瘤胃微生物组和血清代谢组的综合分析对饲料类型的反应以及对羔羊肉质的贡献。

IF 4.9 Q1 MICROBIOLOGY
Shuai Du, Zhenkun Bu, Sihan You, Zipeng Jiang, Weifa Su, Tenghao Wang, Yushan Jia
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引用次数: 0

摘要

背景:众所周知,饮食等生活方式因素会影响肉质、瘤胃微生物组和血清代谢物。瘤胃微生物组代谢物可能对宿主健康很重要,有报道称瘤胃微生物组与瘤胃代谢物的产生之间存在相关性,但瘤胃微生物组对肉类血清代谢组和脂肪酸的影响仍不清楚。本研究旨在探讨草料日粮和精料日粮对羔羊瘤胃微生物组、血清代谢组和肉脂肪酸的响应及其关系:本研究将 12 只羔羊随机分为两组:草食日粮(G)和精料日粮(C)。方法:本研究将 12 只羔羊随机分为两组:草食日粮(G 组)和精料日粮(C 组),并结合 16S rRNA 基因序列和代谢组分析进行了多种理化分析,以揭示饲料类型所引起的变化:结果:与草饲相比,精饲料能提高羔羊的生长性能。微生物组的组成具有很强的个体差异性,与精料组相比,Rikenellaceae_RC9_gut_group、F082_unclassified、Muribaculaceae_unclassified、Ruminococcaceae_NK4A214_group、Bacteroidetes_unclassified和Bacteroidales_UCG-001_unclassified的丰度显著(P 结论:精料组羔羊的生长性能与精料组相比有显著的差异:微生物组与代谢物特征、代谢物特征与脂肪酸的相关性分析为我们提供了对微生物群落组成和功能的全面了解。在受影响的微生物组、代谢物和脂肪酸中广泛发现了利用或生产之间的关联,这些发现将有助于未来羊肉研究的方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated rumen microbiome and serum metabolome analysis responses to feed type that contribution to meat quality in lambs.

Background: Lifestyle factors, such as diet, are known to be a driver on the meat quality, rumen microbiome and serum metabolites. Rumen microbiome metabolites may be important for host health, the correlation between rumen microbiome and production of rumen metabolites are reported, while the impact of rumen microbiome on the serum metabolome and fatty acid of meat are still unclear. This study was designed to explore the rumen microbiome, serum metabolome and fatty acid of meat in response to the grass diet and concentrate diet to lambs, and the relationship of which also investigated.

Methods: In the present study, 12 lambs were randomly divided into two groups: a grass diet (G) and a concentrate diet (C). Here, multiple physicochemical analyses combined with 16S rRNA gene sequences and metabolome analysis was performed to reveal the changes that in response to feed types.

Results: The concentrate diet could improve the growth performance of lambs compared to that fed with the grass diet. The microbiome composition was highly individual, compared to the concentrate group, the abundance of Rikenellaceae_RC9_gut_group, F082_unclassified, Muribaculaceae_unclassified, Ruminococcaceae_NK4A214_group, Bacteroidetes_unclassified, and Bacteroidales_UCG-001_unclassified were significantly (P < 0.05) lower in the grass group, while, the abundance of Succinivibrio, Succinivibrionaceae_UCG-002, Fibrobacter and Christensenellaceae_R-7_group were significantly (P < 0.05) higher in the grass group. Serum metabolomics analysis combined with enrichment analysis revealed that serum metabolites were influenced by feed type as well as the metabolic pathway, and significantly affected serum metabolites involved in amino acids, peptides, and analogues, bile acids, alcohols and derivatives, linoleic acids derivatives, fatty acids and conjugates. Most of the amino acids, peptides, and analogues metabolites were positively associated with the fatty acid contents. Among the bile acids, alcohols and derivatives metabolites, glycocholic was positively associated with all fatty acid contents, except C18:0, while 25-Hydroxycholesterol and lithocholic acid metabolites were negatively associated with most of the fatty acid contents.

Conclusion: Correlation analysis of the association of microbiome with metabolite features, metabolite features with fatty acid provides us with comprehensive understanding of the composition and function of microbial communities. Associations between utilization or production were widely identified among affected microbiome, metabolites and fatty acid, and these findings will contribute to the direction of future research in lamb.

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