从中国西北少数民族传统发酵产品中分离的益生菌的筛选和特性鉴定及替代抗生素在肉鸡养殖中的效果评估

Ze Ye, Bin Ji, Yinan Peng, Jie Song, Tingwei Zhao, Zhiye Wang
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引用次数: 0

摘要

本研究从传统发酵产品中分离出了发酵乳杆菌 DM7-6(DM7-6)、植物乳杆菌 DM9-7(DM9-7)和枯草芽孢杆菌 YF9-4(YF9-4)。在模拟肠胃液中,DM7-6、DM9-7 和 YF9-4 的存活率分别达到 61.29%、44.82% 和 55.26%。这些菌株对常见病原体具有抑制能力,抑制区直径均大于 7 毫米。抗氧化试验表明,这些菌株对超氧阴离子、羟自由基和 DPPH 具有良好的清除能力,总还原能力达到 65%。然后用 DM7-6、DM9-7 和 YF9-4 喂养肉鸡,研究它们对肉鸡抗氧化能力、免疫反应、生化指标、组织形态和肠道微生物群的影响。180 只健康肉鸡被随机分配到六个实验组。结果表明,与 CK 组相比,益生菌能显著提高肉鸡的抗氧化能力,而抗生素组则相反。此外,IgA、IgM、IgG、TNF-α 和 IL-2 都表明,在肉鸡日粮中添加益生菌能显著提高免疫力。然而,抗生素会降低免疫球蛋白的水平并提高炎症指数。生化指标和组织形态显示益生菌对代谢器官有保护作用。肠道微生物群分析表明,抗生素能显著降低微生物群落的多样性,增加机会性病原体的比例,而益生菌则能改善肠道微生物群的多样性,促进有益微生物的定植。总之,益生菌 DM7-6、DM9-7 和 YF9-4 可通过提高抗氧化能力和免疫功能、调节肠道微生物群来改善肉鸡的健康状况,可作为肉鸡无抗生素养殖的替代益生菌。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Screening and Characterization of Probiotics Isolated from Traditional Fermented Products of Ethnic-Minorities in Northwest China and Evaluation Replacing Antibiotics Breeding Effect in Broiler.

In this study, Lactobacillus fermentum DM7-6 (DM7-6), Lactobacillus plantarum DM9-7 (DM9-7), and Bacillus subtilis YF9-4 (YF9-4) were isolated from traditional fermented products. The survival rate of DM7-6, DM9-7, and YF9-4 in simulated intestinal gastric fluid reached 61.29%, 44.82%, and 55.26%, respectively. These strains had inhibition ability against common pathogens, and the inhibition zone diameters were more than 7 mm. Antioxidant tests showed these strains had good scavenging capacity for superoxide anion, hydroxyl radical and DPPH, and the total reduction capacity reached 65%. Then DM7-6, DM9-7 and YF9-4 were fed to broilers to study the effects on antioxidant capacity, immune response, biochemical indices, tissue morphology, and gut microbiota. 180 healthy broilers were allocated randomly into six experimental groups. SOD, GSH-Px, and T-AOC in broilers serum were detected, and the results showed probiotics significantly improve antioxidant capacity compared to CK group, while antibiotics showed the opposite result. Besides, IgA, IgM, IgG, TNF-α, and IL-2 indicated it could significantly improve immunity by adding probiotics in broilers diets. However, antibiotics reduced immunoglobulin levels and enhanced inflammation index. Biochemical indicators and tissue morphology showed probiotics had a protective effect on metabolic organs. Gut microbiota analysis proved antibiotics could significantly decrease microbial community diversity and increase the proportion of opportunistic pathogens, while probiotics could improve the diversity of gut microbiota and promote the colonization of beneficial microorganisms. In summary, probiotics DM7-6, DM9-7, and YF9-4 can improve the broiler's health by improving antioxidant capacity and immune function, regulating gut microbiota, and can be used as alternative probiotics for antibiotics-free breeding of broilers.

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