Safety assessment of enterocin-producing Enterococcus strains isolated from sheep and goat colostrum.

IF 4 2区生物学 Q2 MICROBIOLOGY

BMC Microbiology Pub Date : 2024-10-07 DOI:10.1186/s12866-024-03551-7

Burak Geniş, Hüseyin Öztürk, Banu Özden Tuncer, Yasin Tuncer

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Abstract

Background: This study investigates the safety evaluation of enterocin-producing 11 E. mundtii and two E. faecium strains previously isolated from small livestock colostrums. Enterococcus species do not possess Generally Recognized as Safe (GRAS) status. Hence, it is critical to scrutinize enterococci's antibiotic resistance, virulence characteristics, and biogenic amine production capabilities in order to assess their safety before using them as starter or adjunct cultures.

Results: Enterococcus strains showed susceptibility to medically significant antibiotics. Multiple-drug resistance (MDR) was found in only E. faecium HC121.4, and its multiple antibiotic resistance (MAR) index was detected to be 0.22. The tetL and aph(3')-IIIa were the most commonly found antibiotic resistance genes in the strains. However, E. mundtii strains HC56.3, HC73.1, HC147.1, and E. faecium strain HC121.4 were detected to lack any of the antibiotic resistance genes examined in this study. Only E. mundtii HC166.3 showed hemolytic activity, while none of the strains engage in gelatinase activity. The strains were identified to have virulence factor genes with a low rate. None of the virulence factor genes could be detected in E. mundtii HC26.1, HC56.3, HC73.1, HC165.3, HC166.8, and E. faecium HC121.4. The E. mundtii HC73.2 strain displayed the highest presence of virulence factor genes, namely gelE, efaA_fs, cpd, and ccf. Similarly, the E. mundtii HC112.1 strain showed a significant presence of genes efaA_fm, ccf, and acm. There was no decarboxylation of histidine, ornithine, or lysine seen in any of the strains. Nevertheless, E. faecium HC121.4 and HC161.1 strains could decarboxylate tyrosine, but E. mundtii HC26.1, HC56.3, HC73.1, HC73.2, HC112.1, HC147.1, HC155.2, HC165.3, HC166.3, HC166.5, and HC166.8 strains only showed a limited capacity for tyrosine decarboxylation. None of the strains possessed the hdc, odc, or ldc genes, but all of them had the tdc gene.

Conclusion: The E. mundtii HC56.3 and HC73.1 strains were deemed appropriate for utilization in food production. Using the remaining 11 strains as live cultures in food production activities could pose a possible risk to consumer health.

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从绵羊和山羊初乳中分离出的产肠球菌菌株的安全性评估。

背景：本研究调查了之前从小型家畜初乳中分离出的 11 株产肠球菌（E. mundtii）和 2 株粪肠球菌（E. faecium）的安全性评估。肠球菌不具有公认安全 (GRAS) 状态。因此，在将肠球菌用作起始培养物或辅助培养物之前，必须仔细研究其抗生素耐药性、毒力特征和生物胺生产能力，以评估其安全性：结果：肠球菌菌株对医学上重要的抗生素具有敏感性。仅在粪肠球菌 HC121.4 中发现了多重耐药性（MDR），其多重抗生素耐药性（MAR）指数为 0.22。在菌株中最常发现的抗生素耐药基因是 tetL 和 aph（3'）-IIIa。然而，在本研究中检测到，E. mundtii 菌株 HC56.3、HC73.1、HC147.1 和 E. faecium 菌株 HC121.4 缺乏任何抗生素耐药基因。只有 E. mundtii HC166.3 具有溶血活性，而所有菌株都没有明胶酶活性。经鉴定，这些菌株的毒力因子基因比率较低。在 E. mundtii HC26.1、HC56.3、HC73.1、HC165.3、HC166.8 和 E. faecium HC121.4 中均未检测到毒力因子基因。同样，E. mundtii HC112.1 菌株也含有大量 efaAfm、ccf 和 acm 基因。所有菌株均未发现组氨酸、鸟氨酸或赖氨酸的脱羧现象。然而，粪肠球菌 HC121.4 和 HC161.1 菌株能使酪氨酸脱羧，但蒙地卡罗埃希氏菌 HC26.1、HC56.3、HC73.1、HC73.2、HC112.1、HC147.1、HC155.2、HC165.3、HC166.3、HC166.5 和 HC166.8 菌株只显示出有限的酪氨酸脱羧能力。这些菌株都不具有 hdc、odc 或 ldc 基因，但都具有 tdc 基因：结论：E. mundtii HC56.3 和 HC73.1 菌株被认为适合用于食品生产。结论：Mundtii大肠杆菌HC56.3和HC73.1菌株被认为适合用于食品生产，将其余11种菌株作为活培养物用于食品生产活动可能会对消费者健康造成风险。

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来源期刊

BMC Microbiology 生物-微生物学

CiteScore

7.20

自引率

0.00%

发文量

280

审稿时长

3 months

期刊介绍： BMC Microbiology is an open access, peer-reviewed journal that considers articles on analytical and functional studies of prokaryotic and eukaryotic microorganisms, viruses and small parasites, as well as host and therapeutic responses to them and their interaction with the environment.