brevis (Kefir, K7) (89%), L. plantarum S2 (72%), and L. koreensis FC2 (70%). Seven of the isolated LAB strains showed hydrophobicity above 40%. Our results showed that the ability of biofilm formation is strain–dependent. No hemolytic activity was detected. The antibiotic resistance to 10 antibiotics from different groups was tested phenotypically and geno-typically. No amplification products were observed in any strains, confirming that the isolates did not carry antibiotic-resistance genes. Conclusions : Traditional fermented Bulgarian foods can be considered functional foods and beneficial LAB sources.
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