元分类学和代谢组学分析表明,柯莱松锥体精油通过影响瘤胃微生物相互作用和宿主-微生物新陈代谢,减少了甲烷排放。

IF 4.9 Q1 MICROBIOLOGY
Y Choi, S J Lee, H S Kim, J S Eom, S U Jo, L L Guan, S S Lee
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引用次数: 0

摘要

背景:Pinus koraiensis锥体精油(PEO)含有功能性化合物,如单萜烯碳氢化合物,服用 PEO 可减少山羊生长期的甲烷(CH4)排放量。然而,PEO减少甲烷(CH4)排放的作用模式尚不清楚,尤其是在山羊育肥期,PEO如何影响瘤胃微生物群和宿主代谢。本研究旨在利用元基因组学(原核生物和原生动物)和代谢组学(瘤胃液和血清)阐明补充 PEO 对山羊的潜在微生物和宿主反应:采用 2 × 2 交叉设计,将 10 只育肥的韩国本土山羊分为两组:对照组(CON;不含添加剂的基础日粮)和 PEO 组(基础日粮 + 1.5 克/天的 PEO),治疗持续 11 周。试验结果表明,施用PEO后,瘤胃中的甲烷排放参数和甲烷杆菌数量(|r|≥0.5,P)降低了12.0-13.6%(P 4):本研究表明,施用 PEO 可减少育肥山羊的甲烷排放量,同时改变瘤胃和宿主中微生物的相互作用和代谢产物。重要的是,施用 PEO 会影响甲酸盐、硫、甲基化胺代谢和丙酸盐产生等多种机制,共同导致 CH4 减排。这些知识对未来的管理策略非常重要,可以在保持动物生产和健康的同时减少甲烷的排放。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metataxonomic and metabolomic profiling revealed Pinus koraiensis cone essential oil reduced methane emission through affecting ruminal microbial interactions and host-microbial metabolism.

Background: Pinus koraiensis cone essential oil (PEO) contains functional compounds such as monoterpene hydrocarbons, and the administration of PEO reduced methane (CH4) emissions during growing phase of goats. However, the mode of action of PEO driven CH4 reduction is not known, especially how the administration of PEO can affect rumen microbiota and host metabolism in goats during the fattening phase. This study aimed to elucidate the potential microbial and host responses PEO supplementation in goats using metataxonomics (prokaryotes and protozoa) and metabolomics (rumen fluid and serum).

Results: Ten fattening Korean native goats were divided into two dietary groups: control (CON; basal diet without additives) and PEO (basal diet + 1.5 g/d of PEO) with a 2 × 2 crossover design and the treatment lasted for 11 weeks. Administration of PEO reduced CH4 concentrations in the exhaled gas from eructation by 12.0-13.6% (P < 0.05). Although the microbial composition of prokaryotes (bacteria and archaea) and protozoa in the rumen was not altered after PEO administration. MaAsLin2 analysis revealed that the abundance of Selenomonas, Christensenellaceae R-7 group, and Anaerovibrio were enriched in the rumen of PEO supplemented goats (Q < 0.1). Co-occurrence network analysis revealed that Lachnospiraceae AC2044 group and Anaerovibrio were the keystone taxa in the CON and PEO groups, respectively. Methane metabolism (P < 0.05) was enriched in the CON group, whereas metabolism of sulfur (P < 0.001) and propionate (P < 0.1) were enriched in the PEO group based on microbial predicted functions. After PEO administration, the abundance of 11 rumen and 4 serum metabolites increased, whereas that of 25 rumen and 14 serum metabolites decreased (P < 0.1). Random forest analysis identified eight ruminal metabolites that were altered after PEO administration, among which four were associated with propionate production, with predictive accuracy ranging from 0.75 to 0.88. Additionally, we found that serum sarcosine (serum metabolite) was positively correlated with CH4 emission parameters and abundance of Methanobrevibacter in the rumen (|r|≥ 0.5, P < 0.05).

Conclusions: This study revealed that PEO administration reduced CH4 emission from of fattening goats with altered microbial interactions and metabolites in the rumen and host. Importantly, PEO administration affected utilizes various mechanisms such as formate, sulfur, methylated amines metabolism, and propionate production, collectively leading to CH4 reduction. The knowledge is important for future management strategies to maintain animal production and health while mitigate CH4 emission.

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