Roughage quality determines the production performance of post-weaned Hu sheep via altering ruminal fermentation, morphology, microbiota, and the global methylome landscape of the rumen wall

Sen Ma, Yan Zhang, Zidan Li, Ming Guo, Boshuai Liu, Zhichang Wang, Yalei Cui, Chengzhang Wang, Defeng Li, Yinghua Shi
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Abstract

Roughage quality is a crucial factor influencing the growth performance and feeding cost of ruminants; however, a systematic investigation of the mechanisms underlying this is still lacking. In this study, we examined the growth performance, meat quality, ruminal fermentation parameters, rumen microbiome, and tissue methylomes of post-weaned Hu sheep fed low- or high-quality forage-based diets. Our results showed that sheep in the alfalfa hay (AG) and peanut vine (PG) groups exhibited better growth performance, slaughter performance, and meat quality than sheep in the wheat straw group (WG). The sheep in the AG possessed relatively higher contents of serum immunoglobins (IgA, IgG, and IgM) and lower contents of serum inflammation factors (TNF-α, IL-1β, IL-6, and IL-8) than those in the WG and the PG did. In addition, the levels of blood T lymphocytes (CD4+ and CD8+) and the CD4-to-CD8 ratio were significantly higher in the AG sheep than in the WG sheep and PG sheep. The concentration of ruminal NH3-N was highest in WG sheep, whereas the concentrations of individual and total short-chain fatty acids (SCFAs) were highest in the PG sheep. The length, width, and surface area of ruminal papillae were markedly different among the three groups, with the sheep in the PG being the most morphologically developed. The main ruminal microbes at the genus level include Prevotella 1, Rikenellaceae RC9 gut group, norank f F082, Ruminococcus 1, and Ruminococcus 2. The relative abundances of certain species are positively or negatively associated with fermentation parameters and growth index. For example, the fibrolytic bacteria Ruminococcaceae UGG-001 showed positive relationships with the concentration of SCFAs, except propionate. In addition, the relative abundances of fibrolytic bacteria (e.g., Ruminoccus 1) showed a negative relationship with starch-degrading bacteria (e.g., Prevotellaceae). The genome-wide DNA methylation analysis revealed that rumen tissues in the PG sheep and WG sheep occupied different global DNA methylomes. The genes with differentially methylated promoters were involved in known pathways (e.g., the FoxO signaling pathway) and the Gene Ontology (GO) terms (e.g., anatomical structure morphogenesis) pertaining to rumen development. Two candidate genes (ACADL and ENSOARG00020014533) with hyper- and hypo-methylated promoters were screened as potential regulators of rumen development. In conclusion, roughage quality determines sheep growth performance via directly influencing rumen fermentation and microbiome composition, and indirectly affecting rumen development at the epigenetic level.
粗饲料质量通过改变瘤胃发酵、形态、微生物群和瘤胃壁的全球甲基组景观来决定断奶后胡羊的生产性能
粗饲料质量是影响反刍动物生长性能和饲养成本的一个关键因素;然而,目前仍缺乏对其内在机制的系统研究。在这项研究中,我们考察了饲喂低质或优质饲草的断奶后胡羊的生长性能、肉质、瘤胃发酵参数、瘤胃微生物组和组织甲基组。结果表明,苜蓿干草组(AG)和花生藤组(PG)绵羊的生长性能、屠宰性能和肉质均优于小麦秸秆组(WG)绵羊。与 WG 和 PG 组相比,AG 组绵羊的血清免疫球蛋白(IgA、IgG 和 IgM)含量相对较高,血清炎症因子(TNF-α、IL-1β、IL-6 和 IL-8)含量较低。此外,AG 羊血液中 T 淋巴细胞(CD4+ 和 CD8+)的水平以及 CD4 与 CD8 的比值也明显高于 WG 羊和 PG 羊。WG 羊的瘤胃 NH3-N 浓度最高,而 PG 羊的单个和总短链脂肪酸 (SCFA) 浓度最高。三组绵羊瘤胃乳头的长度、宽度和表面积存在明显差异,其中 PG 组绵羊的瘤胃乳头形态最为发达。主要的瘤胃微生物属包括普雷沃特氏菌 1、Rikenellaceae RC9 肠道组、norank f F082、反刍球菌 1 和反刍球菌 2。某些物种的相对丰度与发酵参数和生长指数呈正或负相关。例如,纤维分解菌反刍球菌科 UGG-001 与 SCFAs(丙酸盐除外)的浓度呈正相关。此外,纤维分解菌(如 Ruminoccus 1)的相对丰度与淀粉降解菌(如 Prevotellaceae)呈负相关。全基因组 DNA 甲基化分析表明,PG 羊和 WG 羊的瘤胃组织占据不同的全局 DNA 甲基化组。启动子甲基化程度不同的基因涉及与瘤胃发育有关的已知通路(如 FoxO 信号通路)和基因本体(Gene Ontology,GO)术语(如解剖结构形态发生)。筛选出两个启动子甲基化过高和过低的候选基因(ACADL 和 ENSOARG00020014533),作为瘤胃发育的潜在调控因子。总之,粗饲料质量通过直接影响瘤胃发酵和微生物组组成,并在表观遗传学水平上间接影响瘤胃发育,从而决定绵羊的生长性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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